Advanced Bash-Scripting HOWTO

A guide to shell scripting, using Bash

Mendel Cooper

thegrendel@theriver.com


This is a major update on version 0.2. -- more bugs swatted, plus much
additional material and example scripts added. This project has now reached
the proportions of an entire book. See NEWS for a revision history.

This document is both a tutorial and a reference on shell scripting with
Bash. It assumes no previous knowledge of scripting or programming, but
progresses rapidly toward an intermediate/advanced level of instruction. The
exercises and heavily-commented examples invite active reader participation.
Still, it is a work in progress. The intention is to add much supplementary
material in future updates to this HOWTO, so that it will gradually evolve
into an LDP "guide", i.e., a complete book.

The latest version of this document, as an archived "tarball" including both
the SGML source and rendered HTML, may be downloaded [http://
personal.riverusers.com/~thegrendel/abs-HOWTO-0.3.tar.gz] here from the
author's home site.

-----------------------------------------------------------------------------
Table of Contents
1. Why Shell Programming?
2. Starting Off With a Sha-Bang
    2.1. Invoking the script
    2.2. Shell wrapper, self-executing script
   
   
3. Tutorial / Reference
    3.1. exit and exit status
    3.2. Special characters used in shell scripts
    3.3. Introduction to Variables and Parameters
    3.4. Quoting
    3.5. Tests
    3.6. Operations and Related Topics
    3.7. Variables Revisited
    3.8. Loops
    3.9. Internal Commands and Builtins
    3.10. External Filters, Programs and Commands
    3.11. System and Administrative Commands
    3.12. Backticks (`COMMAND`)
    3.13. I/O Redirection
    3.14. Recess Time
    3.15. Regular Expressions
    3.16. Subshells
    3.17. Restricted Shells
    3.18. Process Substitution
    3.19. Functions
    3.20. Aliases
    3.21. List Constructs
    3.22. Arrays
    3.23. Files
    3.24. Here Documents
    3.25. Of Zeros and Nulls
    3.26. Debugging
    3.27. Options
    3.28. Gotchas
    3.29. Miscellany
    3.30. Bash, version 2
   
   
4. Credits
Bibliography
A. Contributed Scripts
B. A Sed and Awk Micro-Primer
    B.1. Sed
    B.2. Awk
   
   
C. A Sample .bashrc File
D. Copyright

List of Tables
3-1. bash options
B-1. sed operators
B-2. examples

List of Examples
2-1. cleanup: A script to clean up the log files in /var/log
2-2. cleanup: An enhanced and generalized version of above script.
2-3. shell wrapper
2-4. A slightly more complex shell wrapper
2-5. A shell wrapper around an awk script
2-6. Perl embedded in a bash script
3-1. exit / exit status
3-2. Code blocks and I/O redirection
3-3. Saving the results of a code block to a file
3-4. Backup of all files changed in last day
3-5. Variable assignment and substitution
3-6. Using param substitution and :
3-7. Renaming file extensions:
3-8. Using pattern matching to parse arbitrary strings
3-9. What is truth?
3-10. Equivalence of [ ] and test
3-11. Tests, command chaining, redirection
3-12. arithmetic and string comparisons
3-13. testing whether a string is null
3-14. zmost
3-15. Compound Condition Tests Using && and ||
3-16. Representation of numerical constants:
3-17. arglist: Listing arguments with $* and $@
3-18. Variable Assignment
3-19. Variable Assignment, plain and fancy
3-20. Positional Parameters
3-21. wh, whois domain name lookup
3-22. Using shift
3-23. Using declare to type variables
3-24. Indirect References
3-25. Generating random numbers
3-26. Simple for loops
3-27. for loop with two parameters in each [list] element
3-28. Missing in [list] in a for loop
3-29. Using efax in batch mode
3-30. Simple while loop
3-31. Another while loop
3-32. while loop with multiple conditions
3-33. until loop
3-34. Effects of break and continue in a loop
3-35. Using case
3-36. Creating menus using case
3-37. Creating menus using select
3-38. Creating menus using select in a function
3-39. Using getopts to read the flags/options passed to a script
3-40. Using set with positional parameters
3-41. basename and dirname
3-42. Variable assignment, using read
3-43. Changing the current working directory
3-44. "Including" a data file
3-45. Waiting for a process to finish before proceeding
3-46. Using ls to create a table of contents for burning a CDR disk
3-47. Badname, eliminate file names in current directory containing bad
    characters and white space.
3-48. Log file using xargs to monitor system log
3-49. copydir, copying files in current directory to another, using xargs
3-50. Showing the effect of eval
3-51. Forcing a log-off
3-52. Using expr
3-53. Letting let do some arithmetic.
3-54. Using date
3-55. Emulating "grep" in a script
3-56. Checking words in a list for validity
3-57. toupper: Transforms a file to all uppercase.
3-58. lowercase: Changes all filenames in working directory to lowercase.
3-59. rot13: rot13, ultra-weak encryption.
3-60. Using column to format a directory listing
3-61. nl: A self-numbering script.
3-62. Formatted file listing.
3-63. printf in action
3-64. Using cpio to move a directory tree
3-65. stripping comments from C program files
3-66. uudecoding encoded files
3-67. Using seq to generate loop arguments
3-68. secret password: Turning off terminal echoing
3-69. pidof helps kill a process
3-70. Effects of exec
3-71. killall, from /etc/rc.d/init.d
3-72. Redirecting stdin using exec
3-73. Redirected while loop
3-74. Redirected until loop
3-75. Redirected for loop
3-76. Redirected if/then test
3-77. Variable scope in a subshell
3-78. Running parallel processes in subshells
3-79. Running a script in restricted mode
3-80. Simple function
3-81. Function Taking Parameters
3-82. Converting numbers to Roman numerals
3-83. Local variable visibility
3-84. Recursion, using a local variable
3-85. Aliases within a script
3-86. unalias: Setting and unsetting an alias
3-87. Using an "and list" to test for command-line arguments
3-88. Using "or lists" in combination with an "and list"
3-89. Simple array usage
3-90. Some special properties of arrays
3-91. An old friend: The Bubble Sort
3-92. Complex array application: Sieve of Erastosthenes
3-93. dummyfile: Creates a 2-line dummy file
3-94. broadcast: Sends message to everyone logged in
3-95. Multi-line message using cat
3-96. upload: Uploads a file pair to "Sunsite" incoming directory
3-97. Setting up a swapfile using /dev/zero
3-98. test23, a buggy script
3-99. test24, another buggy script
3-100. Trapping at exit
3-101. Cleaning up after Control-C
3-102. String expansion
3-103. Indirect variable references - the new way
3-104. Using arrays and other miscellaneous trickery to deal four random
    hands from a deck of cards
A-1. manview: A script for viewing formatted man pages
A-2. rn: A simple-minded file rename utility
A-3. encryptedpw: A script for uploading to an ftp site, using a locally
    encrypted password
A-4. behead: A script for removing mail and news message headers
A-5. ftpget: A script for downloading files via ftp
A-6. password: A script for generating random 8-character passwords
A-7. fifo: A script for making daily backups, using named pipes
A-8. tree: A script for displaying a directory tree
C-1. Sample .bashrc file

-----------------------------------------------------------------------------
Chapter 1. Why Shell Programming?

The shell is a command interpreter. It is the insulating layer between the
operating system kernel and the user. Yet, it is also a fairly powerful
programming language. A shell program, called a script , is an easy-to-use
tool for building applications by "gluing" together system calls, tools,
utilities, and compiled binaries. Virtually the entire repertoire of UNIX
commands, utilities, and tools is available for invocation by a shell script.
If that were not enough, internal shell commands, such as testing and loop
constructs, give additional power and flexibility to scripts. Shell scripts
lend themselves exceptionally well to to administrative system tasks and
other routine repetitive jobs not requiring the bells and whistles of a
full-blown tightly structured programming language.

A working knowledge of shell scripting is essential to everyone wishing to
become reasonably adept at system administration, even if they do not
anticipate ever having to actually write a script. Consider that as a Linux
machine boots up, it executes the shell scripts in /etc/rc.d to restore the
system configuration and set up services. A detailed understanding of these
scripts is important for analyzing the behavior of a system, and possibly
modifying it.

Writing shell scripts is not hard to learn, since the scripts can be built in
bite-sized sections and there is only a fairly small set of shell-specific
operators and options to learn. The syntax is simple and straightforward,
similar to that of invoking and chaining together utilities at the command
line, and there are only a few "rules" to learn. Most short scripts work
right the first time, and debugging even the longer ones is straightforward.

A shell script is a "quick and dirty" method of prototyping a complex
application. Getting even a limited subset of the functionality to work in a
shell script, even if slowly, is often a useful first stage in project
development. This way, the structure of the application can be tested and
played with, and the major pitfalls found before proceeding to the final
coding in C, C++, Java, or Perl.

Shell scripting hearkens back to the classical UNIX philosophy of breaking
complex projects into simpler subtasks, of chaining together components and
utilities. Many consider this a better, or at least more esthetically
pleasing approach to problem solving than using one of the new generation of
high powered all-in-one languages, such as Perl, which attempt to be all
things to all people, but at the cost of forcing you to alter your thinking
processes to fit the tool.

When not to use shell scripts

*resource-intensive tasks, especially where speed is a factor
   
*complex applications, where structured programming is a necessity
   
*mission-critical applications upon which you are betting the ranch, or
    the future of the company
   
*situations where security is important, where you need to protect against
    hacking
   
*project consists of subcomponents with interlocking dependencies
   
*extensive file operations required (Bash is limited to serial file
    access, and that only in a particularly clumsy and inefficient
    line-by-line fashion)
   
*need to generate or manipulate graphics or GUIs
   
*need direct access to system hardware
   
*need port or socket I/O
   
*need to use libraries or interface with legacy code
   

If any of the above applies, consider a more powerful scripting language,
perhaps Perl, Tcl, Python, or possibly a high-level compiled language such as
C, C++, or Java. Even then, prototyping the application as a shell script
might still be a useful development step.

We will be using Bash, an acronym for "Born-Again Shell" and a pun on Stephen
Bourne's now classic Bourne Shell. Bash has become the de facto standard for
shell scripting on all flavors of UNIX. Most of the principles dealt with in
this document apply equally well to scripting with other shells, such as the
Korn Shell, from which Bash derives some of its features, [1] and the C Shell
and its variants. (Note that C Shell programming is not recommended due to
certain inherent problems, as pointed out in a news group posting by Tom
Christiansen in October of 1993).

The following is a tutorial in shell scripting. It relies heavily on examples
to illustrate features of the shell. As far as possible, the example scripts
have been tested, and some of them may actually be useful in real life. The
reader should use the actual examples in the the source archive
(something-or-other.sh), give them execute permission (chmod u+x scriptname),
then run them to see what happens. Should the source archive not be
available, then cut-and-paste from the HTML, pdf, or text rendered versions.
Be aware that some of the scripts below introduce features before they are
explained, and this may require the reader to temporarily skip ahead for
enlightenment.

Unless otherwise noted, the author of this document wrote the example scripts
that follow.
-----------------------------------------------------------------------------

Chapter 2. Starting Off With a Sha-Bang

In the simplest case, a script is nothing more than a list of system commands
stored in a file. At the very least, this saves the effort of retyping that
particular sequence of commands each time it is invoked.


Example 2-1. cleanup: A script to clean up the log files in /var/log
# cleanup                                                                    
# Run as root, of course.                                                    
                                                                             
cd /var/log                                                                  
cat /dev/null > messages                                                     
cat /dev/null > wtmp                                                         
echo "Logs cleaned up."                                                      

There is nothing unusual here, just a set of commands that could just as
easily be invoked one by one from the command line on the console or in an
xterm. The advantages of placing the commands in a script go beyond not
having to retype them time and again. The script can easily be modified,
customized, or generalized for a particular application.


Example 2-2. cleanup: An enhanced and generalized version of above script.
#!/bin/bash                                                                  
# cleanup, version 2                                                         
# Run as root, of course.                                                    
                                                                             
if [ -n $1 ]                                                                 
# Test if command line argument present.                                     
then                                                                         
  lines=$1                                                                   
else                                                                         
  lines=50                                                                   
  # default, if not specified on command line.                               
fi                                                                           
                                                                             
                                                                             
cd /var/log                                                                  
tail -$lines messages > mesg.temp                                            
# Saves last section of message log file.                                    
mv mesg.temp messages                                                        
                                                                             
# cat /dev/null > messages                                                   
# No longer needed, as the above method is safer.                            
                                                                             
cat /dev/null > wtmp                                                         
echo "Logs cleaned up."                                                      
                                                                             
exit 0                                                                       
# A zero return value from the script upon exit                              
# indicates success to the shell.                                            

Since you may not wish to wipe out the entire system log, this variant of the
first script keeps the last section of the message log intact. You will
constantly discover ways of refining previously written scripts for increased
effectiveness.

The   sha-bang ( #!) at the head of a script tells your system that this file
is a set of commands to be fed to the command interpreter indicated. The #!
is actually a two byte " magic number", a special marker that designates an
executable shell script (man magic gives more info on this fascinating
topic). Immediately following the sha-bang is a path name. This is the path
to the program that interprets the commands in the script, whether it be a
shell, a programming language, or a utility. This enables the specific
commands and directives embedded in the shell or program called.

#!/bin/sh                                                                    
#!/bin/bash #!/bin/awk #!/usr/bin/perl #!/bin/sed                            
#!/usr/bin/tcl                                                               

Each of the above script header lines calls a different command interpreter,
be it /bin/sh, the default shell (bash in a Linux system) or otherwise. Using
#!/bin/sh, the default Bourne Shell in most commercial variants of UNIX,
makes the script portable to non-Linux machines, though you may have to
sacrifice a few bash-specific features (the script will conform to the POSIX 
sh standard).

Note that the path given at the "sha-bang" must be correct, otherwise an
error message, usually Command not found will be the only result of running
the script.

#! can be omitted if the script consists only of a set of generic system
commands, using no internal shell directives. Example 2, above, requires the
initial #!, since the variable assignment line, lines=50, uses a
shell-specific construct. Note that #!/bin/sh invokes the default shell
interpreter, which defaults to /bin/bash on a Linux machine.

   
    Important: This tutorial encourages a modular approach to constructing a
    script. Make note of and collect "boilerplate" code snippets that might
    be useful in future scripts. Eventually you can build a quite extensive
    library of nifty routines. As an example, the following script prolog
    tests whether the script has been invoked with the correct number of
    parameters.
    if [ $# -ne Number_of_expected args ]                                    
    then                                                                     
      echo "Usage: `basename $0` whatever"                                   
      exit $WRONG_ARGS                                                       
    fi                                                                       
   
-----------------------------------------------------------------------------
2.1. Invoking the script

Having written the script, you can invoke it by sh scriptname, or alternately
bash scriptname. (Not recommended is using sh <scriptname, since this
effectively disables reading from stdin within the script.) Much more
convenient is to make the script itself directly executable by

Either:
    chmod 755 scriptname (gives everyone execute permission)
   
or
    chmod +x scriptname (gives everyone execute permission)
   
    chmod u+x scriptname (gives only the script owner execute permission)
   

In this case, you could try calling the script by ./scriptname.

As a final step, after testing and debugging, you would likely want to move
it to /usr/local/bin (as root, of course), to make the script available to
yourself and all other users as a system-wide executable. The script could
then be invoked by simply typing scriptname [return] from the command line.
-----------------------------------------------------------------------------

2.2. Shell wrapper, self-executing script

A sed or awk script (see Appendix B) would normally be invoked from the
command line by a sed -e 'commands' or awk -e 'commands'. Embedding such a
script in a bash script permits calling it more simply, and makes it 
"reusable". This also enables combining the functionality of sed and awk, for
example piping the output of a set of sed commands to awk. As a saved
executable file, you can then repeatedly invoke it in its original form or
modified, without the inconvenience of retyping it on the command line.


Example 2-3. shell wrapper
#!/bin/bash                                                                  
                                                                             
# This is a simple script                                                    
# that removes blank lines                                                   
# from a file.                                                               
# No argument checking.                                                      
                                                                             
# Same as                                                                    
# sed -e '/^$/d $1' filename                                                 
# invoked from the command line.                                             
                                                                             
sed -e /^$/d $1                                                              
# '^' is beginning of line,                                                  
# '$' is end,                                                                
# and 'd' is delete.                                                         


Example 2-4. A slightly more complex shell wrapper
#!/bin/bash                                                                  
                                                                             
# "subst", a script that substitutes one pattern for                         
# another in a file,                                                         
# i.e., "subst Smith Jones letter.txt".                                      
                                                                             
if [ $# -ne 3 ]                                                              
# Test number of arguments to script                                         
# (always a good idea).                                                      
then                                                                         
  echo "Usage: `basename $0` old-pattern new-pattern filename"               
  exit 1                                                                     
fi                                                                           
                                                                             
old_pattern=$1                                                               
new_pattern=$2                                                               
                                                                             
if [ -f $3 ]                                                                 
then                                                                         
    file_name=$3                                                             
else                                                                         
    echo "File \"$3\" does not exist."                                       
    exit 2                                                                   
fi                                                                           
                                                                             
# Here is where the heavy work gets done.                                    
sed -e "s/$old_pattern/$new_pattern/" $file_name                             
# 's' is, of course, the substitute command in sed,                          
# and /pattern/ invokes address matching.                                    
# Read the literature on 'sed' for a more                                    
# in-depth explanation.                                                      
                                                                             
exit 0                                                                       
# Successful invocation of the script returns 0.                             


Example 2-5. A shell wrapper around an awk script
#!/bin/bash                                                                  
                                                                             
# Adds up a specified column (of numbers) in the target file.                
                                                                             
if [ $# -ne 2 ]                                                              
# Check for proper no. of command line args.                                 
then                                                                         
   echo "Usage: `basename $0` filename column-number"                        
   exit 1                                                                    
fi                                                                           
                                                                             
filename=$1                                                                  
column_number=$2                                                             
                                                                             
# Passing shell variables to the awk part of the script is a bit tricky.     
# See the awk documentation for more details.                                
                                                                             
# A multi-line awk script is invoked by   awk ' ..... '                      
                                                                             
                                                                             
# Begin awk script.                                                          
# -----------------------------                                              
awk '                                                                        
                                                                             
{ total += $'"${column_number}"'                                             
}                                                                            
END {                                                                        
     print total                                                             
}                                                                            
                                                                             
' $filename                                                                  
# -----------------------------                                              
# End awk script.                                                            
                                                                             
                                                                             
exit 0                                                                       

For those scripts needing a single do-it-all tool, a Swiss army knife, there
is Perl. Perl combines the capabilities of sed and awk, and throws in a large
subset of C, to boot. It is modular and contains support for everything
ranging from object-oriented programming up to and including the kitchen
sink. Short Perl scripts can be effectively embedded in shell scripts, and
there may even be some substance to the claim that Perl can totally replace
shell scripting (though the author of this HOWTO remains skeptical).


Example 2-6. Perl embedded in a bash script
#!/bin/bash                                                                  
                                                                             
# Some shell commands may precede the Perl script.                           
                                                                             
perl -e 'print "This is an embedded Perl script\n"'                          
# Like sed and awk, Perl also uses the "-e" option.                          
                                                                             
# Some shell commands may follow.                                            
                                                                             
exit 0                                                                       

Exercise. Write a shell script that performs a simple task.
-----------------------------------------------------------------------------

Chapter 3. Tutorial / Reference

                                      ...there are dark corners in the      
                                       Bourne shell, and people use all of   
                                       them.                                 
                                                                  Chet Ramey
-----------------------------------------------------------------------------

3.1. exit and exit status

The exit command may be used to terminate a script, just as in a C program.
It can also return a value, which is available to the shell.

Every command returns an exit status (sometimes referred to as a return
status ). A successful command returns a 0, while an unsuccessful one returns
a non-zero value that usually may be interpreted as an error code.

Likewise, functions within a script and the script itself return an exit
status. The last command executed in the function or script determines the
exit status. Within a script, an exit nn command may be used to deliver an nn
exit status to the shell (nn must be a decimal number in the 0 - 255 range).

$? reads the exit status of script or function.


Example 3-1. exit / exit status
#!/bin/bash                                                                  
                                                                             
echo hello                                                                   
echo $?                                                                      
# exit status 0 returned                                                     
# because command successful.                                                
                                                                             
lskdf                                                                        
# bad command                                                                
echo $?                                                                      
# non-zero exit status returned.                                             
                                                                             
echo                                                                         
                                                                             
exit 143                                                                     
# Will return 143 to shell.                                                  
# To verify this, type $? after script terminates.                           
                                                                             
# By convention, an 'exit 0' shows success,                                  
# while a non-zero exit value indicates an error or anomalous condition.     
                                                                             
# It is also appropriate for the script to use the exit status               
# to communicate with other processes, as when in a pipe with other scripts. 
-----------------------------------------------------------------------------

3.2. Special characters used in shell scripts

#
    Comments. Lines beginning with a # (with the exception of #!) are
    comments.
   
    # This line is a comment.                                        
   
    Comments may also occur at the end of a command.
   
    echo "A comment will follow." # Comment here.                    
   
    Comments may also follow white space at the beginning of a line.
   
            # A tab precedes this comment.                           
   
    +---------------------------------------------------------------+
    |                            Caution                            |
    +---------------------------------------------------------------+
    |A command may not follow after a comment on the same line.     |
    |There is no method of terminating the comment, in order for    |
    |"live code" to begin on the same line. Use a new line for the  |
    |next command.                                                  |
    +---------------------------------------------------------------+
   
;
    Command separator. Permits putting two or more commands on the same line.
   
    echo hello; echo there                                           
   
    Note that the ; sometimes needs to be escaped (\).
   
.
    "dot" command. Equivalent to source, explained further on (see Example
    3-44).
   
:
    null command. Exit status 0, alias for true
   
    Endless loop:
   
    while :                                                          
    do                                                               
       operation-1                                                   
       operation-2                                                   
       ...                                                           
       operation-n                                                   
    done                                                             
   
    Placeholder in if/then test:
   
    if condition                                                     
    then :   # Do nothing and branch ahead                           
    else                                                             
       take-some-action                                              
    fi                                                               
   
    Provides a placeholder where a binary operation is expected, see Section
    3.3.1.
   
    : ${username=`whoami`}                                           
    # ${username=`whoami`}   without the leading : gives an error    
                                                                     
   
    Evaluate string of variables using "parameter substitution", see Example
    3-6:
   
    : ${HOSTNAME?} ${USER?} ${MAIL?}                                 
   
    Prints error message if one or more of essential environmental variables
    not set.
   
()
    command group.
    (a=hello; echo $a)                                               
       
        Note: A listing of commands within parentheses starts a subshell (see
        Section 3.16).
       
   
${}
    Parameter substitution.
   
    See Section 3.3 for more details.
   
{xxx,yyy,zzz,...}
    Brace expansion.
    grep Linux {file?.txt,*.list}                                               
    # Finds all instances of the work "Linux"                                   
    # in the files "fileA.txt", "file2.txt", "word.list", "vegetable.list", etc.
   
    A command may act upon a comma-separated list of file specs within
    braces. Filename expansion (globbing) applies to the file specs between
    the braces.
   
    +---------------------------------------------------------------+
    |                            Warning                            |
    +---------------------------------------------------------------+
    |No spaces allowed within the braces.                           |
    +---------------------------------------------------------------+
   
{}
    Block of code. Also referred to as an "inline group", this construct, in
    effect, creates an anonymous function. Similar to a function, a code
    block permits isolation from the remainder of the script, with its own
    local variables visible only within the scope of the block.
   
    The code block enclosed in braces may have I/O redirected to and from it.
    See Section 3.13 for a detailed discussion of I/O redirection.
   
   
    Example 3-2. Code blocks and I/O redirection
    #!/bin/bash                                                      
                                                                     
    {                                                                
    read fstab                                                       
    } < /etc/fstab                                                   
                                                                     
    echo "First line in /etc/fstab is:"                              
    echo "$fstab"                                                    
                                                                     
    exit 0                                                           
   
   
    Example 3-3. Saving the results of a code block to a file
    #!/bin/bash                                                                      
                                                                                     
    #                rpm-check                                                       
    #                ---------                                                       
    # Queries an rpm file for description, listing, and whether it can be installed. 
    # Saves output to a file.                                                        
    #                                                                                
    # This script illustrates using a code block.                                    
                                                                                     
    NOARGS=1                                                                         
                                                                                     
    if [ -z $1 ]                                                                     
    then                                                                             
      echo "Usage: `basename $0` rpm-file"                                           
      exit $NOARGS                                                                   
    fi                                                                               
                                                                                     
    {                                                                                
      echo                                                                           
      echo "Archive Description:"                                                    
      rpm -qpi $1  #Query description.                                               
      echo                                                                           
      echo "Archive Listing:"                                                        
      rpm -qpl $1  #Query listing.                                                   
      echo                                                                           
      rpm -i --test $1  #Query whether rpm file can be installed.                    
      if [ ! $? ]                                                                    
      then                                                                           
        echo "$1 can be installed."                                                  
      else                                                                           
        echo "$1 cannot be installed."                                               
      fi                                                                             
      echo                                                                           
    } > $1.test  # Redirects output of everything in block to file.                  
                                                                                     
    echo "Results of rpm test in file $1.test"                                       
                                                                                     
    # See rpm man page for explanation of options.                                   
                                                                                     
    exit 0                                                                           
   
/{}
    file pathname. Mostly used in 'find' constructs.
   
> >& >> <
    redirection.
   
    scriptname >filename redirects the output of scriptname to file filename.
    Overwrite filename if it already exists.
   
    command >&2 redirects output of command to stderr.
   
    scriptname >>filename appends the output of scriptname to file filename.
    If filename does not already exist, it will be created.
   
    For a more detailed explanation, see Section 3.13.
   
<<
    redirection used in "here document". See Section 3.24.
   
|
    pipe. Passes the output of previous command to next one, or to shell.
    This is a method of chaining commands together.
   
    echo ls -l | sh                                                  
    passes the output of "ls -l" to the shell, with the same result as a
    simple "ls -l".
   
    cat *.lst | sort | uniq                                          
    sorts the output of all the .lst files and deletes duplicate lines.
       
        Note: If one of the commands in the pipe aborts, this prematurely
        terminates execution of the pipe. Called a broken pipe, this
        condition sends a SIGPIPE signal. (See Section 3.26 for more detail
        on signals.)
       
   
>|
    force redirection (even if noclobber environmental variable is in
    effect). This will forcibly overwrite an existing file.
   
-
    redirection from/to stdin or stdout.
   
    (cd /source/directory && tar cf - . ) | (cd /dest/directory && tar xvfp -) 
    # Move entire file tree from one directory to another                      
    # [courtesy Alan Cox, a.cox@swansea.ac.uk]                                 
    #                                                                          
    # More elegant than, but equivalent to:                                    
    # cd source-directory                                                      
    # tar cf - . | (cd ../target-directory; tar xzf -)                         
   
    bunzip2 linux-2.4.3.tar.bz2 | tar xvf -                               
    # --uncompress tar file--    | --then pass it to "tar"--              
    # If "tar" has not been patched to handle "bunzip2",                  
    # this needs to be done in two discrete steps, using a pipe.          
    # The purpose of the exercise is to unarchive "bzipped" kernel source.
   
    Note that in this context the "-" is not itself a Bash operator, but
    rather an option recognized by certain UNIX utilities.
   
    Where a filename is expected, redirects output to stdout (mostly seen
    with tar cf)
   
   
    Example 3-4. Backup of all files changed in last day
    #!/bin/bash                                                      
                                                                     
    # Backs up all files in current directory                        
    # modified within last 24 hours                                  
    # in a tarred and gzipped file.                                  
                                                                     
    if [ $# = 0 ]                                                    
    then                                                             
      echo "Usage: `basename $0` filename"                           
      exit 1                                                         
    fi                                                               
                                                                     
    tar cvf - `find . -mtime -1 -type f -print` > $1.tar             
    gzip $1.tar                                                      
                                                                     
    exit 0                                                           
   
-
    previous working directory. cd - changes to previous working directory.
    This uses the $OLDPWD environmental variable (see Section 3.7).
   
    +---------------------------------------------------------------+
    |                            Caution                            |
    +---------------------------------------------------------------+
    |This is not to be confused with the "-" redirection operator   |
    |just discussed. How Bash interprets the "-" depends on the     |
    |context in which it appears.                                   |
    +---------------------------------------------------------------+
   
~
    home directory. ~bozo is bozo's home directory, and ls ~bozo lists the
    contents of it. ~/ is the current user's home directory, and ls ~/ lists
    the contents of it.
   
White space
    functions as a separator, separating commands or variables. White space
    consists of either spaces, tabs, blank lines, or any combination thereof.
    In some contexts, such as variable assignment, white space is not
    permitted, and results in a syntax error.
   
Blank lines
    Blank lines have no effect on the action of a script, and are therefore
    useful for visually separating functional sections of the script.
   

-----------------------------------------------------------------------------
3.3. Introduction to Variables and Parameters

Variables are at the heart of every programming and scripting language. They
are used for arithmetic operations and manipulation of quantities, string
parsing, and working in the abstract with symbols - tokens that represent
something else. A variable is nothing more than a location or set of
locations in computer memory that holds an item of data.

$
    variable substitution. Let us carefully distinguish between the name of a
    variable and its value. If variable1 is the name of a variable, then 
    $variable1 is a reference to its value, the data item it contains. The
    only time a variable appears "naked", without the $, is when declared or
    assigned (or when exported). Assignment may be with an = (as in var1=27),
    in a read statement, and at the head of a loop (for var2 in 1 2 3).
   
    Enclosing a referenced value in double quotes (" ") does not interfere
    with variable substitution. This is called partial quoting, sometimes
    referred to as "weak quoting". Using single quotes (' ') causes the
    variable name to be used literally, and no substitution will take place.
    This is full quoting, sometimes referred to as "strong quoting".
   
    Note that $variable is actually a simplified alternate form of $
    {variable}. In contexts where the $variable syntax causes an error, the
    longer form may work (see Section 3.3.1 below).
   
   
    Example 3-5. Variable assignment and substitution
    #!/bin/bash                                                                
                                                                               
    # Variables: assignment and substitution                                   
                                                                               
    a=37.5                                                                     
    hello=$a                                                                   
    # No space permitted on either side of = sign when initializing variables. 
                                                                               
    echo hello                                                                 
    # Not a reference.                                                         
                                                                               
    echo $hello                                                                
    echo ${hello} #Identical to above.                                         
                                                                               
    echo "$hello"                                                              
    echo "${hello}"                                                            
                                                                               
    echo '$hello'                                                              
    # Variable referencing disabled by single quotes,                          
    # because $ interpreted literally.                                         
                                                                               
    # Notice the effect of different types of quoting.                         
                                                                               
    # --------------------------------------------------------------           
                                                                               
    # It is permissible to set multiple variables on the same line,            
    # separated by white space. Careful, this may reduce legibility.           
                                                                               
    var1=variable1  var2=variable2  var3=variable3                             
    echo                                                                       
    echo "var1=$var1   var2=$var2  var3=$var3"                                 
                                                                               
    # --------------------------------------------------------------           
                                                                               
    echo; echo                                                                 
                                                                               
    numbers="one two three"                                                    
    other_numbers="1 2 3"                                                      
    # If whitespace within variables, then quotes necessary.                   
    echo "numbers = $numbers"                                                  
    echo "other_numbers = $other_numbers"                                      
    echo                                                                       
                                                                               
    echo "uninitialized variable = $uninitialized_variable"                    
    # Uninitialized variable has null value (no value at all).                 
                                                                               
    echo                                                                       
                                                                               
    exit 0                                                                     
   
    +---------------------------------------------------------------+
    |                            Warning                            |
    +---------------------------------------------------------------+
    |An uninitialized variable has a "null" value - no assigned     |
    |value at all (not zero!). Using a variable before assigning a  |
    |value to it will inevitably cause problems.                    |
    +---------------------------------------------------------------+
   

-----------------------------------------------------------------------------
3.3.1. Parameter Substitution

${parameter}
    Same as $parameter, i.e., value of the variable parameter.
   
    May be used for concatenating variables with strings.
   
    your_id=${USER}-on-${HOSTNAME}                                        
    echo "$your_id"                                                       
    #                                                                     
    echo "Old \$PATH = $PATH"                                             
    PATH=${PATH}:/opt/bin  #Add /opt/bin to $PATH for duration of script. 
    echo "New \$PATH = $PATH"                                             
   
${parameter-default}
    If parameter not set, use default.
   
    echo ${username-`whoami`}                                               
    # Echoes the result of `whoami`, but variable "username" is still unset.
       
        Note: This is almost equivalent to ${parameter:-default}. The extra :
        makes a difference only when parameter has been declared, but is
        null.
       
   
    #!/bin/bash                                                      
                                                                     
    username0=                                                       
    echo "username0 = ${username0-`whoami`}"                         
    # username0 has been declared, but is set to null.               
    # Will not echo.                                                 
                                                                     
    echo "username1 = ${username1-`whoami`}"                         
    # username1 has not been declared.                               
    # Will echo.                                                     
                                                                     
    username2=                                                       
    echo "username2 = ${username2:-`whoami`}"                        
    # username2 has been declared, but is set to null.               
    # Will echo because of :- rather than just - in condition test.  
                                                                     
    exit 0                                                           
   
${parameter=default}, ${parameter:=default}
    If parameter not set, set it to default.
   
    Both forms nearly equivalent. The : makes a difference only when 
    parameter has been declared and is null, as above.
   
    echo ${username=`whoami`}                                        
    # Variable "username" is now set to `whoami`.                    
   
${parameter+otherwise}, ${parameter:+otherwise}
    If parameter set, use 'otherwise", else use null string.
   
    Both forms nearly equivalent. The : makes a difference only when 
    parameter has been declared and is null, as above.
   
${parameter?err_msg}, ${parameter:?err_msg}
    If parameter set, use it, else print err_msg.
   
    Both forms nearly equivalent. The : makes a difference only when 
    parameter has been declared and is null, as above.
   

Example 3-6. Using param substitution and :
#!/bin/bash                                                                  
                                                                             
# Let's check some of the system's environmental variables.                  
# If, for example, $USER, the name of the person                             
# at the console, is not set, the machine will not                           
# recognize you.                                                             
                                                                             
: ${HOSTNAME?} ${USER?} ${HOME} ${MAIL?}                                     
  echo                                                                       
  echo "Name of the machine is $HOSTNAME."                                   
  echo "You are $USER."                                                      
  echo "Your home directory is $HOME."                                       
  echo "Your mail INBOX is located in $MAIL."                                
  echo                                                                       
  echo "If you are reading this message,"                                    
  echo "critical environmental variables have been set."                     
  echo                                                                       
  echo                                                                       
                                                                             
# The ':' operator seems fairly error tolerant.                              
# This script works even if the '$' omitted in front of                      
# {HOSTNAME}, {USER?}, {HOME?}, and {MAIL?}. Why?                            
                                                                             
# ------------------------------------------------------                     
                                                                             
# The ${variablename?} construction can also check                           
# for variables set within the script.                                       
                                                                             
ThisVariable=Value-of-ThisVariable                                           
# Note, by the way, that string variables may be set                         
# to characters disallowed in their names.                                   
: ${ThisVariable?}                                                           
echo "Value of ThisVariable is $ThisVariable".                               
echo                                                                         
echo                                                                         
                                                                             
# If ZZXy23AB has not been set...                                            
: ${ZZXy23AB?}                                                               
# This will give you an error message and terminate.                         
                                                                             
echo "You will not see this message."                                        
                                                                             
exit 0                                                                       

Parameter substitution and/or expansion. The following expressions are the
complement to the match in expr string operations (see Example 3-52). These
particular ones are used mostly in parsing file path names.

${var#pattern}, ${var##pattern}
    Strip off shortest/longest part of pattern if it matches the front end of
    variable.
   
${var%pattern}, ${var%%pattern}
    Strip off shortest/longest part of pattern if it matches the back end of
    variable.
   

Version 2 of bash adds additional options.


