The Linux Printing HOWTO

The Linux Printing HOWTO
Grant Taylor <[email protected]>
Version 4.5, Feb 2000

This is the Linux Printing HOWTO, a collection of information on how
to generate, preview, print and fax anything under Linux (and other
Unices in general).
______________________________________________________________________

Table of Contents

1. Introduction

1.1 History
1.2 Copyright

2. How to print

2.1 With PDQ
2.1.1 Xpdq
2.1.2 Pdq
2.2 With LPD and the lpr command

3. Kernel printer devices

3.1 The lp device (kernels <=2.1.32)
3.2 The parport device (kernels >= 2.1.33)
3.3 Serial devices

4. Supported Printers

4.1 Postscript
4.2 Non-Postscript
4.3 What printers work?
4.3.1 Printer compatibility list
4.4 How to buy a printer
4.4.1 What do I have?

5. Which spooling software?

5.1 PDQ
5.2 LPRng
5.3 PPR
5.4 CUPS

6. How it works, basic

6.1 PDQ
6.2 LPD

7. How to set things up

7.1 Configuring PDQ
7.1.1 Drivers and Interfaces
7.1.2 Defining Printers
7.1.3 Creating a PDQ Driver Declaration
7.1.3.1 Options
7.1.3.2 Language Filtering
7.1.3.3 Output Filtering
7.2 Configuring LPD
7.2.1 Traditional lpd configuration
7.2.2 Accounting
7.2.3 Large Installations
7.2.4 File Permissions

8. Vendor Solutions

8.1 Red Hat
8.2 Debian
8.3 SuSE
8.4 Other Distributions

9. Ghostscript.

9.1 Invoking Ghostscript
9.2 Ghostscript output tuning
9.2.1 Output location and size
9.2.2 Gamma, dotsizes, etc.
9.2.3 Color Printing in Ghostscript

10. How to print to a printer over the network

10.1 To a Unix/lpd host
10.1.1 With
10.1.2 With
10.1.3 With
10.2 To a Win95, WinNT, LanManager, or Samba printer
10.2.1 From PDQ
10.2.2 From LPD
10.3 To a NetWare Printer
10.3.1 From LPD
10.4 To an EtherTalk (Apple) printer
10.4.1 From PDQ
10.5 To an HP or other ethernet printer
10.5.1 To older HPs
10.6 Running an
10.7 From Windows.
10.8 From an Apple.
10.9 From Netware.

11. Windows-only printers

11.1 The Ghostscript Windows redirector
11.2 HP Winprinters
11.3 Lexmark Winprinters

12. How to print to a fax machine.

12.1 Using a faxmodem
12.1.1 Faxing from PDQ
12.2 Using the Remote Printing Service

13. How to generate something worth printing.

13.1 Markup languages
13.2 WYSIWYG Word Processors
13.3 Printing Photographs
13.3.1 Ghostscript and Photos
13.3.2 Paper
13.3.3 Printer Settings
13.3.4 Print Durability
13.3.5 Shareware and Commercial Software

14. On-screen previewing of printable things.

14.1 PostScript
14.2 TeX dvi
14.3 Adobe PDF

15. Serial printers under lpd

15.1 Setting up in printcap
15.2 Older serial printers that drop characters

16. Credits

______________________________________________________________________

1. Introduction

The Printing HOWTO should contain everything you need to know to help
you set up printing services on your Linux box(en). As life would
have it, it's a bit more complicated than in the point-and-click world
of Microsoft and Apple, but it's also a bit more flexible and
certainly easier to administer for large LANs.

This document is structured so that most people will only need to read
the first half or so. Most of the more obscure and situation-
dependent information in here is in the last half, and can be easily
located in the Table of Contents, whereas most of the information
through section 8 or 9 is probably needed by most people.

Since version 3.x is a complete rewrite, much information from
previous editions has been lost. This is by design, as the previous
HOWTOs were so large as to be 60 typeset pages, and had the narrative
flow of a dead turtle. If you do not find the answer here, you are
encouraged to a) scan the previous version at the Printing HOWTO Home
Page <http://www.picante.com/~gtaylor/pht/> and b) drop me a note
saying what ought to be here but isn't.

