This document describes how to use the line printer spooling system provided with the Linux operating system. This HOWTO is the supplementary document to the Linux Printing Setup HOWTO, which discusses the installation and setup of the Linux printing system. The material presented in this HOWTO should be equally relevent for all flavors of the BSD operating system in addition to the Linux operating system.
Note from Mark Komarinski <firstname.lastname@example.org>:
I'd like to thank Matt Foster for doing a lot of work in the re-write of this HOWTO. I'm keeping his style, and adding when necessary to keep everything updated.
Note from Matt Foster <email@example.com>:
This version of the Linux Printing HOWTO is a complete rewrite of the one originally written by Grant Taylor <firstname.lastname@example.org> and Brian McCauley <B.A.McCauley@bham.ac.uk>. I have tried to keep with the coverage of material presented by Grant and Brian's HOWTO, but I have drastically modified the style of presentation and the depth of material covered. I feel that this makes the HOWTO more complete and easier to read. I can only hope that you agree.
Some names mentioned in this HOWTO are claimed as copyrights and/or trademarks of certain persons and/or companies. These names appear in full or initial caps in this HOWTO.
(c) 1995 Matt Foster (email@example.com)
(c) 1996-1997 Mark F. Komarinski (firstname.lastname@example.org)
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I recommend that if you want to print a copy of this HOWTO that you download the PostScript version. It is formatted in a fashion that is aesthetically appealing and easier to read. You can get the PostScript version from one of the many Linux distribution sites (such as SunSITE ftp://sunsite.unc.edu/pub/Linux/docs/HOWTO/).
Questions, comments, or corrections for this HOWTO may be directed to <firstname.lastname@example.org>.
Thanks go out to all of the people who took the time to read the alpha version of this HOWTO and respond with many helpful comments and suggestions---some of you may see your comments reflected in the version.
I'd also like to thank Matt Foster who did the original re-write.
This section discusses how to print files, examine the print queue, remove jobs from the print queue, format files before printing them, and configure your printing environment.
The Linux printing system---the lp system---is a port of the source code written by the Regents of the University of California for the Berkeley Software Distribution version of the UNIX operating system.
By far, the most simplistic way to print in the Linux operating system is
to send the file to be printed directly to the printing device. One way
to do this is to use the cat command. As the
one could do something like
# cat thesis.txt > /dev/lp
In this case,
/dev/lp is a symbolic link to the actual printing
device---be it a dot-matrix, laser printer, typesetter, or plotter. (See
ln(1) for more information on symbolic links.)
For the purpose of security, only the
root user and users in the
same group as the print daemon are able to write directly to the printer.
This is why commands such as lpr, lprm, and lpq
have to be used to access the printer.
Because of this, users have to use lpr to print a file. The lpr command takes care of all the initial work needed to print the file, and then it hands control over to another program, lpd, the line printing daemon. The line printing daemon then tells the printer how to print the file.
When lpr is executed, it first copies the specified file to a certain directory (the spool directory) where the file remains until lpd prints it. Once lpd is told that there is a file to print, it will spawn a copy of itself (what we programmers call forking). This copy will print our file while the original copy waits for more requests. This allows for multiple jobs to be queued at once.
The syntax of lpr(1) is a very familiar one,
$ lpr [ options ] [ filename ... ]
filename is not specified, lpr expects input to come
from standard input (usually the keyboard, or another program's output).
This enables the user to redirect a command's output to the print spooler.
$ cat thesis.txt | lpr
$ pr -l60 thesis.txt | lpr
The lpr command accepts several command-line arguments that allow a user to control how it works. Some of the most widely used arguments are: -Pprinter specifies the printer to use, -h suppresses printing of the burst page, -s creates a symbolic link instead of copying the file to the spool directory (useful for large files), and -#num specifies the number of copies to print. An example interaction with lpr might be something like
$ lpr -#2 -sP dj thesis.txt
This command will create a symbolic link to the file
the spool directory for the printer named dj, where it would be
processed by lpd. It would then print a second copy of
For a listing of all the options that lpr will recognize, see lpr(1).
To view the contents of the print queue, use the lpq command. Issued without arguments, it returns the contents of the default printer's queue.