Example 3-7. Renaming file extensions:
#!/bin/bash                                                                  
                                                                             
#                 rfe                                                        
#                 ---                                                        
                                                                             
# Renaming file extensions.                                                  
#                                                                            
#         rfe old_extension new_extension                                    
#                                                                            
# Example:                                                                   
# To rename all *.gif files in working directory to *.jpg,                   
#          rfe gif jpg                                                       
                                                                             
if [ $# -ne 2 ]                                                              
then                                                                         
  echo "Usage: `basename $0` old_file_suffix new_file_suffix"                
  exit 1                                                                     
fi                                                                           
                                                                             
for filename in *.$1                                                         
# Traverse list of files ending with 1st argument.                           
do                                                                           
  mv $filename ${filename%$1}$2                                              
  # Strip off part of filename matching 1st argument,                        
  # then append 2nd argument.                                                
done                                                                         
                                                                             
exit 0                                                                       

${var:pos}
    Variable var expanded, starting from offset pos.
   
${var:pos:len}
    Expansion to a max of len characters of variable var, from offset pos.
    See Example A-6 for an example of the creative use of this operator.
   
${var/patt/replacement}
    First match of patt, within var replaced with replacement.
   
    If replacement is omitted, then the first match of patt is replaced by 
    nothing, that is, deleted.
   
${var//patt/replacement}
    All matches of patt, within var replaced with replacement.
   
    Similar to above, if replacement is omitted, then all occurrences patt
    are replaced by nothing, that is, deleted.
   

Example 3-8. Using pattern matching to parse arbitrary strings
#!/bin/bash                                                                  
                                                                             
var1=abcd-1234-defg                                                          
echo "var1 = $var1"                                                          
                                                                             
t=${var1#*-*}                                                                
echo "var1 (with everything, up to and including first - stripped out) = $t" 
t=${var1%*-*}                                                                
echo "var1 (with everything from the last - on stripped out) = $t"           
                                                                             
echo                                                                         
                                                                             
path_name=/home/bozo/ideas/thoughts.for.today                                
echo "path_name = $path_name"                                                
t=${path_name##/*/}                                                          
# Same effect as   t=`basename $path_name`                                   
echo "path_name, stripped of prefixes = $t"                                  
t=${path_name%/*.*}                                                          
# Same effect as   t=`dirname $path_name`                                    
echo "path_name, stripped of suffixes = $t"                                  
                                                                             
echo                                                                         
                                                                             
t=${path_name:11}                                                            
echo "$path_name, with first 11 chars stripped off = $t"                     
t=${path_name:11:5}                                                          
echo "$path_name, with first 11 chars stripped off, length 5 = $t"           
                                                                             
echo                                                                         
                                                                             
t=${path_name/bozo/clown}                                                    
echo "$path_name with \"bozo\" replaced  by \"clown\" = $t"                  
t=${path_name/today/}                                                        
echo "$path_name with \"today\" deleted = $t"                                
t=${path_name//o/O}                                                          
echo "$path_name with all o's capitalized = $t"                              
t=${path_name//o/}                                                           
echo "$path_name with all o's deleted = $t"                                  
                                                                             
exit 0                                                                       
-----------------------------------------------------------------------------

3.4. Quoting

Quoting means just that, bracketing a string in quotes. This has the effect
of protecting special characters in the string from reinterpretation or
expansion by the shell or shell script. (A character is "special" if it has
an interpretation other than its literal meaning, such as the wild card
character, *.)

When referencing a variable, it is generally advisable in enclose it in
double quotes (" "). This preserves all special characters within the
variable name, except $, ', and \. This allows referencing it, that is,
replacing the variable with its value (see Example 3-5, above). Enclosing the
arguments to an echo statement in double quotes is usually a good practice
(and sometimes required, see Section 3.28).

Single quotes (' ') operate similarly to double quotes, but do not permit
referencing variables, since the special meaning of $ is turned off. Within
single quotes, every special character except ' gets interpreted literally.
Consider single quotes ("full quoting") to be a stricter method of quoting
than double quotes ("partial quoting").

Escaping is a method of quoting single characters. The escape (\) preceding a
character will either toggle on or turn off a special meaning for that
character, depending on context.

\n
    means newline
   
\r
    means return
   
\t
    means tab
   
\v
    means vertical tab
   
\b
    means backspace
   
\a
    means "alert" (beep or flash)
   
\0xx
    translates to the octal ASCII equivalent of 0xx
   
    # Use the -e option with 'echo' to print these.                  
    echo -e "\v\v\v\v"   # Prints 4 vertical tabs.                   
    echo -e "\042"   # Prints " (quote, ASCII character 42).         
   
\"
    gives the quote its literal meaning
   
    echo "Hello"                  # Hello                            
    echo "\"Hello\", he said."    # "Hello", he said.                
   
\$
    gives the dollar sign its literal meaning (variable name following \$
    will not be referenced)
   
    echo "\$variable01"  # results in $variable01                    
   
\\
    gives the backslash its literal meaning
   
    echo "\\"  # results in \                                        
   

The escape also provides a means of writing a multi-line command. Normally,
each separate line constitutes a different command, but an escape at the end
of a line escapes the newline character, and the command sequence continues
onto the next line.

(cd /source/directory && tar cf - . ) | \                                    
(cd /dest/directory && tar xvfp -)                                           
# Repeating Alan Cox's directory tree copy command,                          
# but split into two lines for increased legibility.                         
-----------------------------------------------------------------------------

3.5. Tests

The if/then construct tests whether a condition is true, and if so, executes
one or more commands. Note that in this context, 0 (zero) will evaluate as
true, as will a random string of alphanumerics. Puzzling out the logic of
this is left as an exercise for the reader.


Example 3-9. What is truth?
#!/bin/bash                                                                  
                                                                             
if [ 0 ]                                                                     
#zero                                                                        
then                                                                         
  echo "0 is true."                                                          
else                                                                         
  echo "0 is false."                                                         
fi                                                                           
                                                                             
if [ ]                                                                       
#NULL (empty condition)                                                      
then                                                                         
  echo "NULL is true."                                                       
else                                                                         
  echo "NULL is false."                                                      
fi                                                                           
                                                                             
if [ xyz ]                                                                   
#string                                                                      
then                                                                         
  echo "Random string is true."                                              
else                                                                         
  echo "Random string is false."                                             
fi                                                                           
                                                                             
if [ $xyz ]                                                                  
#string                                                                      
then                                                                         
  echo "Undeclared variable is true."                                        
else                                                                         
  echo "Undeclared variable is false."                                       
fi                                                                           
                                                                             
exit 0                                                                       

Exercise. Explain the behavior of Example 3-9, above.

if [ condition-true ]                                                        
then                                                                         
   command 1                                                                 
   command 2                                                                 
   ...                                                                       
else                                                                         
   # Optional (may be left out if not needed).                               
   # Adds default code block executing if original condition tests false.    
   command 3                                                                 
   command 4                                                                 
   ...                                                                       
fi                                                                           

Add a semicolon when 'if' and 'then' are on same line.

if [ -x filename ]; then                                                     

elif
    This is a contraction for else if. The effect is to nest an inner if/then
    construction within an outer one.
   
    if [ condition ]                                                 
    then                                                             
       command                                                       
       command                                                       
       command                                                       
    elif                                                             
    # Same as else if                                                
    then                                                             
       command                                                       
       command                                                       
    else                                                             
       default-command                                               
    fi                                                               
   

The test condition-true construct is the exact equivalent of if
[condition-true ]. The left bracket [ is, in fact, an alias for test. (The
closing right bracket ] in a test should not therefore be strictly necessary,
however newer versions of bash detect it as a syntax error and complain.)


Example 3-10. Equivalence of [ ] and test
#!/bin/bash                                                                  
                                                                             
echo                                                                         
                                                                             
                                                                             
if test -z $1                                                                
then                                                                         
  echo "No command-line arguments."                                          
else                                                                         
  echo "First command-line argument is $1."                                  
fi                                                                           
                                                                             
# Both code blocks are functionally identical.                               
                                                                             
if [ -z $1 ]                                                                 
# if [ -z $1                                                                 
# also works, but outputs an error message.                                  
then                                                                         
  echo "No command-line arguments."                                          
else                                                                         
  echo "First command-line argument is $1."                                  
fi                                                                           
                                                                             
                                                                             
echo                                                                         
                                                                             
exit 0                                                                       
-----------------------------------------------------------------------------

3.5.1. File test operators

Returns true if...

-e
    file exists
   
-f
    file is a regular file
   
-s
    file is not zero size
   
-d
    file is a directory
   
-b
    file is a block device (floppy, cdrom, etc.)
   
-c
    file is a character device (keyboard, modem, sound card, etc.)
   
-p
    file is a pipe
   
-L
    file is a symbolic link
   
-S
    file is a socket
   
-r
    file is readable (has read permission)
   
-w
    file has write permission
   
-x
    file has execute permission
   
-g
    group-id flag set on file
   
-u
    user-id flag set on file
   
-k
    "sticky bit" set (if user does not own a directory that has the sticky
    bit set, she cannot delete files in it, not even files she owns)
   
-O
    you are owner of file
   
-G
    group-id of file same as yours
   
-t n
    file descriptor n is open
   
    This usually refers to stdin, stdout, and stderr (file descriptors 0 -
    2).
   
f1 -nt f2
    file f1 is newer than f2
   
f1 -ot f2
    file f1 is older than f2
   
f1 -ef f2
    files f1 and f2 are links to the same file
   
!
    "not" -- reverses the sense of the tests above (returns true if condition
    absent).
   

Example 3-11. Tests, command chaining, redirection
#!/bin/bash                                                                  
                                                                             
# This line is a comment.                                                    
                                                                             
filename=sys.log                                                             
                                                                             
if [ ! -f $filename ]                                                        
then                                                                         
  touch $filename; echo "Creating file."                                     
else                                                                         
  cat /dev/null > $filename; echo "Cleaning out file."                       
fi                                                                           
                                                                             
# Of course, /var/log/messages must have                                     
# world read permission (644) for this to work.                              
tail /var/log/messages > $filename                                           
echo "$filename contains tail end of system log."                            
                                                                             
exit 0                                                                       
-----------------------------------------------------------------------------

3.5.2. Comparison operators (binary)

integer comparison

-eq
    is equal to ($a -eq $b)
   
-ne
    is not equal to ($a -ne $b)
   
-gt
    is greater than ($a -gt $b)
   
-ge
    is greater than or equal to ($a -ge $b)
   
-lt
    is less than ($a -lt $b)
   
-le
    is less than or equal to ($a -le $b)
   

string comparison

=
    is equal to ($a = $b)
   
!=
    is not equal to ($a != $b)
   
\<
    is less than, in ASCII alphabetical order ($a \< $b)
   
    Note that the "<" needs to be escaped.
   
\>
    is greater than, in ASCII alphabetical order ($a \> $b)
   
    Note that the ">" needs to be escaped.
   
    See Example 3-91 for an application of this comparison operator.
   
-z
    string is "null", that is, has zero length
   
-n
    string is not "null".
   
    +---------------------------------------------------------------+
    |                            Caution                            |
    +---------------------------------------------------------------+
    |This test requires that the string be quoted within the test   |
    |brackets. You may use ! -z instead, or even just the string    |
    |itself, without a test operator (see Example 3-13).            |
    +---------------------------------------------------------------+
   

Example 3-12. arithmetic and string comparisons
#!/bin/bash                                                                  
                                                                             
a=4                                                                          
b=5                                                                          
                                                                             
# Here a and b can be treated either as integers or strings.                 
# There is some blurring between the arithmetic and integer comparisons.     
# Be careful.                                                                
                                                                             
if [ $a -ne $b ]                                                             
then                                                                         
  echo "$a is not equal to $b"                                               
  echo "(arithmetic comparison)"                                             
fi                                                                           
                                                                             
echo                                                                         
                                                                             
if [ $a != $b ]                                                              
then                                                                         
  echo "$a is not equal to $b."                                              
  echo "(string comparison)"                                                 
fi                                                                           
                                                                             
echo                                                                         
                                                                             
exit 0                                                                       


Example 3-13. testing whether a string is null
#!/bin/bash                                                                  
                                                                             
# If a string has not been initialized, it has no defined value.             
# This state is called "null" (not the same as zero).                        
                                                                             
                                                                             
if [ -n $string1 ]   # $string1 has not been declared or initialized.        
then                                                                         
  echo "String \"string1\" is not null."                                     
else                                                                         
  echo "String \"string1\" is null."                                         
fi                                                                           
# Wrong result.                                                              
# Shows $string1 as not null, although it was not initialized.               
                                                                             
echo                                                                         
                                                                             
# Lets try it again.                                                         
                                                                             
if [ -n "$string1" ]  # This time, $string1 is quoted.                       
then                                                                         
  echo "String \"string1\" is not null."                                     
else                                                                         
  echo "String \"string1\" is null."                                         
fi                                                                           
                                                                             
echo                                                                         
                                                                             
if [ $string1 ]  # This time, $string1 stands naked.                         
then                                                                         
  echo "String \"string1\" is not null."                                     
else                                                                         
  echo "String \"string1\" is null."                                         
fi                                                                           
# This works fine.                                                           
# The [ ] test operator alone detects whether the string is null.            
                                                                             
echo                                                                         
                                                                             
string1=initialized                                                          
                                                                             
if [ $string1 ]  # This time, $string1 stands naked.                         
then                                                                         
  echo "String \"string1\" is not null."                                     
else                                                                         
  echo "String \"string1\" is null."                                         
fi                                                                           
# Again, gives correct result.                                               
                                                                             
                                                                             
exit 0                                                                       
                                                                             
# Thanks to Florian Wisser for pointing this out.                            


Example 3-14. zmost
#!/bin/bash                                                                  
                                                                             
#View gzipped files with 'most'                                              
                                                                             
NOARGS=1                                                                     
                                                                             
if [ $# = 0 ]                                                                
# same effect as:  if [ -z $1 ]                                              
then                                                                         
  echo "Usage: `basename $0` filename" >&2                                   
  # Error message to stderr.                                                 
  exit $NOARGS                                                               
  # Returns 1 as exit status of script                                       
  # (error code)                                                             
fi                                                                           
                                                                             
filename=$1                                                                  
                                                                             
if [ ! -f $filename ]                                                        
then                                                                         
  echo "File $filename not found!" >&2                                       
  # Error message to stderr.                                                 
  exit 2                                                                     
fi                                                                           
                                                                             
if [ ${filename##*.} != "gz" ]                                               
# Using bracket in variable substitution.                                    
then                                                                         
  echo "File $1 is not a gzipped file!"                                      
  exit 3                                                                     
fi                                                                           
                                                                             
zcat $1 | most                                                               
                                                                             
exit 0                                                                       
                                                                             
# Uses the file viewer 'most'                                                
# (similar to 'less')                                                        

compound comparison

-a
    logical and
   
    exp1 -a exp2 returns true if both exp1 and exp2 are true.
   
-o
    logical or
   
    exp1 -o exp2 returns true if either exp1 or exp2 are true.
   

These are simpler forms of the comparison operators && and ||, which require
brackets to separate the target expressions.

Refer to Example 3-15 to see compound comparison operators in action.
-----------------------------------------------------------------------------

3.6. Operations and Related Topics

3.6.1. Operations

=
    All-purpose assignment operator, which works for both arithmetic and
    string assignments.
   
    var=27                                                           
    category=minerals                                                
   
    May also be used in a string comparison test.
   
    if [ $string1 = $string2 ]                                       
    then                                                             
       command                                                       
    fi                                                               
   

The following are normally used in combination with expr or let.

arithmetic operators

+
    plus
   
-
    minus
   
*
    multiplication
   
/
    division
   
%
    modulo, or mod (returns the remainder of an integer division)
   
+=
    "plus-equal" (increment variable by a constant)
   
    `expr $var+=5` results in var being incremented by 5.
   
-=
    "minus-equal" (decrement variable by a constant)
   
*=
    "times-equal" (multiply variable by a constant)
   
    `expr $var*=4` results in var being multiplied by 4.
   
/=
    "slash-equal" (divide variable by a constant)
   
%=
    "mod-equal" (remainder of dividing variable by a constant)
   

The bitwise logical operators seldom make an appearance in shell scripts.
Their chief use seems to be manipulating and testing values read from ports
or sockets. "Bit flipping" is more relevant to compiled languages, such as C
and C++, which run fast enough to permit its use on the fly.

<<
    bitwise left shift (multiplies by 2 for each shift position)
   
<<=
    "left-shift-equal"
   
    let "var <<= 2" results in var left-shifted 2 bits (multiplied by 4)
   
>>
    bitwise right shift (divides by 2 for each shift position)
   
>>=
    "right-shift-equal" (inverse of <<=)
   
&
    bitwise and
   
&=
    "bitwise and-equal"
   
|
    bitwise OR
   
|=
    "bitwise OR-equal"
   
~
    bitwise negate
   
!
    bitwise NOT
   
^
    bitwise XOR
   
^=
    "bitwise XOR-equal"
   

relational tests

<
    less than
   
>
    greater than
   
<=
    less than or equal to
   
>=
    greater than or equal to
   
==
    equal to (test)
   
!=
    not equal to
   
&&
    and (logical)
   
    if [ $condition1 ] && [ $condition2 ]                            
    # if both condition1 and condition2 hold true...                 
       
        Note: && may also, depending on context, be used to in an and list to
        concatenate commands (see Section 3.21).
       
   
||
    or (logical)
   
    if [ $condition1 ] || [ $condition2 ]                            
    # if both condition1 or condition2 hold true...                  
   
   
    Example 3-15. Compound Condition Tests Using && and ||
    #!/bin/bash                                                      
                                                                     
    a=24                                                             
    b=47                                                             
                                                                     
    if [ $a -eq 24 ] && [ $b -eq 47 ]                                
    then                                                             
      echo "Test #1 succeeds."                                       
    else                                                             
      echo "Test #1 fails."                                          
    fi                                                               
                                                                     
    # ERROR:                                                         
    # if [ $a -eq 24 && $b -eq 47 ]                                  
                                                                     
                                                                     
    if [ $a -eq 98 ] || [ $b -eq 47 ]                                
    then                                                             
      echo "Test #2 succeeds."                                       
    else                                                             
      echo "Test #2 fails."                                          
    fi                                                               
                                                                     
                                                                     
    # The -a and -o options provide                                  
    # an alternative compound condition test.                        
    # Thanks to Patrick Callahan for pointing this out.              
                                                                     
                                                                     
    if [ $a -eq 24 -a $b -eq 47 ]                                    
    then                                                             
      echo "Test #3 succeeds."                                       
    else                                                             
      echo "Test #3 fails."                                          
    fi                                                               
                                                                     
                                                                     
    if [ $a -eq 98 -o $b -eq 47 ]                                    
    then                                                             
      echo "Test #4 succeeds."                                       
    else                                                             
      echo "Test #4 fails."                                          
    fi                                                               
                                                                     
                                                                     
    a=rhino                                                          
    b=crocodile                                                      
    if [ $a = rhino ] && [ $b = crocodile ]                          
    then                                                             
      echo "Test #5 succeeds."                                       
    else                                                             
      echo "Test #5 fails."                                          
    fi                                                               
                                                                     
    exit 0                                                           
   

-----------------------------------------------------------------------------
3.6.2. Numerical Constants

A shell script interprets a number as decimal (base 10), unless that number
has a special prefix or notation. A number preceded by a 0 is octal (base 8).
A number preceded by 0x is hexadecimal (base 16). A number with an embedded #
is evaluated as BASE#NUMBER (this option is of limited usefulness because of
range restrictions).


Example 3-16. Representation of numerical constants:
#!/bin/bash                                                                  
                                                                             
# Representation of numbers.                                                 
                                                                             
# Decimal                                                                    
let "d = 32"                                                                 
echo "d = $d"                                                                
# Nothing out of the ordinary here.                                          
                                                                             
                                                                             
# Octal: numbers preceded by '0'                                             
let "o = 071"                                                                
echo "o = $o"                                                                
# Expresses result in decimal.                                               
                                                                             
# Hexadecimal: numbers preceded by '0x' or '0X'                              
let "h = 0x7a"                                                               
echo "h = $h"                                                                
                                                                             
# Other bases: BASE#NUMBER                                                   
# BASE between 2 and 64.                                                     
let "b = 32#77"                                                              
echo "b = $b"                                                                
# This notation only works for a very limited range of numbers.              
let "c = 2#47"  # Error: out of range.                                       
echo "c = $c"                                                                
                                                                             
                                                                             
exit 0                                                                       
-----------------------------------------------------------------------------

3.7. Variables Revisited

Used properly, variables can add power and flexibility to scripts. This
requires learning their subtleties and nuances.

Internal (builtin) variables
    environmental variables affecting bash script behavior
   
$IFS
    input field separator
   
    This defaults to white space, but may be changed, for example, to parse a
    comma-separated data file.
   
$HOME
    home directory of the user, usually /home/username (see Example 3-6)
   
$HOSTNAME
    name assigned to the system, usually fetched at bootup from /etc/hosts
    (see Example 3-6)
   
$UID
    user id number
   
    current user's user identification number, as recorded in /etc/passwd
   
    This is the current user's real id, even if she has temporarily assumed
    another identity through su (see Section 3.11). $UID is a readonly
    variable, not subject to change from the command line or within a script.
   
$EUID
    "effective" user id number
   
    identification number of whatever identity the current user has assumed,
    perhaps by means of su
   
$GROUPS
    groups current user belongs to
   
    This is a listing (array) of the group id numbers for current user, as
    recorded in /etc/passwd.
   
$PATH
    path to binaries, usually /usr/bin/, /usr/X11R6/bin/, /usr/local/bin,
    etc.
   
    When given a command, the shell automatically searches the directories
    listed in the path for the executable. The path is stored in the
    environmental variable, $PATH, a list of directories, separated by
    colons. Normally, the system stores the $PATH definition in /etc/profile
    and/or ~/.bashrc (see Section 3.23).
   
    bash$ echo $PATH                                                 
    /bin:/usr/bin:/usr/local/bin:/usr/X11R6/bin:/sbin:/usr/sbin      
   
    PATH=${PATH}:/opt/bin appends the /opt/bin directory to the current path.
    In a script, it may be expedient to temporarily add a directory to the
    path in this way. When the script exits, this restores the original $PATH
    (a child process, such as a script, may not change the environment of the
    parent process, the shell).
       
        Note: The current "working directory", ./, is usually omitted from
        the $PATH as a security measure.
       
   
$PS1
    This is the main prompt, seen at the command line.
   
$PS2
    The secondary prompt, seen when additional input is expected. It displays
    as ">".
   
$PS3
    The tertiary prompt, displayed in a select loop (see Example 3-37).
   
$PS4
    The quartenary prompt, shown at the beginning of each line of output when
    invoking a script with the -x option. It displays as "+".
   
$PWD
    working directory (directory you are in at the time)
   
    #!/bin/bash                                                                          
                                                                                         
    WRONG_DIRECTORY=33                                                                   
                                                                                         
    clear # Clear screen.                                                                
                                                                                         
    TargetDirectory=/home/bozo/projects/GreatAmericanNovel                               
                                                                                         
    cd $TargetDirectory                                                                  
    echo "Deleting stale files in $TargetDirectory."                                     
                                                                                         
    if [ $PWD != $TargetDirectory ]  # Keep from wiping out wrong directory by accident. 
    then                                                                                 
      echo "Wrong directory!"                                                            
      echo "In $PWD, rather than $TargetDirectory!"                                      
      echo "Bailing out!"                                                                
      exit $WRONG_DIRECTORY                                                              
    fi                                                                                   
                                                                                         
    rm -rf *                                                                             
    rm .[A-Za-z0-9]*    # Delete dotfiles.                                               
                                                                                         
    # Various other operations here, as necessary.                                       
                                                                                         
    echo                                                                                 
    echo "Done."                                                                         
    echo "Old files deleted in $TargetDirectory."                                        
    echo                                                                                 
                                                                                         
                                                                                         
    exit 0                                                                               
   
$OLDPWD
    old working directory (previous directory you were in)
   
$DIRSTACK
    contents of the directory stack (affected by pushd and popd)
   
    This builtin variable is the counterpart to the dirs command (see Section
    3.9).
   
$PPID
    the process id (pid) of the currently running process
   
    This corresponds to the pidof command (see Section 3.11).
   
$MACHTYPE
    machine type
   
    Identifies the system hardware.
    bash$ echo $MACHTYPE                                             
    i686-debian-linux-gnu                                            
   
$HOSTTYPE
    host type
   
    Like $MACHTYPE above, identifies the system hardware.
    bash$ echo $HOSTTYPE                                             
    i686                                                             
   
$OSTYPE
    operating system type
    bash$ echo $OSTYPE                                               
    linux-gnu                                                        
   
$EDITOR
    the default editor invoked by a script, usually vi or emacs.
   
$IGNOREEOF
    ignore EOF: how many end-of-files (control-D) the shell will ignore
    before logging out.
   
$TMOUT
    If the $TMOUT environmental variable is set to a non-zero value time,
    then the shell prompt will time out after time seconds. This will cause a
    logout.
       
        Note: Unfortunately, this works only while waiting for input at the
        shell prompt console or in an xterm. While it would be nice to
        speculate on the uses of this internal variable for timed input, for
        example in combination with read, $TMOUT does not work in that
        context and is virtually useless for shell scripting. (Reportedly the
        ksh version of a timed read does work).
       
   
    Implementing timed input in a script is certainly possible, but hardly
    seems worth the effort. It requires setting up a timing loop to signal
    the script when it times out. Additionally, a signal handling routine is
    necessary to trap (see Example 3-100) the interrupt generated by the
    timing loop (whew!).
   
    #!/bin/bash                                                                   
                                                                                  
    # TMOUT=3            useless in a script                                      
                                                                                  
    TIMELIMIT=3  # Three seconds in this instance, may be set to different value. 
                                                                                  
    PrintAnswer()                                                                 
    {                                                                             
      if [ $answer = TIMEOUT ]                                                    
      then                                                                        
        echo $answer                                                              
      else       # Don't want to mix up the two instances.                        
        echo "Your favorite veggie is $answer"                                    
        kill $!  # Kills no longer needed TimerOn function running in background. 
                 #   $! is PID of last job running in background.                 
      fi                                                                          
                                                                                  
    }                                                                             
                                                                                  
                                                                                  
                                                                                  
    TimerOn()                                                                     
    {                                                                             
      sleep $TIMELIMIT && kill -s 14 $$ &                                         
      # Waits 3 seconds, then sends sigalarm to script.                           
    }                                                                             
                                                                                  
    Int14Vector()                                                                 
    {                                                                             
      answer="TIMEOUT"                                                            
      PrintAnswer                                                                 
      exit 14                                                                     
    }                                                                             
                                                                                  
    trap Int14Vector 14                                                           
    # Timer interrupt - 14 - subverted for our purposes.                          
                                                                                  
    echo "What is your favorite vegetable "                                       
    TimerOn                                                                       
    read answer                                                                   
    PrintAnswer                                                                   
                                                                                  
                                                                                  
    # Admittedly, this is a kludgy implementation of timed input,                 
    # but pretty much as good as can be done with Bash.                           
    # (Challenge to reader: come up with something better.)                       
                                                                                  
    # If you need something a bit more elegant...                                 
    # consider writing the application in C or C++,                               
    # using appropriate library functions, such as 'alarm' and 'setitimer'.       
                                                                                  
    exit 0                                                                        
   
$SECONDS
    The number of seconds the script has been running.
   
    #!/bin/bash                                                      
                                                                     
    ENDLESS_LOOP=1                                                   
                                                                     
    echo                                                             
    echo "Hit Control-C to exit this script."                        
    echo                                                             
                                                                     
    while [ $ENDLESS_LOOP ]                                          
    do                                                               
      if [ $SECONDS -eq 1 ]                                          
      then                                                           
        units=second                                                 
      else                                                           
        units=seconds                                                
      fi                                                             
                                                                     
      echo "This script has been running $SECONDS $units."           
      sleep 1                                                        
    done                                                             
                                                                     
                                                                     
    exit 0                                                           
   
$REPLY
    The default value when a variable is not supplied to read. Also
    applicable to select menus, but only supplies the item number of the
    variable chosen, not the value of the variable itself.
   
    #!/bin/bash                                                                 
                                                                                
                                                                                
    echo                                                                        
    echo -n "What is your favorite vegetable? "                                 
    read                                                                        
                                                                                
    echo "Your favorite vegetable is $REPLY."                                   
    # REPLY holds the value of last "read" if and only if no variable supplied. 
                                                                                
                                                                                
    echo                                                                        
    echo -n "What is your favorite fruit? "                                     
    read fruit                                                                  
    echo "Your favorite fruit is $fruit."                                       
    echo "but..."                                                               
    echo "Value of \$REPLY is still $REPLY."                                    
    # $REPLY is still set to its previous value because                         
    # the variable $fruit absorbed the new "read" value.                        
                                                                                
    echo                                                                        
                                                                                
    exit 0                                                                      
   
$SHELLOPTS
    the list of enabled shell options, a readonly variable
   
$BASH
    the path to the bash binary itself, usually /bin/bash
   
$BASH_ENV
    an environmental variable pointing to a bash startup file to be read when
    a script is invoked
   
$BASH_VERSION
    the version of Bash installed on the system
   
    bash$ echo $BASH_VERSION                                         
    2.04.12(1)-release                                               
                                                                     
   
$0, $1, $2, etc.
    positional parameters, passed from command line to script, passed to a
    function, or set to a variable (see Example 3-20 and Example 3-40)
   
$#
    number of command line arguments [2] or positional parameters (see 
    Example 2-4)
   
$$
    process id of script, often used in scripts to construct temp file names
    (see Example A-5 and Example 3-101)
   
$?
    exit status of command, function, or the script itself (see Example 3-1
    and Example 3-56)
   
$*
    All of the positional parameters, seen as a single word
   
$@
    Same as $*, but each parameter is a quoted string, that is, the
    parameters are passed on intact, without interpretation or expansion.
    This means, among other things, that each parameter in the argument list
    is seen as a separate word.
   
   
    Example 3-17. arglist: Listing arguments with $* and $@
    #!/bin/bash                                                           
    # Invoke this script with several arguments, such as "one two three". 
                                                                          
    if [ ! -n "$1" ]                                                      
    then                                                                  
      echo "Usage: `basename $0` argument1 argument2 etc."                
      exit 1                                                              
    fi                                                                    
                                                                          
                                                                          
    echo                                                                  
                                                                          
    index=1                                                               
                                                                          
    echo "Listing args with \"\$*\":"                                     
    for arg in "$*"  # Doesn't work properly if "$*" isn't quoted.        
    do                                                                    
      echo "Arg #$index = $arg"                                           
      let "index+=1"                                                      
    done   # $* sees all arguments as single word.                        
    echo "Entire arg list seen as single word."                           
                                                                          
    echo                                                                  
                                                                          
    index=1                                                               
                                                                          
    echo "Listing args with \"\$@\":"                                     
    for arg in "$@"                                                       
    do                                                                    
      echo "Arg #$index = $arg"                                           
      let "index+=1"                                                      
    done   # $@ sees arguments as separate words.                         
    echo "Arg list seen as separate words."                               
                                                                          
    echo                                                                  
                                                                          
    exit 0                                                                
   
    The $@ intrinsic variable finds use as a "general input filter" tool in
    shell scripts. The cat "$@" construction accepts input to a script either
    from stdin or from files given as parameters to the script. See Example
    3-59.
   
$-
    Flags passed to script
   
    +---------------------------------------------------------------+
    |                            Caution                            |
    +---------------------------------------------------------------+
    |This was originally a ksh construct adopted into Bash, and     |
    |unfortunately it does not seem to work reliably in Bash        |
    |scripts. One possible use for it is to have a script self-test |
    |whether it is interactive (see Section 3.29).                  |
    +---------------------------------------------------------------+
   
$!
    PID (process id) of last job run in background
   
variable assignment
    Initializing or changing the value of a variable
   
=
    the assignment operator (no space before & after)
   
    Do not confuse this with = and -eq, which test, rather than assign!
   
    +---------------------------------------------------------------+
    |                            Caution                            |
    +---------------------------------------------------------------+
    |= can be either an assignment or a test operator, depending on |
    |context.                                                       |
    +---------------------------------------------------------------+
   
   
    Example 3-18. Variable Assignment
    #!/bin/bash                                                      
                                                                     
    echo                                                             
                                                                     
    # When is a variable "naked", i.e., lacking the '$' in front?    
                                                                     
    # Assignment                                                     
    a=879                                                            
    echo "The value of \"a\" is $a"                                  
                                                                     
    # Assignment using 'let'                                         
    let a=16+5                                                       
    echo "The value of \"a\" is now $a"                              
                                                                     
    echo                                                             
                                                                     
    # In a 'for' loop (really, a type of disguised assignment)       
    echo -n "The values of \"a\" in the loop are "                   
    for a in 7 8 9 11                                                
    do                                                               
      echo -n "$a "                                                  
    done                                                             
                                                                     
    echo                                                             
    echo                                                             
                                                                     
    # In a 'read' statement                                          
    echo -n "Enter \"a\" "                                           
    read a                                                           
    echo "The value of \"a\" is now $a"                              
                                                                     
    echo                                                             
                                                                     
    exit 0                                                           
   
   
    Example 3-19. Variable Assignment, plain and fancy
    #!/bin/bash                                                      
                                                                     
    a=23                                                             
    # Simple case                                                    
    echo $a                                                          
    b=$a                                                             
    echo $b                                                          
                                                                     
    # Now, getting a little bit fancier...                           
                                                                     
    a=`echo Hello!`                                                  
    # Assigns result of 'echo' command to 'a'                        
    echo $a                                                          
                                                                     
    a=`ls -l`                                                        
    # Assigns result of 'ls -l' command to 'a'                       
    echo $a                                                          
                                                                     
    exit 0                                                           
   
    Variable assignment using the $() mechanism (a newer method than back
    quotes)
   
    # From /etc/rc.d/rc.local                                        
    R=$(cat /etc/redhat-release)                                     
    arch=$(uname -m)                                                 
   
local variables
    variables visible only within a code block or function (see Section 3.19)
   
environmental variables
    variables that affect the behavior of the shell and user interface, such
    as the path and the prompt
   
    If a script sets environmental variables, they need to be "exported",
    that is, reported to the environment local to the script. This is the
    function of the export command.
       
        Note: A script can export variables only to child processes, that is,
        only to commands or processes which that particular script initiates.
        A script invoked from the command line cannot export variables back
        to the command line environment. Child processes cannot export
        variables back to the parent processes that spawned them.
       
   
    ---
   
positional parameters
    arguments passed to the script from the command line - $0, $1, $2, $3...
    ($0 is the name of the script itself, $1 is the first argument, etc.)
   
   
    Example 3-20. Positional Parameters
    #!/bin/bash                                                      
                                                                     
    echo                                                             
                                                                     
    echo The name of this script is $0                               
    # Adds ./ for current directory                                  
    echo The name of this script is `basename $0`                    
    # Strip out path name info (see 'basename')                      
                                                                     
    echo                                                             
                                                                     
    if [ $1 ]                                                        
    then                                                             
     echo "Parameter #1 is $1"                                       
     # Need quotes to escape #                                       
    fi                                                               
                                                                     
    if [ $2 ]                                                        
    then                                                             
     echo "Parameter #2 is $2"                                       
    fi                                                               
                                                                     
    if [ $3 ]                                                        
    then                                                             
     echo "Parameter #3 is $3"                                       
    fi                                                               
                                                                     
    echo                                                             
                                                                     
    exit 0                                                           
   
    Some scripts can perform different operations, depending on which name
    they are invoked with. For this to work, the script needs to check $0,
    the name it was invoked by. There also have to be symbolic links present
    to all the alternate names of the same script.
       
        Note: If a script expects a command line parameter but is invoked
        without one, this may cause a null variable assignment, certainly an
        undesirable result. One way to prevent this is to append an extra
        character to both sides of the assignment statement using the
        expected positional parameter.
       
    variable1x=$1x                                                                
    # This will prevent an error, even if positional parameter is absent.         
                                                                                  
    # The extra character can be stripped off later, if desired, like so.         
    variable1=${variable1x/x/}                                                    
    # This uses one of the parameter substitution templates previously discussed. 
    # Leaving out the replacement pattern results in a deletion.                  
   