The Printing HOWTO Home Page <http://www.picante.com/~gtaylor/pht/> is
a good place to find the latest version; it is also, of course,
distributed from Metalab (metalab.unc.edu) and your friendly local LDP
mirror.

1.1. History

This is the fourth generation of the Printing HOWTO. The history of
the PHT may be chronicled thusly:

1. I wrote the printing-howto in 1992 in response to too many printing
questions in comp.os.linux, and posted it. This predated the HOWTO
project by a few months and was the first FAQlet called a `howto'.
This edition was in plain ascii.

2. After joining the HOWTO project, the Printing-HOWTO was merged with
an Lpd FAQ by Brian McCauley <[email protected]>; we
continued to co-author the PHT for two years or so. At some point
we incorporated the work of Karl Auer <[email protected]>. This
generation of the PHT was in TeXinfo, and available in PS, HTML,
Ascii, and Info.

3. After letting the PHT rot and decay for over a year, and an
unsuccessful attempt at getting someone else to maintain it, this
rewrite happened. This generation of the PHT is written in SGML
using the LinuxDoc DTD and the SGML-Tools-1 package. Beginning
with version 3.27, it incorporates a summary of a companion printer
support database; before 3.27 there was never a printer
compatability list in this HOWTO (!).

4. In mid-January, 2000, I found out about the PDQ print "spooler".
PDQ provides a printing mechanism so much better than lpd ever did
that I spent several hours playing with it, rewrote parts of this
HOWTO, and bumped the version number of the document to 4.

1.2. Copyright

This document is Copyright (c) 1992-1999 by Grant Taylor. Feel free
to copy and redistribute this document according to the terms of the
GNU General Public License, revision 2 or later.

2. How to print

You actually use a different command to print depending on which
spooling software you use.

2.1. With PDQ

Most systems today ship with lpd, so this section won't apply. That
said, I now recommend that people install and use PDQ in most cases
instead of (or in addition to) lpd. PDQ just has much better support
for printer options and such.

With PDQ, instead of the lpr command, you use the command pdq or xpdq.
Both work much like the traditional lpr in that they will print the
files you specify, or stdin if no files are given.

2.1.1. Xpdq

Xpdq is an X Windows application that shows a list of available
printers and a summary of the print queue (including current and
historical jobs). There are two options under the File menu, one to
print specific files, and one to print stdin. You can set whatever
options are defined in your printer driver from the Driver Options
dialog; typically there will be duplex, resolution, paper type and
size settings, and so forth.

2.1.2. Pdq

The PDQ system's command-line printing command is simply called pdq.
It can be used in place of the lpr command in most situations; it
accepts the -P printer specification argument. Like lpr, it prints
either the listed file(s) or stdin.

Printer options can be controlled with the -o and -a options.

2.2. With LPD and the lpr command

If you've already got lpd setup to print to your printer, or your
system administrator already did so, or your vendor did so for you,
then all you need to do is learn how to use the lpr command. The
Printing Usage HOWTO <http://metalab.unc.edu/LDP/HOWTO/Printing-Usage-
HOWTO.html> covers this, and a few other queue manipulation commands
you should probably know. Or just read the lpr(1) man page.

If, however, you have a new system or new printer, then you'll have to
set up printing services one way or another before you can print.
Read on!

3. Kernel printer devices

There are two completely different device drivers for the parallel
port; which one you are using depends on your kernel version (which
you can find out with the command uname -a). The driver changed in
Linux 2.1.33.

A few details are the same for both styles of driver. Most notably,
many people have found that Linux will not detect their parallel port
unless they disable "Plug and Play" in their PC BIOS. (This is no
surprise; the track record for PnP of non-PCI devices with Windows and
elsewhere has been something of a disaster).

3.1. The lp device (kernels <=2.1.32)

The Linux kernel (<=2.1.32), assuming you have compiled in or loaded
the lp device (the output of cat /proc/devices should include the
device lp if it is loaded), provides one or more of /dev/lp0,
/dev/lp1, and /dev/lp2. These are NOT assigned dynamically, rather,
each corresponds to a specific hardware I/O address. This means that
your first printer may be lp0 or lp1 depending on your hardware. Just
try both.

A few users have reported that their bidirectional lp ports aren't
detected if they use an older unidirectional printer cable. Check
that you've got a decent cable.