The returned output of lpq can be useful for many purposes.
$ lpq lp is ready and printing Rank Owner Job Files Total Size active mwf 31 thesis.txt 682048 bytes
Another useful feature of any printing system is the ability to cancel a job that has been previously queued. To do this, use lprm.
$ lprm -
The above command cancels all of the print jobs that are owned by the user who issued the command. A single print job can be canceled by first getting the job number as reported by lpq and then giving that number to lprm. For example,
$ lprm 31
would cancel job 31 (
thesis.txt) on the default printer.
The lpc(8) program is used to control the printers that lpd serves. you can enable or disable a printer or its queues, rearrange entries within a queue, and get a status report on the printers and their queues. Lpc is mostly used in a setup where there are multiple printers hanging off one machine.
The above will start the lpc program. By default, this enters you into an interactive mode, and you can begin issuing commands. The other option is to issue an lpc command on the command line.
$ lpc status all
A list of the available commands are in the lpd man page, but here
are a few of the major commands you'll want to know about. Any commands
marked with option can either be a printer name (lp, print, etc) or
all, which means all printers.
Just a quick note here on RedHat's amazing printtool program. It seems to do everything that a magicfilter would do. RedHat already installs many of the programs to do the filtering. Here's how I have my printer set up under RH 4.0 with an HP LJ 4L connected to my parallel port (should be the same for other versions of RH as well).
This section covers printing the kinda of files that you'll run across in a Linux setup.
Printing graphics files through a printer usually depends on the kind of graphics you're converting, and the kind of printer you want to send to. Dot matrix is usually out of the question due to differences in the way dot-matrix handles graphics. Your best bet in this situation is to see if your printer is compatable with an Epson or an IBM ProPrinter, then convert the graphics file to PostScript, then use Ghostscript (see next section) to print the graphics.
If you have a laser printer, things are a bit easier since many are compatable with PCL. This now gives you a few options. Some programs may output directly in PCL. If not, programs like NetPBM can convert into PCL. Last option is to use ghostscript (see next section).
Your absolutely best option is to install packages like NetPBM and Ghostscript then installing a magic filter to process the graphics files automagically.
Printing PostScript files on a printer that has a PostScript interpreter is simple; just use lpr, and the printer will take care of all of the details for you. For those of us that don't have printers with PostScript capabilities, we have to resort to other means. Luckily, there are programs available that can make sense of PostScript, and translate it into a language that most printers will understand. Probably the most well known of these programs is Ghostscript.
Ghostscript's responsibility is to convert all of the descriptions in a PostScript file to commands that the printer will understand. To print a PostScript file using Ghostscript, you might do something like
$ gs -dSAFER -dNOPAUSE -sDEVICE=deskjet -sOutputFile=\|lpr thesis.ps
Notice in the above example that we are actually piping the output of Ghostscript to the lpr command by using the -sOutputFile option.
Ghostview is an interface to Ghostscript for the X Window System. It allows you to preview a PostScript file before you print it. Ghostview and Ghostscript can both be swiped from ftp://prep.ai.mit.edu/pub/gnu/.
Adobe has released an Acrobat reader for Linux, and it's available on the Adobe home page http://www.adobe.com. Its predecessor, xpdf, is also available. Both should print to a postscript device.
One of the easiest ways to print TeX files is to convert them to PostScript and then print them using Ghostscript. To do this, you first need to convert them from TeX to a format known as DVI (which stands for device-independent). You can do this with the tex(1) command. Then you need to convert the DVI file to a PostScript file using dvips. All of this would look like the following when typed in.
$ tex thesis.tex $ dvips thesis.dvi
Now you are ready to print the resulting PostScript file as described above.
$ groff -Tascii thesis.tr | lpr
or, if you prefer,
$ groff thesis.tr > thesis.ps
and then print the PostScript file as described above.
$ man man | col -b | lpr
The man pages contain pre-formatted
troff data, so we have to strip
out any highlighting, underlines, etc. The 'col' program does this just
nicely, and since we're piping data, the
man program won`t use
This covers topics not in any of the others.