    ---
   
   
    Example 3-21. wh, whois domain name lookup
    #!/bin/bash                                                      
                                                                     
    # Does a 'whois domain-name' lookup                              
    # on any of 3 alternate servers:                                 
    # ripe.net, cw.net, radb.net                                     
                                                                     
    # Place this script, named 'wh' in /usr/local/bin                
                                                                     
    # Requires symbolic links:                                       
    # ln -s /usr/local/bin/wh /usr/local/bin/wh-ripe                 
    # ln -s /usr/local/bin/wh /usr/local/bin/wh-cw                   
    # ln -s /usr/local/bin/wh /usr/local/bin/wh-radb                 
                                                                     
                                                                     
    if [ -z $1 ]                                                     
    then                                                             
      echo "Usage: `basename $0` [domain-name]"                      
      exit 1                                                         
    fi                                                               
                                                                     
    case `basename $0` in                                            
    # Checks script name and calls proper server                     
        "wh"     ) whois $1@whois.ripe.net;;                         
        "wh-ripe") whois $1@whois.ripe.net;;                         
        "wh-radb") whois $1@whois.radb.net;;                         
        "wh-cw"  ) whois $1@whois.cw.net;;                           
        *        ) echo "Usage: `basename $0` [domain-name]";;       
    esac                                                             
                                                                     
    exit 0                                                           
   
    ---
   
    The shift command reassigns the positional parameters, in effect shifting
    them to the left one notch.
   
    $1 <--- $2, $2 <--- $3, $3 <--- $4, etc.
   
    The old $1 disappears, but $0 does not change. If you use a large number
    of positional parameters to a script, shift lets you access those past
    10.
   
   
    Example 3-22. Using shift
    #!/bin/bash                                                      
                                                                     
    # Name this script something like shift000,                      
    # and invoke it with some parameters, for example                
    # ./shift000 a b c def 23 skidoo                                 
                                                                     
    # Demo of using 'shift'                                          
    # to step through all the positional parameters.                 
                                                                     
    until [ -z "$1" ]                                                
    do                                                               
      echo -n "$1 "                                                  
      shift                                                          
    done                                                             
                                                                     
    echo                                                             
    # Extra line feed.                                               
                                                                     
    exit 0                                                           
   

-----------------------------------------------------------------------------
3.7.1. Typing variables: declare or typeset

The declare or typeset keywords (they are exact synonyms) permit restricting
the properties of variables. This is a very weak form of the typing available
in certain programming languages. The declare command is not available in
version 1 of bash.

-r readonly
    declare -r var1                                                  
   
    (declare -r var1 works the same as readonly var1)
   
    This is the rough equivalent of the C const type qualifier. An attempt to
    change the value of a readonly variable fails with an error message.
   
-i integer
    declare -i var2                                                  
   
    The script treats subsequent occurrences of var2 as an integer. Note that
    certain arithmetic operations are permitted for declared integer
    variables without the need for expr or let.
   
-a array
    declare -a indices                                               
   
    The variable indices will be treated as an array.
   
-f functions
    declare -f  # (no arguments)                                     
   
    A declare -f line within a script causes a listing of all the functions
    contained in that script.
   
-x export
    declare -x var3                                                  
   
    This declares a variable as available for exporting outside the
    environment of the script itself.
   

Example 3-23. Using declare to type variables
#!/bin/bash                                                                  
                                                                             
declare -f                                                                   
# Lists the function below.                                                  
                                                                             
func1 ()                                                                     
{                                                                            
echo This is a function.                                                     
}                                                                            
                                                                             
declare -r var1=13.36                                                        
echo "var1 declared as $var1"                                                
# Attempt to change readonly variable.                                       
var1=13.37                                                                   
# Generates error message.                                                   
echo "var1 is still $var1"                                                   
                                                                             
echo                                                                         
                                                                             
declare -i var2                                                              
var2=2367                                                                    
echo "var2 declared as $var2"                                                
var2=var2+1                                                                  
# Integer declaration eliminates the need for 'let'.                         
echo "var2 incremented by 1 is $var2."                                       
# Attempt to change variable declared as integer                             
echo "Attempting to change var2 to floating point value, 2367.1."            
var2=2367.1                                                                  
# results in error message, with no change to variable.                      
echo "var2 is still $var2"                                                   
                                                                             
exit 0                                                                       
-----------------------------------------------------------------------------

3.7.2. Indirect References to Variables

Assume that the value of a variable is the name of a second variable. Is it
somehow possible to retrieve the value of this second variable from the first
one? For example, if a=letter_of_alphabet and letter_of_alphabet=z, can a
reference to a return z? This can indeed be done, and it is called an 
indirect reference. It uses the unusual eval var1=\$$var2 notation.


Example 3-24. Indirect References
#!/bin/bash                                                                  
                                                                             
# Indirect variable referencing.                                             
                                                                             
                                                                             
a=letter_of_alphabet                                                         
letter_of_alphabet=z                                                         
                                                                             
# Direct reference.                                                          
echo "a = $a"                                                                
                                                                             
# Indirect reference.                                                        
eval a=\$$a                                                                  
echo "Now a = $a"                                                            
                                                                             
echo                                                                         
                                                                             
                                                                             
# Now, let's try changing the second order reference.                        
                                                                             
t=table_cell_3                                                               
table_cell_3=24                                                              
eval t=\$$t                                                                  
echo "t = $t"                                                                
# So far, so good.                                                           
                                                                             
table_cell_3=387                                                             
eval t=\$$t                                                                  
echo "Value of t changed to $t"                                              
# ERROR!                                                                     
# Cannot indirectly reference changed value of variable this way.            
# For this to work, must use ${!t} notation.                                 
                                                                             
                                                                             
exit 0                                                                       

+---------------------------------------------------------------------------+
|                                  Caution                                  |
+---------------------------------------------------------------------------+
|This method of indirect referencing has a weakness. If the second order    |
|variable changes its value, an indirect reference to the first order       |
|variable produces an error. Fortunately, this flaw has been fixed in the   |
|newer ${!variable} notation introduced with version 2 of Bash (see Example |
|3-103).                                                                    |
+---------------------------------------------------------------------------+
-----------------------------------------------------------------------------

3.7.3. $RANDOM: generate random integer

    Note: $RANDOM is an internal Bash function (not a constant) that returns
    a pseudorandom integer in the range 0 - 32767. $RANDOM should not be used
    to generate an encryption key.
   
Example 3-25. Generating random numbers
#!/bin/bash                                                                        
                                                                                   
# $RANDOM returns a different random integer at each invocation.                   
# Nominal range: 0 - 32767 (signed integer).                                       
                                                                                   
MAXCOUNT=10                                                                        
count=1                                                                            
                                                                                   
echo                                                                               
echo "$MAXCOUNT random numbers:"                                                   
echo "-----------------"                                                           
while [ $count -le $MAXCOUNT ]      # Generate 10 ($MAXCOUNT) random integers.     
do                                                                                 
  number=$RANDOM                                                                   
  echo $number                                                                     
  let "count += 1"  # Increment count.                                             
done                                                                               
echo "-----------------"                                                           
                                                                                   
# If you need a random int within a certain range, then use the 'modulo' operator. 
                                                                                   
RANGE=500                                                                          
                                                                                   
echo                                                                               
                                                                                   
number=$RANDOM                                                                     
let "number %= $RANGE"                                                             
echo "Random number less than $RANGE  -->  $number"                                
                                                                                   
echo                                                                               
                                                                                   
# If you need a random int greater than a lower bound,                             
# then set up a test to discard all numbers below that.                            
                                                                                   
FLOOR=200                                                                          
                                                                                   
number=0   #initialize                                                             
while [ $number -le $FLOOR ]                                                       
do                                                                                 
  number=$RANDOM                                                                   
done                                                                               
echo "Random number greater than $FLOOR -->  $number"                              
echo                                                                               
                                                                                   
                                                                                   
# May combine above two techniques to retrieve random number between two limits.   
number=0   #initialize                                                             
while [ $number -le $FLOOR ]                                                       
do                                                                                 
  number=$RANDOM                                                                   
  let "number %= $RANGE"                                                           
done                                                                               
echo "Random number between $FLOOR and $RANGE -->  $number"                        
echo                                                                               
                                                                                   
                                                                                   
# May generate binary choice, that is, "true" or "false" value.                    
BINARY=2                                                                           
number=$RANDOM                                                                     
let "number %= $BINARY"                                                            
if [ $number -eq 1 ]                                                               
then                                                                               
  echo "TRUE"                                                                      
else                                                                               
  echo "FALSE"                                                                     
fi                                                                                 
                                                                                   
echo                                                                               
                                                                                   
                                                                                   
# May generate toss of the dice.                                                   
SPOTS=7                                                                            
DICE=2                                                                             
die1=0                                                                             
die2=0                                                                             
                                                                                   
# Tosses each die separately, and so gives correct odds.                           
                                                                                   
  while [ $die1 -eq 0 ]   #Can't have a zero come up.                              
  do                                                                               
    let "die1 = $RANDOM % $SPOTS"                                                  
  done                                                                             
                                                                                   
  while [ $die2 -eq 0 ]                                                            
  do                                                                               
    let "die2 = $RANDOM % $SPOTS"                                                  
  done                                                                             
                                                                                   
let "throw = $die1 + $die2"                                                        
echo "Throw of the dice = $throw"                                                  
echo                                                                               
                                                                                   
                                                                                   
exit 0                                                                             

   
    Note: The variables $USER, $USERNAME, $LOGNAME, $MAIL, and $ENV are not
    Bash builtins. These are, however, often set as environmental variables
    in one of the Bash startup files (see Section 3.23). $SHELL is a readonly
    variable set from /etc/passwd and is likewise not a Bash builtin.
   
-----------------------------------------------------------------------------
3.8. Loops

A loop is a block of code that iterates (repeats) a list of commands as long
as the loop control condition is true.

for (in)
    This is the basic looping construct. It differs significantly from its C
    counterpart.
   
    for [arg] in [list]
    do
    command...
    done
   
    Note that list may contain wild cards.
   
    Note further that if do is on same line as for, there needs to be a
    semicolon before list.
   
    for [arg] in [list] ; do
   
   
    Example 3-26. Simple for loops
    #!/bin/bash                                                                  
                                                                                 
    for planet in Mercury Venus Earth Mars Jupiter Saturn Uranus Neptune Pluto   
    do                                                                           
      echo $planet                                                               
    done                                                                         
                                                                                 
    echo                                                                         
                                                                                 
    # Entire 'list' enclosed in quotes creates a single variable.                
    for planet in "Mercury Venus Earth Mars Jupiter Saturn Uranus Neptune Pluto" 
    do                                                                           
      echo $planet                                                               
    done                                                                         
                                                                                 
    exit 0                                                                       
       
        Note: Each [list] element may contain multiple parameters. This is
        useful when processing parameters in groups. In such cases, use the 
        set command (see Example 3-40) to force parsing of each [list]
        element and assignment of each component to the positional
        parameters.
       
   
   
    Example 3-27. for loop with two parameters in each [list] element
    #!/bin/bash                                                                      
    # Planets revisited.                                                             
                                                                                     
    # Want to associate name of each planet with its distance from the sun.          
                                                                                     
    for planet in "Mercury 36" "Venus 67" "Earth 93"  "Mars 142" "Jupiter 483"       
    do                                                                               
      set $planet  # Parses variable "planet" and sets positional parameters.        
      # May need to save original positional parameters, since they get overwritten. 
      echo "$1              $2,000,000 miles from the sun"                           
      #-------two  tabs---concatenate zeroes onto parameter $2                       
    done                                                                             
                                                                                     
    exit 0                                                                           
   
    Omitting the in [list] part of a for loop causes the loop to operate on $
    *, the list of arguments given on the command line to the script.
   
   
    Example 3-28. Missing in [list] in a for loop
    #!/bin/bash                                                      
                                                                     
    # Invoke both with and without arguments,                        
    # and see what happens.                                          
                                                                     
    for a                                                            
    do                                                               
     echo $a                                                         
    done                                                             
                                                                     
    # 'in list' missing, therefore operates on '$*'                  
    # (command-line argument list)                                   
                                                                     
    exit 0                                                           
   
   
    Example 3-29. Using efax in batch mode
    #!/bin/bash                                                      
                                                                     
    if [ $# -ne 2 ]                                                  
    # Check for proper no. of command line args.                     
    then                                                             
       echo "Usage: `basename $0` phone# text-file"                  
       exit 1                                                        
    fi                                                               
                                                                     
                                                                     
    if [ ! -f $2 ]                                                   
    then                                                             
      echo "File $2 is not a text file"                              
      exit 2                                                         
    fi                                                               
                                                                     
                                                                     
    # Create fax formatted files from text files.                    
    fax make $2                                                      
                                                                     
    for file in $(ls $2.0*)                                          
    # Concatenate the converted files.                               
    # Uses wild card in variable list.                               
    do                                                               
      fil="$fil $file"                                               
    done                                                             
                                                                     
    # Do the work.                                                   
    efax -d /dev/ttyS3 -o1 -t "T$1" $fil                             
                                                                     
    exit 0                                                           
   
while
    This construct tests for a condition at the top of a loop, and keeps
    looping as long as that condition is true.
   
    while [condition]
    do
    command...
    done
   
    As is the case with for/in loops, placing the do on the same line as the
    condition test requires a semicolon.
   
    while [condition] ; do
   
    Note that certain specialized while loops, as, for example, a getopts
    construct, deviate somewhat from the standard template given here (see 
    Section 3.9).
   
   
    Example 3-30. Simple while loop
    #!/bin/bash                                                      
                                                                     
    var0=0                                                           
                                                                     
    while [ "$var0" -lt 10 ]                                         
    do                                                               
      echo -n "$var0 "                                               
      # -n suppresses newline.                                       
      var0=`expr $var0 + 1`                                          
      # var0=$(($var0+1)) also works.                                
    done                                                             
                                                                     
    echo                                                             
                                                                     
    exit 0                                                           
   
   
    Example 3-31. Another while loop
    #!/bin/bash                                                                   
                                                                                  
    echo                                                                          
                                                                                  
    while [ "$var1" != end ]                                                      
    do                                                                            
      echo "Input variable #1 (end to exit) "                                     
      read var1                                                                   
      # It's not 'read $var1' because value of var1 is being set.                 
      echo "variable #1 = $var1"                                                  
      # Need quotes because of #                                                  
      echo                                                                        
    done                                                                          
                                                                                  
    # Note: Echoes 'end' because termination condition tested for at top of loop. 
                                                                                  
    exit 0                                                                        
       
        Note: A while loop may have multiple conditions. Only the final
        condition determines when the loop terminates. This necessitates a
        slightly different loop syntax, however.
       
   
   
    Example 3-32. while loop with multiple conditions
    #!/bin/bash                                                           
                                                                          
    var1=unset                                                            
    previous=$var1                                                        
                                                                          
    while echo "previous-variable = $previous"                            
          echo                                                            
          previous=$var1                                                  
          [ "$var1" != end ] # Keeps track of what "var1" was previously. 
          # Four conditions on "while", but only last one controls loop.  
          # Controlling condition has [ test ] brackets.                  
    do                                                                    
    echo "Input variable #1 (end to exit) "                               
      read var1                                                           
      echo "variable #1 = $var1"                                          
    done                                                                  
                                                                          
    # Try to figure out how this all works.                               
    # It's a wee bit tricky.                                              
                                                                          
    exit 0                                                                
       
        Note: A while loop may have its stdin redirected to a file by a < at
        its end (see Example 3-73).
       
   
until
    This construct tests for a condition at the top of a loop, and keeps
    looping as long as that condition is false (opposite of while loop).
   
    until [condition-is-true]
    do
    command...
    done
   
    Note that an until loop tests for the terminating condition at the top of
    the loop, differing from a similar construct in some programming
    languages.
   
    As is the case with for/in loops, placing the do on the same line as the
    condition test requires a semicolon.
   
    until [condition-is-true] ; do
   
   
    Example 3-33. until loop
    #!/bin/bash                                                      
                                                                     
    until [ "$var1" = end ]                                          
    # Tests condition at top of loop.                                
    do                                                               
      echo "Input variable #1 "                                      
      echo "(end to exit)"                                           
      read var1                                                      
      echo "variable #1 = $var1"                                     
    done                                                             
                                                                     
    exit 0                                                           
   
break, continue
    The break and continue loop control commands correspond exactly to their
    counterparts in other programming languages. The break command terminates
    the loop (breaks out of it), while continue causes a jump to the next
    iteration of the loop, skipping all the remaining commands in that
    particular loop cycle.
   
   
    Example 3-34. Effects of break and continue in a loop
    #!/bin/bash                                                        
                                                                       
    echo                                                               
    echo Printing Numbers 1 through 20.                                
                                                                       
    a=0                                                                
                                                                       
    while [ $a -le 19 ]                                                
                                                                       
    do                                                                 
     a=$(($a+1))                                                       
                                                                       
     if [ $a -eq 3 ] || [ $a -eq 11 ]                                  
     # Excludes 3 and 11                                               
     then                                                              
       continue                                                        
       # Skip rest of this particular loop iteration.                  
     fi                                                                
                                                                       
     echo -n "$a "                                                     
    done                                                               
                                                                       
    # Exercise for reader:                                             
    # Why does loop print up to 20?                                    
                                                                       
    echo                                                               
    echo                                                               
                                                                       
    echo Printing Numbers 1 through 20, but something happens after 2. 
                                                                       
    ################################################################## 
                                                                       
    # Same loop, but substituting 'break' for 'continue'.              
                                                                       
    a=0                                                                
                                                                       
    while [ $a -le 19 ]                                                
    do                                                                 
     a=$(($a+1))                                                       
                                                                       
     if [ $a -gt 2 ]                                                   
     then                                                              
       break                                                           
       # Skip entire rest of loop.                                     
     fi                                                                
                                                                       
     echo -n "$a "                                                     
    done                                                               
                                                                       
    echo                                                               
    echo                                                               
                                                                       
    exit 0                                                             
   
case (in) / esac
    The case construct is the shell equivalent of switch in C/C++. It permits
    branching to one of a number of code blocks, depending on condition
    tests. It serves as a kind of shorthand for multiple if/then/else
    statements and is an appropriate tool for creating menus.
   
    case "$variable" in
   
    "$condition1" )
    command...
    ;;
   
    "$condition2" )
    command...
    ;;
   
    esac
       
        Note:
       
        oQuoting the variables is recommended.
           
        oEach test line ends with a left paren ).
           
        oEach condition block ends with a double semicolon ;;.
           
        oThe entire case block terminates with an esac (case spelled
            backwards).
           
       
   
   
    Example 3-35. Using case
    #!/bin/bash                                                      
                                                                     
    echo                                                             
    echo "Hit a key, then hit return."                               
    read Keypress                                                    
                                                                     
    case "$Keypress" in                                              
      [a-z]   ) echo "Lowercase letter";;                            
      [A-Z]   ) echo "Uppercase letter";;                            
      [0-9]   ) echo "Digit";;                                       
      *       ) echo "Punctuation, whitespace, or other";;           
    esac                                                             
    # Allows ranges of characters in [square brackets].              
                                                                     
    exit 0                                                           
   
   
    Example 3-36. Creating menus using case
    #!/bin/bash                                                      
                                                                     
    # Crude rolodex-type database                                    
                                                                     
    clear                                                            
    # Clear the screen.                                              
                                                                     
    echo "          Contact List"                                    
    echo "          ------- ----"                                    
    echo "Choose one of the following persons:"                      
    echo                                                             
    echo "[E]vans, Roland"                                           
    echo "[J]ones, Mildred"                                          
    echo "[S]mith, Julie"                                            
    echo "[Z]ane, Morris"                                            
    echo                                                             
                                                                     
    read person                                                      
                                                                     
    case "$person" in                                                
    # Note variable is quoted.                                       
                                                                     
      "E" | "e" )                                                    
      # Accept upper or lowercase input.                             
      echo                                                           
      echo "Roland Evans"                                            
      echo "4321 Floppy Dr."                                         
      echo "Hardscrabble, CO 80753"                                  
      echo "(303) 734-9874"                                          
      echo "(303) 734-9892 fax"                                      
      echo "revans@zzy.net"                                          
      echo "Business partner & old friend"                           
      ;;                                                             
    # Note double semicolon to terminate                             
    # each option.                                                   
                                                                     
      "J" | "j" )                                                    
      echo                                                           
      echo "Mildred Jones"                                           
      echo "249 E. 7th St., Apt. 19"                                 
      echo "New York, NY 10009"                                      
      echo "(212) 533-2814"                                          
      echo "(212) 533-9972 fax"                                      
      echo "milliej@loisaida.com"                                    
      echo "Girlfriend"                                              
      echo "Birthday: Feb. 11"                                       
      ;;                                                             
                                                                     
    # Add info for Smith & Zane later.                               
                                                                     
              * )                                                    
       # Default option.                                             
       echo                                                          
       echo "Not yet in database."                                   
      ;;                                                             
                                                                     
                                                                     
    esac                                                             
                                                                     
    echo                                                             
                                                                     
    exit 0                                                           
   
select
    The select construct, adopted from the Korn Shell, is yet another tool
    for building menus.
   
    select variable [in list]
    do
    command...
    break
    done
   
    This prompts the user to enter one of the choices presented in the
    variable list. Note that select uses the PS3 prompt (#? ) by default, but
    that this may be changed.
   
   
    Example 3-37. Creating menus using select
    #!/bin/bash                                                           
                                                                          
    PS3='Choose your favorite vegetable: '                                
    # Sets the prompt string.                                             
                                                                          
    echo                                                                  
                                                                          
    select vegetable in "beans" "carrots" "potatoes" "onions" "rutabagas" 
    do                                                                    
      echo                                                                
      echo "Your favorite veggie is $vegetable."                          
      echo "Yuck!"                                                        
      echo                                                                
      break                                                               
      # if no 'break' here, keeps looping forever.                        
    done                                                                  
                                                                          
    exit 0                                                                
   
    If in list is omitted, then select uses the list of command line
    arguments ($@) passed to the script or to the function in which the 
    select construct is embedded. (Compare this to the behavior of a
   
    for variable [in list]
    construct with the in list omitted.)
   
   
    Example 3-38. Creating menus using select in a function
    #!/bin/bash                                                         
                                                                        
    PS3='Choose your favorite vegetable: '                              
                                                                        
    echo                                                                
                                                                        
    choice_of()                                                         
    {                                                                   
    select vegetable                                                    
    # [in list] omitted, so 'select' uses arguments passed to function. 
    do                                                                  
      echo                                                              
      echo "Your favorite veggie is $vegetable."                        
      echo "Yuck!"                                                      
      echo                                                              
      break                                                             
    done                                                                
    }                                                                   
                                                                        
    choice_of beans rice carrots radishes tomatoes spinach              
    #         $1    $2   $3      $4       $5       $6                   
    #         passed to choice_of() function                            
                                                                        
    exit 0                                                              
   

-----------------------------------------------------------------------------
3.9. Internal Commands and Builtins

A builtin is a command contained in the bash tool set, literally built in.

getopts
    This powerful tool parses command line arguments passed to the script.
    This is the bash analog of the getopt library function familiar to C
    programmers. It permits passing and concatenating multiple flags[3] and
    options to a script (for example scriptname -abc -e /usr/local).
   
    The getopts construct uses two implicit variables. $OPTIND is the
    argument pointer (OPTion INDex) and $OPTARG (OPTion ARGument) the
    (optional) argument attached to a flag. A colon following the flag name
    in the declaration tags that flag as having an option.
   
    A getopts construct usually comes packaged in a while loop, which
    processes the flags and options one at a time, then decrements the
    implicit $OPTIND variable to step to the next.
       
        Note:
       
         1. The arguments must be passed from the command line to the script
            preceded by a minus (-) or a plus (+), else getopts will not
            process them, and will, in fact, terminate option processing at
            the first argument encountered lacking these modifiers.
           
         2. The getopts template differs slightly from the standard while
            loop, in that it lacks condition brackets.
           
         3. The getopts construct replaces the obsolete getopt command.
           
       
   
    while getopts ":abcde:fg" Option                                    
    # Initial declaration.                                              
    # a, b, c, d, e, f, and g are the flags expected.                   
    # The : after flag 'e' shows it will have an option passed with it. 
    do                                                                  
      case $Option in                                                   
        a ) # Do something with variable 'a'.                           
        b ) # Do something with variable 'b'.                           
        ...                                                             
        e)  # Do something with 'e', and also with $OPTARG,             
            # which is the associated argument passed with 'e'.         
        ...                                                             
        g ) # Do something with variable 'g'.                           
      esac                                                              
    done                                                                
    shift $(($OPTIND - 1))                                              
    # Move argument pointer to next.                                    
                                                                        
    # All this is not nearly as complicated as it looks <grin>.         
                                                                        
   
   
    Example 3-39. Using getopts to read the flags/options passed to a script
    #!/bin/bash                                                             
                                                                            
    # 'getopts' processes command line args to script.                      
                                                                            
    # Usage: scriptname -options                                            
    # Note: dash (-) necessary                                              
                                                                            
    # Try invoking this script with                                         
    # 'scriptname -mn'                                                      
    # 'scriptname -oq qOption'                                              
    # (qOption can be some arbitrary string.)                               
                                                                            
    OPTERROR=33                                                             
                                                                            
    if [ -z $1 ]                                                            
    # Exit and complain if no argument(s) given.                            
    then                                                                    
      echo "Usage: `basename $0` options (-mnopqrs)"                        
      exit $OPTERROR                                                        
    fi                                                                      
                                                                            
    while getopts ":mnopq:rs" Option                                        
    do                                                                      
      case $Option in                                                       
        m     ) echo "Scenario #1: option -m-";;                            
        n | o ) echo "Scenario #2: option -$Option-";;                      
        p     ) echo "Scenario #3: option -p-";;                            
        q     ) echo "Scenario #4: option -q-, with argument \"$OPTARG\"";; 
        # Note that option 'q' must have an additional argument,            
        # otherwise nothing happens.                                        
        r | s ) echo "Scenario #5: option -$Option-"'';;                    
        *     ) echo "Unimplemented option chosen.";;                       
      esac                                                                  
    done                                                                    
                                                                            
    shift $(($OPTIND - 1))                                                  
    # Decrements the argument pointer                                       
    # so it points to next argument.                                        
                                                                            
    exit 0                                                                  
   
exit
    Unconditionally terminates a script. The exit command may optionally take
    an integer argument, which is returned to the shell as the exit status of
    the script. It is a good practice to end all but the simplest scripts
    with an exit 0, indicating a successful run.
   
set
    The set command changes the value of internal script variables. One use
    for this is to toggle option flags which help determine the behavior of
    the script (see Section 3.27). Another application for it is to reset the
    positional parameters that a script sees as the result of a command (set
    `command`). The script can then parse the fields of the command output.
   
   
    Example 3-40. Using set with positional parameters
    #!/bin/bash                                                      
                                                                     
    # script "set-test"                                              
                                                                     
    # Invoke this script with three command line parameters,         
    # for example, "./set-test one two three".                       
                                                                     
    echo                                                             
    echo "Positional parameters before  set \`uname -a\` :"          
    echo "Command-line argument #1 = $1"                             
    echo "Command-line argument #2 = $2"                             
    echo "Command-line argument #3 = $3"                             
                                                                     
    echo                                                             
                                                                     
    set `uname -a`                                                   
    # Sets the positional parameters to the output                   
    # of the command `uname -a`                                      
                                                                     
    echo "Positional parameters after  set \`uname -a\` :"           
    # $1, $2, $3, etc. reinitialized to result of `uname -a`         
    echo "Field #1 of 'uname -a' = $1"                               
    echo "Field #2 of 'uname -a' = $2"                               
    echo "Field #3 of 'uname -a' = $3"                               
    echo                                                             
                                                                     
    exit 0                                                           
   
unset
    The unset command deletes an internal script variable. It is a way of
    negating a previous set. Note that this command does not affect
    positional parameters.
   
export
    The export command makes available variables to all child processes of
    the running script or shell. Unfortunately, there is no way to export
    variables back to the parent process, to the process that called or
    invoked the script or shell. One important use of export command is in
    startup files, to initialize and make accessible environmental variables
    to subsequent user processes (see Section 3.23).
       
        Note: It is possible to initialize and export variables in the same
        operation, as in export var1=xxx.
       
   
readonly
    Same as declare -r, sets a variable as read-only, or, in effect, as a
    constant. Attempts to change the variable fail with an error message.
    This is the shell analog of the C language const type qualifier.
   
basename
    Strips the path information from a file name, printing only the file
    name. The construction basename $0 lets the script know its name, that
    is, the name it was invoked by. This can be used for "usage" messages if,
    for example a script is called with missing arguments:
    echo "Usage: `basename $0` arg1 arg2 ... argn"                   
   
dirname
    Strips the basename from a file name, printing only the path information.
       
        Note: basename and dirname can operate on any arbitrary string. The
        filename given as an argument does not need to refer to an existing
        file.
       
   
   
    Example 3-41. basename and dirname
    #!/bin/bash                                                          
                                                                         
    a=/home/heraclius/daily-journal.txt                                  
                                                                         
    echo "Basename of /home/heraclius/daily-journal.txt = `basename $a`" 
    echo "Dirname of /home/heraclius/daily-journal.txt = `dirname $a`"   
                                                                         
    exit 0                                                               
   
read
    "Reads" the value of a variable from stdin, that is, interactively
    fetches input from the keyboard. The -a option lets read get array
    variables (see Example 3-90).
   
   
    Example 3-42. Variable assignment, using read
    #!/bin/bash                                                                               
                                                                                              
    echo -n "Enter the value of variable 'var1': "                                            
    # -n option to echo suppresses newline                                                    
                                                                                              
    read var1                                                                                 
    # Note no '$' in front of var1, since it is being set.                                    
                                                                                              
    echo "var1 = $var1"                                                                       
                                                                                              
                                                                                              
    # Note that a single 'read' statement can set multiple variables.                         
                                                                                              
    echo                                                                                      
                                                                                              
    echo -n "Enter the values of variables 'var2' and 'var3' (separated by a space or tab): " 
    read var2 var3                                                                            
    echo "var2 = $var2      var3 = $var3"                                                     
    # If you input only one value, the other variable(s) will remain unset (null).            
                                                                                              
    exit 0                                                                                    
   
    The read command may also "read" its variable value from a file
    redirected to stdin (see Section 3.13). If the file contains more than
    one line, only the first line is assigned to the variable. If there is
    more than one parameter to the read, then each variable gets assigned a
    successive whitespace delineated string. Caution!
   
    read var1 <data-file                                                              
    echo "var1 = $var1"                                                               
    # var1 set to the entire first line of the input file "data-file"                 
                                                                                      
    read var2 var3 <data-file                                                         
    echo "var2 = $var2   var3 = $var3"                                                
    # Note inconsistent behavior of "read" here.                                      
    # 1) Rewinds back to the beginning of input file.                                 
    # 2) Each variable is now set to a corresponding string, separated by whitespace, 
    #    rather than to an entire line of text.                                       
    # 3) The final variable gets the remainder of the line.                           
    # 4) If there are more variables to be set than whitespace-terminated strings     
    #    on the first line of the file, then the excess variable remain unset.        
   
true
    A command that returns a successful (zero) exit status, but does nothing
    else.
   
    # Endless loop                                                   
    while true                                                       
    # alias for :                                                    
    do                                                               
       operation-1                                                   
       operation-2                                                   
       ...                                                           
       operation-n                                                   
       # Need a way to break out of loop.                            
    done                                                             
   
false
    A command that returns an unsuccessful exit status, but does nothing
    else.
   
    # Null loop                                                      
    while false                                                      
    do                                                               
       # The following code will not execute.                        
       operation-1                                                   
       operation-2                                                   
       ...                                                           
       operation-n                                                   
       # Nothing happens!                                            
    done                                                             
   
factor
    Factor an integer into prime factors.
   
    bash$ factor 27417                                               
    27417: 3 13 19 37                                                
                                                                     
   
hash [cmds]
    Record the path name of specified commands (in the shell hash table), so
    the shell or script will not need to search the $PATH on subsequent calls
    to those commands. When hash is called with no arguments, it simply lists
    the commands that have been hashed.
   
pwd
    Print Working Directory. This gives the user's (or script's) current
    directory (see Example 3-43). The effect is identical to reading the
    value of the builtin variable $PWD (see Section 3.7).
   
pushd, popd, dirs
    This command set is a mechanism for bookmarking working directories, a
    means of moving back and forth through directories in an orderly manner.
    A pushdown stack is used to keep track of directory names. Options allow
    various manipulations of the directory stack.
   
    pushd dir-name pushes the path dir-name onto the directory stack and
    simultaneously changes the current working directory to dir-name
   
    popd removes (pops) the top directory path name off the directory stack
    and simultaneously changes the current working directory to that
    directory popped from the stack.
   
    dirs lists the contents of the directory stack (counterpart to $DIRSTACK,
    see below). A successful pushd or popd will automatically invoke dirs.
   
    Scripts that require various changes to the current working directory
    without hard-coding the directory name changes can make good use of these
    commands. Note that the implicit $DIRSTACK array variable, accessible
    from within a script, holds the contents of the directory stack.
   
   
    Example 3-43. Changing the current working directory
    #!/bin/bash                                                      
                                                                     
    dir1=/usr/local                                                  
    dir2=/var/spool                                                  
                                                                     
    pushd $dir1                                                      
    # Will do an automatic 'dirs'                                    
    # (list directory stack to stdout).                              
    echo "Now in directory `pwd`."                                   
    # Uses back-quoted 'pwd'.                                        
    # Now, do some stuff in directory 'dir1'.                        
    pushd $dir2                                                      
    echo "Now in directory `pwd`."                                   
    # Now, do some stuff in directory 'dir2'.                        
    echo "The top entry in the DIRSTACK array is $DIRSTACK."         
    popd                                                             
    echo "Now back in directory `pwd`."                              
    # Now, do some more stuff in directory 'dir1'.                   
    popd                                                             
    echo "Now back in original working directory `pwd`."             
                                                                     
    exit 0                                                           
   
source, . (dot command), dirs
    This command, when invoked from the command line, executes a script.
    Within a script, a source file-name loads the file file-name. This is the
    shell scripting equivalent of a C/C++ #include directive. It is useful in
    situations when multiple scripts use a common data file or function
    library.
   
   
    Example 3-44. "Including" a data file
    #!/bin/bash                                                        
                                                                       
    # Load a data file.                                                
    . data-file                                                        
    # Same effect as "source data-file"                                
                                                                       
    # Note that the file "data-file", given below                      
    # must be present in working directory.                            
                                                                       
    # Now, reference some data from that file.                         
                                                                       
    echo "variable1 (from data-file) = $variable1"                     
    echo "variable3 (from data-file) = $variable3"                     
                                                                       
    let "sum = $variable2 + $variable4"                                
    echo "Sum of variable2 + variable4 (from data-file) = $sum"        
    echo "message1 (from data-file) is \"$message1\""                  
    # Note:                            escaped quotes                  
                                                                       
    print_message This is the message-print function in the data-file. 
                                                                       
                                                                       
    exit 0                                                             
   
    File data-file for Example 3-44, above. Must be present in same
    directory.
    # This is a data file loaded by a script.                            
    # Files of this type may contain variables, functions, etc.          
    # It may be loaded with a 'source' or '.' command by a shell script. 
                                                                         
    # Let's initialize some variables.                                   
                                                                         
    variable1=22                                                         
    variable2=474                                                        
    variable3=5                                                          
    variable4=97                                                         
                                                                         
    message1="Hello, how are you?"                                       
    message2="Enough for now. Goodbye."                                  
                                                                         
    print_message ()                                                     
    {                                                                    
    # Echoes any message passed to it.                                   
                                                                         
      if [ -z $1 ]                                                       
      then                                                               
        return 1                                                         
        # Error, if argument missing.                                    
      fi                                                                 
                                                                         
      echo                                                               
                                                                         
      until [ -z "$1" ]                                                  
      do                                                                 
        # Step through arguments passed to function.                     
        echo -n "$1"                                                     
        # Echo args one at a time, suppressing line feeds.               
        echo -n " "                                                      
        # Insert spaces between words.                                   
        shift                                                            
        # Next one.                                                      
      done                                                               
                                                                         
      echo                                                               
                                                                         
      return 0                                                           
    }                                                                    
   

-----------------------------------------------------------------------------
3.9.1. Job Control Commands

ps
    Lists currently executing jobs by owner and 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 3-51).
    bash$  ps ax | grep sendmail                                          
    295 ?      S      0:00 sendmail: accepting connections on port 25     
   
wait
    Stop script execution until all jobs running in background have
    terminated, or until the job number specified as an option terminates.
    Sometimes used to prevent a script from exiting before a background job
    finishes executing (this would create a dreaded orphan process).
   