One cannot run the plip and lp drivers at the same time on any given
port (under 2.0, anyway). You can, however, have one or the other
driver loaded at any given time either manually, or by kerneld with
version 2.x (and later 1.3.x) kernels. By carefully setting the
interrupts and such, you can supposedly run plip on one port and lp on
the other. One person did so by editing the drivers; I eagerly await
a success report of someone doing so with only a clever command line.

There is a little utility called tunelp floating about with which you,
as root, can tune the Linux 2.0 lp device's interrupt usage, polling
rate, and other options.

When the lp driver is built into the kernel, the kernel will accept an
lp= option to set interrupts and io addresses:

When the lp driver is built in to the kernel, you may use the
LILO/LOADLIN command line to set the port addresses and interrupts
that the driver will use.

Syntax: lp=port0[,irq0[,port1[,irq1[,port2[,irq2]]]]]

For example: lp=0x378,0 or lp=0x278,5,0x378,7 **

Note that if this feature is used, you must specify *all* the ports
you want considered, there are no defaults. You can disable a
built-in driver with lp=0.

When loaded as a module, it is possible to specify io addresses and
interrupt lines on the insmod command line (or in /etc/conf.modules so
as to affect kerneld) using the usual module argument syntax. The
parameters are io=port0,port1,port2 and irq=irq0,irq1,irq2. Read ye
the man page for insmod for more information on this.

**For those of you who (like me) can never find the standard port
numbers when you need them, they are as in the second example above.
The other port (lp0) is at 0x3bc. I've no idea what interrupt it
usually uses.

The source code for the Linux 2.0 parallel port driver is in
/usr/src/linux/drivers/char/lp.c.

3.2. The parport device (kernels >= 2.1.33)

Beginning with kernel 2.1.33 (and available as a patch for kernel
2.0.30), the lp device is merely a client of the new parport device.
The addition of the parport device corrects a number of the problems
that plague the old lp device driver - it can share the port with
other drivers, it dynamically assigns available parallel ports to
device numbers rather than enforcing a fixed correspondence between
I/O addresses and port numbers, and so forth.

The advent of the parport device has enabled a whole flock of new
parallel-port drivers for things like Zip drives, Backpack CD-ROMs and
disks, and so forth. Some of these are also available in versions for
2.0 kernels; look around on the web.

The main difference that you will notice, so far as printing goes, is
that parport-based kernels dynamically assign lp devices to parallel
ports. So what was lp1 under Linux 2.0 may well be lp0 under Linux
2.2. Be sure to check this if you upgrade from an lp-driver kernel to
a parport-driver kernel.

The most popular problems with this device seems to stem from
misconfiguration:

The Distribution
Some Linux distributions don't ship with a properly setup
/etc/modules.conf (or /etc/conf.modules), so the driver isn't
loaded properly when you need it to be. With a recent modutils,
the proper magical lines from modules.conf seem to be:

alias /dev/printers lp # only for devfs?
alias /dev/lp* lp # only for devfs?
alias parport_lowlevel parport_pc # missing in Red Hat 6.0-6.1

The BIOS
Many PC BIOSes will make the parallel port into a Plug-and-Play
device. This just adds needless complexity to a perfectly
simple device that is nearly always present; turn off the PnP
setting for your parallel prot ("LPT1" in many BIOSes) if your
parallel port isn't detected by the Linux driver. The correct
setting is often called "legacy", "ISA", or "0x378", but
probably not "disabled".

You can also read the file Documentation/parport.txt in your kernel
sources, or look at the parport web site
<http://www.cyberelk.demon.co.uk/parport.html>.

3.3. Serial devices

Serial devices are usually called something like /dev/ttyS1 under
Linux. The utility stty will allow you to interactively view or set
the settings for a serial port; setserial will allow you to control a
few extended attributes and configure IRQs and I/O addresses for non-
standard ports. Further discussion of serial ports under Linux may be
found in the Serial-HOWTO <http://metalab.unc.edu/mdw/HOWTO/Serial-
HOWTO.html>.