Since most ASCII files are not formatted for printing, it is useful to format them in some way before they are actually printed. This may include putting a title and page number on each page, setting the margins, double spacing, indenting, or printing a file in multiple columns. A common way to do this is to use a print preprocessor such as pr.
$ pr +4 -d -h"Ph.D. Thesis, 2nd Draft" -l60 thesis.txt | lpr
In the above example, pr would take the file
and skip the first three pages (+4), set the page length to sixty lines
(-l60), double space the output (-d), and add the phrase "Ph.D. Thesis, 2nd
Draft" to the top of each page (-h). Lpr would then queue
pr's output. See its on-line manual page for more information on
All of the commands in the Linux printing system accept the -P option. This option allows the user to specify which printer to use for output. If a user doesn't specify which printer to use, then the default printer will be assumed as the output device.
Instead of having to specify a printer to use every time that you print, you can set the PRINTER environment variable to the name of the printer that you want to use. This is accomplished in different ways for each shell. For bash you can do this with
$ PRINTER="printer_name"; export PRINTER
and csh, you can do it with
% setenv PRINTER "printer_name"
These commands can be placed in your login scripts (.profile for bash, or .cshrc for csh), or issued on the command-line. (See bash(1) and csh(1) for more information on environment variables.)
Q1. How do I prevent the staircase effect?
A1. The staircase effect is caused by the way some printers expect lines to be terminated. Some printers want lines that end with a carriage-return/line-feed sequence (DOS-style) instead of the line-feed sequence used for UNIX-type systems. The easiest way to fix this is to see if your printer can switch between the two styles somehow---either by flipping a DIP switch, or by sending an escape sequence at the start of each print job. To do the latter, you need to create a filter (see Q2).
A quick fix is to use a filter on the command-line. An example of this might be
$ cat thesis.txt | todos | lpr
Q2. What is a filter?
A2. A filter is a program that reads from standard input (stdin), performs some action on this input, and writes to standard output (stdout). Filters are used for a lot of things, including text processing.
Q3. What is a magic filter?
A3. A magic filter is a filter that performs an action based on a file's type. For example, if the file is a plain, text file, it would simply print the file using the normal methods. If the file is a PostScript file, or any other format, it would print it using another method (ghostscript). Two examples of this is magicfilter and APSfilter. One caveat of these filters is that the appropriate programs have to be installed before you install the filter.
The reason for this is that when the magicfilter gets installed, it queries your system for specific programs (such as ghostscript - if it finds it, then it knows it can handle PostScript data), then builds itself based on what it finds. To handle all the printer files, you should probably have at least the following installed:
Q4. What about the Windows Printing System? Will Linux work with that?
A4. Maybe. Printers that accept only the WPS commands will not work with Linux. Printers that accept WPS and other commands (such as the Canon BJC 610) will work, as long as they're set to something other than WPS format. Other printers, such as some HP DeskJet 820Cxi/Cse, will *not* work with Linux. That being said, Linux can act as a print server (See Samba) for Win95 machines, since Win95 has drivers for those printers.
Q5. What kinda cheey system is this? I can't print more than 6 pages or else I get a "file too large" error.
A5. One of the options in the /etc/printcap file relates to the maximum size of a print file. The default is 1000 disk blocks (about 500k?). For PostScript files and the like, this will give you maybe 6-8 pages with graphics and all. Be sure to add the following line in the printer definition:
The primary reason for this is to keep the spool partition from getting filled. There is another way to do it, by making lpr create a soft link from the spool directory to your print file. But you have to remember to add the
-soption to lpr every time.
This section covers some common things that can go wrong with your printing system.
If your printer doesn't work:
Send other suggestions for this section to <email@example.com>.
This is a section of references on the Linux printing system. I have tried to keep the references section of this HOWTO as focused as possible. If you feel that I have forgotten a significant reference work, please do not hesitate to contact me.
Before you post your question to a USENET group, consider the following:
If any of the above are true, you may want to think twice before you post your question. And, when you do finally post to a newsgroup, try to include pertinent information. Try not to just say something like, "I'm having trouble with lpr, please help." These types of posts will most definitely be ignored by many. Also try to include the kernel version that you're running, how the error occured, and, if any, the specific error message that the system returned.
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