   
    Example 3-45. Waiting for a process to finish before proceeding
    #!/bin/bash                                                          
                                                                         
    if [ -z $1 ]                                                         
    then                                                                 
      echo "Usage: `basename $0` find-string"                            
      exit 1                                                             
    fi                                                                   
                                                                         
    echo "Updating 'locate' database..."                                 
    echo "This may take a while."                                        
    updatedb /usr &                                                      
    # Must be run as root.                                               
                                                                         
    wait                                                                 
    # Don't run the rest of the script until 'updatedb' finished.        
    # You want the the database updated before looking up the file name. 
                                                                         
    locate $1                                                            
                                                                         
    # Lacking the wait command, in the worse case scenario,              
    # the script would exit while 'updatedb' was still running,          
    # leaving it as an orphan process.                                   
                                                                         
    exit 0                                                               
   
suspend
    This has the same effect as Control-Z, pausing a foreground job.
   
stop
    This has the same effect as suspend, but for a background job.
   
disown
    Remove job(s) from the shell's table of active jobs.
   
jobs
    Lists the jobs running in the background, giving the job number. Not as
    useful as ps.
   
times
    Gives statistics on the system time used in executing commands, in the
    following form:
    0m0.020s 0m0.020s                                                
    This capability is of very limited value, since it is uncommon to profile
    and benchmark shell scripts.
   
kill
    Forcibly terminate a process by sending it an appropriate terminate
    signal (see Example 3-69).
       
        Note: kill -l lists all the "signals". (See Section 3.26 for more
        detail on signals).
       
   
command
    The command directive disables aliases and functions. This leaves only
    shell builtins, system commands, and commands and scripts accessible via
    $PATH.
       
        Note: This is one of three shell directives that effect script
        command processing. The others are builtin and enable, see below.
       
   
builtin
    This disables both functions and commands in the $PATH, leaving only
    shell builtins accessible.
   
enable
    This either enables or disables a shell builtin command. As an example, 
    enable -n kill disables the shell builtin kill, so that when Bash
    subsequently encounters kill, it invokes /bin/kill. The -a option lists
    all the shell builtins, indicating whether or not they are enabled.
   

-----------------------------------------------------------------------------
3.10. External Filters, Programs and Commands

This is a descriptive listing of standard UNIX commands useful in shell
scripts. The power of scripts comes from coupling system commands and shell
directives with simple programming constructs.
-----------------------------------------------------------------------------

3.10.1. Basic Commands

echo
    prints (to stdout) an expression or variable (see Example 3-5).
    echo Hello                                                       
    echo $a                                                          
   
    Normally, each echo command prints a terminal newline, but the -n option
    suppresses this.
   
ls
    The basic file "list" command. It is all too easy to underestimate the
    power of this humble command. For example, using the -R, recursive
    option, ls provides a tree-like listing of a directory structure.
   
   
    Example 3-46. Using ls to create a table of contents for burning a CDR
    disk
    #!/bin/bash                                                          
                                                                         
    # Script to automate burning a CDR.                                  
                                                                         
    # Uses Joerg Schilling's "cdrecord" package                          
    # (http://www.fokus.gmd.de/nthp/employees/schilling/cdrecord.html)   
                                                                         
    # If this script invoked as an ordinary user, need to suid cdrecord  
    # (chmod u+s /usr/bin/cdrecord, as root).                            
                                                                         
    if [ -z $1 ]                                                         
    then                                                                 
      IMAGE_DIRECTORY=/opt                                               
    # Default directory, if not specified on command line.               
    else                                                                 
        IMAGE_DIRECTORY=$1                                               
    fi                                                                   
                                                                         
    ls -lRF $IMAGE_DIRECTORY > $IMAGE_DIRECTORY/contents                 
    # The "l" option gives a "long" file listing.                        
    # The "R" option makes the listing recursive.                        
    # The "F" option marks the file types (directories suffixed by a /). 
    echo "Creating table of contents."                                   
                                                                         
    mkisofs -r -o cdimage.iso $IMAGE_DIRECTORY                           
    echo "Creating ISO9660 file system image (cdimage.iso)."             
                                                                         
    cdrecord -v -isosize speed=2 dev=0,0 cdimage.iso                     
    # Change speed parameter to speed of your burner.                    
    echo "Burning the disk."                                             
    echo "Please be patient, this will take a while."                    
                                                                         
    exit 0                                                               
   
cat, tac
    cat, an acronym for concatenate, lists a file to stdout. When combined
    with redirection (> or >>), it is commonly used to concatenate files.
    cat filename                                                     
                  cat file.1 file.2 file.3 > file.123                
    The -n option to cat inserts consecutive numbers before each line of the
    target file(s).
   
    tac, is the inverse of cat, listing a file backwards from its end.
   
rev
    reverses each line of a file, and outputs to stdout. This is not the same
    effect as tac, as it preserves the order of the lines, but flips each one
    around.
   
    bash$ cat file1.txt                                              
    This is line 1.                                                  
     This is line 2.                                                 
                                                                     
   
    bash$ tac file1.txt                                              
    This is line 2.                                                  
     This is line 1.                                                 
                                                                     
   
    bash$ rev file1.txt                                              
    .1 enil si sihT                                                  
     .2 enil si sihT                                                 
                                                                     
   
cd
    The familiar cd change directory command finds use in scripts where
    execution of a command requires being in a specified directory.
    (cd /source/directory && tar cf - . ) | (cd /dest/directory && tar xvfp -)
    [from the previously cited example by Alan Cox]
   
cp
    This is the file copy command. cp file1 file2 copies file1 to file2,
    overwriting file2 if it already exists (see Example 3-49).
   
mv
    This is the file move command. It is equivalent to a combination of cp
    and rm. It may be used to move multiple files to a directory. For some
    examples of using mv in a script, see Example 3-7 and Example A-2.
   
rm
    Delete (remove) a file or files. The -f forces removal of even readonly
    files.
   
    +---------------------------------------------------------------+
    |                            Warning                            |
    +---------------------------------------------------------------+
    |When used with the recursive flag -r, this command removes     |
    |files all the way down the directory tree.                     |
    +---------------------------------------------------------------+
   
rmdir
    Remove directory. The directory must be empty of all files, including
    dotfiles, for this command to succeed.
   
mkdir
    Make directory, creates a new directory. mkdir -p project/programs/
    December creates the named directory. The -p option automatically creates
    any necessary parent directories.
   
chmod
    Changes the attributes of an existing file (see Example 3-51).
   
    chmod +x filename                                                
    # Makes "filename" executable for all users.                     
   
    chmod 644 filename                                               
    # Makes "filename" readable/writable to owner, readable to       
    # others                                                         
    # (octal mode).                                                  
   
    chmod 1777 directory-name                                          
    # Gives everyone read, write, and execute permission in directory, 
    # however also sets the "sticky bit", which means that             
    # only the directory owner can change files in the directory.      
   
chattr
    Change file attributes. This has the same effect as chmod above, but with
    a different invocation syntax.
   
ln
    Creates links to pre-existings files. Most often used with the -s,
    symbolic or "soft" link flag. This permits referencing the linked file by
    more than one name and is a superior alternative to aliasing (see Example
    3-21).
   
    ln -s oldfile newfile links the previously existing oldfile to the newly
    created link, newfile.
   

-----------------------------------------------------------------------------
3.10.2. Complex Commands

find
    exec COMMAND \;
   
    Carries out COMMAND on each file that find scores a hit on. COMMAND
    terminates with \; (the ; is escaped to make certain the shell passes it
    to find literally, which concludes the command sequence). If COMMAND
    contains {}, then find substitutes the full path name of the selected
    file.
   
   
    Example 3-47. Badname, eliminate file names in current directory
    containing bad characters and white space.
    #!/bin/bash                                                                 
                                                                                
    # Delete filenames in current directory containing bad characters.          
                                                                                
    for filename in *                                                           
    do                                                                          
    badname=`echo "$filename" | sed -n /[\+\{\;\"\\\=\?~\(\)\<\>\&\*\|\$]/p`    
    # Files containing those nasties:   + { ; " \ = ? ~ ( ) < > & * | $         
    rm $badname 2>/dev/null                                                     
    #           So error messages deep-sixed.                                   
    done                                                                        
                                                                                
    # Now, take care of files containing all manner of whitespace.              
    find . -name "* *" -exec rm -f {} \;                                        
    # The path name of the file that "find" finds replaces the "{}".            
    # The '\' ensures that the ';' is interpreted literally, as end of command. 
                                                                                
    exit 0                                                                      
   
    See the man page for find for more detail.
   
xargs
    A filter for feeding arguments to a command, and also a tool for
    assembling the commands themselves. It breaks a data stream into small
    enough chunks for filters and commands to process. Consider it as a
    powerful replacement for backquotes. In situations where backquotes fail
    with a too many arguments error, substituting xargs often works.
    Normally, xargs reads from 'stdin' or from a pipe, but it can also be
    given the output of a file.
   
    ls | xargs -p -l gzip gzips every file in current directory, one at a
    time, prompting before each operation.
   
    One of the more interesting xargs options is -n XX, which limits the
    number of arguments passed to XX.
   
    ls | xargs -n 8 echo lists the files in the current directory in 8
    columns.
       
        Note: The default command for xargs is echo.
       
   
   
    Example 3-48. Log file using xargs to monitor system log
    #!/bin/bash                                                                          
                                                                                         
    # Generates a log file in current directory                                          
    # from the tail end of /var/log messages.                                            
                                                                                         
    # Note: /var/log/messages must be readable by ordinary users                         
    #       if invoked by same (#root chmod 755 /var/log/messages).                      
                                                                                         
    ( date; uname -a ) >>logfile                                                         
    # Time and machine name                                                              
    echo --------------------------------------------------------------------- >>logfile 
    tail -5 /var/log/messages | xargs |  fmt -s >>logfile                                
    echo >>logfile                                                                       
    echo >>logfile                                                                       
                                                                                         
    exit 0                                                                               
   
   
    Example 3-49. copydir, copying files in current directory to another,
    using xargs
    #!/bin/bash                                                      
                                                                     
    # Copy (verbose) all files in current directory                  
    # to directory specified on command line.                        
                                                                     
    if [ -z $1 ]                                                     
    # Exit if no argument given.                                     
    then                                                             
      echo "Usage: `basename $0` directory-to-copy-to"               
      exit 1                                                         
    fi                                                               
                                                                     
    ls . | xargs -i -t cp ./{} $1                                    
    # This is the exact equivalent of                                
    # cp * $1                                                        
                                                                     
    exit 0                                                           
   
eval arg1, arg2, ...
    Translates into commands the arguments in a list (useful for code
    generation within a script).
   
   
    Example 3-50. Showing the effect of eval
    #!/bin/bash                                                      
                                                                     
    y=`eval ls -l`                                                   
    echo $y                                                          
                                                                     
    y=`eval df`                                                      
    echo $y                                                          
    # Note that LF's not preserved                                   
                                                                     
    exit 0                                                           
   
   
    Example 3-51. Forcing a log-off
    #!/bin/bash                                                      
                                                                     
    y=`eval ps ax | sed -n '/ppp/p' | awk '{ print $1 }'`            
    # Finding the process number of 'ppp'                            
                                                                     
    kill -9 $y                                                       
    # Killing it                                                     
                                                                     
                                                                     
    # Restore to previous state...                                   
                                                                     
    chmod 666 /dev/ttyS3                                             
    # Doing a SIGKILL on ppp changes the permissions                 
    # on the serial port. Must be restored.                          
                                                                     
    rm /var/lock/LCK..ttyS3                                          
    # Remove the serial port lock file.                              
                                                                     
    exit 0                                                           
   
expr arg1 operation arg2 ...
    All-purpose expression evaluator: Concatenates and evaluates the
    arguments according to the operation given (arguments must be separated
    by spaces). Operations may be arithmetic, comparison, string, or logical.
   
    expr 3 + 5
        returns 8
       
    expr 5 % 3
        returns 2
       
    y=`expr $y + 1`
        incrementing variable, same as let y=y+1 and y=$(($y+1)), as
        discussed elsewhere
       
    z=`expr substr $string28 $position $length`
        Note that external programs, such as sed and Perl have far superior
        string parsing facilities, and it might well be advisable to use them
        instead of the built-in bash ones.
       
   
    Example 3-52. Using expr
    #!/bin/bash                                                          
                                                                         
    # Demonstrating some of the uses of 'expr'                           
    # +++++++++++++++++++++++++++++++++++++++                            
                                                                         
    echo                                                                 
                                                                         
    # Arithmetic Operators                                               
                                                                         
    echo Arithmetic Operators                                            
    echo                                                                 
    a=`expr 5 + 3`                                                       
    echo 5 + 3 = $a                                                      
                                                                         
    a=`expr $a + 1`                                                      
    echo                                                                 
    echo a + 1 = $a                                                      
    echo \(incrementing a variable\)                                     
                                                                         
    a=`expr 5 % 3`                                                       
    # modulo                                                             
    echo                                                                 
    echo 5 mod 3 = $a                                                    
                                                                         
    echo                                                                 
    echo                                                                 
                                                                         
    # Logical Operators                                                  
                                                                         
    echo Logical Operators                                               
    echo                                                                 
                                                                         
    a=3                                                                  
    echo a = $a                                                          
    b=`expr $a \> 10`                                                    
    echo 'b=`expr $a \> 10`, therefore...'                               
    echo "If a > 10, b = 0 (false)"                                      
    echo b = $b                                                          
                                                                         
    b=`expr $a \< 10`                                                    
    echo "If a < 10, b = 1 (true)"                                       
    echo b = $b                                                          
                                                                         
                                                                         
    echo                                                                 
    echo                                                                 
                                                                         
    # Comparison Operators                                               
                                                                         
    echo Comparison Operators                                            
    echo                                                                 
    a=zipper                                                             
    echo a is $a                                                         
    if [ `expr $a = snap` ]                                              
    # Force re-evaluation of variable 'a'                                
    then                                                                 
       echo "a is not zipper"                                            
    fi                                                                   
                                                                         
    echo                                                                 
    echo                                                                 
                                                                         
                                                                         
                                                                         
    # String Operators                                                   
                                                                         
    echo String Operators                                                
    echo                                                                 
                                                                         
    a=1234zipper43231                                                    
    echo The string being operated upon is $a.                           
                                                                         
    # index: position of substring                                       
    b=`expr index $a 23`                                                 
    echo Numerical position of first 23 in $a is $b.                     
                                                                         
    # substr: print substring, starting position & length specified      
    b=`expr substr $a 2 6`                                               
    echo Substring of $a, starting at position 2 and 6 chars long is $b. 
                                                                         
    # length: length of string                                           
    b=`expr length $a`                                                   
    echo Length of $a is $b.                                             
                                                                         
    # 'match' operations similarly to 'grep'                             
    b=`expr match $a [0-9]*`                                             
    echo Number of digits at the beginning of $a is $b.                  
    b=`expr match $a '\([0-9]*\)'`                                       
    echo The digits at the beginning of $a are $b.                       
                                                                         
    echo                                                                 
                                                                         
    exit 0                                                               
   
    Note that : can substitute for match. b=`expr $a : [0-9]*` is an exact
    equivalent of b=`expr match $a [0-9]*` in the above example.
   
let
    The let command carries out arithmetic operations on variables. In many
    cases, it functions as a less complex version of expr.
   
   
    Example 3-53. Letting let do some arithmetic.
    #!/bin/bash                                                      
                                                                     
    echo                                                             
                                                                     
    let a=11                                                         
    # Same as 'a=11'                                                 
    let a=a+5                                                        
    # Equivalent to let "a = a + 5"                                  
    # (double quotes makes it more readable)                         
    echo "a = $a"                                                    
    let "a <<= 3"                                                    
    # Equivalent of let "a = a << 3"                                 
    echo "a left-shifted 3 places = $a"                              
                                                                     
    let "a /= 4"                                                     
    # Equivalent to let "a = a / 4"                                  
    echo $a                                                          
    let "a -= 5"                                                     
    # Equivalent to let "a = a - 5"                                  
    echo $a                                                          
    let "a = a * 10"                                                 
    echo $a                                                          
    let "a %= 8"                                                     
    echo $a                                                          
                                                                     
    exit 0                                                           
   

-----------------------------------------------------------------------------
3.10.3. Time / Date Commands

date
    Simply invoked, date prints the date and time to stdout. Where this
    command gets interesting is in its formatting and parsing options.
   
   
    Example 3-54. Using date
    #!/bin/bash                                                          
                                                                         
    #Using the 'date' command                                            
                                                                         
    # Needs a leading '+' to invoke formatting.                          
                                                                         
    echo "The number of days since the year's beginning is `date +%j`."  
    # %j gives day of year.                                              
                                                                         
                                                                         
    echo "The number of seconds elapsed since 01/01/1970 is `date +%s`." 
    # %s yields number of seconds since "UNIX epoch" began,              
    # but how is this useful?                                            
                                                                         
    prefix=temp                                                          
    suffix=`eval date +%s`                                               
    filename=$prefix.$suffix                                             
    echo $filename                                                       
    # It's great for creating "unique" temp filenames,                   
    # even better than using $$.                                         
                                                                         
    # Read the 'date' man page for more formatting options.              
                                                                         
    exit 0                                                               
   
time
    Outputs very verbose timing statistics for executing a command.
   
    time ls -l / gives something like this:
    0.00user 0.01system 0:00.05elapsed 16%CPU (0avgtext+0avgdata 0maxresident)k 
    0inputs+0outputs (149major+27minor)pagefaults 0swaps                        
   
    See also the very similar times command in the previous section.
   
touch
    Utility for updating access/modification times of a file to current
    system time or other specified time, but also useful for creating a new
    file. The command touch zzz will create a new file of zero length, named
    zzz, assuming that zzz did not previously exist. Time-stamping empty
    files in this way is useful for storing date information, for example in
    keeping track of modification times on a project. See Example 3-11.
   
at
    The at job control command executes a given set of commands at a
    specified time. This is a user version of cron.
   
    at 2pm January 15 prompts for a set of commands to execute at that time.
    These commands may include executable shell scripts.
   
    Using either the -f option or input redirection (<), at reads a command
    list from a file. This file can include shell scripts, though they
    should, of course, be noninteractive.
   
    bash$ at 2:30 am Friday < at-jobs.list                           
    job 2 at 2000-10-27 02:30                                        
                                                                     
   
batch
    The batch job control command is similar to at, but it runs a command
    list when the system load drops below .8. Like at, it can read commands
    from a file with the -f option.
   
cal
    Prints a neatly formatted monthly calendar to stdout. Will do current
    year or a large range of past and future years.
   
sleep
    This is the shell equivalent of a wait loop. It pauses for a specified
    number of seconds, doing nothing. This can be useful for timing or in
    processes running in the background, checking for a specific event every
    so often (see Example 3-101).
    sleep 3                                                          
    # Pauses 3 seconds.                                              
   

-----------------------------------------------------------------------------
3.10.4. Text Processing Commands

sort
    File sorter, often used as a filter in a pipe. See the man page for
    options.
   
diff
    Simple file comparison utility. This compares the target files
    line-by-line sequentially. In some applications, such as comparing word
    dictionaries, it may be helpful to filter the files through sort and uniq
    before piping them to diff. diff file-1 file-2 outputs the lines in the
    files that differ, with carets showing which file each particular line
    belongs to. A common use for diff is generating difference files to be
    used with patch (see below). The -e option outputs files suitable for ed
    or ex scripts.
   
    patch -p1 <patch-file                                            
    # Takes all the changes listed in 'patch-file' and applies them  
    # to the files referenced therein.                               
                                                                     
    cd /usr/src                                                      
    gzip -cd patchXX.gz | patch -p0                                  
    # Upgrading kernel source using 'patch'.                         
    # From the Linux kernel docs "README",                           
    # by anonymous author (Alan Cox?).                               
   
    There are available various fancy frontends for diff, such as spiff, 
    wdiff, xdiff, and mgdiff.
   
comm
    Versatile file comparison utility. The files must be sorted for this to
    be useful.
   
    comm -options first-file second-file
   
    comm file-1 file-2 outputs three columns:
   
    +column 1 = lines unique to file-1
       
    +column 2 = lines unique to file-2
       
    +column 3 = lines common to both.
       
   
    The options allow suppressing output of one or more columns.
   
    +-1 suppresses column 1
       
    +-2 suppresses column 2
       
    +-3 suppresses column 3
       
    +-12 suppresses both columns 1 and 2, etc.
       
   
uniq
    This filter removes duplicate lines from a sorted file. It is often seen
    in a pipe coupled with sort.
    cat list-1 list-2 list-3 | sort | uniq > final.list              
    # Concatenates the list files,                                   
    # sorts them,                                                    
    # removes duplicate lines,                                       
    # and finally writes the result to an output file.               
   
expand
    A filter than converts tabs to spaces, often seen in a pipe.
   
cut
    A tool for extracting fields from files. It is similar to the print $N
    command set in awk, but more limited. It may be simpler to use cut in a
    script than awk. Particularly important are the -d (delimiter) and -f
    (field specifier) options.
   
    Using cut to obtain a listing of the mounted filesystems:
    cat /etc/mtab | cut -d ' ' -f1,2                                 
   
    Using cut to list the OS and kernel version:
    uname -a | cut -d" " -f1,3,11,12                                 
   
    cut -d ' ' -f2,3 filename is equivalent to awk '{ print $2, $3 }'
    filename
   
colrm
    Column removal filter. This removes columns (characters) from a file and
    writes them, lacking the range of specified columns, back to stdout. 
    colrm 2 4 <filename removes the second through fourth characters from
    each line of the text file filename.
   
    +---------------------------------------------------------------+
    |                            Warning                            |
    +---------------------------------------------------------------+
    |If the file contains tabs or nonprintable characters, this may |
    |cause unpredictable behavior.                                  |
    +---------------------------------------------------------------+
   
paste
    Tool for merging together different files into a single, multi-column
    file. In combination with cut, useful for creating system log files.
   
join
    Consider this a more flexible version of paste. It works on exactly two
    files, but permits specifying which fields to paste together, and in
    which order.
   
head
    lists the first 10 lines of a file to stdout (see Example 3-66).
   
tail
    lists the end of a file to stdout (the default is 10 lines, but this can
    be changed). Commonly used to keep track of changes to a system logfile,
    using the -f option, which outputs lines appended to the file.
   
    Example 3-48, Example 3-66, and Example 3-101 show tail in action.
   
grep
    A multi-purpose file search tool that uses regular expressions.
    Originally a command/filter in the ancient ed line editor, g/re/p, or 
    global - regular expression - print.
   
    grep pattern [file...]
    search the files file, etc. for occurrences of pattern.
   
    ls -l | grep '.txt' has the same effect as ls -l *.txt.
   
    The -i option to grep causes a case-insensitive search.
   
    Example 3-101 demonstrates how to use grep to search for a keyword in a
    system log file.
   
   
    Example 3-55. Emulating "grep" in a script
    #!/bin/bash                                                                             
                                                                                            
    # Very crude reimplementation of 'grep'.                                                
                                                                                            
    if [ -z $1 ]  # Check for argument to script.                                           
    then                                                                                    
      echo "Usage: `basename $0` pattern"                                                   
      exit 1                                                                                
    fi                                                                                      
                                                                                            
    echo                                                                                    
                                                                                            
    for file in *     # Traverse all files in $PWD.                                         
    do                                                                                      
      output=$(sed -n /"$1"/p $file)  # Command substitution.                               
                                                                                            
      if [ ! -z "$output" ]  # Variable $file quoted, otherwise error on multi-line output. 
      then                                                                                  
        echo -n "$file: "                                                                   
        echo $output                                                                        
      fi                                                                                    
                                                                                            
      echo                                                                                  
    done                                                                                    
                                                                                            
    echo                                                                                    
                                                                                            
    exit 0                                                                                  
                                                                                            
    # Exercises for reader:                                                                 
    # -------------------                                                                   
    # 1) Add newlines to output, if more than one match in any given file.                  
    # 2) Add features.                                                                      
       
        Note: egrep is the same as grep -E. This uses a somewhat different,
        extended set of regular expressions, which may make the search
        somewhat more flexible.
       
       
        Note: fgrep is the same as grep -F. It does a literal string search
        (no regular expressions), which generally speeds things up quite a
        bit.
       
       
        Note: To search compressed files, use zgrep. It also works on
        non-compressed files, though slower than plain grep. This is handy
        for searching through a mixed set of files, some of them compressed,
        some not.
       
   
look
    The command look works like grep, but does a lookup on a "dictionary", a
    sorted word list. By default, look searches for a match in /usr/dict/
    words, but a different dictionary file may be specified.
   
   
    Example 3-56. Checking words in a list for validity
    #!/bin/bash                                                                 
    # lookup:                                                                   
    # Does a dictionary lookup on each word in a data file.                     
                                                                                
    file=words.data  # Data file to read words to test from.                    
                                                                                
    echo                                                                        
                                                                                
    while [ "$word" != end ]  # Last word in data file.                         
    do                                                                          
      read word   # From data file, because of redirection at end of loop.      
      look $word > /dev/null  # Don't want to display lines in dictionary file. 
      lookup=$?   # Exit value of 'look'.                                       
                                                                                
      if [ "$lookup" -eq 0 ]                                                    
      then                                                                      
        echo "\"$word\" is valid."                                              
      else                                                                      
        echo "\"$word\" is invalid."                                            
      fi                                                                        
                                                                                
    done <$file  # Redirects stdin to $file, so "reads" come from there.        
                                                                                
    echo                                                                        
                                                                                
    exit 0                                                                      
   
sed, awk
    Scripting languages especially suited for parsing text files and command
    output. May be embedded singly or in combination in pipes and shell
    scripts.
   
sed
    Non-interactive "stream editor", permits using many ex commands in batch
    mode. It finds many uses in shell scripts. See Appendix B.
   
awk
    Programmable file extractor and formatter, good for manipulating and/or
    extracting fields (columns) in structured text files. Its syntax is
    similar to C. See Section B.2.
   
groff, gs, TeX
    Text markup languages. Used for preparing copy for printing or formatted
    video display.
   
    Man pages use groff (see Example A-1). Ghostscript (gs) is the GPL
    version of Postscript. TeX is Donald Knuth's elaborate typsetting system.
    It is often convenient to write a shell script encapsulating all the
    options and arguments passed to one of these markup languages.
   
wc
    wc gives a "word count" on a file or I/O stream:
    $ wc /usr/doc/sed-3.02/README                                    
    20     127     838 /usr/doc/sed-3.02/README                      
    [20 lines  127 words  838 characters]                            
   
    wc -w gives only the word count.
   
    wc -l gives only the line count.
   
    wc -c gives only the character count.
   
    wc -L gives only the length of the longest line.
   
    Using wc to count how many .txt files are in current working directory:
    $ ls *.txt | wc -l                                               
   
    See Example 3-66 and Example 3-75.
   
tr
    character translation filter.
   
    +---------------------------------------------------------------+
    |                            Caution                            |
    +---------------------------------------------------------------+
    |must use quoting and/or brackets, as appropriate.              |
    +---------------------------------------------------------------+
   
    tr "A-Z" "*" <filename changes all the uppercase letters in filename to
    asterisks (writes to stdout).
   
    tr -d [0-9] <filename deletes all digits from the file filename.
   
   
    Example 3-57. toupper: Transforms a file to all uppercase.
    #!/bin/bash                                                      
                                                                     
    # Changes a file to all uppercase.                               
                                                                     
    if [ -z $1 ]                                                     
    # Standard check whether command line arg is present.            
    then                                                             
      echo "Usage: `basename $0` filename"                           
      exit 1                                                         
    fi                                                               
                                                                     
    tr [a-z] [A-Z] <$1                                               
                                                                     
    exit 0                                                           
   
   
    Example 3-58. lowercase: Changes all filenames in working directory to
    lowercase.
    #! /bin/bash                                                       
    #                                                                  
    # Changes every filename in working directory to all lowercase.    
    #                                                                  
    # Inspired by a script of john dubois,                             
    # which was translated into into bash by Chet Ramey,               
    # and considerably simplified by Mendel Cooper,                    
    # author of this HOWTO.                                            
                                                                       
                                                                       
    for filename in *  #Traverse all files in directory.               
    do                                                                 
       fname=`basename $filename`                                      
       n=`echo $fname | tr A-Z a-z`  #Change name to lowercase.        
       if [ $fname != $n ]  # Rename only files not already lowercase. 
       then                                                            
         mv $fname $n                                                  
       fi                                                              
    done                                                               
                                                                       
    exit 0                                                             
   
   
    Example 3-59. rot13: rot13, ultra-weak encryption.
    #!/bin/bash                                                                           
    # Classic rot13 algorithm, encryption that might fool a 3-year old.                   
    # Usage: ./rot13.sh filename                                                          
    # or     ./rot13.sh <filename                                                         
    # or     ./rot13.sh and supply keyboard input (stdin)                                 
                                                                                          
    cat "$@" | tr 'a-zA-Z' 'n-za-mN-ZA-M'   # "a" goes to "n", "b" to "o", etc.           
    # The 'cat "$@"' construction permits getting input either from stdin or from a file. 
                                                                                          
    exit 0                                                                                
   
fold
    A filter that wraps inputted lines to a specified width (see Example 3-62
    ).
   
fmt
    Simple-minded file formatter, used as a filter in a pipe to "wrap" long
    lines of text output (see Example 3-48 and Example 3-62).
   
ptx
    The ptx [targetfile] command outputs a permuted index (cross-reference
    list) of the targetfile. This may be further filtered and formatted in a
    pipe, if necessary.
   
column
    Column formatter. This filter transforms list-type text output into a 
    "pretty-printed" table by inserting tabs at appropriate places.
   
   
    Example 3-60. Using column to format a directory listing
    #!/bin/bash                                                                   
    # This is a slight modification of the example file in the "column" man page. 
                                                                                  
                                                                                  
    (printf "PERMISSIONS LINKS OWNER GROUP SIZE MONTH DAY HH:MM PROG-NAME\n" \    
    ; ls -l | sed 1d) | column -t                                                 
                                                                                  
    # The "sed 1d" in the pipe deletes the first line of output,                  
    # which would be "total        N",                                            
    # where "N" is the total number of files found by "ls -l".                    
                                                                                  
    # The -t option to "column" pretty-prints a table.                            
                                                                                  
    exit 0                                                                        
   
nl
    Line numbering filter. nl filename lists filename to stdout, but inserts
    consecutive numbers at the beginning of each non-blank line. If filename
    omitted, operates on stdin.
   
   
    Example 3-61. nl: A self-numbering script.
    #!/bin/bash                                                        
                                                                       
    # This file echoes itself twice to stdout with its lines numbered. 
                                                                       
    # 'nl' sees this as line 3 since it does not number blank lines.   
    # 'cat -n' sees the above line as number 5.                        
                                                                       
    nl `basename $0`                                                   
                                                                       
    echo; echo  # Now, let's try it with 'cat -n'                      
                                                                       
    cat -n `basename $0`                                               
    # The difference is that 'cat -n' numbers the blank lines.         
                                                                       
    exit 0                                                             
   
pr
    Print formatting filter. This will paginate a file (or stdout) into
    sections suitable for hard copy printing. A particularly useful option is
    -d, forcing double-spacing.
   
   
    Example 3-62. Formatted file listing.
    #!/bin/bash                                                      
                                                                     
    # Get a file listing...                                          
                                                                     
    b=`ls /usr/local/bin`                                            
                                                                     
    # ...40 columns wide.                                            
    echo $b | fmt -w 40                                              
                                                                     
    # Could also have been done by                                   
    # echo $b | fold - -s -w 40                                      
                                                                     
    exit 0                                                           
   
printf
    The printf, formatted print, command is an enhanced echo. It is a limited
    variant of the C language printf, and the syntax is somewhat different.
   
    printf format-string... parameter...
   
    See the printf man page for in-depth coverage.
   
    +---------------------------------------------------------------+
    |                            Caution                            |
    +---------------------------------------------------------------+
    |Older versions of bash may not support printf.                 |
    +---------------------------------------------------------------+
   
   
    Example 3-63. printf in action
    #!/bin/bash                                                      
                                                                     
    # printf demo                                                    
                                                                     
    PI=3.14159265358979                                              
    DecimalConstant=31373                                            
    Message1="Greetings,"                                            
    Message2="Earthling."                                            
                                                                     
    echo                                                             
                                                                     
    printf "Pi to 2 decimal places = %1.2f" $PI                      
    echo                                                             
    printf "Pi to 9 decimal places = %1.9f" $PI                      
    # Note correct round off.                                        
                                                                     
    printf "\n"                                                      
    # Prints a line feed, equivalent to 'echo'.                      
                                                                     
    printf "Constant = \t%d\n" $DecimalConstant                      
    # Insert tab (\t)                                                
                                                                     
    printf "%s %s \n" $Message1 $Message2                            
                                                                     
    echo                                                             
                                                                     
    exit 0                                                           
   

-----------------------------------------------------------------------------
3.10.5. File and Archiving Commands

tar
    The standard UNIX archiving utility. Originally a Tape ARchiving program,
    from whence it derived its name, it has developed into a general purpose
    package that can handle all manner of archiving with all types of
    destination devices, ranging from tape drives to regular files to even
    stdout (see Example 3-4). GNU tar has long since been patched to accept 
    gzip compression options, such as tar czvf archive-name.tar.gz *, which
    recursively archives and compresses all files (except "dotfiles") in a
    directory tree.
   
cpio
    This specialized archiving copy command is rarely used any more, having
    been supplanted by tar/gzip. It still has its uses, such as moving a
    directory tree.
   
   
    Example 3-64. Using cpio to move a directory tree
    #!/bin/bash                                                      
                                                                     
    # Copying a directory tree using cpio.                           
                                                                     
    if [ $# -ne 2 ]                                                  
    then                                                             
      echo Usage: `basename $0` source destination                   
      exit 1                                                         
    fi                                                               
                                                                     
    source=$1                                                        
    destination=$2                                                   
                                                                     
    find "$source" -depth | cpio -admvp "$destination"               
                                                                     
    exit 0                                                           
   
gzip
    The standard GNU/UNIX compression utility, replacing the inferior and
    proprietary compress. The corresponding decompression command is gunzip,
    which is the equivalent of gzip -d.
   
    The filter zcat decompresses a gzipped file to stdout, as possible input
    to a pipe or redirection. This is, in effect, a cat command that works on
    compressed files (including files processed with the older compress
    utility). See Example 3-14.
   
bzip2
    An alternate compression utility, usually more efficient than gzip,
    especially on large files. The corresponding decompression command is 
    bunzip2.
   
sq
    Yet another compression utility, a filter that works only on sorted ASCII
    word lists. It uses the standard invocation syntax for a filter, sq <
    input-file > output-file. Fast, but not nearly as efficient as gzip. The
    corresponding uncompression filter is unsq, invoked like sq.
       
        Note: The output of sq may be piped to gzip for further compression.
       
   
shar
    Shell archiving utility. The files in a shell archive are concatenated
    without compression, and the resultant archive is essentially a shell
    script, complete with #!/bin/sh header, and containing all the necessary
    unarchiving commands. Shar archives still show up in Internet newsgroups,
    but otherwise shar has been pretty well replaced by tar/gzip. The unshar
    command unpacks shar archives.
   
split
    Utility for splitting a file into smaller chunks. Usually used for
    splitting up large files in order to back them up on floppies or
    preparatory to e-mailing or uploading them.
   
file
    A utility for identifying file types. The command file file-name will
    return a file specification for file-name, such as ascii text or data. It
    references the magic numbers found in /usr/share/magic, /etc/magic, or /
    usr/lib/magic, depending on the Linux/UNIX distribution.
   