When using a slow serial printer with flow control, you may find that
some of your print jobs get truncated. This may be due to the serial
port, whose default behavior is to purge any untransmitted characters
from its buffer 30 seconds after the port device is closed. The
buffer can hold up to 4096 characters, and if your printer uses flow
control and is slow enough that it can't accept all the data from the
buffer within 30 seconds after printing software has closed the serial
port, the tail end of the buffer's contents will be lost. If the
command cat file > /dev/ttyS2 produces complete printouts for short
files but truncated ones for longer files, you may have this
condition.

The 30 second interval can be adjusted through the "closing_wait"
commandline option of setserial (version 2.12 and later). A machine's
serial ports are usually initialized by a call to setserial in the
rc.serial boot file. The call for the printing serial port can be
modified to set the closing_wait at the same time as it sets that
port's other parameters.

4. Supported Printers

The Linux kernel mostly supports any printer that you can plug into a
serial or parallel port, but there are things to look out for, and
printers that you won't be able to use, even though they can
(electrically speaking) communicate with Linux. Primary among these
incompatible printers are those referred to as "Windows" or "GDI"
printers. They are called this because part or all of the printer
control language and the design details of the printing mechanism are
not documented. Typically the vendor will provide a Windows driver
and happily sell only to Windows users; this is why they are called
Winprinters. In some cases the vendor also provides drivers for NT,
OS/2, or other operating systems.

Many of these printers do not work with Linux. A few of them do, and
some of them only work a little bit (usually because someone has
reverse engineered the details needed to write a driver). See the
printer support list below for details on specific printers.

A few printers are in-between. Some of NEC's models, for example,
implement a simple form of the standard printer language PCL that
allows PCL-speaking software to print at up to 300dpi, but only NEC
knows how to get the full 600dpi out of these printers.

Note that if you already have one of these Winprinters, there are
roundabout ways to get Linux to print to one, but they're rather
awkward and I've never tried it myself. See Section 12 of this
document for more discussion of Windows-only printers.

4.1. Postscript

As for what printers do work with Linux, the best choice is to buy a
printer with native PostScript support. Nearly all Unix software that
produces printable output produces it in PostScript, so obviously it'd
be nice to get a printer that supports PostScript directly.
Unfortunately, PostScript support is scarce outside the laser printer
domain, and is sometimes a costly add-on.

Unix software, and the publishing industry in general, have
standardized upon Postscript as the printer control language of
choice. This happened for several reasons:

Timing
Postscript arrived as part of the Apple Laserwriter, a perfect
companion to the Macintosh, the system largely responsible for
the desktop publishing revolution of the 80s.

It's device-independent
Postscript programs can be run to generate output on a pixel
screen, a vector screen, a fax machine, or almost any sort of
printer mechanism, without the original program needing to be
changed. Postscript output will look the same on any Postscript
device, at least within the limits of the device's capabilities.
Before the creation of PDF, people exchanged complex documents
online as Postscript files. The only reason this standard
didn't "stick" was because Windows machines didn't usually
include a Postscript previewer, so Adobe specified hyperlinks
and compression for Postscript, called the result PDF,
distributed previewers for it, and invented a market for their
"distiller" tools (the functionality of which is also provided
by ghostscript's ps2pdf and pdf2ps programs).

It's a real programming language
Postscript is a complete programming language; you can write
software to do most anything in it. This is mostly useful for
defining subroutines at the start of your program to reproduce
complex things over and over throughout your document, like a
logo or a big "DRAFT" in the background.

It's open
Postscript is fully specified in a publically available series
of books (which you can find at any good bookstore). Although
Adobe invented it and provides the dominant commercial
implementation, other vendors like Aladdin produce independently
coded implementations as well.

4.2. Non-Postscript

Failing the (larger) budget necessary to buy a Postscript printer, you
can use any printer supported by Ghostscript, the free Postscript
interpreter used in lieu of actual printer Postscript support. Note
that most Linux distributions can only ship a somewhat outdated
version of Ghostscript due to the license. Fortunately, there is
usually a prepackaged up to date Ghostscript made available in each
distribution's contrib area. Please help improve the Ghostscript
printer support page by reporting your successes and failures as it
asks.

Adobe now has a new printer language called "PrintGear". I think it's
a greatly simplified binary format language with some Postscript
heritage but no Postscript compatibility. And I haven't heard of
Ghostscript supporting it. But some PrintGear printers seem to
support another language like PCL, and these printers will work with
Linux (iff the PCL is implemented in the printer and not in a Windows
driver).