   
    Example 3-65. stripping comments from C program files
    #!/bin/bash                                                                 
                                                                                
    # Strips out the comments (/* comment */) in a C program.                   
                                                                                
    NOARGS=1                                                                    
    WRONG_FILE_TYPE=2                                                           
                                                                                
    if [ $# = 0 ]                                                               
    then                                                                        
      echo "Usage: `basename $0` C-program-file" >&2 # Error message to stderr. 
      exit $NOARGS                                                              
    fi                                                                          
                                                                                
    # Test for correct file type.                                               
    type=`eval file $1 | awk '{ print $2, $3, $4, $5 }'`                        
    # "file $1" echoes file type...                                             
    # then awk removes the first field of this, the filename...                 
    # then the result is fed into the variable "type".                          
    correct_type="ASCII C program text"                                         
                                                                                
    if [ "$type" != "$correct_type" ]                                           
    then                                                                        
      echo                                                                      
      echo "This script works on C program files only."                         
      echo                                                                      
      exit $WRONG_FILE_TYPE                                                     
    fi                                                                          
                                                                                
                                                                                
    # Rather cryptic sed script:                                                
    #--------                                                                   
    sed '                                                                       
    /^\/\*/d                                                                    
    /.*\/\*/d                                                                   
    ' $1                                                                        
    #--------                                                                   
    # Easy to understand if you take several hours to learn sed fundamentals.   
                                                                                
                                                                                
    # Need to add one more line to the sed script to deal with                  
    # case where line of code has a comment following it on same line.          
    # This is left as a non-trivial exercise for the reader.                    
                                                                                
    exit 0                                                                      
   
uuencode
    This utility encodes binary files into ASCII characters, making them
    suitable for transmission in the body of an e-mail message or in a
    newsgroup posting.
   
uudecode
    This reverses the encoding, decoding uuencoded files back into the
    original binaries.
   
   
    Example 3-66. uudecoding encoded files
    #!/bin/bash                                                                       
                                                                                      
    lines=35                                                                          
    # Allow 35 lines for the header (very generous).                                  
                                                                                      
    for File in *                                                                     
    # Test all the files in the current working directory...                          
    do                                                                                
      search1=`head -$lines $File | grep begin | wc -w`                               
      search2=`tail -$lines $File | grep end | wc -w`                                 
      # Uuencoded files have a "begin" near the beginning, and an "end" near the end. 
      if [ $search1 -gt 0 ]                                                           
      then                                                                            
        if [ $search2 -gt 0 ]                                                         
        then                                                                          
          echo "uudecoding - $File -"                                                 
          uudecode $File                                                              
        fi                                                                            
      fi                                                                              
    done                                                                              
                                                                                      
    exit 0                                                                            
   
sum, cksum, md5sum
    These are utilities for generating checksums. A checksum is a number
    mathematically calculated from the contents of a file, for the purpose of
    checking its integrity. A script might refer to a list of checksums for
    security purposes, such as ensuring that the contents of key system files
    have not been altered or corrupted.
   
strings
    Use the strings command to find printable strings in a binary or data
    file. It will list sequences of printable characters found in the target
    file. This might be handy for a quick 'n dirty examination of a core dump
    or for looking at an unknown graphic image file (strings image-file |
    more might show something like JFIF, which would identify the file as a 
    jpeg graphic). In a script, you would probably parse the output of 
    strings with grep or sed.
   
more, less
    Pagers that display a text file or stream to stdout, one screenful at a
    time. These may be used to filter the output of a script.
   

-----------------------------------------------------------------------------
3.10.6. Communications Commands

host
    Searches for information about an Internet host by name or IP address,
    using DNS.
   
vrfy
    Verify an Internet e-mail address.
   
nslookup
    Do an Internet "name server lookup" on a host by IP address. This may be
    run either interactively or noninteractively, i.e., from within a script.
   
dig
    Similar to nslookup, do an Internet "name server lookup" on a host. May
    be run either interactively or noninteractively, i.e., from within a
    script.
   
traceroute
    Trace the route taken by packets sent to a remote host. This command
    works within a LAN, WAN, or over the Internet. The remote host may be
    specified by an IP address. The output of this command may be filtered by
    grep or sed in a pipe.
   
rcp
    "Remote copy", copies files between two different networked machines.
    Using rcp and similar utilities with security implications in a shell
    script may not be advisable. Consider instead, using an expect script.
   
sx, rx
    The sx and rx command set serves to transfer files to and from a remote
    host using the xmodem protocol. These are generally part of a
    communications package, such as minicom.
   
sz, rz
    The sz and rz command set serves to transfer files to and from a remote
    host using the zmodem protocol. Zmodem has certain advantages over xmodem
    , such as greater transmission rate and resumption of interrupted file
    transfers. Like sx and rx, these are generally part of a communications
    package.
   
uucp
    UNIX to UNIX copy. This is a communications package for transferring
    files between UNIX servers. A shell script is an effective way to handle
    a uucp command sequence.
   
    Since the advent of the Internet and e-mail, uucp seems to have faded
    into obscurity, but it still exists and remains perfectly workable in
    situations where an Internet connection is not available or appropriate.
   

-----------------------------------------------------------------------------
3.10.7. Miscellaneous Commands

jot, seq
    These utilities emit a sequence of integers, with a user selected
    increment. This can be used to advantage in a for loop.
   
   
    Example 3-67. Using seq to generate loop arguments
    #!/bin/bash                                                      
                                                                     
    for a in `seq 80`                                                
    # Same as   for a in 1 2 3 4 5 ... 80   (saves much typing!).    
    # May also use 'jot' (if present on system).                     
    do                                                               
      echo -n "$a "                                                  
    done                                                             
                                                                     
    echo                                                             
                                                                     
    exit 0                                                           
   
which
    which <command-xxx> gives the full path to "command-xxx". This is useful
    for finding out whether a particular command or utility is installed on
    the system.
   
    $bash which pgp
    /usr/bin/pgp                                                     
   
script
    This utility records (saves to a file) all the user keystrokes at the
    command line in a console or an xterm window. This, in effect, create a
    record of a session.
   
lp
    The lp and lpr commands send file(s) to the print queue, to be printed as
    hard copy. [4] These commands trace the origin of their names to the line
    printers of another era.
   
    bash$ cat file1.txt | lp
   
    It is often useful to pipe the formatted output from pr to lp.
   
    bash$ pr -options file1.txt | lp
   
    Formatting packages, such as groff and Ghostscript may send their output
    directly to lp.
   
    bash$ groff -Tascii file.tr | lp
   
    bash$ gs -options | lp file.ps
   
    Related commands are lpq, for viewing the print queue, and lprm, for
    removing jobs from the print queue.
   
tee
    [UNIX borrows an idea here from the plumbing trade.]
   
    This is a redirection operator, but with a difference. Like the plumber's
    tee, it permits "siponing off" the output of a command or commands within
    a pipe, but without affecting the result. This is useful for printing an
    ongoing process to a file or paper, perhaps to keep track of it for
    debugging purposes.
                       tee                                           
                     |------> to file                                
                     |                                               
      ===============|===============                                
      command--->----|-operator-->---> result of command(s)          
      ===============================                                
                                                                     
   
    cat listfile* | sort | tee check.file | uniq > result.file       
    (The file check.file contains the concatenated sorted "listfiles", before
    the duplicate lines are removed by uniq.)
   
clear
    The clear command simply clears the text screen at the console or in an
    xterm. The prompt and cursor reappear at the upper lefthand corner of the
    screen or xterm window. This command may be used either at the command
    line or in a script. See Example 3-36.
   
yes
    In its default behavior the yes command feeds a continuous string of the
    character y followed by a line feed to stdout. A control-c terminates the
    run. A different output string may be specified, as in yes different
    string, which would continually output different string to stdout. One
    might well ask the purpose of this. From the command line or in a script,
    the output of yes can be redirected or piped into a program expecting
    user input. In effect, this becomes a sort of poor man's version of 
    expect.
   
mkfifo
    This obscure command creates a named pipe, a temporary First-In-First-Out
    buffer for transferring data between processes. Typically, one process
    writes to the FIFO, and the other reads from it. See Example A-7.
   
pathchk
    This command checks the validity of a filename. If the filename exceeds
    the maximum allowable length (255 characters) or one or more of the
    directories in its path is not searchable, then an error message results.
    Unfortunately, pathchk does not return a recognizable error code, and it
    is therefore pretty much useless in a script.
   
dd
    This is the somewhat obscure and much feared "data duplicator" command.
    It simply copies a file (or stdin/stdout), but with conversions. Possible
    conversions are ASCII/EBCDIC, upper/lower case, swapping of byte pairs
    between input and output, and skipping and/or truncating the head or tail
    of the input file. A dd --help lists the conversion and other options
    that this powerful utility takes.
   
    The dd command can copy raw data and disk images to and from devices,
    such as floppies and tape drives. It can even be used to create boot
    floppies.
    dd if=kernel-image of=/dev/fd0H1440                              
    One important use for dd is initializing temporary swap files (see 
    Example 3-97).
   

-----------------------------------------------------------------------------
3.11. System and Administrative Commands

The startup and shutdown scripts in /etc/rc.d illustrate the uses (and
usefulness) 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.

uname
    Output system specifications (OS, kernel version, etc.) to stdout.
    Invoked with the -a option, gives verbose system info (see Example 3-48).
    bash$ uname -a                                                                      
    Linux localhost.localdomain 2.2.15-2.5.0 #1 Sat Feb 5 00:13:43 EST 2000 i686 unknown
   
arch
    Show system architecture. Equivalent to uname -m.
    bash$ arch                                                       
    i686                                                             
    bash$ uname -m                                                   
    i686                                                             
   
id
    The id command lists the real and effective user IDs and the group IDs of
    the current user. This is the counterpart to the $UID, $EUID, and $GROUPS
    internal Bash variables (see Section 3.7).
    bash$ id                                                                     
    uid=501(bozo) gid=501(bozo) groups=501(bozo),22(cdrom),80(cdwriter),81(audio)
    bash$ echo $UID                                                  
    501                                                              
   
who
    Show all users logged on to the system.
   
    whoami is a variant of who that lists only the current user.
   
w
    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                                                  
    grendel  tty1     -                 4:22pm  6:41   4.47s  0.45s  startx
   
users
    Show all logged on users. This is the approximate equivalent of who -q.
   
groups
    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                                                              
   
hostname
    Lists the system's host name, as recorded in /etc/hosts. This is a
    counterpart to the $HOSTNAME internal variable.
    bash$ hostname                                                   
    localhost.localdomain                                            
    bash$ echo $HOSTNAME                                             
    localhost.localdomain                                            
   
ulimit
    Sets an upper limit on 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 Section 3.23).
   
uptime
    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     
   
env
    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.
   
su
    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-7.
   
shopt
    This command permits changing shell options on the fly (see Example 3-85
    ). It often appears in the Bash setup files, but also has its uses in
    scripts. Works with version 2 of Bash only.
    shopt -s cdspell                                                 
    # Allows minor misspelling directory names with 'cd'             
    command.                                                         
   
lockfile
    This utility is part of the procmail package ([http://www.procmail.org]
    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 permitting 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 create a lock file
    that already exists, the script will likely hang.
   
cron
    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. It runs as a daemon (background process) and
    executes scheduled entries from /etc/crontab.
   
chroot
    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). A chroot
    /opt would cause references to /usr/bin to be translated to /opt/usr/bin,
    for example. 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. Note that after a 
    chroot, the execution path for system binaries is no longer valid.
   
    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). Invoke only as root, and use with caution.
   
umask
    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 the
    file permissions disabled. For example, umask 022 ensures that new files
    will have at most 755 permissions (777 NAND 022). [5] 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 Section 3.23).
   
ldd
    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)            
   
logname
    Show current user's login name (as found in /var/run/utmp). This is
    equivalent to whoami, above.
    bash$ logname                                                    
    bozo                                                             
    bash$ whoami                                                     
    bozo                                                             
   
tty
    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                                                       
   
stty
    Shows and/or changes terminal settings.
   
   
    Example 3-68. 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                                                           
   
wall
    This is an acronym for "write all", i.e., sending a message to all users
    every terminal logged on in 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 3-94).
    wall System going down for maintenance in 5 minutes!             
   
logger
    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'.                                  
   
dmesg
    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.
   
fuser
    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.
   
pidof
    Identifies process id (pid) of a running job. Job control commands, such
    as kill and renice act on the pid of a process, rather than its name.
    This is the counterpart of the $PPID internal variable (see Section 3.7).
   
   
    Example 3-69. pidof helps kill a process
    #!/bin/bash                                                                              
    # kill-process                                                                           
                                                                                             
    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` ".                                                
                                                                                             
    exit 0                                                                                   
   
nice
    Show or change the priority of a background job. Priorities run from 19
    (lowest) to -20 (highest). Only root may set the negative (higher)
    priorities. Related commands are renice, snice, and skill.
   
nohup
    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.
   
free
    Shows memory and cache usage in tabular form. The output of this command
    lends itself to parsing, using grep, awk or Perl.
    bash$ free                                                                    
                    total       used       free     shared    buffers     cached  
       Mem:         30504      28624       1880      15820       1608       16376 
       -/+ buffers/cache:      10640      19864                                   
       Swap:        68540       3128      65412                                   
   
sync
    Forces an immediate write of all updated data from buffers to hard drive.
    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 was a useful precautionary measure before a system
    reboot.
   
init
    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.
   
telinit
    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!
   
runlevel
    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).
   
halt, shutdown, reboot
    Command set to shut the system down, usually just prior to a power down.
   
exec
    This is actually a system call that replaces the current process with a
    specified command. It is mostly seen in combination with find, to execute
    a command on the files found (see Example 3-47). When used as a
    standalone in a script, it forces an exit from the script when the exec
    'ed command terminates. An exec is also used to reassign file
    descriptors. exec <zzz-file replaces stdin with the file zzz-file (see 
    Example 3-72).
   
   
    Example 3-70. Effects of exec
    #!/bin/bash                                                      
                                                                     
    exec echo "Exiting $0."                                          
    # Exit from script.                                              
                                                                     
    # The following lines never execute.                             
    echo "Still here?"                                               
                                                                     
    exit 0                                                           
   
ifconfig
    Network interface configuration utility.
   
route
    Show info about or make changes to the kernel routing table.
   
netstat
    Show current network information and statistics, such as routing tables
    and active connections.
   
mknod
    Creates block or character device files (may be necessary when installing
    new hardware on the system).
   
mount
    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, including options, that may be automatically or manually
    mounted. The file /etc/mtab shows the currently mounted filesystems
    (including the virtual ones, such as /proc).
    mount -t iso9660 /dev/cdrom /mnt/cdrom                           
    # Mounts CDROM                                                   
    mount /mnt/cdrom                                                 
    # Shortcut, if /mnt/cdrom listed in /etc/fstab                   
   
umount
    Unmount a currently mounted filesystem. Before physically removing a
    previously mounted floppy or CDROM disk, the device must be umount'ed,
    else filesystem corruption may result.
    umount /mnt/cdrom                                                
   
lsmod
    List installed kernel modules.
   
insmod
    Force insertion of a kernel module. Must be invoked as root.
   
modprobe
    Module loader that is normally invoked automatically in a startup script.
   
depmod
    Creates module dependency file, usually invoked from startup script.
   
rdev
    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 another dangerous
    command, if misused.
   

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 3-71. killall, from /etc/rc.d/init.d
#!/bin/sh                                                                    
                                                                             
# --> Comments added by the author of this HOWTO 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, and since 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                               
        # --> using the 'stop' 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. 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".

Now, 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/doc/initscripts-X.XX, which is part of the "initscripts" documentation.
-----------------------------------------------------------------------------

3.12. Backticks (`COMMAND`)

Command substitution
    Commands within backticks generate command line text.
   
    The output of commands within backticks can be used as arguments to
    another command or to load a variable.
    rm `cat filename`                                                          
    # "filename" contains a list of files to delete.                           
                                                                               
    textfile_listing=`ls *.txt`                                                
    # Variable contains names of all *.txt files in current working directory. 
    echo $textfile_listing                                                     
    #                                                                          
    textfile_listing2=$(ls *.txt)                                              
    echo $textfile_listing                                                     
    # Also works.                                                              
       
        Note: Using backticks for command substitution has been superseded by
        the $(COMMAND) form.
       
   
Arithmetic expansion (commonly used with expr)
    z=`expr $z + 3`                                                  
    Note that this particular use of backticks has been superseded by double
    parentheses $((...)) or the very convenient let construction.
    z=$(($z+3))                                                         
    # $((EXPRESSION)) is arithmetic expansion.                          
    # Not to be confused with command substitution.                     
                                                                        
    let z=z+3                                                           
    let "z += 3"  #If quotes, then spaces and special operators allowed.
    All these are equivalent. You may use whichever one "rings your chimes".
   

-----------------------------------------------------------------------------
3.13. I/O Redirection

There are always three default "files" open, stdin (the keyboard), stdout
(the screen), and stderr (error messages output to the screen). These, and
any other open files, can be redirected. Redirection simply means capturing
the output of a file, command, program, script, or even code block within a
script (see Example 3-2 and Example 3-3) and sending it as input to another
file, command, program, or script.

Each open file gets assigned a file descriptor. [6] The file descriptors for 
stdin, stdout, and stderr are 0, 1, and 2, respectively. For opening
additional files, there remain descriptors 3 to 9. It is sometimes useful to
assign one of these additional file descriptors to stdin, stdout, or stderr
as a temporary duplicate link. [7] This simplifies restoration to normal
after complex redirection and reshuffling (see Example 3-72).
    >                                                                                     
      # Redirect stdout to a file.                                                        
      # Creates the file if not present, otherwise overwrites it.                         
                                                                                          
      ls -lR > dir-tree.list                                                              
      # Creates a file containing a listing of the directory tree.                        
                                                                                          
    >>                                                                                    
      # Redirect stdout to a file.                                                        
      # Creates the file if not present, otherwise appends to it.                         
                                                                                          
    2> &1                                                                                 
      # Redirects stderr to stdout.                                                       
      # Has the effect of making visible error messages that might otherwise not be seen. 
                                                                                          
    i> &j                                                                                 
      # Redirects file descriptor i to j                                                  
      # All output of file pointed to by i gets sent to file pointed to by j              
                                                                                          
    <                                                                                     
      # Accept input from a file.                                                         
      # Companion command to ">", and often used in combination with it.                  
      grep search-word <filename                                                          
                                                                                          
    |                                                                                     
      # Pipe.                                                                             
      # General purpose process and command chaining tool.                                
      # Similar to ">", but more general in effect.                                       
      # Useful for chaining commands, scripts, files, and programs together.              
      cat *.txt | sort | uniq > result-file                                               
      # Sorts the output of all the .txt files and deletes duplicate lines,               
      # finally saves results to "result-file".                                           

   
    Note: Multiple instances of input and output redirection and/or pipes can
    be combined in a single command line.
   
command < input-file > output-file                                           
                                                                             
command1 | command2 | command3 > output-file                                 

n<&-
    close input file descriptor n
   
<&-
    close stdin
   
n>&-
    close output file descriptor n
   
>&-
    close stdout
   

The exec <filename command redirects stdin to a file. From that point on, all
stdin comes from that file, rather than its normal source (usually keyboard
input). This provides a method of reading a file line by line and possibly
parsing each line of input using sed and/or awk.


Example 3-72. Redirecting stdin using exec
#!/bin/bash                                                                  
# Redirecting stdin using 'exec'.                                            
                                                                             
                                                                             
exec 6<&0   # Link file descriptor #6 with stdin.                            
                                                                             
exec < data-file   # stdin replaced by file "data-file"                      
                                                                             
read a1   # Reads first line of file "data-file".                            
read a2   # Reads second line of file "data-file."                           
                                                                             
echo                                                                         
echo "Following lines read from file."                                       
echo "-------------------------------"                                       
echo $a1                                                                     
echo $a2                                                                     
                                                                             
echo; echo; echo                                                             
                                                                             
exec 0<&6   # Now restore stdin from fd #6, where it had been saved.         
                                                                             
echo -n "Enter data  "                                                       
read b1  # Now "read" functions as expected, reading from normal stdin.      
echo "Input read from stdin."                                                
echo "----------------------"                                                
echo "b1 = $b1"                                                              
                                                                             
echo                                                                         
                                                                             
exit                                                                         

Blocks of code, such as while, until, and for loops, even if/then test blocks
can also incorporate redirection of stdin. The < operator at the the end of
the code block accomplishes this.


Example 3-73. Redirected while loop
#!/bin/bash                                                                  
                                                                             
if [ -z $1 ]                                                                 
then                                                                         
  Filename=names.data  # Default, if no filename specified.                  
else                                                                         
  Filename="$1"                                                              
fi                                                                           
                                                                             
while [ "$name" != Smith ]  # Why is variable $name in quotes?               
do                                                                           
  read name        # Reads from $Filename, rather than stdin.                
  echo $name                                                                 
done <$Filename   # Redirects stdin to file $Filename.                       
                                                                             
exit 0                                                                       


Example 3-74. Redirected until loop
#!/bin/bash                                                                  
# Same as previous example, but with "until" loop.                           
                                                                             
if [ -z $1 ]                                                                 
then                                                                         
  Filename=names.data  # Default, if no filename specified.                  
else                                                                         
  Filename="$1"                                                              
fi                                                                           
                                                                             
# while [ "$name" != Smith ]                                                 
until [ "$name" = Smith ]     # Change  !=  to =.                            
do                                                                           
  read name        # Reads from $Filename, rather than stdin.                
  echo $name                                                                 
done <$Filename   # Redirects stdin to file $Filename.                       
                                                                             
# Same results as with "while" loop in previous example.                     
                                                                             
exit 0                                                                       


Example 3-75. Redirected for loop
#!/bin/bash                                                                       
                                                                                  
if [ -z $1 ]                                                                      
then                                                                              
  Filename=names.data  # Default, if no filename specified.                       
else                                                                              
  Filename="$1"                                                                   
fi                                                                                
                                                                                  
line_count=`wc $Filename | awk '{ print $1 }'`  # Number of lines in target file. 
# Very contrived and kludgy, nevertheless shows that                              
# it's possible to redirect stdin within a "for" loop...                          
# if you're clever enough.                                                        
                                                                                  
                                                                                  
for name in `seq $line_count`  # Recall that "seq" prints sequence of numbers.    
# while [ "$name" != Smith ]   --   more complicated than a "while" loop   --     
do                                                                                
  read name        # Reads from $Filename, rather than stdin.                     
  echo $name                                                                      
  if [ "$name" = Smith ]   # Need all this extra baggage here.                    
  then                                                                            
    break                                                                         
  fi                                                                              
done <$Filename   # Redirects stdin to file $Filename.                            
                                                                                  
exit 0                                                                            


Example 3-76. Redirected if/then test
#!/bin/bash                                                                  
                                                                             
if [ -z $1 ]                                                                 
then                                                                         
  Filename=names.data  # Default, if no filename specified.                  
else                                                                         
  Filename="$1"                                                              
fi                                                                           
                                                                             
TRUE=1                                                                       
                                                                             
if [ $TRUE ]                                                                 
then                                                                         
 read name                                                                   
 echo $name                                                                  
fi <$Filename                                                                
# Reads only first line of file.                                             
# An if/then test has no way of iterating unless embedded in a loop.         
                                                                             
exit 0                                                                       

Clever use of I/O redirection permits parsing and stitching together snippets
of files and command output. One possible application of this might be
generating report and log files.

   
    Note: Here documents are a special case of I/O redirection. See Section
    3.24.
   
-----------------------------------------------------------------------------
3.14. Recess Time

                                      This bizarre little intermission gives
                                       the reader a chance to relax and maybe
                                       laugh a bit.                          
                                                                             
                                       Fellow Linux user, greetings! You are 
                                       reading something which will bring you
                                       luck and good fortune. Just e-mail a  
                                       copy of this document to 10 of your   
                                       friends. Before you make the copies,  
                                       send a 100-line Bash script to the    
                                       first person on the list given at the 
                                       bottom of this letter. Then delete    
                                       their name and add yours to the bottom
                                       of the list.                          
                                                                             
                                       Don't break the chain! Make the copies
                                       within 48 hours. Wilfred P. of        
                                       Brooklyn failed to send out his ten   
                                       copies and woke the next morning to   
                                       find his job description changed to   
                                       "COBOL programmer." Howard L. of      
                                       Newport News sent out his ten copies  
                                       and within a month had enough hardware
                                       to build a 100-node Beowulf cluster   
                                       dedicated to playing xbill. Amelia V. 
                                       of Chicago laughed at this letter and 
                                       broke the chain. Shortly thereafter, a
                                       fire broke out in her terminal and she
                                       now spends her days writing           
                                       documentation for MS Windows.         
                                                                             
                                       Don't break the chain! Send out your  
                                       ten copies today!                     
                                       Courtesy 'NIX "fortune cookies", with
                                          some alterations and many apologies
-----------------------------------------------------------------------------

3.15. Regular Expressions

In order to fully utilize the power of shell scripting, you need to master
regular expressions.
-----------------------------------------------------------------------------

3.15.1. A Brief Introduction to Regular Expressions

An expression is a set of characters that has an interpretation above and
beyond its literal meaning. A quote symbol ("), for example, may denote
speech by a person, ditto, or a meta-meaning for the symbols that follow.
Regular expressions are sets of characters that UNIX endows with special
features.

The main uses for regular expressions (REs) are text searches and string
manipulation. An RE matches a single character or a set of characters.

*The asterisk * matches any number of characters, including zero.
   
*The dot . matches any one character, except a newline.
   
*The question mark ? matches zero or one of the previous RE. It is
    generally used for matching single characters.
   
*The plus + matches one or more of the previous RE. It serves a role
    similar to the *, but does not match zero occurrences.
   
*The caret ^ matches the beginning of a line, but sometimes, depending on
    context, negates the meaning of a set of characters in an RE.
   
*The dollar sign $ at the end of a an RE matches the end of a line.
   
*Brackets [...] enclose a set of characters to match in a single RE.
   
    [xyz] matches the characters x, y, or z.
   
    [c-n] matches any of the characters in the range c to n.
   
    [^b-d] matches all characters except those in the range b to d. This is
    an instance of ^ negating or inverting the meaning of the following RE
    (taking on a role similar to ! in a different context).
   
*The backslash \ escapes a special character, which means that character
    gets interpreted literally.
   
    A \$ reverts back to its literal meaning of "dollar sign", rather than
    its RE meaning of end-of-line.
   
*Escaped "curly brackets" \{ \} indicate the number of occurrences of a
    preceding RE to match.
   
    It is necessary to escape the curly brackets since they have a different
    special character meaning otherwise.
   
    [0-9]\{5\} matches exactly five digits (characters in the range of 0 to
    9).
   
    +---------------------------------------------------------------+
    |                            Caution                            |
    +---------------------------------------------------------------+
    |Curly brackets are not available as an RE in awk.              |
    +---------------------------------------------------------------+
   

"Sed & Awk", by Dougherty and Robbins (see Bibliography) gives a very
complete and lucid treatment of REs.
-----------------------------------------------------------------------------

3.15.2. Using REs in scripts

Sed, awk, and Perl, used as filters in scripts, take REs as arguments when
"sifting" or transforming files or I/O streams. See Example A-4 and Example
A-8 for illustrations of this.
-----------------------------------------------------------------------------

3.16. Subshells

Running a shell script launches another instance of the command processor.
Just as your commands are interpreted at the command line prompt, similarly
does a script batch process a list of commands in a file. Each shell script
running is, in effect, a subprocess of the parent shell, the one that gives
you the prompt at the console or in an xterm window.

A shell script can also launch subprocesses. These subshells let the script
do parallel processing, in effect executing multiple subtasks simultaneously.

*( command1; command2; command3; ... )
   
    A command list embedded between parentheses runs as a subshell.
   

    Note: Variables in a subshell are not visible outside the block of code
    in the subshell. These are, in effect, local variables.
   
Example 3-77. Variable scope in a subshell
#!/bin/bash                                                                  
                                                                             
echo                                                                         
                                                                             
outer_variable=Outer                                                         
                                                                             
(                                                                            
inner_variable=Inner                                                         
echo "From subshell, \"inner_variable\" = $inner_variable"                   
echo "From subshell, \"outer\" = $outer_variable"                            
)                                                                            
                                                                             
echo                                                                         
                                                                             
if [ -z $inner_variable ]                                                    
then                                                                         
  echo "inner_variable undefined in main body of shell"                      
else                                                                         
  echo "inner_variable defined in main body of shell"                        
fi                                                                           
                                                                             
echo "From main body of shell, \"inner_variable\" = $inner_variable"         
# $inner_variable will show as uninitialized because                         
# variables defined in a subshell are "local variables".                     
                                                                             
echo                                                                         
                                                                             
exit 0                                                                       


Example 3-78. Running parallel processes in subshells
        (cat list1 list2 list3 | sort | uniq > list123)                      
        (cat list4 list5 list6 | sort | uniq > list456)                      
        # Merges and sorts both sets of lists simultaneously.                
                                                                             
        wait #Don't execute the next command until subshells finish.         
                                                                             
        diff list123 list456                                                 
                                                                             

   
    Note: A command block between curly braces does not launch a subshell.
   
    { command1; command2; command3; ... }
   
-----------------------------------------------------------------------------
3.17. Restricted Shells

Running a script or portion of a script in restricted mode disables certain
commands that would otherwise be available. This is a security measure
intended to limit the privileges of the script user and to minimize possible
damage from running the script.

Disabled commands in restricted shells

*Using cd to change the working directory.
   
*Changing the values of the $PATH, $SHELL, $BASH_ENV, or $ENV
    environmental variables.
   
*Reading or changing the $SHELLOPTS, shell environmental options.
   
*Output redirection.
   
*Invoking commands containing one or more /'s.
   
*Invoking exec to substitute a different process for the shell.
   
*Various other commands that would enable monkeying with or attempting to
    subvert the script for an unintended purpose.
   
*Getting out of restricted mode within the script.
   

Example 3-79. Running a script in restricted mode
#!/bin/bash                                                                        
# Starting the script with "#!/bin/bash -r" runs entire script in restricted mode. 
                                                                                   
echo                                                                               
                                                                                   
echo "Changing directory."                                                         
cd /usr/local                                                                      
echo "Now in `pwd`"                                                                
echo "Coming back home."                                                           
cd                                                                                 
echo "Now in `pwd`"                                                                
echo                                                                               
                                                                                   
# Everything up to here in normal, unrestricted mode.                              
                                                                                   
set -r                                                                             
# set --restricted    has same effect.                                             
echo "==> Now in restricted mode. <=="                                             
                                                                                   
echo                                                                               
echo                                                                               
                                                                                   
echo "Attempting directory change in restricted mode."                             
cd ..                                                                              
echo "Still in `pwd`"                                                              
                                                                                   
echo                                                                               
echo                                                                               
                                                                                   
echo "\$SHELL = $SHELL"                                                            
echo "Attempting to change shell in restricted mode."                              
SHELL="/bin/ash"                                                                   
echo                                                                               
echo "\$SHELL= $SHELL"                                                             
                                                                                   
echo                                                                               
echo                                                                               
                                                                                   
echo "Attempting to redirect output in restricted mode."                           
ls -l /usr/bin > bin.files                                                         
# Try to list attempted file creation effort.                                      
ls -l bin.files                                                                    
                                                                                   
echo                                                                               
                                                                                   
exit 0                                                                             
-----------------------------------------------------------------------------

3.18. Process Substitution

Process substitution is the counterpart to command substitution. Command
substitution sets a variable to the result of a command, as in dir_contents=
`ls -al` or xref=$( grep word datafile). Process substitution feeds the
output of a process to another process (in other words, it sends the results
of a command to another command).

*(command)>
   
    <(command)
   
    These initiate process substitution. This uses a named pipe (temp file)
    to send the results of the process within parentheses to another process.
   

    Note: There are no spaces between the parentheses and the "<" or ">".
    Space there would simply cause redirection from a subshell, rather than
    process substitution.
   
      cat <(ls -l)                                                                  
      # Same as     ls -l | cat                                                     
                                                                                    
      sort -k 9 <(ls -l /bin) <(ls -l /usr/bin) <(ls -l /usr/X11R6/bin)             
      # Lists all the files in the 3 main 'bin' directories, and sorts by filename. 
      # Note that three (count 'em) distinct commands are fed to 'sort'.            
                                                                                    
-----------------------------------------------------------------------------

3.19. Functions

Like "real" programming languages, bash has functions, though in a somewhat
limited implementation. A function is a subroutine, a code block that
implements a set of operations, a "black box" that performs a specified task.
Whenever there is repetitive code, when a task repeats with only slight
variations, then writing a function should be investigated.

function function-name {
command...
}
or

function-name () {
command...
}

This second form will cheer the hearts of C programmers.

The opening bracket in the function may optionally be placed on the second
line, to more nearly resemble C function syntax.

function-name ()
{
command...
}

Functions are called, triggered, simply by invoking their names.

Note that the function definition must precede the first call to it. There is
no method of "declaring" the function, as, for example, in C.


Example 3-80. Simple function
#!/bin/bash                                                                  
                                                                             
funky ()                                                                     
{                                                                            
  echo This is a funky function.                                             
  echo Now exiting funky function.                                           
}                                                                            
                                                                             
# Note: function must precede call.                                          
                                                                             
# Now, call the function.                                                    
                                                                             
funky                                                                        
                                                                             
exit 0                                                                       

More complex functions may have arguments passed to them and return exit
values to the script for further processing.
function-name $arg1 $arg2                                                    

The function refers to the passed arguments by position (as if they were
positional parameters), that is, $1, $2, and so forth.


Example 3-81. Function Taking Parameters
#!/bin/bash                                                                  
                                                                             
func2 () {                                                                   
   if [ -z $1 ]                                                              
   # Checks if any params.                                                   
   then                                                                      
     echo "No parameters passed to function."                                
     return 0                                                                
   else                                                                      
     echo "Param #1 is $1."                                                  
   fi                                                                        
                                                                             
   if [ $2 ]                                                                 
   then                                                                      
     echo "Parameter #2 is $2."                                              
   fi                                                                        
}                                                                            
                                                                             
func2                                                                        
# Called with no params                                                      
echo                                                                         
                                                                             
func2 first                                                                  
# Called with one param                                                      
echo                                                                         
                                                                             
func2 first second                                                           
# Called with two params                                                     
echo                                                                         
                                                                             
exit 0                                                                       

   
    Note: In contrast to certain other programming languages, shell scripts
    permit passing only value parameters to functions. Variable names (which
    are actually pointers), if passed as parameters to functions, will be
    treated as string literals and cannot be dereferenced. Functions
    interpret their arguments literally.
   
exit status
    Functions return a value, called an exit status. The exit status may be
    explicitly specified by a return statement, otherwise it is the exit
    status of the last command in the function (0 if successful, and a
    non-zero error code if not). This exit status may be used in the script
    by referencing it as $?.
   
return
    Terminates a function. The return statement optionally takes an integer
    argument, which is returned to the calling script as the "exit status" of
    the function, and this exit status is assigned to the variable $?.
   
   
    Example 3-82. Converting numbers to Roman numerals
    #!/bin/bash                                                      
                                                                     
    # Arabic number to Roman numeral conversion                      
    # Range 0 - 200                                                  
    # It's crude, but it works.                                      
                                                                     
    # Extending the range and otherwise improving the script         
    # is left as an exercise for the reader.                         
                                                                     
    # Usage: roman number-to-convert                                 
                                                                     
    ARG_ERR=1                                                        
    OUT_OF_RANGE=200                                                 
                                                                     
    if [ -z $1 ]                                                     
    then                                                             
      echo "Usage: `basename $0` number-to-convert"                  
      exit $ARG_ERR                                                  
    fi                                                               
                                                                     
    num=$1                                                           
    if [ $num -gt $OUT_OF_RANGE ]                                    
    then                                                             
      echo "Out of range!"                                           
      exit $OUT_OF_RANGE                                             
    fi                                                               
                                                                     
    to_roman ()                                                      
    {                                                                
    number=$1                                                        
    factor=$2                                                        
    rchar=$3                                                         
    let "remainder = number - factor"                                
    while [ $remainder -ge 0 ]                                       
    do                                                               
      echo -n $rchar                                                 
      let "number -= factor"                                         
      let "remainder = number - factor"                              
    done                                                             
                                                                     
    return $number                                                   
    }                                                                
                                                                     
    # Note: must declare function                                    
    #       before first call to it.                                 
                                                                     
    to_roman $num 100 C                                              
    num=$?                                                           
    to_roman $num 90 LXXXX                                           
    num=$?                                                           
    to_roman $num 50 L                                               
    num=$?                                                           
    to_roman $num 40 XL                                              
    num=$?                                                           
    to_roman $num 10 X                                               
    num=$?                                                           
    to_roman $num 9 IX                                               
    num=$?                                                           
    to_roman $num 5 V                                                
    num=$?                                                           
    to_roman $num 4 IV                                               
    num=$?                                                           
    to_roman $num 1 I                                                
                                                                     
    echo                                                             
                                                                     
    exit 0                                                           
   
local variables
    A variable declared as local is one that is visible only within the block
    of code in which it appears. In a shell script, this means the variable
    has meaning only within its own function.
   
   
    Example 3-83. Local variable visibility
    #!/bin/bash                                                      
                                                                     
    func ()                                                          
    {                                                                
      local a=23                                                     
      echo                                                           
      echo "a in function is $a"                                     
      echo                                                           
    }                                                                
                                                                     
    func                                                             
                                                                     
    # Now, see if local 'a'                                          
    # exists outside function.                                       
                                                                     
    echo "a outside function is $a"                                  
    echo                                                             
    # Nope, 'a' not visible globally.                                
                                                                     
    exit 0                                                           
   
    Local variables permit recursion (a recursive function is one that calls
    itself), but this practice usually involves much computational overhead
    and is definitely not recommended in a shell script.
   
   
    Example 3-84. Recursion, using a local variable
    #!/bin/bash                                                                         
                                                                                        
    #               factorial                                                           
    #               ---------                                                           
                                                                                        
                                                                                        
    # Does bash permit recursion?                                                       
    # Well, yes, but...                                                                 
    # You gotta have rocks in your head to try it.                                      
                                                                                        
                                                                                        
    MAX_ARG=5                                                                           
    WRONG_ARGS=1                                                                        
    RANGE_ERR=2                                                                         
                                                                                        
                                                                                        
    if [ -z $1 ]                                                                        
    then                                                                                
      echo "Usage: `basename $0` number"                                                
      exit $WRONG_ARGS                                                                  
    fi                                                                                  
                                                                                        
    if [ $1 -gt $MAX_ARG ]                                                              
    then                                                                                
      echo "Out of range (5 is maximum)."                                               
      # Let's get real now...                                                           
      # If you want greater range than this, rewrite it in a real programming language. 
      exit $RANGE_ERR                                                                   
    fi                                                                                  
                                                                                        
    fact ()                                                                             
    {                                                                                   
      local number=$1                                                                   
      # Variable "number" must be declared as local otherwise this doesn't work.        
      if [ $number -eq 0 ]                                                              
      then                                                                              
        factorial=1                                                                     
      else                                                                              
        let "decrnum = number - 1"                                                      
        fact $decrnum  # Recursive function call.                                       
        let "factorial = $number * $?"                                                  
      fi                                                                                
                                                                                        
      return $factorial                                                                 
    }                                                                                   
                                                                                        
    fact $1                                                                             
    echo "Factorial of $1 is $?."                                                       
                                                                                        
    exit 0                                                                              
   

-----------------------------------------------------------------------------
3.20. Aliases

A bash alias is essentially nothing more than a keyboard shortcut, an
abbreviation, a means of avoiding typing a long command sequence. If, for
example, we include alias lm="ls -l | more" in the ~/.bashrc file (see 
Section 3.23), then each lm typed at the command line will automatically be
replaced by a ls -l | more. This can save a great deal of typing at the
command line and avoid having to remember complex combinations of commands
and options. Setting alias rm="rm -i" (interactive mode delete) may save a
good deal of grief, since it can prevent inadvertently losing important
files.

In a script, aliases have very limited usefulness. It would be quite nice if
aliases could assume some of the functionality of the C preprocessor, such as
macro expansion, but unfortunately Bash does not expand arguments within the
alias body. Moreover, a script fails to expand an alias itself within 
"compound constructs", such as if/then statements, loops, and functions.
Almost invariably, whatever we would like an alias to do could be
accomplished much more effectively with a function.


Example 3-85. Aliases within a script
#!/bin/bash2                                                                          
                                                                                      
shopt -s expand_aliases                                                               
# Must set this option, else script will not expand aliases.                          
                                                                                      
                                                                                      
# First, some fun.                                                                    
alias Jesse_James='echo "\"Alias Jesse James\" was a 1959 comedy starring Bob Hope."' 
Jesse_James                                                                           
                                                                                      
                                                                                      
echo; echo; echo;                                                                     
                                                                                      
alias ll="ls -l"                                                                      
# May use either single (') or double (") quotes to define an alias.                  
                                                                                      
echo "Trying aliased \"ll\":"                                                         
ll /usr/X11R6/bin/mk*   # Alias works.                                                
                                                                                      
echo                                                                                  
                                                                                      
directory=/usr/X11R6/bin/                                                             
prefix=mk*  # See if wild-card causes problems.                                       
echo "Variables \"directory\" + \"prefix\" = $directory$prefix"                       
echo                                                                                  
                                                                                      
alias lll="ls -l $directory$prefix"                                                   
                                                                                      
echo "Trying aliased \"lll\":"                                                        
lll  # Long listing of all files in /usr/X11R6/bin stating with mk.                   
# Alias handles concatenated variables, including wild-card o.k.                      
                                                                                      
                                                                                      
                                                                                      
                                                                                      
TRUE=1                                                                                
                                                                                      
echo                                                                                  
                                                                                      
if [ TRUE ]                                                                           
then                                                                                  
  alias rr="ls -l"                                                                    
  echo "Trying aliased \"rr\" within if/then statement:"                              
  rr /usr/X11R6/bin/mk*   # Error message results!                                    
  # Aliases not expanded within compound statements.                                  
  echo "However, previously expanded alias still recognized:"                         
  ll /usr/X11R6/bin/mk*                                                               
fi                                                                                    
                                                                                      
echo                                                                                  
                                                                                      
count=0                                                                               
while [ $count -lt 3 ]                                                                
do                                                                                    
  alias rrr="ls -l"                                                                   
  echo "Trying aliased \"rrr\" within \"while\" loop:"                                
  rrr /usr/X11R6/bin/mk*   # Alias will not expand here either.                       
  let count+=1                                                                        
done                                                                                  
                                                                                      
                                                                                      
exit 0                                                                                

   
    Note: The unalias command removes a previously set alias.
   
Example 3-86. unalias: Setting and unsetting an alias
#!/bin/bash                                                                  
                                                                             
shopt -s expand_aliases  # Enables alias expansion.                          
                                                                             
alias llm='ls -al | more'                                                    
llm                                                                          
                                                                             
echo                                                                         
                                                                             
unalias llm    # Unset alias.                                                
llm                                                                          
# Error message results, since 'llm' no longer recognized.                   
                                                                             
exit 0                                                                       
bash$ ./unalias.sh                                                           
total 6                                                                      
drwxrwxr-x    2 bozo     bozo         3072 Feb  6 14:04 .                    
drwxr-xr-x   40 bozo     bozo         2048 Feb  6 14:04 ..                   
-rwxr-xr-x    1 bozo     bozo          199 Feb  6 14:04 unalias.sh           
                                                                             
./unalias.sh: llm: command not found                                         
-----------------------------------------------------------------------------

3.21. List Constructs

The "and list" and "or list" constructs provide a means of processing a
number of commands consecutively. These can effectively replace complex
nested if/then or even case statements. Note that the exit status of an "and
list" or an "or list" is the exit status of the last command executed.

and list
    command-1 && command-2 && command-3 && ... command-n             
    Each command executes in turn provided that the previous command has
    given a return value of true. At the first false return, the command
    chain terminates (the first command returning false is the last one to
    execute).
   
   
    Example 3-87. Using an "and list" to test for command-line arguments
    #!/bin/bash                                                                         
                                                                                        
    # "and list"                                                                        
                                                                                        
    if [ ! -z $1 ] && echo "Argument #1 = $1" && [ ! -z $2 ] && echo "Argument #2 = $2" 
    then                                                                                
      echo "At least 2 arguments to script."                                            
      # All the chained commands return true.                                           
    else                                                                                
      echo "Less than 2 arguments to script."                                           
      # At least one of the chained commands returns false.                             
    fi                                                                                  
    # Note that "if [ ! -z $1 ]" works, but its supposed equivalent,                    
    # "if [ -n $1 ]" does not. This is a bug, not a feature.                            
                                                                                        
                                                                                        
    # This accomplishes the same thing, coded using "pure" if/then statements.          
    if [ ! -z $1 ]                                                                      
    then                                                                                
      echo "Argument #1 = $1"                                                           
    fi                                                                                  
    if [ ! -z $2 ]                                                                      
    then                                                                                
      echo "Argument #2 = $2"                                                           
      echo "At least 2 arguments to script."                                            
    else                                                                                
      echo "Less than 2 arguments to script."                                           
    fi                                                                                  
    # It's longer and less elegant than using an "and list".                            
                                                                                        
                                                                                        
    exit 0                                                                              
   
or list
    command-1 || command-2 || command-3 || ... command-n             
    Each command executes in turn for as long as the previous command returns
    false. At the first true return, the command chain terminates (the first
    command returning true is the last one to execute). This is obviously the
    inverse of the "and list".
   
   
    Example 3-88. Using "or lists" in combination with an "and list"
    #!/bin/bash                                                          
                                                                         
    # "Delete", not-so-cunning file deletion utility.                    
    # Usage: delete filename                                             
                                                                         
    if [ -z $1 ]                                                         
    then                                                                 
      file=nothing                                                       
    else                                                                 
      file=$1                                                            
    fi                                                                   
    # Fetch file name (or "nothing") for deletion message.               
                                                                         
                                                                         
    [ ! -f $1 ] && echo "$1 not found. Can't delete a nonexistent file." 
    # AND LIST, to give error message if file not present.               
                                                                         
    [ ! -f $1 ] || ( rm -f $1; echo "$file deleted." )                   
    # OR LIST, to delete file if present.                                
    # ( command1 ; command2 ) is, in effect, an AND LIST variant.        
                                                                         
    # Note logic inversion above.                                        
    # AND LIST executes on true, OR LIST on false.                       
                                                                         
    [ ! -z $1 ] ||  echo "Usage: `basename $0` filename"                 
    # OR LIST, to give error message if no command line arg (file name). 
                                                                         
    exit 0                                                               
   

Clever combinations of "and" and "or" lists are possible, but the logic may
easily become convoluted and require extensive debugging.
-----------------------------------------------------------------------------

3.22. Arrays

Newer versions of bash support one-dimensional arrays. Arrays may be declared
with the variable[xx] notation or explicitly by a declare -a variable
statement. To dereference (find the contents of) an array variable, use curly
bracket notation, that is, ${variable[xx]}.


Example 3-89. Simple array usage
#!/bin/bash                                                                  
                                                                             
                                                                             
area[11]=23                                                                  
area[13]=37                                                                  
area[51]=UFOs                                                                
                                                                             
# Note that array members need not be consecutive                            
# or contiguous.                                                             
                                                                             
# Some members of the array can be left uninitialized.                       
# Gaps in the array are o.k.                                                 
                                                                             
                                                                             
echo -n "area[11] = "                                                        
echo ${area[11]}                                                             
echo -n "area[13] = "                                                        
echo ${area[13]}                                                             
# Note that {curly brackets} needed                                          
echo "Contents of area[51] are ${area[51]}."                                 
                                                                             
# Contents of uninitialized array variable print blank.                      
echo -n "area[43] = "                                                        
echo ${area[43]}                                                             
echo "(area[43] unassigned)"                                                 
                                                                             
echo                                                                         
                                                                             
# Sum of two array variables assigned to third                               
area[5]=`expr ${area[11]} + ${area[13]}`                                     
echo "area[5] = area[11] + area[13]"                                         
echo -n "area[5] = "                                                         
echo ${area[5]}                                                              
                                                                             
area[6]=`expr ${area[11]} + ${area[51]}`                                     
echo "area[6] = area[11] + area[51]"                                         
echo -n "area[6] = "                                                         
echo ${area[6]}                                                              
# This doesn't work because                                                  
# adding an integer to a string is not permitted.                            
                                                                             
echo                                                                         
echo                                                                         
echo                                                                         
                                                                             
# -----------------------------------------------------------------          
# Another array, "area2".                                                    
# Another way of assigning array variables...                                
# array_name=( XXX YYY ZZZ ... )                                             
                                                                             
area2=( zero one two three four)                                             
                                                                             
echo -n "area2[0] = "                                                        
echo ${area2[0]}                                                             
# Aha, zero-based indexing (first element of array is [0], not [1]).         
                                                                             
echo -n "area2[1] = "                                                        
echo ${area2[1]}  # [1] is second element of array.                          
# -----------------------------------------------------------------          
                                                                             
                                                                             
echo                                                                         
echo                                                                         
echo                                                                         
                                                                             
# -----------------------------------------------                            
# Yet another array, "area3".                                                
# Yet another way of assigning array variables...                            
# array_name=([xx]=XXX [yy]=YYY ...)                                         
                                                                             
area3=([17]=seventeen [24]=twenty-four)                                      
                                                                             
echo -n "area3[17] = "                                                       
echo ${area3[17]}                                                            
                                                                             
echo -n "area3[24] = "                                                       
echo ${area3[24]}                                                            
# -----------------------------------------------                            
                                                                             
                                                                             
exit 0                                                                       

Arrays variables have a syntax all their own, and even standard bash
operators have special options adapted for array use.


Example 3-90. Some special properties of arrays
#!/bin/bash                                                                            
                                                                                       
declare -a colors                                                                      
# Permits declaring an array without specifying size.                                  
                                                                                       
echo "Enter your favorite colors (separated from each other by a space)."              
                                                                                       
read -a colors                                                                         
# Special option to 'read' command,                                                    
# allowing it to assign elements in an array.                                          
                                                                                       
echo                                                                                   
                                                                                       
  element_count=${#colors[@]} # Special syntax to extract number of elements in array. 
# element_count=${#colors[*]} works also.                                              
index=0                                                                                
                                                                                       
# List all the elements in the array.                                                  
while [ $index -lt $element_count ]                                                    
do                                                                                     
  echo ${colors[$index]}                                                               
  let "index = $index + 1"                                                             
done                                                                                   
# Each array element listed on a separate line.                                        
# If this is not desired, use  echo -n "${colors[$index]} "                            
                                                                                       
echo                                                                                   
                                                                                       
# Again, list all the elements in the array, but using a more elegant method.          
  echo ${colors[@]}                                                                    
# echo ${colors[*]} works also.                                                        
                                                                                       
                                                                                       
echo                                                                                   
                                                                                       
exit 0                                                                                 

As seen in the previous example, either ${array_name[@]} or ${array_name[*]}
refers to all the elements of the array. Similarly, to get a count of the
number of elements in an array, use either ${#array_name[@]} or ${#array_name
[*]}.

--

Arrays permit deploying old familiar algorithms as shell scripts. Whether
this is necessarily a good idea is left to the reader to decide.


Example 3-91. An old friend: The Bubble Sort
#!/bin/bash                                                                                                                                                                                                      
                                                                                                                                                                                                                 
# Bubble sort, of sorts.                                                                                                                                                                                         
                                                                                                                                                                                                                 
# Recall the algorithm for a bubble sort. In this particular version...                                                                                                                                          
                                                                                                                                                                                                                 
# With each successive pass through the array to be sorted,                                                                                                                                                      
# compare two adjacent elements, and swap them if out of order.                                                                                                                                                  
# At the end of the first pass, the "heaviest" element has sunk to bottom.                                                                                                                                       
# At the end of the second pass, the next "heaviest" one has sunk next to bottom.                                                                                                                                
# And so forth.                                                                                                                                                                                                  
# This means that each successive pass needs to traverse less of the array.                                                                                                                                      
# You will therefore notice a speeding up in the printing of the later passes.                                                                                                                                   
                                                                                                                                                                                                                 
                                                                                                                                                                                                                 
exchange()                                                                                                                                                                                                       
{                                                                                                                                                                                                                
  # Swaps two members of the array.                                                                                                                                                                              
  local temp=${Countries[$1]} # Temporary storage for element getting swapped out.                                                                                                                               
  Countries[$1]=${Countries[$2]}                                                                                                                                                                                 
  Countries[$2]=$temp                                                                                                                                                                                            
                                                                                                                                                                                                                 
  return                                                                                                                                                                                                         
}                                                                                                                                                                                                                
                                                                                                                                                                                                                 
declare -a Countries  # Declare array, optional here since it's initialized below.                                                                                                                               
                                                                                                                                                                                                                 
Countries=(Netherlands Ukraine Zair Turkey Russia Yemen Syria Brazil Argentina Nicaragua Japan Mexico Venezuela Greece England Israel Peru Canada Oman Denmark Wales France Kashmir Qatar Liechtenstein Hungary) 
# Couldn't think of one starting with X (darn).                                                                                                                                                                  
                                                                                                                                                                                                                 
clear  # Clear the screen to start with.                                                                                                                                                                         
                                                                                                                                                                                                                 
echo "0: ${Countries[*]}"  # List entire array at pass 0.                                                                                                                                                        
                                                                                                                                                                                                                 
number_of_elements=${#Countries[@]}                                                                                                                                                                              
let "comparisons = $number_of_elements - 1"                                                                                                                                                                      
                                                                                                                                                                                                                 
count=1 # Pass number.                                                                                                                                                                                           
                                                                                                                                                                                                                 
while [ $comparisons -gt 0 ]   # Beginning of outer loop                                                                                                                                                         
do                                                                                                                                                                                                               
                                                                                                                                                                                                                 
  index=0  # Reset index to start of array after each pass.                                                                                                                                                      
                                                                                                                                                                                                                 
  while [ $index -lt $comparisons ] # Beginning of inner loop                                                                                                                                                    
  do                                                                                                                                                                                                             
    if [ ${Countries[$index]} \> ${Countries[`expr $index + 1`]} ]                                                                                                                                               
    # If out of order...                                                                                                                                                                                         
    # Recalling that \> is ASCII comparison operator.                                                                                                                                                            
    then                                                                                                                                                                                                         
      exchange $index `expr $index + 1`  # Swap.                                                                                                                                                                 
    fi                                                                                                                                                                                                           
    let "index += 1"                                                                                                                                                                                             
  done # End of inner loop                                                                                                                                                                                       
                                                                                                                                                                                                                 
                                                                                                                                                                                                                 
let "comparisons -= 1"                                                                                                                                                                                           
# Since "heaviest" element bubbles to bottom, we need do one less comparison each pass.                                                                                                                          
                                                                                                                                                                                                                 
echo                                                                                                                                                                                                             
echo "$count: ${Countries[@]}"                                                                                                                                                                                   
# Print resultant array at end of each pass.                                                                                                                                                                     
echo                                                                                                                                                                                                             
let "count += 1"   # Increment pass count.                                                                                                                                                                       
                                                                                                                                                                                                                 
done  # End of outer loop                                                                                                                                                                                        
                                                                                                                                                                                                                 
# All done.                                                                                                                                                                                                      
                                                                                                                                                                                                                 
exit 0                                                                                                                                                                                                           

--

Arrays enable implementing a shell script version of the Sieve of
Erastosthenes. Of course, a resource-intensive application of this nature
should really be written in a compiled language, such as C. It runs
excruciatingly slowly as a script.


Example 3-92. Complex array application: Sieve of Erastosthenes
#!/bin/bash                                                                  
                                                                             
# sieve.sh                                                                   
# Sieve of Erastosthenes                                                     
# Ancient algorithm for finding prime numbers.                               
                                                                             
# This runs a couple of orders of magnitude                                  
# slower than equivalent C program.                                          
                                                                             
LOWER_LIMIT=1                                                                
# Starting with 1.                                                           
UPPER_LIMIT=1000                                                             
# Up to 1000.                                                                
# (You may set this higher...                                                
#  if you have time on your hands.)                                          
                                                                             
PRIME=1                                                                      
NON_PRIME=0                                                                  
                                                                             
let SPLIT=UPPER_LIMIT/2                                                      
# Optimization:                                                              
# Need to test numbers only                                                  
# halfway to upper limit.                                                    
                                                                             
                                                                             
declare -a Primes                                                            
# Primes[] is an array.                                                      
                                                                             
                                                                             
initialize ()                                                                
{                                                                            
# Initialize the array.                                                      
                                                                             
i=$LOWER_LIMIT                                                               
until [ $i -gt $UPPER_LIMIT ]                                                
do                                                                           
  Primes[i]=$PRIME                                                           
  let "i += 1"                                                               
done                                                                         
# Assume all array members guilty (prime)                                    
# until proven innocent.                                                     
}                                                                            
                                                                             
print_primes ()                                                              
{                                                                            
# Print out the members of the Primes[] array                                
# tagged as prime.                                                           
                                                                             
i=$LOWER_LIMIT                                                               
                                                                             
until [ $i -gt $UPPER_LIMIT ]                                                
do                                                                           
                                                                             
  if [ ${Primes[i]} -eq $PRIME ]                                             
  then                                                                       
    printf "%8d" $i                                                          
    # 8 spaces per number                                                    
    # gives nice, even columns.                                              
  fi                                                                         
                                                                             
  let "i += 1"                                                               
                                                                             
done                                                                         
                                                                             
}                                                                            
                                                                             
sift ()                                                                      
{                                                                            
# Sift out the non-primes.                                                   
                                                                             
let i=$LOWER_LIMIT+1                                                         
# We know 1 is prime, so                                                     
# let's start with 2.                                                        
                                                                             
until [ $i -gt $UPPER_LIMIT ]                                                
do                                                                           
                                                                             
if [ ${Primes[i]} -eq $PRIME ]                                               
# Don't bother sieving numbers                                               
# already sieved (tagged as non-prime).                                      
then                                                                         
                                                                             
  t=$i                                                                       
                                                                             
  while [ $t -le $UPPER_LIMIT ]                                              
  do                                                                         
    let "t += $i "                                                           
    Primes[t]=$NON_PRIME                                                     
    # Tag as non-prime                                                       
    # all multiples.                                                         
  done                                                                       
                                                                             
fi                                                                           
                                                                             
  let "i += 1"                                                               
done                                                                         
                                                                             
                                                                             
}                                                                            
                                                                             
                                                                             
# Invoke the functions sequentially.                                         
initialize                                                                   
sift                                                                         
print_primes                                                                 
echo                                                                         
# This is what they call structured programming.                             
                                                                             
exit 0                                                                       
-----------------------------------------------------------------------------

3.23. Files

*/etc/profile
   
    systemwide defaults, mostly setting the environment (all shells, not just
    Bash)
   
*/etc/bashrc
   
    systemwide functions and and aliases for Bash
   
*$HOME/.bash_profile
   
    user-specific Bash environmental default settings, found in each user's
    home directory (the local counterpart to /etc/profile)
   
*$HOME/.bashrc
   
    user-specific Bash init file, found in each user's home directory (the
    local counterpart to /etc/bashrc). Only interactive shells and user
    scripts read this file. See Appendix C for a sample .bashrc file.
   

These are the startup files for Bash. They contain the aliases (see Section
3.20) and environmental variables made available to Bash running as a user
shell and to all Bash scripts invoked after system initialization.
-----------------------------------------------------------------------------

3.24. Here Documents

A here document uses a special form of I/O redirection (see Section 3.13) to
feed a command script to an interactive program, such as ftp, telnet, or ex.
Typically, the script consists of a command list to the program, delineated
by a limit string. The special symbol << precedes the limit string. This has
the effect of redirecting the output of a file into the program, similar to
interactive-program                                                          
        < command-file                                                       
where command-file contains
command #1                                                                   
command #2                                                                   
...                                                                          

The "here document" alternative looks like this:
#!/bin/bash                                                                  
interactive-program <<LimitString                                            
command #1                                                                   
command #2                                                                   
...                                                                          
LimitString                                                                  

Choose a limit string sufficiently unusual that it will not occur anywhere in
the command list and confuse matters.

Note that "here documents" may sometimes be used to good effect with
non-interactive utilities and commands.


Example 3-93. dummyfile: Creates a 2-line dummy file
#!/bin/bash                                                                  
                                                                             
# Non-interactive use of 'vi' to edit a file.                                
# Emulates 'sed'.                                                            
                                                                             
if [ -z $1 ]                                                                 
then                                                                         
  echo "Usage: `basename $0` filename"                                       
  exit 1                                                                     
fi                                                                           
                                                                             
TARGETFILE=$1                                                                
                                                                             
vi $TARGETFILE <<x23LimitStringx23                                           
i                                                                            
This is line 1 of the example file.                                          
This is line 2 of the example file.                                          
^[                                                                           
ZZ                                                                           
x23LimitStringx23                                                            
                                                                             
# Note that ^[ above is a literal escape                                     
# typed by Control-V Escape                                                  
                                                                             
exit 0                                                                       

The above script could just as effectively have been implemented with ex,
rather than vi. Here documents containing a list of ex commands are common
enough to form their own category, known as ex scripts.


Example 3-94. broadcast: Sends message to everyone logged in
#!/bin/bash                                                                  
                                                                             
wall <<zzz23EndOfMessagezzz23                                                
Dees ees a message frrom Central Headquarters:                               
Do not keel moose!                                                           
# Other message text goes here.                                              
# Note: Comment lines printed by 'wall'.                                     
zzz23EndOfMessagezzz23                                                       
                                                                             
# Could have been done more efficiently by                                   
# wall <message-file                                                         
                                                                             
exit 0                                                                       


Example 3-95. Multi-line message using cat
#!/bin/bash                                                                  
                                                                             
# 'echo' is fine for printing single line messages,                          
#  but somewhat problematic for for message blocks.                          
#  A 'cat' here document overcomes this limitation.                          
                                                                             
cat <<End-of-message                                                         
-------------------------------------                                        
This is line 1 of the message.                                               
This is line 2 of the message.                                               
This is line 3 of the message.                                               
This is line 4 of the message.                                               
This is the last line of the message.                                        
-------------------------------------                                        
End-of-message                                                               
                                                                             
exit 0                                                                       


Example 3-96. upload: Uploads a file pair to "Sunsite" incoming directory
#!/bin/bash                                                                  
                                                                             
# upload                                                                     
# upload file pair (filename.lsm, filename.tar.gz)                           
# to incoming directory at Sunsite                                           
                                                                             
                                                                             
if [ -z $1 ]                                                                 
then                                                                         
  echo "Usage: `basename $0` filename"                                       
  exit 1                                                                     
fi                                                                           
                                                                             
                                                                             
Filename=`basename $1`                                                       
# Strips pathname out of file name                                           
                                                                             
Server="metalab.unc.edu"                                                     
Directory="/incoming/Linux"                                                  
# These need not be hard-coded into script,                                  
# may instead be changed to command line argument.                           
                                                                             
Password="your.e-mail.address"                                               
# Change above to suit.                                                      
                                                                             
ftp -n $Server <<End-Of-Session                                              
# -n option disables auto-logon                                              
                                                                             
user anonymous $Password                                                     
binary                                                                       
bell                                                                         
# Ring 'bell' after each file transfer                                       
cd $Directory                                                                
put $Filename.lsm                                                            
put $Filename.tar.gz                                                         
bye                                                                          
End-Of-Session                                                               
                                                                             
exit 0                                                                       

   
    Note: Some utilities will not work in a "here document". The pagers, more
    and less are among these.
   
    For those tasks too complex for a "here document", consider using the 
    expect scripting language, which is specifically tailored for feeding
    input into non-interactive programs.
   
-----------------------------------------------------------------------------
3.25. Of Zeros and Nulls

Uses of /dev/null
    Think of /dev/null as a "black hole". It is the nearest equivalent to a
    write-only file. Everything written to it disappears forever. Attempts to
    read or output from it result in nothing. Nevertheless, /dev/null can be
    quite useful from both the command line and in scripts.
   
    Suppressing stdout or stderr (from Example 3-98):
    rm $badname 2>/dev/null                                          
    #           So error messages [stderr] deep-sixed.               
   
    Deleting contents of a file, but preserving the file itself, with all
    attendant permissions (from Example 2-1 and Example 2-2):
    cat /dev/null > /var/log/messages                                
    cat /dev/null > /var/log/wtmp                                    
   
    Automatically emptying the contents of a log file (especially good for
    dealing with those nasty "cookies" sent by Web commercial sites):
    rm -f ~/.netscape/cookies                                             
    ln -s /dev/null ~/.netscape/cookies                                   
    # All cookies now get sent to a black hole, rather than saved to disk.
   
Uses of /dev/zero
    Like /dev/null, /dev/zero is a pseudo file, but it actually contains
    nulls (numerical zeros, not the ASCII kind). Output written to it
    disappears, and it is fairly difficult to actually read the nulls in /dev
    /zero, though it can be done with od or a hex editor. The chief use for /
    dev/zero is in creating an initialized dummy file of specified length
    intended as a temporary swap file.
   
   
    Example 3-97. Setting up a swapfile using /dev/zero
    #!/bin/bash                                                      
                                                                     
    # Creating a swapfile.                                           
    # This script must be run as root.                               
                                                                     
    FILE=/swap                                                       
    BLOCKSIZE=1024                                                   
    PARAM_ERROR=33                                                   
    SUCCESS=0                                                        
                                                                     
                                                                     
    if [ -z $1 ]                                                     
    then                                                             
      echo "Usage: `basename $0` swapfile-size"                      
      # Must be at least 40 blocks.                                  
      exit $PARAM_ERROR                                              
    fi                                                               
                                                                     
    dd if=/dev/zero of=$FILE bs=$BLOCKSIZE count=$1                  
                                                                     
    echo "Creating swapfile of size $1 blocks (KB)."                 
                                                                     
    mkswap $FILE $1                                                  
    swapon $FILE                                                     
                                                                     
    echo "Swapfile activated."                                       
                                                                     
    exit $SUCCESS                                                    
   

-----------------------------------------------------------------------------
3.26. Debugging

The Bash shell contains no debugger, nor even any debugging-specific commands
or constructs. Syntax errors or outright typos in the script generate cryptic
error messages that are often of no help in debugging a non-functional
script.


Example 3-98. test23, a buggy script
#!/bin/bash                                                                  
                                                                             
a=37                                                                         
                                                                             
if [$a -gt 27 ]                                                              
then                                                                         
  echo $a                                                                    
fi                                                                           
                                                                             
exit 0                                                                       

Output from script:
./test23: [37: command not found                                             

What's wrong with the above script (hint: after the if)?

What if the script executes, but does not work as expected? This is the all
too familiar logic error.


Example 3-99. test24, another buggy script
#!/bin/bash                                                                  
                                                                             
# This is supposed to delete all filenames                                   
# containing embedded spaces in current directory,                           
# but doesn't.  Why not?                                                     
                                                                             
                                                                             
badname=`ls | grep ' '`                                                      
                                                                             
# echo "$badname"                                                            
                                                                             
rm "$badname"                                                                
                                                                             
exit 0                                                                       

To find out what's wrong with Example 3-99, uncomment the echo "$badname"
line. Echo statements are useful for seeing whether what you expect is
actually what you get.

Summarizing the symptoms of a buggy script,

 1. It bombs with an error message syntax error, or
   
 2. It runs, but does not work as expected (logic error)
   
 3. It runs, works as expected, but has nasty side effects (logic bomb).
   

Tools for debugging non-working scripts include

 1. echo statements at critical points in the script to trace the variables,
    and otherwise give a snapshot of what is going on.
   
 2. using the tee filter to check processes or data flows at critical points.
   
 3. setting option flags -n -v -x
   
    sh -n scriptname checks for syntax errors without actually running the
    script. This is the equivalent of inserting set -n or set -o noexec into
    the script. Note that certain types of syntax errors can slip past this
    check.
   
    sh -v scriptname echoes each command before executing it. This is the
    equivalent of inserting set -v or set -o verbose in the script.
   
    sh -x scriptname echoes the result each command, but in an abbreviated
    manner. This is the equivalent of inserting set -x or set -o xtrace in
    the script.
   
    Inserting set -u or set -o nounset in the script runs it, but gives an 
    unbound variable error message at each attempt to use an undeclared
    variable.
   
 4. trapping at exit
   
    The exit command in a script actually sends a signal 0, terminating the
    process, that is, the script itself. It is often useful to trap the exit,
    forcing a "printout" of variables, for example. The trap must be the
    first command in the script.
   

trap
    Specifies an action on receipt of a signal; also useful for debugging.
       
        Note: A signal is simply a message sent to a process, either by the
        kernel or another process, telling it to take some specified action
        (usually to terminate). For example, hitting a Control-C, sends a
        user interrupt, an INT signal, to a running program.
       
    trap 2 #ignore interrupts (no action specified)                  
    trap 'echo "Control-C disabled."' 2                              
   

Example 3-100. Trapping at exit
#!/bin/bash                                                                  
                                                                             
trap 'echo Variable Listing --- a = $a  b = $b' EXIT                         
# EXIT is the name of the signal generated upon exit from a script.          
                                                                             
a=39                                                                         
                                                                             
b=36                                                                         
                                                                             
exit 0                                                                       
# Note that commenting out the 'exit' command makes no difference,           
# since the script exits anyhow after running out of commands.               


Example 3-101. Cleaning up after Control-C
#!/bin/bash                                                                             
                                                                                        
# logon.sh                                                                              
# A quick 'n dirty script to check whether you are on-line yet.                         
                                                                                        
                                                                                        
TRUE=1                                                                                  
LOGFILE=/var/log/messages                                                               
# Note that $LOGFILE must be readable (chmod 644 /var/log/messages).                    
TEMPFILE=temp.$$                                                                        
# Create a "unique" temp file name, using process id of the script.                     
KEYWORD=address                                                                         
# At logon, the line "remote IP address xxx.xxx.xxx.xxx" appended to /var/log/messages. 
ONLINE=22                                                                               
USER_INTERRUPT=13                                                                       
                                                                                        
trap 'rm -f $TEMPFILE; exit $USER_INTERRUPT' TERM INT                                   
# Cleans up the temp file if script interrupted by control-c.                           
                                                                                        
echo                                                                                    
                                                                                        
while [ $TRUE ]  #Endless loop.                                                         
do                                                                                      
  tail -1 $LOGFILE> $TEMPFILE                                                           
  # Saves last line of system log file as temp file.                                    
  search=`grep $KEYWORD $TEMPFILE`                                                      
  # Checks for presence of the "IP address" phrase,                                     
  # indicating a successful logon.                                                      
                                                                                        
  if [ ! -z "$search" ] # Quotes necessary because of possible spaces.                  
  then                                                                                  
     echo "On-line"                                                                     
     rm -f $TEMPFILE  # Clean up temp file.                                             
     exit $ONLINE                                                                       
  else                                                                                  
     echo -n "." # -n option to echo suppresses newline,                                
                 # so you get continuous rows of dots.                                  
  fi                                                                                    
                                                                                        
  sleep 1                                                                               
done                                                                                    
                                                                                        
                                                                                        
# Note: if you change the KEYWORD variable to "Exit",                                   
# this script can be used while on-line to check for an unexpected logoff.              
                                                                                        
# Exercise: Change the script, as per the above note,                                   
#           and prettify it.                                                            
                                                                                        
exit 0                                                                                  

   
    Note: trap '' SIGNAL (two adjacent apostrophes) disables SIGNAL for the
    remainder of the script. trap SIGNAL restores the functioning of SIGNAL
    once more. This is useful to protect a critical portion of a script from
    an undesirable interrupt.
   
        trap '' 2  # Signal 2 is Control-C, now disabled.                    
        command                                                              
        command                                                              
        command                                                              
        trap 2     # Reenables Control-C                                     
                                                                             
-----------------------------------------------------------------------------

3.27. Options

Options are settings that change shell and/or script behavior.