4.3. What printers work?

If you want to buy a printer, you can look in several places to see if
it will work. The cooperatively maintained Printing HOWTO printer
database <http://www.picante.com/~gtaylor/pht/printer_list.cgi> aims
to be a comprehensive listing of the state of Linux printer support.
A summary of it is below; be sure to check online for more details and
information on what driver to use.

Ghostscript's printer compatibility page
<http://www.cs.wisc.edu/~ghost/printer.html> has a list of some
working printers, as well as links to other pages.

Dejanews <http://www.deja.com/> contains hundreds of "it works" and
"it doesn't work" testimonials. Try all three, and when you're done,
check that your printer is present and correct in the database
<http://www.picante.com/~gtaylor/pht/printer_list.cgi>, so that it
will be listed properly in this document in the future.

4.3.1. Printer compatibility list

This section is a summary of the online version. The online version
includes basic specifications, notes, links to driver information,
user-maintained documentation, manufacturer web pages, and so forth.
The online version of this list is also interactive; people can and do
add printers all the time, so be sure to check it as well. Finally,
if your printer isn't listed, add it!

Note that this listing is not gospel; people sometimes add incorrect
information, which I eventually weed out. Entries I have not sanity-
checked are merked with an asterisk (*). Verify from Dejanews that a
printer works for someone before buying it based on this list. If you
can find no information in Dejanews, mail me and I'll put you in
contact with the person who added the printer.

Printers here are categorized into three types:

Perfectly
Perfect printers work perfectly - you can print to the full
ability of the printer, including color, full resolution, etc.
In a few cases printers with undocumented "resolution
enhancement" modes that don't work are listed as perfect;
generally the difference in print quality is small enough that
it isn't worth worrying about.

Mostly
You can print fine, but there may be minor limitations or one
sort or another in either printing or other features.

Partially
You can print, but maybe not in color, or only at a poor
resolution. See the online listing's notes column for
information on the limitation.

Paperweight
You can't print a darned thing; typically this will be due to
lack of a driver and/or documentation on how to write one.

In all cases, since this information is provided by dozens of people,
none of it is guaranteed to be correct; entries with an asterisk (*)
are particularly suspect. The facts, however, should be easy to cor-
roborate from the driver web pages and manufacturer web sites.

And without further ado, here is the printer compatibility list:

Alps

Partially
MD-1000, MD-1300, MD-2000, MD-4000, MD-5000.

Apple

Perfectly
Dot Matrix, ImageWriter*, ImageWriter LQ, LaserWriter 16/600,
LaserWriter IINTX*, LaserWriter Select 360.

Mostly
12/640ps, LaserWriter NT, StyleWriter 2500.

Avery

Perfectly
Personal Label Printer+.

Mostly
Personal Label Printer.

Brother

Perfectly
HL-1070, HL-10V, HL-10h, HL-1260, HL-2060, HL-4Ve, HL-630*,
HL-720*, HL-720*, HL-730, HL-760, HL-8*, HL-820.

Mostly
HJ-400, HL-1040, HL-1050, HL-1060, HL-1240*, HL-1250, MFC
6550MC, MFC4350*.

Partially
MC-3000, MFC 7150C, MFC8300*.

Paperweight
HL-1030, MP-21C.

C.Itoh

Perfectly
M8510.

CalComp

Paperweight
Artisan 1023 penplotter*.

Canon

Perfectly
BJ-10e, BJ-20, BJ-200, BJ-330, BJ-5, BJC-210, BJC-250,
BJC-4000, BJC-4100, BJC-4200, BJC-4300, BJC-4400, BJC-600,
BJC-610, BJC-620*, BJC-70, BJC-800, GP335/405*, LBP-1260*,
LBP-1760, LBP-4+*, LBP-4U*, LBP-8A1*, LIPS III*, LIPS-III*,
bjc5000*.

Mostly
BJ-300*, BJC-1000, BJC-2000, BJC-210SP*, BJC-240,
BJC-4310SP*, BJC-7004*, BJC-80, LBP-4sx*.

Partially
BJC-4550*, BJC-6000, BJC-7000*, BJC-7100*, MultiPASS C2500*,
MultiPASS C3500*, MultiPASS C5000*, Multipass C3000*,
Multipass C5500*.

Paperweight
BJC-5000, BJC-5100, LBP-430, LBP-460*, LBP-660*, Multipass
L6000*.

Citizen

Perfectly
ProJet II*, ProJet IIc*.

Partially
printiva600C*.

DEC

Perfectly
DECWriter 500i*, DECwriter 110i*, DECwriter 520ic*, LA50*,
LA75*, LA75 Plus*, LN03*, LN07*.

Mostly
LJ250*, LN17.

Partially
1800*.

Dymo-CoStar

Perfectly
ASCII 250*, ASCII+*, EL40*, EL60*, LabelWriter II*,
LabelWriter XL*, LabelWriter XL+*, SE250*, SE250+*, Turbo*.

Epson

Perfectly
9 Pin Printers high-res*, 9 Pin Printers med-res*, AP3250*,
ActionLaser 1100*, LP 8000*, LQ 850*, LQ-24*, LQ-2550*,
LQ-500*, LQ-570+*, LX-1050*, SQ 1170*, Stylus Color*, Stylus
Color 1520, Stylus Color 400*, Stylus Color 440, Stylus Color
460*, Stylus Color 500*, Stylus Color 600*, Stylus Color
640*, Stylus Color 800*, Stylus Color 850*, Stylus Color I*,
Stylus Color II*, Stylus Color IIs*, Stylus Color PRO*,
Stylus Pro XL*.

Mostly
EPL 5700*, Stylus 300*, Stylus Color 3000*, Stylus Color 660,
Stylus Color 740*.

Partially
Stylus Color 300*, Stylus Color 900*, Stylus Photo 700*,
Stylus Photo 750*, Stylus Photo EX*.

Fujitsu

Perfectly
1200*, 2400*, 3400*, PrintPartner 10V*, PrintPartner 16DV*,
PrintPartner 20W*, PrintPartner 8000*.

HP

Perfectly
2000C*, 2500C, Color LaserJet 4500, DeskJet 1200C, DeskJet
1200C/PS, DeskJet 1600C, DeskJet 1600Cm, DeskJet 400, DeskJet
420C, DeskJet 500, DeskJet 500C*, DeskJet 510*, DeskJet 520*,
DeskJet 540*, DeskJet 550C*, DeskJet 560C*, DeskJet 600*,
DeskJet 610C*, DeskJet 610CL*, DeskJet 612C*, DeskJet 660C*,
DeskJet 670C*, DeskJet 672C*, DeskJet 682C*, DeskJet 690C*,
DeskJet 692C*, DeskJet 694C*, DeskJet 697C*, DeskJet 812C*,
DeskJet 850C, DeskJet 855C*, DeskJet 890C, HP LaserJet 2P
Plus*, LaserJet*, LaserJet 1100*, LaserJet 1100A*, LaserJet 2
w/PS*, LaserJet 2100M*, LaserJet 2D*, LaserJet 2P*, LaserJet
3*, LaserJet 3D*, LaserJet 3P w/PS*, LaserJet 4 Plus*,
LaserJet 4050N*, LaserJet 4L*, LaserJet 4M*, LaserJet 4ML*,
LaserJet 4P*, LaserJet 5*, LaserJet 5000*, LaserJet 5L*,
LaserJet 5M*, LaserJet 5MP*, LaserJet 5P*, LaserJet 6*,
LaserJet 6MP*, LaserJet 8000*, LaserJet 8100*, LaserJet
Plus*, Mopier 320*, PaintJet*, PaintJet XL*, PaintJet XL300*.

Mostly
DesignJet 650C*, Designjet 750 C Plus*, DeskJet 1100C*,
DeskJet 1120C*, DeskJet 310, DeskJet 810C, DeskJet 832C*,
DeskJet 870C*, DeskJet 880C*, DeskJet 882C, DeskJet 895C*,
DeskJet 895Cxi*, DeskJet 970C*, DeskJet 970Cse, LaserJet 2*,
LaserJet 2100*, LaserJet 6P*, OfficeJet Pro 1170Cse*.

Partially
Color LaserJet 5000, DeskJet 1000C*, DeskJet 710C*, DeskJet
712C*, DeskJet 720C*, DeskJet 722C*, DeskJet 820C*, LaserJet
6L*, OfficeJet 500*, OfficeJet 600*, OfficeJet 625*,
OfficeJet Pro 1175C*, PhotoSmart P1100*.