The set command (see Section 3.9) enables options within a script. At the
point in the script where you want the options to take effect, use set -o
option-name or, in short form, set -option-abbrev. These two forms are
equivalent.

      #!/bin/bash                                                            
                                                                             
      set -o verbose                                                         
      # Echoes all commands before executing.                                
                                                                             

      #!/bin/bash                                                            
                                                                             
      set -v                                                                 
      # Exact same effect as above.                                          
                                                                             

   
    Note: To disable an option within a script, use set +o option-name or set
    +option-abbrev.
   
      #!/bin/bash                                                            
                                                                             
      set -o verbose                                                         
      # Command echoing on.                                                  
      command                                                                
      ...                                                                    
      command                                                                
                                                                             
      set +o verbose                                                         
      # Command echoing off.                                                 
      command                                                                
      # Not echoed.                                                          
                                                                             
                                                                             
      set -v                                                                 
      # Command echoing on.                                                  
      command                                                                
      ...                                                                    
      command                                                                
                                                                             
      set +v                                                                 
      # Command echoing off.                                                 
      command                                                                
                                                                             
      exit 0                                                                 
                                                                             

An alternate method of enabling options in a script is to specify them
immediately following the #! script header.

      #!/bin/bash -x                                                         
      #                                                                      
      # Body of script follows.                                              
                                                                             

It is also possible to enable script options from the command line. Some
options that will not work with set are available this way. Among these are
-i, force script to run interactive.

bash -v script-name

bash -o verbose script-name

The following is a listing of some useful options. They may be specified in
either abbreviated form or by complete name.


Table 3-1. bash options
+------------+-----------+--------------------------------------------------+
|Abbreviation|Name       |Effect                                            |
+------------+-----------+--------------------------------------------------+
|-C          |noclobber  |Prevent overwriting of files by redirection (may  |
|            |           |be overridden by >|)                              |
+------------+-----------+--------------------------------------------------+
|-D          |(none)     |List double-quoted strings prefixed by $, but do  |
|            |           |not execute commands in script                    |
+------------+-----------+--------------------------------------------------+
|-a          |allexport  |Export all defined variables                      |
+------------+-----------+--------------------------------------------------+
|-b          |notify     |Notify when jobs running in background terminate  |
|            |           |(not of much use in a script)                     |
+------------+-----------+--------------------------------------------------+
|-c xxx      |(none)     |Read commands from xxx                            |
+------------+-----------+--------------------------------------------------+
|-f          |noglob     |Filename expansion (globbing) disabled            |
+------------+-----------+--------------------------------------------------+
|-i          |interactive|Script runs in interactive mode                   |
+------------+-----------+--------------------------------------------------+
|-p          |privileged |Script runs as "suid" (caution!)                  |
+------------+-----------+--------------------------------------------------+
|-r          |restricted |Script runs in restricted mode (see Section 3.17).|
+------------+-----------+--------------------------------------------------+
|-u          |nounset    |Attempt to use undefined variable outputs error   |
|            |           |message                                           |
+------------+-----------+--------------------------------------------------+
|-v          |verbose    |Print each command to stdout before executing it  |
+------------+-----------+--------------------------------------------------+
|-x          |xtrace     |Similar to -v, but expands commands               |
+------------+-----------+--------------------------------------------------+
|-e          |errexit    |Abort script at first error (when a command exits |
|            |           |with non-zero status)                             |
+------------+-----------+--------------------------------------------------+
|-n          |noexec     |Read commands in script, but do not execute them  |
+------------+-----------+--------------------------------------------------+
|-s          |stdin      |Read commands from stdin                          |
+------------+-----------+--------------------------------------------------+
|-t          |(none)     |Exit after first command                          |
+------------+-----------+--------------------------------------------------+
|-           |(none)     |End of options flag. All other arguments are      |
|            |           |positional parameters.                            |
+------------+-----------+--------------------------------------------------+
|--          |(none)     |Unset positional parameters. If arguments given   |
|            |           |(--arg1arg2), positional parameters set to        |
|            |           |arguments.                                        |
+------------+-----------+--------------------------------------------------+
-----------------------------------------------------------------------------

3.28. Gotchas

                                      Turandot: Gli enigmi sono tre, la     
                                       morte una!                            
                                                                             
                                       Caleph: No, no! Gli enigmi sono tre,  
                                       una la vita!                          
                                                                     Puccini

Assigning reserved words or characters to variable names.
var1=case                                                                        
# Causes problems.                                                               
var2=23skidoo                                                                    
# Also problems. Variable names starting with a digit are reserved by the shell. 
# Try var2=_23skidoo. Starting variables with an underscore is o.k.              
var3=xyz((!*                                                                     
# Causes even worse problems.                                                    

Using a hyphen or other reserved characters in a variable name.
var-1=23                                                                     
# Use 'var_1' instead.                                                       

Using white space inappropriately (in contrast to other programming languages
bash can be finicky about white space).
var1 = 23                                                                    
# 'var1=23' is correct.                                                      
let c = $a - $b                                                              
# 'let c=$a-$b' or 'let "c = $a - $b"' are correct.                          
if [ $a -le 5]                                                               
# 'if [ $a -le 5 ]' is correct.                                              

Using uninitialized variables (that is, using variables before a value is
assigned to them). An uninitialized variable has a value of "null", not zero.

Mixing up = and -eq in a test. Remember, = is for comparing literal variables
and -eq is for numbers.
        if [ $a = 273 ] # Wrong!                                             
        if [ $a -eq 273 ] # Correct.                                         
                                                                             

Sometimes variables within "test" brackets ([ ]) need to be quoted (double
quotes). Failure to do so may cause unexpected behavior. See Example 3-13, 
Example 3-73, and Example 3-17.

Commands issued from a script may fail to execute because the script owner
lacks execute permission for them. If a user cannot invoke a command from the
command line, then putting it into a script will likewise fail. Try changing
the attributes of the command in question, perhaps setting the suid bit (as
root, of course).

Using bash version 2 functionality (see below) in a script headed with #!/bin
/bash may cause a bailout with error messages. Your system may still have an
older version of bash as the default installation (echo $BASH_VERSION). Try
changing the header of the script to #!/bin/bash2.

A script may not export variables back to its parent process, the shell, or
to the environment. Just as we learned in biology, a child process can
inherit from a parent, but not vice versa.
WHATEVER=/home/bozo                                                          
export WHATEVER                                                              
exit 0                                                                       
bash$ echo $WHATEVER                                                         
                                                                             
bash$                                                                        
Sure enough, back at the command prompt, $WHATEVER remains unset.

Making scripts "suid" is generally a bad idea, as it may compromise system
security. Administrative scripts should be run by root, not regular users.

Using shell scripts for CGI programming may be problematic. Shell script
variables are not "typesafe", and this can cause undesirable behavior as far
as CGI is concerned. Moreover, it is difficult to "hacker-proof" shell
scripts.
-----------------------------------------------------------------------------

3.29. Miscellany

                                      Nobody really knows what the Bourne   
                                       shell's grammar is. Even examination  
                                       of the source code is little help.    
                                                                    Tom Duff
-----------------------------------------------------------------------------

3.29.1. Interactive and non-interactive scripts

Let us define an interactive script as one that requires input from the user,
usually with read statements (see Example 3-42). "Real life" is actually a
bit messier than that, and the formal specifications of an interactive shell
(according to Ramey & Fox) are complex and confusing. For now, assume an
interactive script is one that is bound to a tty, a script that a user has
invoked from the console or an xterm.

Init and startup scripts are necessarily non-interactive, since they must run
without human intervention. Many administrative and system maintenance
scripts are likewise non-interactive. Unvarying repetitive tasks cry out for
automation by non-interactive scripts.

Non-interactive scripts can run in the background, but interactive ones hang,
waiting for input that never comes. Handle that difficulty by having an 
expect script or embedded here document (see Section 3.24) feed input to an
interactive script running as a background job. In the simplest case,
redirect a file to supply input to a read statement (read variable <file).
These particular workarounds make possible general purpose scripts that run
in either interactive or non-interactive modes.

If a script needs to test whether it is running in interactive mode, it is
simply a matter of finding whether the prompt variable, $PS1 is set. (If the
user is being prompted for input, then the script needs to display a prompt.)
if [ -z $PS1 ] # no prompt?                                                  
then                                                                         
  # non-interactive                                                          
  ...                                                                        
else                                                                         
  # interactive                                                              
  ...                                                                        
fi                                                                           
Alternatively, the script can test for the presence of i in the $- flag.
case $- in                                                                   
*i*)    # interactive script                                                 
;;                                                                           
*)      # non-interactive script                                             
;;                                                                           
# (Thanks to "UNIX F.A.Q.", 1993)                                            

   
    Note: Scripts may be forced to run in interactive mode with the i option
    or with a #!/bin/bash -i header. Be aware that this may cause erratic
    script behavior or show error messages where no error is present.
   
-----------------------------------------------------------------------------
3.29.2. Optimizations

Most shell scripts are quick 'n dirty solutions to non-complex problems. As
such, optimizing them for speed is not much of an issue. Consider the case,
though, where a script carries out an important task, does it well, but runs
too slowly. Rewriting it in a compiled language may not be a palatable
option. The simplest fix would be to rewrite the parts of the script that
slow it down. Is it possible to apply principles of code optimization even to
a lowly shell script?

Check the loops in the script. Time consumed by repetitive operations adds up
quickly. Use the time and times tools to profile computation-intensive
commands. Consider rewriting time-critical code sections in C, or even in
assembler.

Try to minimize file i/o. Bash is not particularly efficient at handling
files, so consider using more appropriate tools for this within the script,
such as awk or Perl.

Try to write your scripts in a structured, coherent form, so they can be
reorganized and tightened up as necessary. Some of the optimization
techniques applicable to high-level languages may work for scripts, but
others, such as loop unrolling, are mostly irrelevant. Above all, use common
sense.
-----------------------------------------------------------------------------

3.29.3. Assorted Tips

*To keep a record of which user scripts have run during a particular
    sesssion or over a number of sessions, add the following lines to each
    script you want to keep track of. This will keep a continuing file record
    of the script names and invocation times.
   
    # Append (>>) following to end of save file.                                       
    date>> $SAVE_FILE   #Date and time.                                                
    echo $0>> $SAVE_FILE   #Script name.                                               
    echo>> $SAVE_FILE   #Blank line as separator.                                      
    # Of course, SAVE_FILE defined and exported as environmental variable in ~/.bashrc 
    # (something like ~/.scripts-run)                                                  
   
*A shell script may act as an embedded command inside another shell
    script, a Tcl or wish script, or even a Makefile. It can be invoked as as
    an external shell command in a C program using the system() call, i.e.,
    system("script_name");.
   
*Put together a file of your favorite and most useful definitions and
    functions, then "include" this file in scripts as necessary with either
    the "dot" (.) or source command (see Section 3.2).
   
*It would be nice to be able to invoke X-Windows widgets from a shell
    script. There do, in fact, exist a couple of packages that purport to do
    so, namely Xscript and Xmenu, but these seem to be pretty much defunct.
    If you dream of a script that can create widgets, try wish (a Tcl
    derivative), PerlTk (Perl with Tk extensions), or tksh (ksh with Tk
    extensions).
   

-----------------------------------------------------------------------------
3.30. Bash, version 2

The current version of bash, the one you have running on your machine, is
actually version 2. This update of the classic bash scripting language added
array variables, string and parameter expansion, and a better method of
indirect variable references, among other features.


Example 3-102. String expansion
#!/bin/bash                                                                  
                                                                             
# String expansion.                                                          
# Introduced in version 2 of bash.                                           
                                                                             
# Strings of the form $'xxx'                                                 
# have the standard escaped characters interpreted.                          
                                                                             
echo $'Ringing bell 3 times \a \a \a'                                        
echo $'Three form feeds \f \f \f'                                            
echo $'10 newlines \n\n\n\n\n\n\n\n\n\n'                                     
                                                                             
exit 0                                                                       


Example 3-103. Indirect variable references - the new way
#!/bin/bash                                                                    
                                                                               
# Indirect variable referencing.                                               
# This has a few of the attributes of references in C++.                       
                                                                               
                                                                               
a=letter_of_alphabet                                                           
letter_of_alphabet=z                                                           
                                                                               
# Direct reference.                                                            
echo "a = $a"                                                                  
                                                                               
# Indirect reference.                                                          
echo "Now a = ${!a}"                                                           
# The ${!variable} notation is greatly superior to the old "eval var1=\$$var2" 
                                                                               
echo                                                                           
                                                                               
t=table_cell_3                                                                 
table_cell_3=24                                                                
echo "t = ${!t}"                                                               
table_cell_3=387                                                               
echo "Value of t changed to ${!t}"                                             
# Useful for referencing members                                               
# of an array or table,                                                        
# or for simulating a multi-dimensional array.                                 
# An indexing option would have been nice (sigh).                              
                                                                               
                                                                               
exit 0                                                                         


Example 3-104. Using arrays and other miscellaneous trickery to deal four
random hands from a deck of cards
#!/bin/bash2                                                                 
# Must specify version 2 of bash, else might not work.                       
                                                                             
# Cards:                                                                     
# deals four random hands from a deck of cards.                              
                                                                             
UNPICKED=0                                                                   
PICKED=1                                                                     
                                                                             
DUPE_CARD=99                                                                 
                                                                             
LOWER_LIMIT=0                                                                
UPPER_LIMIT=51                                                               
CARDS_IN_SUITE=13                                                            
CARDS=52                                                                     
                                                                             
declare -a Deck                                                              
declare -a Suites                                                            
declare -a Cards                                                             
# It would have been easier and more intuitive                               
# with a single, 3-dimensional array. Maybe                                  
# a future version of bash will support                                      
# multidimensional arrays.                                                   
                                                                             
                                                                             
initialize_Deck ()                                                           
{                                                                            
i=$LOWER_LIMIT                                                               
until [ $i -gt $UPPER_LIMIT ]                                                
do                                                                           
  Deck[i]=$UNPICKED                                                          
  let "i += 1"                                                               
done                                                                         
# Set each card of "Deck" as unpicked.                                       
echo                                                                         
}                                                                            
                                                                             
initialize_Suites ()                                                         
{                                                                            
Suites[0]=C #Clubs                                                           
Suites[1]=D #Diamonds                                                        
Suites[2]=H #Hearts                                                          
Suites[3]=S #Spades                                                          
}                                                                            
                                                                             
initialize_Cards ()                                                          
{                                                                            
Cards=(2 3 4 5 6 7 8 9 10 J Q K A)                                           
# Alternate method of initializing array.                                    
}                                                                            
                                                                             
pick_a_card ()                                                               
{                                                                            
card_number=$RANDOM                                                          
let "card_number %= $CARDS"                                                  
if [ ${Deck[card_number]} -eq $UNPICKED ]                                    
then                                                                         
  Deck[card_number]=$PICKED                                                  
  return $card_number                                                        
else                                                                         
  return $DUPE_CARD                                                          
fi                                                                           
}                                                                            
                                                                             
parse_card ()                                                                
{                                                                            
number=$1                                                                    
let "suite_number = number / CARDS_IN_SUITE"                                 
suite=${Suites[suite_number]}                                                
echo -n "$suite-"                                                            
let "card_no = number % CARDS_IN_SUITE"                                      
Card=${Cards[card_no]}                                                       
printf %-4s $Card                                                            
# Print cards in neat columns.                                               
}                                                                            
                                                                             
seed_random ()                                                               
{                                                                            
# Seed random number generator.                                              
seed=`eval date +%s`                                                         
let "seed %= 32766"                                                          
RANDOM=$seed                                                                 
}                                                                            
                                                                             
deal_cards ()                                                                
{                                                                            
echo                                                                         
                                                                             
cards_picked=0                                                               
while [ $cards_picked -le $UPPER_LIMIT ]                                     
do                                                                           
  pick_a_card                                                                
  t=$?                                                                       
                                                                             
  if [ $t -ne $DUPE_CARD ]                                                   
  then                                                                       
    parse_card $t                                                            
                                                                             
    u=$cards_picked+1                                                        
    # Change back to 1-based indexing (temporarily).                         
    let "u %= $CARDS_IN_SUITE"                                               
    if [ $u -eq 0 ]                                                          
    then                                                                     
     echo                                                                    
     echo                                                                    
    fi                                                                       
    # Separate hands.                                                        
                                                                             
    let "cards_picked += 1"                                                  
  fi                                                                         
done                                                                         
                                                                             
echo                                                                         
                                                                             
return 0                                                                     
}                                                                            
                                                                             
                                                                             
# Structured programming:                                                    
# entire program logic modularized in functions.                             
                                                                             
#================                                                            
seed_random                                                                  
initialize_Deck                                                              
initialize_Suites                                                            
initialize_Cards                                                             
deal_cards                                                                   
                                                                             
exit 0                                                                       
#================                                                            
                                                                             
                                                                             
                                                                             
# Exercise 1:                                                                
# Add comments to thoroughly document this script.                           
                                                                             
# Exercise 2:                                                                
# Revise the script to print out each hand sorted in suites.                 
# You may add other bells and whistles if you like.                          
                                                                             
# Exercise 3:                                                                
# Simplify and streamline the logic of the script.                           
-----------------------------------------------------------------------------

Chapter 4. Credits

[mailto:feloy@free.fr] Philippe Martin translated this document into DocBook/
SGML. While not on the job at a small French company as a software developer,
he enjoys working on GNU/Linux documentation and software, reading
literature, playing music, and for his peace of mind making merry with
friends. You may run across him somewhere in France or in the Basque Country,
or email him at [mailto:feloy@free.fr] feloy@free.fr.

I would like to especially thank Patrick Callahan, Mike Novak, and Pal
Domokos for catching bugs, pointing out ambiguities, and for suggesting
clarifications and changes. Their lively discussion of shell scripting and
general documentation issues inspired me to try to make this HOWTO more
readable.

I'm grateful to Jim Van Zandt for pointing out errors and omissions in
version 0.2 of this HOWTO. He also contributed an instructive example script.

Many thanks to Jordi Sanfeliu [mailto:mikaku@arrakis.es] mikaku@arrakis.es
for giving permission to use his fine tree script (Example A-8).

Emmanuel Rouat suggested corrections and additions on command substitution
and aliases (see Section 3.12 and Section 3.20). He also contributed a very
nice sample .bashrc file (Appendix C).

Florian Wisser enlightened me on some of the fine points of testing strings
(see Example 3-13).

Others making helpful suggestions were Gabor Kiss and Leopold Toetsch.

My gratitude to Chet Ramey for writing Bash, an elegant and powerful
scripting tool.

Thanks most of all to my wife, Anita, for her encouragement and emotional
support.
-----------------------------------------------------------------------------

Bibliography

Dale Dougherty and Arnold Robbins, Sed and Awk, 2nd edition, O'Reilly and
Associates, 1997, 1-156592-225-5.

To unfold the full power of shell scripting, you need at least a passing
familiarity with sed and awk. This is the standard tutorial. It includes an
excellent introduction to "regular expressions". Read this book.

*


Aeleen Frisch, Essential System Administration, 2nd edition, O'Reilly and
Associates, 1995, 1-56592-127-5.

This excellent sys admin manual has a decent introduction to shell scripting
for sys administrators and does a nice job of explaining the startup and
initialization scripts. The book is long overdue for a third edition (are you
listening, Tim O'Reilly?).

*


Stephen Kochan and Patrick Woods, Unix Shell Programming, Hayden, 1990,
067248448X.

The standard reference, though a bit dated by now.

*


Cameron Newham and Bill Rosenblatt, Learning the Bash Shell, 2nd edition,
O'Reilly and Associates, 1998, 1-56592-347-2.

This is a valiant effort at a decent shell primer, but somewhat deficient in
coverage on programming topics and lacking sufficient examples.

*


Anatole Olczak, Bourne Shell Quick Reference Guide, ASP, Inc., 1991,
093573922X.

A very handy pocket reference, despite lacking coverage of Bash-specific
features.

*


Jerry Peek, Tim O'Reilly, and Mike Loukides, Unix Power Tools, 2nd edition,
O'Reilly and Associates, Random House, 1997, 1-56592-260-3.

Contains a couple of sections of very informative in-depth articles on shell
programming, but falls short of being a tutorial. It reproduces much of the
regular expressions tutorial from the Dougherty and Robbins book, above.

*


Arnold Robbins, Bash Reference Card, SSC, 1998, 1-58731-010-5.

Excellent Bash pocket reference (don't leave home without it). A bargain at
$4.95, but also available for free download [http://www.ssc.com/ssc/bash/]
on-line in pdf format.

*


Ellen Siever and and the Staff of O'Reilly and Associates, Linux in a
Nutshell, 2nd edition, O'Reilly and Associates, 1999, 1-56592-585-8.

The all-around best Linux command reference, even has a Bash section.

*


The UNIX CD Bookshelf, 2nd edition, O'Reilly and Associates, 2000,
1-56592-815-6.

An array of six UNIX books on CD ROM, including UNIX Power Tools, Sed and Awk
, and Learning the Korn Shell. A complete set of all the UNIX references and
tutorials you would ever need at about $70. Buy this one, even if it means
going into debt and not paying the rent.

*


The O'Reilly books on Perl. (Actually, any O'Reilly books.)


The man pages for bash and bash2, date, expect, expr, find, grep, gzip, ln, 
patch, tar, tr, xargs. The texinfo documentation on bash, dd, gawk, and sed.


The excellent "Bash Reference Manual", by Chet Ramey and Brian Fox,
distributed as part of the "bash-2-doc" package (available as an rpm). See
especially the instructive example scripts in this package.


Ben Okopnik's well-written introductory Bash scripting articles in issues 53,
54, 55, 57, and 59 of the Linux Gazette , and his explanation of "The Deep,
Dark Secrets of Bash" in issue 56.


Chet Ramey's bash - The GNU Shell, a two-part series published in issues 3
and 4 of the [http://www.linuxjournal.com] Linux Journal, July-August 1994.


Giles Orr's Bash-Prompt HOWTO.


Mike G's Bash-Programming-Intro HOWTO.


Mark Komarinski's Printing-Usage HOWTO.


Trent Fisher's groff tutorial.


Chet Ramey's [ftp://ftp.cwru.edu/pub/bash/FAQ] Bash F.A.Q.


The sed F.A.Q.


Carlos Duarte's instructive "Do It With Sed" tutorial.


The GNU gawk [http://sunsite.ualberta.ca/Documentation/Gnu/gawk-3.0.6/
gawk.html] reference manual (gawk is the extended GNU version of awk
available on Linux and BSD systems).


There is some nice material on I/O redirection (Section 3.13) in [http://
sunsite.ualberta.ca/Documentation/Gnu/textutils-2.0/html_chapter/
textutils_10.html] chapter 10 of the textutils documentation at the 
University of Alberta site.
-----------------------------------------------------------------------------

Appendix A. Contributed Scripts

These scripts, while not fitting into the text of this document, do
illustrate some interesting shell programming techniques. They are useful,
too. Have fun analyzing and running them.


Example A-1. manview: A script for viewing formatted man pages
#!/bin/bash                                                                  
                                                                             
# Formats the source of a man page for viewing in a user directory.          
# This is useful when writing man page source and you want to                
# look at the intermediate results on the fly while working on it.           
                                                                             
if [ -z $1 ]                                                                 
then                                                                         
  echo "Usage: `basename $0` [filename]"                                     
    exit 1                                                                   
fi                                                                           
                                                                             
groff -Tascii -man $1 | less                                                 
# From the man page for groff.                                               
                                                                             
exit 0                                                                       


Example A-2. rn: A simple-minded file rename utility

This script is a modification of Example 3-58.
#! /bin/bash                                                                     
#                                                                                
# Very simpleminded filename "rename" utility.                                   
# Based on "lowercase.sh".                                                       
                                                                                 
                                                                                 
if [ $# -ne 2 ]                                                                  
then                                                                             
  echo "Usage: `basename $0` old-pattern new-pattern"                            
  # As in "rn gif jpg", which renames all gif files in working directory to jpg. 
  exit 1                                                                         
fi                                                                               
                                                                                 
number=0    # Keeps track of how many files actually renamed.                    
                                                                                 
                                                                                 
for filename in *$1*  #Traverse all matching files in directory.                 
do                                                                               
   if [ -f $filename ]  # If finds match...                                      
   then                                                                          
     fname=`basename $filename`            # Strip off path.                     
     n=`echo $fname | sed -e "s/$1/$2/"`   # Substitute new for old in filename. 
     mv $fname $n                          # Rename.                             
     let "number += 1"                                                           
   fi                                                                            
done                                                                             
                                                                                 
if [ $number -eq 1 ]   # For correct grammar.                                    
then                                                                             
 echo "$number file renamed."                                                    
else                                                                             
 echo "$number files renamed."                                                   
fi                                                                               
                                                                                 
exit 0                                                                           
                                                                                 
                                                                                 
# Exercise for reader:                                                           
# What type of files will this not work on?                                      
# How to fix this?                                                               


Example A-3. encryptedpw: A script for uploading to an ftp site, using a
locally encrypted password
#!/bin/bash                                                                  
                                                                             
# Example 3-71 modified to use encrypted password.                           
                                                                             
if [ -z $1 ]                                                                 
then                                                                         
  echo "Usage: `basename $0` filename"                                       
  exit 1                                                                     
fi                                                                           
                                                                             
Username=bozo                                                                
# Change to suit.                                                            
                                                                             
Filename=`basename $1`                                                       
# Strips pathname out of file name                                           
                                                                             
Server="XXX"                                                                 
Directory="YYY"                                                              
# Change above to actual server name & directory.                            
                                                                             
                                                                             
password=`cruft <pword`                                                      
# "pword" is the file containing encrypted password.                         
# Uses the author's own "cruft" file encryption package,                     
# based on onetime pad algorithm,                                            
# and obtainable from:                                                       
# Primary-site:   ftp://metalab.unc.edu /pub/Linux/utils/file                
#                 cruft-0.2.tar.gz [16k]                                     
                                                                             
                                                                             
ftp -n $Server <<End-Of-Session                                              
# -n option disables auto-logon                                              
                                                                             
user $Username $Password                                                     
binary                                                                       
bell                                                                         
# Ring 'bell' after each file transfer                                       
cd $Directory                                                                
put $Filename                                                                
bye                                                                          
End-Of-Session                                                               
                                                                             
exit 0                                                                       

+

The following two scripts are by Mark Moraes of the University of Toronto.
See the enclosed file "Moraes-COPYRIGHT" for permissions and restrictions.


Example A-4. behead: A script for removing mail and news message headers
#! /bin/sh                                                                     
# Strips off the header from a mail/News message i.e. till the first           
# empty line                                                                   
# Mark Moraes, University of Toronto                                           
                                                                               
# --> These comments added by author of HOWTO.                                 
                                                                               
if [ $# -eq 0 ]; then                                                          
# --> If no command line args present, then works on file redirected to stdin. 
        sed -e '1,/^$/d' -e '/^[        ]*$/d'                                 
        # --> Delete empty lines and all lines until                           
        # --> first one beginning with white space.                            
else                                                                           
# --> If command line args present, then work on files named.                  
        for i do                                                               
                sed -e '1,/^$/d' -e '/^[        ]*$/d' $i                      
                # --> Ditto, as above.                                         
        done                                                                   
fi                                                                             
                                                                               
# --> Exercise for the reader: Add error checking and other options.           
# -->                                                                          
# --> Note that the small sed script repeats, except for the arg passed.       
# --> Does it make sense to embed it in a function? Why or why not?            


Example A-5. ftpget: A script for downloading files via ftp
#! /bin/sh                                                                           
# $Id: ftpget,v 1.2 91/05/07 21:15:43 moraes Exp $                                   
# Script to perform batch anonymous ftp. Essentially converts a list of              
# of command line arguments into input to ftp.                                       
# Simple, and quick - written as a companion to ftplist                              
# -h specifies the remote host (default prep.ai.mit.edu)                             
# -d specifies the remote directory to cd to - you can provide a sequence            
# of -d options - they will be cd'ed to in turn. If the paths are relative,          
# make sure you get the sequence right. Be careful with relative paths -             
# there are far too many symlinks nowadays.                                          
# (default is the ftp login directory)                                               
# -v turns on the verbose option of ftp, and shows all responses from the            
# ftp server.                                                                        
# -f remotefile[:localfile] gets the remote file into localfile                      
# -m pattern does an mget with the specified pattern. Remember to quote              
# shell characters.                                                                  
# -c does a local cd to the specified directory                                      
# For example,                                                                       
#       ftpget -h expo.lcs.mit.edu -d contrib -f xplaces.shar:xplaces.sh \           
#               -d ../pub/R3/fixes -c ~/fixes -m 'fix*'                              
# will get xplaces.shar from ~ftp/contrib on expo.lcs.mit.edu, and put it in         
# xplaces.sh in the current working directory, and get all fixes from                
# ~ftp/pub/R3/fixes and put them in the ~/fixes directory.                           
# Obviously, the sequence of the options is important, since the equivalent          
# commands are executed by ftp in corresponding order                                
#                                                                                    
# Mark Moraes (moraes@csri.toronto.edu), Feb 1, 1989                                 
# --> Angle brackets changed to parens, so Docbook won't get indigestion.            
#                                                                                    
                                                                                     
                                                                                     
# --> These comments added by author of HOWTO.                                       
                                                                                     
# PATH=/local/bin:/usr/ucb:/usr/bin:/bin                                             
# export PATH                                                                        
# --> Above 2 lines from original script probably superfluous.                       
                                                                                     
TMPFILE=/tmp/ftp.$$                                                                  
# --> Creates temp file, using process id of script ($$)                             
# --> to construct filename.                                                         
                                                                                     
SITE=`domainname`.toronto.edu                                                        
# --> 'domainname' similar to 'hostname'                                             
# --> May rewrite this to parameterize this for general use.                         
                                                                                     
usage="Usage: $0 [-h remotehost] [-d remotedirectory]... [-f remfile:localfile]... \ 
                [-c localdirectory] [-m filepattern] [-v]"                           
ftpflags="-i -n"                                                                     
verbflag=                                                                            
set -f          # So we can use globbing in -m                                       
set x `getopt vh:d:c:m:f: $*`                                                        
if [ $? != 0 ]; then                                                                 
        echo $usage                                                                  
        exit 1                                                                       
fi                                                                                   
shift                                                                                
trap 'rm -f ${TMPFILE} ; exit' 0 1 2 3 15                                            
echo "user anonymous ${USER-gnu}@${SITE} > ${TMPFILE}"                               
# --> Added quotes (recommended in complex echoes).                                  
echo binary >> ${TMPFILE}                                                            
for i in $*                                                                          
# --> Parse command line args.                                                       
do                                                                                   
        case $i in                                                                   
        -v) verbflag=-v; echo hash >> ${TMPFILE}; shift;;                            
        -h) remhost=$2; shift 2;;                                                    
        -d) echo cd $2 >> ${TMPFILE};                                                
            if [ x${verbflag} != x ]; then                                           
                echo pwd >> ${TMPFILE};                                              
            fi;                                                                      
            shift 2;;                                                                
        -c) echo lcd $2 >> ${TMPFILE}; shift 2;;                                     
        -m) echo mget "$2" >> ${TMPFILE}; shift 2;;                                  
        -f) f1=`expr "$2" : "\([^:]*\).*"`; f2=`expr "$2" : "[^:]*:\(.*\)"`;         
            echo get ${f1} ${f2} >> ${TMPFILE}; shift 2;;                            
        --) shift; break;;                                                           
        esac                                                                         
done                                                                                 
if [ $# -ne 0 ]; then                                                                
        echo $usage                                                                  
        exit 2                                                                       
fi                                                                                   
if [ x${verbflag} != x ]; then                                                       
        ftpflags="${ftpflags} -v"                                                    
fi                                                                                   
if [ x${remhost} = x ]; then                                                         
        remhost=prep.ai.mit.edu                                                      
        # --> Rewrite to match your favorite ftp site.                               
fi                                                                                   
echo quit >> ${TMPFILE}                                                              
# --> All commands saved in tempfile.                                                
                                                                                     
ftp ${ftpflags} ${remhost} < ${TMPFILE}                                              
# --> Now, tempfile batch processed by ftp.                                          
                                                                                     
rm -f ${TMPFILE}                                                                     
# --> Finally, tempfile deleted (you may wish to copy it to a logfile).              
                                                                                     
                                                                                     
# --> Exercises for reader:                                                          
# --> 1) Add error checking.                                                         
# --> 2) Add bells & whistles.                                                       

+

Antek Sawicki contributed the following script, which makes very clever use
of the parameter substitution operators discussed in Section 3.3.1.


Example A-6. password: A script for generating random 8-character passwords
#!/bin/bash                                                                                     
# May need to be invoked with  #!/bin/bash2  on some machines.                                  
#                                                                                               
# Random password generator for bash 2.x by Antek Sawicki <tenox@tenox.tc>,                     
# who generously gave permission to the HOWTO author to use it here.                            
#                                                                                               
# ==> Comments added by HOWTO author ==>                                                        
                                                                                                
                                                                                                
MATRIX="0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz"                         
LENGTH="8"                                                                                      
# ==> May change 'LENGTH' for longer password, of course.                                       
                                                                                                
                                                                                                
while [ ${n:=1} -le $LENGTH ]                                                                   
# ==> Recall that := is "default substitution" operator.                                        
# ==> So, if 'n' has not been initialized, set it to 1.                                         
do                                                                                              
        PASS="$PASS${MATRIX:$(($RANDOM%${#MATRIX})):1}"                                         
        # ==> Very clever, but tricky.                                                          
                                                                                                
        # ==> Starting from the innermost nesting...                                            
        # ==> ${#MATRIX} returns length of array MATRIX.                                        
        # ==> $RANDOM%${#MATRIX} returns random number between 1 and length of MATRIX.          
                                                                                                
        # ==> ${MATRIX:$(($RANDOM%${#MATRIX})):1}                                               
        # ==> returns expansion of MATRIX at random position, by length 1.                      
        # ==> See {var:pos:len} parameter substitution in Section 3.3.1 and following examples. 
                                                                                                
        # ==> PASS=... simply pastes this result onto previous PASS (concatenation).            
                                                                                                
        # ==> To visualize this more clearly, uncomment the following line                      
        # ==>             echo "$PASS"                                                          
        # ==> to see PASS being built up, one character at a time, each iteration of the loop.  
                                                                                                
        let n+=1                                                                                
        # ==> Increment 'n' for next pass.                                                      
done                                                                                            
                                                                                                
echo "$PASS"                                                                                    
#== Or, redirect to file, as desired.                                                           

+

James R. Van Zandt contributed this script, which uses named pipes and, in
his words, "really exercises quoting and escaping".


Example A-7. fifo: A script for making daily backups, using named pipes
#!/bin/bash                                                                      
# ==> Script by James R. Van Zandt, and used here with his permission.           
                                                                                 
# ==> Comments added by author of HOWTO.                                         
                                                                                 
                                                                                 
  HERE=`uname -n`                                                                
  # ==> hostname                                                                 
  THERE=bilbo                                                                    
  echo "starting remote backup to $THERE at `date +%r`"                          
  # ==> `date +%r` returns time in 12-hour format, i.e. "08:08:34 PM".           
                                                                                 
  # make sure /pipe really is a pipe and not a plain file                        
  rm -rf /pipe                                                                   
  mkfifo /pipe                                                                   
  # ==> Create a "named pipe", named "/pipe".                                    
                                                                                 
  # ==> 'su xyz' runs commands as user "xyz".                                    
  # ==> 'ssh' invokes secure shell (remote login client).                        
  su xyz -c "ssh $THERE \"cat >/home/xyz/backup/${HERE}-daily.tar.gz\" < /pipe"& 
  cd /                                                                           
  tar -czf - bin boot dev etc home info lib man root sbin share usr var >/pipe   
  # ==> Uses named pipe, /pipe, to communicate between processes:                
  # ==> 'tar/gzip' writes to /pipe and 'ssh' reads from /pipe.                   
                                                                                 
  # ==> The end result is this backs up the main directories, from / on down.    
                                                                                 
  # ==> What are the advantages of a "named pipe" in this situation,             
  # ==> as opposed to an "anonymous pipe", with |?                               
  # ==> Will an anonymous pipe even work here?                                   
                                                                                 
                                                                                 
  exit 0                                                                         

+

Jordi Sanfeliu gave permission to use his elegant tree script.


Example A-8. tree: A script for displaying a directory tree
#!/bin/sh                                                                                
#         @(#) tree      1.1  30/11/95       by Jordi Sanfeliu                           
#                                         email: mikaku@arrakis.es                       
#                                                                                        
#         Initial version:  1.0  30/11/95                                                
#         Next version   :  1.1  24/02/97   Now, with symbolic links                     
#         Patch by       :  Ian Kjos, to support unsearchable dirs                       
#                           email: beth13@mail.utexas.edu                                
#                                                                                        
#         Tree is a tool for view the directory tree (obvious :-) )                      
#                                                                                        
                                                                                         
# ==> 'Tree' script used here with the permission of its author, Jordi Sanfeliu.         
# ==> Comments added by HOWTO author.                                                    
                                                                                         
                                                                                         
search () {                                                                              
   for dir in `echo *`                                                                   
   # ==> `echo *` lists all the files in current working directory, without line breaks. 
   # ==> Same effect as     for dir in *                                                 
   do                                                                                    
      if [ -d $dir ] ; then   # ==> If it is a directory (-d)...                         
         zz=0   # ==> Temp variable, keeping track of directory level.                   
         while [ $zz != $deep ]   # Keep track of inner nested loop.                     
         do                                                                              
            echo -n "|   "    # ==> Display vertical connector symbol,                   
                              # ==> with 2 spaces & no line feed in order to indent.     
            zz=`expr $zz + 1` # ==> Increment zz.                                        
         done                                                                            
         if [ -L $dir ] ; then    # ==> If directory is a symbolic link...               
            echo "+---$dir" `ls -l $dir | sed 's/^.*'$dir' //'`                          
            # ==> Display horiz. connector and list directory name, but...               
            # ==> delete date/time part of long listing.                                 
         else                                                                            
            echo "+---$dir"    # ==> Display horizontal connector symbol...              
                               # ==> and print directory name.                           
            if cd $dir ; then  # ==> If can move to subdirectory...                      
               deep=`expr $deep + 1`   # ==> Increment depth.                            
               search    # with recursivity ;-)                                          
                         # ==> Function calls itself.                                    
               numdirs=`expr $numdirs + 1`   # ==> Increment directory count.            
            fi                                                                           
         fi                                                                              
      fi                                                                                 
   done                                                                                  
   cd ..   # ==> Up one directory level.                                                 
   if [ $deep ] ; then  # ==> If depth = 0 (returns TRUE)...                             
      swfi=1            # ==> set flag showing that search is done.                      
   fi                                                                                    
   deep=`expr $deep - 1`   # ==> Decrement depth.                                        
}                                                                                        
                                                                                         
# - Main -                                                                               
if [ $# = 0 ] ; then                                                                     
   cd `pwd`    # ==> No args to script, then use current working directory.              
else                                                                                     
   cd $1       # ==> Otherwise, move to indicated directory.                             
fi                                                                                       
echo "Initial directory = `pwd`"                                                         
swfi=0      # ==> Search finished flag.                                                  
deep=0      # ==> Depth of listing.                                                      
numdirs=0                                                                                
zz=0                                                                                     
                                                                                         
while [ $swfi != 1 ]   # While flag not set...                                           
do                                                                                       
   search  # ==> Call function after initializing variables.                             
done                                                                                     
echo "Total directories = $numdirs"                                                      
                                                                                         
                                                                                         
                                                                                         
# ==> Challenge to reader: try to figure out exactly how this script works.              
-----------------------------------------------------------------------------

Appendix B. A Sed and Awk Micro-Primer

This is a very brief introduction to the sed and awk text processing
utilities. We will deal with only a few basic commands here, but that will
suffice for understanding simple sed and awk constructs within shell scripts.

sed: a non-interactive text file editor

awk: a field-oriented pattern processing language

For all their differences, the two utilities share a similar invocation
syntax, both use regular expressions (Section 3.15), both read input by
default from stdin, and both output to stdout. These are well-behaved UNIX
tools, and they work together well. The output from one can be piped into the
other, and their combined capabilities give shell scripts some of the power
of Perl.

   
    Note: One important difference between the utilities is that while shell
    scripts can easily pass arguments to sed, it is more complicated for awk
    (see Example 2-5).
   
-----------------------------------------------------------------------------
B.1. Sed

Sed is a non-interactive line editor. It receives text input, whether from
stdin or from a file, performs certain operations on specified lines of the
input, then outputs the result to stdout or to a file. Within a shell script,
sed is usually one of several tool components in a pipe.

Sed determines which lines of its input that it will operate on from the 
address range passed to it. Specify this address range either by line number
or by a pattern to match. For example, 3d signals sed to delete line 3 of the
input, and /windows/d tells sed that you want every line of the input
containing a match to "windows" deleted.

Of all the operations in the sed toolkit, we will focus primarily on the
three most commonly used ones. These are printing (to stdout), deletion, and 
substitution.


Table B-1. sed operators
+----------------------+----------+-----------------------------------------+
|Operator              |Name      |Effect                                   |
+----------------------+----------+-----------------------------------------+
|/address-range/p      |print     |Print (specified address range)          |
+----------------------+----------+-----------------------------------------+
|/address-range/d      |delete    |Delete (specified address range)         |
+----------------------+----------+-----------------------------------------+
|s/pattern1/pattern2/  |substitute|Substitute pattern2 for pattern1         |
+----------------------+----------+-----------------------------------------+
|/address-range/y/     |transform |replace pattern1 with pattern2 (works    |
|pattern1/pattern2/    |          |just like tr)                            |
+----------------------+----------+-----------------------------------------+
|g                     |global    |Operate on every pattern match within    |
|                      |          |each matched line of input               |
+----------------------+----------+-----------------------------------------+

   
    Note: Unless the g (global) operator is appended to a substitute command,
    the substitution operates only on the first instance of a pattern match
    within each line.
   
From the command line and in a shell script, a sed operation may require
quoting and certain options.

sed -e '/^$/d'                                                                     
# The -e option causes the next string to be interpreted as an instruction.        
# The "strong" quotes ('') protect the special characters in the instruction       
# from reinterpretation as regular expressions by the body of the script.          
# (This reserves RE expansion of the instruction for sed.)                         

   
    Note: Both sed and awk use the -e option to specify that the following
    string is an instruction or set of instructions. If there is only a
    single instruction contained within the string, then the option may be
    omitted.
   
sed -n '/xzy/p'                                                              
# The -n option tells sed to print only those lines matching the pattern.    
# Otherwise all input lines would print.                                     


Table B-2. examples
+--------------+------------------------------------------------------------+
|Notation      |Effect                                                      |
+--------------+------------------------------------------------------------+
|8d            |Delete 8th line of input.                                   |
+--------------+------------------------------------------------------------+
|/^$/d         |Delete all blank lines.                                     |
+--------------+------------------------------------------------------------+
|1,/^$/d       |Delete from beginning of input up to, and including first   |
|              |blank line.                                                 |
+--------------+------------------------------------------------------------+
|/Jones/p      |Print only lines containing "Jones" (with -n option).       |
+--------------+------------------------------------------------------------+
|s/Windows/    |Substitute "Linux" for first instance of"Windows" found in  |
|Linux/        |each input line.                                            |
+--------------+------------------------------------------------------------+
|s/BSOD/       |Substitute "stability" for every instance of"BSOD" found in |
|stability/g   |each input line.                                            |
+--------------+------------------------------------------------------------+
|/GUI/d        |Delete all lines containing "GUI".                          |
+--------------+------------------------------------------------------------+
|s/GUI//g      |Delete all instances of "GUI", leaving the remainder of each|
|              |line intact.                                                |
+--------------+------------------------------------------------------------+

   
    Note: Substituting a zero-length string for another is equivalent to
    deleting that string within a line of input. This leaves the remainder of
    the line intact. Applying s/GUI// to the line The most important parts of
    any application are its GUI and sound effects results in
    The most important parts of any application are its  and sound effects   
    .
   
For illustrative examples of sed within shell scripts, see:

 1. Example 2-3
   
 2. Example 2-4
   
 3. Example 3-47
   
 4. Example A-2
   
 5. Example 3-55
   
 6. Example 3-60
   
 7. Example A-4
   
 8. Example A-8
   
 9. Example 3-65
   

For a more extensive treatment of sed, check the appropriate references in
the Bibliography.
-----------------------------------------------------------------------------

B.2. Awk

Awk is a full-featured text processing language with a syntax reminiscent of 
C. While it possesses an extensive set of operators and capabilities, we will
cover only a couple of these here - the ones most useful for shell scripting.

Awk breaks each line of input passed to it into fields. By default, a field
is a string of consecutive characters separated by white space, though there
are options for changing the delimiter. Awk parses and operates on each
separate field. This makes awk ideal for handling structured text files,
especially tables, data organized into consistent chunks, such as rows and
columns.

Strong quoting (single quotes) and curly brackets enclose segments of awk
code within a shell script.

awk '{print $3}'                                                             
# Prints field #3 to stdout.                                                 
                                                                             
awk '{print $1 $5 $6}'                                                       
# Prints fields #1, #5, and #6.                                              

We have just seen the awk print command in action. The only other feature of
awk we need to deal with here is variables. Awk handles variables similarly
to shell scripts, though a bit more flexibly.

{ total += ${column_number} }                                                
This adds the value of column_number to the running total of "total".
Finally, to print "total", there needs to be an END command to terminate the
processing.
END { print total }                                                          

Corresponding to the END, there is a BEGIN, for a code block to be performed
before awk starts processing its input.

For examples of awk within shell scripts, see:

 1. Example 3-51
   
 2. Example 3-75
   
 3. Example 3-65
   
 4. Example 2-5
   

That's all the awk we'll cover here folks, but there's lots more to learn.
See the appropriate references in the Bibliography.
-----------------------------------------------------------------------------

Appendix C. A Sample .bashrc File

The ~/.bashrc file determines the behavior of the shell, and of shell
scripts. A proper understanding of this file can lead to more effective use
of scripts.

Emmanuel Rouat contributed the following very elaborate .bashrc file. He
wrote it for a Solaris system, but it (mostly) works for other flavors of
UNIX as well. Study this file carefully, and feel free to reuse code snippets
and functions from it in your own .bashrc file and even in your scripts.


Example C-1. Sample .bashrc file
#===============================================================                                                                                 
#                                                                                                                                                
# PERSONAL $HOME/.bashrc FILE for bash-2.04 (or later)                                                                                           
#              by Emmanuel Rouat                                                                                                                 
#                                                                                                                                                
# This file is read (normally) by interactive shells only.                                                                                       
# Here is the place to define your aliases, functions and                                                                                        
# other interactive features like your prompt.                                                                                                   
#                                                                                                                                                
# This file was designed for Solaris                                                                                                             
#                                                                                                                                                
#===============================================================                                                                                 
                                                                                                                                                 
                                                                                                                                                 
                                                                                                                                                 
#-----------------------------------                                                                                                             
# Source global definitions (if any)                                                                                                             
#-----------------------------------                                                                                                             
                                                                                                                                                 
if [ -f /etc/bashrc ]; then                                                                                                                      
        . /etc/bashrc  # Read system bash init file, if exists.                                                                                  
fi                                                                                                                                               
                                                                                                                                                 
                                                                                                                                                 
#-------------------------------------------------------------                                                                                   
# Automatic setting of $DISPLAY (if not set already)                                                                                             
# This works for linux and solaris - your mileage may vary....                                                                                   
#-------------------------------------------------------------                                                                                   
                                                                                                                                                 
                                                                                                                                                 
if [ -z ${DISPLAY:=""} ]; then                                                                                                                   
    DISPLAY=$(who am i)                                                                                                                          
    DISPLAY=${DISPLAY%%\!*}                                                                                                                      
    if [ -n "$DISPLAY" ]; then                                                                                                                   
        export DISPLAY=$DISPLAY:0.0                                                                                                              
    else                                                                                                                                         
        export DISPLAY=":0.0"  # fallback                                                                                                        
    fi                                                                                                                                           
fi                                                                                                                                               
                                                                                                                                                 
                                                                                                                                                 
#---------------                                                                                                                                 
# Some settings                                                                                                                                  
#---------------                                                                                                                                 
                                                                                                                                                 
set -o notify                                                                                                                                    
set -o noclobber                                                                                                                                 
set -o ignoreeof                                                                                                                                 
set -o nounset                                                                                                                                   
#set -o xtrace          # useful for debuging                                                                                                    
                                                                                                                                                 
shopt -s cdspell                                                                                                                                 
shopt -s cdable_vars                                                                                                                             
shopt -s checkhash                                                                                                                               
shopt -s checkwinsize                                                                                                                            
shopt -s mailwarn                                                                                                                                
shopt -s sourcepath                                                                                                                              
shopt -s no_empty_cmd_completion                                                                                                                 
shopt -s histappend histreedit                                                                                                                   
shopt -s extglob        # useful for programmable completion                                                                                     
                                                                                                                                                 
                                                                                                                                                 
                                                                                                                                                 
#-----------------------                                                                                                                         
# Greeting, motd etc...                                                                                                                          
#-----------------------                                                                                                                         
                                                                                                                                                 
# Define some colors first:                                                                                                                      
red='\e[0;31m'                                                                                                                                   
RED='\e[1;31m'                                                                                                                                   
blue='\e[0;34m'                                                                                                                                  
BLUE='\e[1;34m'                                                                                                                                  
cyan='\e[0;36m'                                                                                                                                  
CYAN='\e[1;36m'                                                                                                                                  
NC='\e[0m'              # No Color                                                                                                               
                                                                                                                                                 
# Looks best on a black background.....                                                                                                          
echo -e "${CYAN}This is BASH ${RED}${BASH_VERSION%.*}${CYAN} - DISPLAY on ${RED}$DISPLAY${NC}\n"                                                 
date                                                                                                                                             
                                                                                                                                                 
                                                                                                                                                 
function _exit()        # function to run upon exit of shell                                                                                     
{                                                                                                                                                
    echo -e "${RED}Hasta la vista, baby${NC}"                                                                                                    
}                                                                                                                                                
trap _exit 0                                                                                                                                     
                                                                                                                                                 
#---------------                                                                                                                                 
# Shell prompt                                                                                                                                   
#---------------                                                                                                                                 
                                                                                                                                                 
                                                                                                                                                 
function fastprompt()                                                                                                                            
{                                                                                                                                                
    unset PROMPT_COMMAND                                                                                                                         
    case $TERM in                                                                                                                                
        xterm | rxvt | dtterm )                                                                                                                  
            PS1="[\h] \W > \[\033]0;[\u@\h] \w\007\]" ;;                                                                                         
        *)                                                                                                                                       
            PS1="[\h] \W > " ;;                                                                                                                  
    esac                                                                                                                                         
}                                                                                                                                                
                                                                                                                                                 
                                                                                                                                                 
function powerprompt()                                                                                                                           
{                                                                                                                                                
    _powerprompt()                                                                                                                               
    {                                                                                                                                            
        LOAD=$(uptime|sed -e "s/.*: \([^,]*\).*/\1/" -e "s/ //g")                                                                                
        TIME=$(date +%H:%M)                                                                                                                      
    }                                                                                                                                            
                                                                                                                                                 
    PROMPT_COMMAND=_powerprompt                                                                                                                  
    case $TERM in                                                                                                                                
        xterm | dtterm | rxvt  )                                                                                                                 
            PS1="${cyan}[\$TIME \$LOAD]$NC\n[\h \#] \W > \[\033]0;[\u@\h] \w\007\]" ;;                                                           
        linux )                                                                                                                                  
            PS1="${cyan}[\$TIME - \$LOAD]$NC\n[\h \#] \w > " ;;                                                                                  
        * )                                                                                                                                      
            PS1="[\$TIME - \$LOAD]\n[\h \#] \w > " ;;                                                                                            
    esac                                                                                                                                         
}                                                                                                                                                
                                                                                                                                                 
powerprompt     # this is the default prompt - might be slow                                                                                     
                # If too slow, use fastprompt instead....                                                                                        
                                                                                                                                                 
                                                                                                                                                 
                                                                                                                                                 
#===============================================================                                                                                 
#                                                                                                                                                
# ALIASES AND FUNCTIONS                                                                                                                          
#                                                                                                                                                
# Arguably, some functions defined here are quite big                                                                                            
# (ie 'lowercase') but my workstation has 512Meg of RAM, so .....                                                                                
# If you want to make this file smaller, these functions can                                                                                     
# be converted into scripts.                                                                                                                     
#                                                                                                                                                
#===============================================================                                                                                 
                                                                                                                                                 
#-------------------                                                                                                                             
# Personnal Aliases                                                                                                                              
#-------------------                                                                                                                             
                                                                                                                                                 
alias rm='rm -i'                                                                                                                                 
alias cp='cp -i'                                                                                                                                 
alias mv='mv -i'                                                                                                                                 
alias h='history'                                                                                                                                
alias j='jobs -l'                                                                                                                                
alias r='rlogin'                                                                                                                                 
alias which='type -a'                                                                                                                            
alias ..='cd ..'                                                                                                                                 
alias path='echo -e ${PATH//:/\\n}'                                                                                                              
alias print='/usr/bin/lp -o nobanner -d $LPDEST'                                                                                                 
                                                                                                                                                 
alias la='ls -Al'                                                                                                                                
alias lr='ls -lR'                                                                                                                                
alias lt='ls -ltr'                                                                                                                               
alias lm='ls -al |more'                                                                                                                          
                                                                                                                                                 
# spelling typos                                                                                                                                 
                                                                                                                                                 
alias xs='cd'                                                                                                                                    
alias vf='cd'                                                                                                                                    
alias moer='more'                                                                                                                                
alias moew='more'                                                                                                                                
alias kk='ll'                                                                                                                                    
                                                                                                                                                 
                                                                                                                                                 
#-----------------------------------------                                                                                                       
# Environment dependent aliases/variables                                                                                                        
#-----------------------------------------                                                                                                       
                                                                                                                                                 
                                                                                                                                                 
if [ -d $FREE/bin ] ; then      # use gnu/free stuff                                                                                             
# Condition test unnecessary on a Linux or BSD system.                                                                                           
                                                                                                                                                 
    alias vi='vim'                                                                                                                               
    alias csh='tcsh'                                                                                                                             
    alias du='du -h'                                                                                                                             
    alias df='df -kh'                                                                                                                            
    alias ls='ls -hF --color'                                                                                                                    
    alias lx='ls -lXB'                                                                                                                           
    alias lk='ls -lSr'                                                                                                                           
    alias pjet='enscript -h -G -fCourier9 -d $LPDEST '                                                                                           
    alias background='xv -root -quit -max -rmode 5'                                                                                              
                                                                                                                                                 
    alias more='less'                                                                                                                            
    export PAGER=less                                                                                                                            
    export LESSCHARSET='latin1'                                                                                                                  
    export LESSOPEN='|lesspipe.sh %s'                                                                                                            
    export LESS='-i  -e -M -X -F -R -P%t?f%f \                                                                                                   
:stdin .?pb%pb\%:?lbLine %lb:?bbByte %bb:-...'                                                                                                   
                                                                                                                                                 
else                            # use regular solaris stuff                                                                                      
                                                                                                                                                 
    alias df='df -k'                                                                                                                             
    alias ls='ls -F'                                                                                                                             
                                                                                                                                                 
fi                                                                                                                                               
                                                                                                                                                 
                                                                                                                                                 
#----------------                                                                                                                                
# a few fun ones                                                                                                                                 
#----------------                                                                                                                                
                                                                                                                                                 
function xtitle ()                                                                                                                               
{                                                                                                                                                
    case $TERM in                                                                                                                                
        xterm* | dtterm | rxvt)                                                                                                                  
            echo -n -e "\033]0;$*\007" ;;                                                                                                        
        *)  ;;                                                                                                                                   
    esac                                                                                                                                         
}                                                                                                                                                
                                                                                                                                                 
alias top='xtitle Processes on $HOST && top'                                                                                                     
alias make='xtitle Making $(basename $PWD) ; make'                                                                                               
alias ncftp="xtitle ncFTP ; ncftp"                                                                                                               
                                                                                                                                                 
                                                                                                                                                 
#---------------                                                                                                                                 
# and functions                                                                                                                                  
#---------------                                                                                                                                 
                                                                                                                                                 
function man ()                                                                                                                                  
{                                                                                                                                                
    xtitle The $(basename $1|tr -d .[:digit:]) manual                                                                                            
    /usr/bin/man -a "$*"                                                                                                                         
}                                                                                                                                                
                                                                                                                                                 
#-----------------------------------------                                                                                                       
# Environment dependent functions                                                                                                                
#-----------------------------------------                                                                                                       
                                                                                                                                                 
# Note: we mustn't mix these with alias definitions in the same 'if/fi'                                                                          
# construct because alias expansion wouldn't occur in some functions here,                                                                       
# like 'll' that uses ls (which is an alias).                                                                                                    
                                                                                                                                                 
                                                                                                                                                 
if [ -d $FREE/bin ] ; then      # use gnu/free stuff                                                                                             
                                                                                                                                                 
    function ll(){ ls -l  $*| egrep "^d" ; ls -lh  $* 2>&-| egrep -v "^d|total "; }                                                              
    function xemacs() { { command xemacs -private $* 2>&- & } && disown ;}                                                                       
    function te()  # wrapper around xemacs/gnuserv                                                                                               
    {                                                                                                                                            
        if [ "$(gnuclient -batch -eval t 2>&-)" == "t" ]; then                                                                                   
            gnuclient -q $@;                                                                                                                     
        else                                                                                                                                     
            ( xemacs $@ & );                                                                                                                     
        fi                                                                                                                                       
    }                                                                                                                                            
                                                                                                                                                 
else                            # use solaris stuff                                                                                              
                                                                                                                                                 
    function ll(){ ls -l $* |egrep "^d"; ls -l $* 2>&- |egrep -v "^d|total" ;}                                                                   
    function lk() { \ls -lF  $* | egrep -v "^d|^total" | sort -n -k 5,5 ;}                                                                       
    function te() { ( dtpad "$@" &)  ;}                                                                                                          
                                                                                                                                                 
fi                                                                                                                                               
                                                                                                                                                 
                                                                                                                                                 
#-----------------------------------                                                                                                             
# File & strings related functions:                                                                                                              
#-----------------------------------                                                                                                             
                                                                                                                                                 
function ff() { find . -name '*'$1'*' ; }                                                                                                        
function fe() { find . -name '*'$1'*' -exec $2 {} \; ; }                                                                                         
function fstr() # find a string in a set of files                                                                                                
{                                                                                                                                                
    if [ "$#" -gt 2 ]; then                                                                                                                      
        echo "Usage: fstr \"pattern\" [files] "                                                                                                  
    return;                                                                                                                                      
    fi                                                                                                                                           
    find . -type f -name "${2:-*}" -print | xargs grep -n "$1"                                                                                   
}                                                                                                                                                
function cuttail() # cut last n lines in file                                                                                                    
{                                                                                                                                                
    nlines=$1                                                                                                                                    
    sed -n -e :a -e "1,${nlines}!{P;N;D;};N;ba" $2                                                                                               
}                                                                                                                                                
                                                                                                                                                 
function lowercase()  # move filenames to lowercase                                                                                              
{                                                                                                                                                
    for file ; do                                                                                                                                
        filename=${file##*/}                                                                                                                     
        case "$filename" in                                                                                                                      
        */*) dirname==${file%/*} ;;                                                                                                              
        *) dirname=.;;                                                                                                                           
        esac                                                                                                                                     
        nf=$(echo $filename | tr A-Z a-z)                                                                                                        
        newname="${dirname}/${nf}"                                                                                                               
        if [ "$nf" != "$filename" ]; then                                                                                                        
            mv "$file" "$newname"                                                                                                                
            echo "lowercase: $file --> $newname"                                                                                                 
        else                                                                                                                                     
            echo "lowercase: $file not changed."                                                                                                 
        fi                                                                                                                                       
    done                                                                                                                                         
}                                                                                                                                                
                                                                                                                                                 
function swap()         # swap 2 filenames around                                                                                                
{                                                                                                                                                
    local TMPFILE=tmp.$$                                                                                                                         
    mv $1 $TMPFILE                                                                                                                               
    mv $2 $1                                                                                                                                     
    mv $TMPFILE $2                                                                                                                               
}                                                                                                                                                
                                                                                                                                                 
                                                                                                                                                 
# Process/system related functions:                                                                                                              
                                                                                                                                                 
alias my_ps='/usr/bin/ps -u "$USER" -o user,pid,ppid,pcpu,pmem,args'                                                                             
function pp() { my_ps | nawk '!/nawk/ && $0~pat' pat=${1:-".*"} ; }                                                                              
function killps()       # Kill process by name                                                                                                   
{                       # works with gawk too                                                                                                    
    local pid pname sig="-TERM" # default signal                                                                                                 
    if [ "$#" -lt 1 ] || [ "$#" -gt 2 ]; then                                                                                                    
        echo "Usage: killps [-SIGNAL] pattern"                                                                                                   
        return;                                                                                                                                  
    fi                                                                                                                                           
    if [ $# = 2 ]; then sig=$1 ; fi                                                                                                              
    for pid in $(my_ps | nawk '!/nawk/ && $0~pat { print $2 }' pat=${!#}) ; do                                                                   
        pname=$(my_ps | nawk '$2~var { print $6 }' var=$pid )                                                                                    
        if ask "Kill process $pid <$pname> with signal $sig ? "                                                                                  
            then kill $sig $pid                                                                                                                  
        fi                                                                                                                                       
    done                                                                                                                                         
}                                                                                                                                                
                                                                                                                                                 
function ii()   # get current host related info                                                                                                  
{                                                                                                                                                
    echo -e "\nYou are logged on ${RED}$HOST"                                                                                                    
    echo -e "\nAdditionnal information:$NC " ; uname -a                                                                                          
    echo -e "\n${RED}IP Address :$NC" ; ypmatch $HOSTNAME hosts                                                                                  
    echo -e "\n${RED}Users logged on:$NC " ; /usr/ucb/users                                                                                      
    echo -e "\n${RED}Current date :$NC " ; date                                                                                                  
    echo -e "\n${RED}Machine stats :$NC " ; uptime                                                                                               
    echo -e "\n${RED}Memory stats :$NC " ; vmstat                                                                                                
    echo -e "\n${RED}NIS Server :$NC " ; ypwhich                                                                                                 
    echo                                                                                                                                         
}                                                                                                                                                
function corename()   # get name of app that created core                                                                                        
{                                                                                                                                                
    local file name;                                                                                                                             
    file=${1:-"core"}                                                                                                                            
    set -- $(adb $file < /dev/null 2>&1 | sed 1q)                                                                                                
    name=${7#??}                                                                                                                                 
    echo $file: ${name%??}                                                                                                                       
}                                                                                                                                                
# Misc utilities:                                                                                                                                
                                                                                                                                                 
function repeat()       # repeat n times command                                                                                                 
{                                                                                                                                                
    local i max                                                                                                                                  
    max=$1; shift;                                                                                                                               
    for ((i=1; i <= max ; i++)); do                                                                                                              
        eval "$@";                                                                                                                               
    done                                                                                                                                         
}                                                                                                                                                
                                                                                                                                                 
                                                                                                                                                 
function ask()                                                                                                                                   
{                                                                                                                                                
    echo -n "$@" '[y/n] ' ; read ans                                                                                                             
    case "$ans" in                                                                                                                               
        y*|Y*) return 0 ;;                                                                                                                       
        *) return 1 ;;                                                                                                                           
    esac                                                                                                                                         
}                                                                                                                                                
                                                                                                                                                 
                                                                                                                                                 
                                                                                                                                                 
#=========================================================================                                                                       
#                                                                                                                                                
# PROGRAMMABLE COMPLETION - ONLY IN BASH-2.04                                                                                                    
#                                                                                                                                                
#=========================================================================                                                                       
                                                                                                                                                 
if [ "${BASH_VERSION%.*}" \< "2.04" ]; then                                                                                                      
    echo "No programmable completion available"                                                                                                  
    return                                                                                                                                       
fi                                                                                                                                               
                                                                                                                                                 
shopt -s extglob        # necessary                                                                                                              
                                                                                                                                                 
complete -A hostname   rsh rcp telnet rlogin r ftp ping disk                                                                                     
complete -A command    nohup exec eval trace truss strace sotruss gdb                                                                            
complete -A command    command type which                                                                                                        
complete -A export     printenv                                                                                                                  
complete -A variable   export local readonly unset                                                                                               
complete -A enabled    builtin                                                                                                                   
complete -A alias      alias unalias                                                                                                             
complete -A function   function                                                                                                                  
complete -A user       su mail finger                                                                                                            
                                                                                                                                                 
complete -A helptopic  help     # currently same as builtins                                                                                     
complete -A shopt      shopt                                                                                                                     
complete -A stopped -P '%' bg                                                                                                                    
complete -A job -P '%'     fg jobs disown                                                                                                        
                                                                                                                                                 
complete -A directory  mkdir rmdir                                                                                                               
                                                                                                                                                 
complete -f -X '*.gz'   gzip                                                                                                                     
complete -f -X '!*.ps'  gs ghostview gv                                                                                                          
complete -f -X '!*.pdf' acroread                                                                                                                 
complete -f -X '!*.+(gif|jpg|jpeg|GIF|JPG|bmp)' xv gimp                                                                                          
                                                                                                                                                 
                                                                                                                                                 
_make_targets ()                                                                                                                                 
{                                                                                                                                                
    local mdef makef gcmd cur prev i                                                                                                             
                                                                                                                                                 
    COMPREPLY=()                                                                                                                                 
    cur=${COMP_WORDS[COMP_CWORD]}                                                                                                                
    prev=${COMP_WORDS[COMP_CWORD-1]}                                                                                                             
                                                                                                                                                 
    # if prev argument is -f, return possible filename completions.                                                                              
    # we could be a little smarter here and return matches against                                                                               
    # `makefile Makefile *.mk', whatever exists                                                                                                  
    case "$prev" in                                                                                                                              
        -*f)    COMPREPLY=( $(compgen -f $cur ) ); return 0;;                                                                                    
    esac                                                                                                                                         
                                                                                                                                                 
    # if we want an option, return the possible posix options                                                                                    
    case "$cur" in                                                                                                                               
        -)      COMPREPLY=(-e -f -i -k -n -p -q -r -S -s -t); return 0;;                                                                         
    esac                                                                                                                                         
                                                                                                                                                 
    # make reads `makefile' before `Makefile'                                                                                                    
    if [ -f makefile ]; then                                                                                                                     
        mdef=makefile                                                                                                                            
    elif [ -f Makefile ]; then                                                                                                                   
        mdef=Makefile                                                                                                                            
    else                                                                                                                                         
        mdef=*.mk               # local convention                                                                                               
    fi                                                                                                                                           
                                                                                                                                                 
    # before we scan for targets, see if a makefile name was specified                                                                           
    # with -f                                                                                                                                    
    for (( i=0; i < ${#COMP_WORDS[@]}; i++ )); do                                                                                                
        if [[ ${COMP_WORDS[i]} == -*f ]]; then                                                                                                   
            eval makef=${COMP_WORDS[i+1]}       # eval for tilde expansion                                                                       
            break                                                                                                                                
        fi                                                                                                                                       
    done                                                                                                                                         
                                                                                                                                                 
        [ -z "$makef" ] && makef=$mdef                                                                                                           
                                                                                                                                                 
    # if we have a partial word to complete, restrict completions to                                                                             
    # matches of that word                                                                                                                       
    if [ -n "$2" ]; then gcmd='grep "^$2"' ; else gcmd=cat ; fi                                                                                  
                                                                                                                                                 
    # if we don't want to use *.mk, we can take out the cat and use                                                                              
    # test -f $makef and input redirection                                                                                                       
    COMPREPLY=( $(cat $makef 2>/dev/null | awk 'BEGIN {FS=":"} /^[^.#   ][^=]*:/ {print $1}' | tr -s ' ' '\012' | sort -u | eval $gcmd ) )       
}                                                                                                                                                
                                                                                                                                                 
complete -F _make_targets -X '+($*|*.[cho])' make gmake pmake                                                                                    
                                                                                                                                                 
                                                                                                                                                 
_configure_func ()                                                                                                                               
{                                                                                                                                                
    case "$2" in                                                                                                                                 
        -*)     ;;                                                                                                                               
        *)      return ;;                                                                                                                        
    esac                                                                                                                                         
                                                                                                                                                 
    case "$1" in                                                                                                                                 
        \~*)    eval cmd=$1 ;;                                                                                                                   
        *)      cmd="$1" ;;                                                                                                                      
    esac                                                                                                                                         
                                                                                                                                                 
    COMPREPLY=( $("$cmd" --help | awk '{if ($1 ~ /--.*/) print $1}' | grep ^"$2" | sort -u) )                                                    
}                                                                                                                                                
                                                                                                                                                 
complete -F _configure_func configure                                                                                                            
                                                                                                                                                 
_killps ()                                                                                                                                       
{                                                                                                                                                
    local cur prev                                                                                                                               
    COMPREPLY=()                                                                                                                                 
    cur=${COMP_WORDS[COMP_CWORD]}                                                                                                                
                                                                                                                                                 
    # get a list of processes (the first sed evaluation                                                                                          
    # takes care of swapped out processes, the second                                                                                            
    # takes care of getting the basename of the process)                                                                                         
    COMPREPLY=( $( /usr/bin/ps -u $USER -o comm  | \                                                                                             
        sed -e '1,1d' -e 's#[]\[]##g' -e 's#^.*/##'| \                                                                                           
        awk '{if ($0 ~ /^'$cur'/) print $0}' ))                                                                                                  
                                                                                                                                                 
    return 0                                                                                                                                     
}                                                                                                                                                
complete -F _killps killps                                                                                                                       
                                                                                                                                                 
                                                                                                                                                 
                                                                                                                                                 
# Local Variables:                                                                                                                               
# mode:shell-script                                                                                                                              
# sh-shell:bash                                                                                                                                  
# End:                                                                                                                                           
-----------------------------------------------------------------------------

Appendix D. Copyright

The "Advanced Bash-Scripting HOWTO" is copyright, (c) 2000, by Mendel Cooper.
This document may only be distributed subject to the terms and conditions set
forth in the [http://www.linuxdoc.org/manifesto.html] LDP License These are
very liberal terms, and they should not hinder any legitimate distribution or
use of this HOWTO. The author especially encourages the use of this HOWTO, or
portions thereof, for instructional purposes.

A Korean translation of this HOWTO is in process. If you wish to translate it
into another language, please feel free to do so, subject to the terms stated
above. The author would appreciate being notified of such efforts.

If this document is incorporated into a printed book, the author requests a
courtesy copy. This is a request, not a requirement.

Notes

[1]  Many of the features of ksh88, not the newer ksh93 have been merged into
     Bash.                                                                   
[2]  The words "argument" and "parameter" are often used interchangeably. In 
     the context of this document, they have the same precise meaning, that  
     of a variable passed to a script or function.                           
[3]  A flag is an argument that acts as a signal, switching script behaviors 
     on or off.                                                              
[4]  The print queue is the group of jobs "waiting in line" to be printed.   
[5]  NAND is the logical "not-and" operator. Its effect is somewhat similar  
     to subtraction.                                                         
[6]  A file descriptor is simply a number that the operating system assigns  
     to an open file to keep track of it. Consider it a simplified version of
     a file pointer. It is analogous to a file handle in C.                  
[7]  Using file descriptor 5 might cause problems. When Bash forks a child   
     process, as with exec, the child inherits fd 5 (see Chet Ramey's        
     archived e-mail, [http://www.geocrawler.com/archives/3/342/1996/1/0/    
     1939805/] SUBJECT: RE: File descriptor 5 is held open). Best leave this 
     particular fd alone.                                                    