Paperweight
LaserJet 3100*.

IBM

Perfectly
3853 JetPrinter*, 4019*, 4029 10P*, 4303 Network Color
Printer*, Page Printer 3112*, ProPrinterII*.

Imagen

Perfectly
ImPress*.

Kyocera

Perfectly
F-3300*, FS-1700+*, FS-3750*, FS-600*, FS-800*, P-2000*.

Mostly
FS-3500*.

Lexmark

Perfectly
4039 10plus*, Optra Color 1200*, Optra Color 1275*, Optra
Color 40, Optra Color 45, Optra E*, Optra E+*, Optra E310*,
Optra Ep*, Optra K 1220*, Optra R+*, Optra S 1250*, Optra S
1855*, Valuewriter 300*.

Mostly
1000, 1100*, 2070*, 3000*, 5000*, 5700, 7000*, 7200*.

Partially
1020 Business*, 2030*, Winwriter 400*, Z51*.

Paperweight
1020*, 2050*, 3200*, Winwriter 100*, Winwriter 150c*,
Winwriter 200*, Z11*.

Minolta

Perfectly
PagePro 6*, PagePro 6e*, PagePro 6ex*, PagePro 8*.

Partially
PagePro 8L*.

Mitsubishi

Perfectly
CP50 Color Printer*.

NEC

Perfectly
P2X*, PinWriter P6*, PinWriter P6 plus*, PinWriter P60*,
PinWriter P7*, PinWriter P7 plus*, PinWriter P70*,
SilentWriter LC 890*, Silentwriter2 S60P*, Silentwriter2
model 290*, SuperScript 660i*.

Mostly
Silentwriter 95f*.

Partially
SuperScript 100C*, SuperScript 1260*, SuperScript 150C*,
SuperScript 650C*, SuperScript 750C*, SuperScript 860*,
SuperScript 870.

Paperweight
SuperScript 610plus*, SuperScript 660*, SuperScript 660plus*.

Oce

Perfectly
3165*.

Okidata

Perfectly
OL 410e, OL 600e, OL 610e/PS, OL 800, OL 810e/PS, OL400ex,
OL810ex, OL830Plus, Okipage 10e, Okipage 12i, Okipage 20DXn,
Okipage 6e, Okipage 6ex, Okipage 8c, Okipage 8p.

Mostly
Microline 182, OL 400w, OL 610e/S, OkiPage 4w+*, Okipage 4w,
Super 6e.

Partially
Microline 192+, Okipage 6w.

Paperweight
Okijet 2010, Okijet 2500, Okipage 8w*.

Olivetti

Perfectly
JP350S*, JP450*, PG 306*.

PCPI

Perfectly
1030*.

Panasonic

Perfectly
KX-P1123*, KX-P1124*, KX-P1150*, KX-P1180i*, KX-P2023*, KX-
P2135*, KX-P2150*, KX-P4410, KX-P4450*, KX-P5400*, KX-P8420*,
KX-P8475*, kx-p1624*.

Mostly
KX-P2123*, KX-P6150*.

Partially
KX-P6500*.

Paperweight
KX-P6100*, KX-P6300 GDI*, KX-P8410*.

Printrex

Partially
820 DL*.

QMS

Perfectly
2425 Turbo EX*, magicolour 2*.

Mostly
ps-810*.

Ricoh

Perfectly
4081*, 4801*, 6000*, Aficio AP2000*.

Mostly
Aficio 401*.

Paperweight
Aficio Color 2206*, Afico FX10*.

Samsung

Perfectly
ML-5000a*, ML-6000/6100*, ML-7000/7000P/7000N*, ML-7050*,
ML-85*, QL-5100A*.

Mostly
ML-5050G*.

Paperweight
ML-85G*, SF/MSYS/MJ-4700/4800/4500C*.

Seiko

Perfectly
SpeedJET 200*.

Mostly
SLP*, SLP 120*, SLP 220*, SLP EZ30*, SLP Plus*, SLP Pro*.

Sharp

Perfectly
AR-161*.

Star

Perfectly
LC24-100*, NL-10*.

Mostly
LC 90*, LC24-200*, StarJet 48*.

Paperweight
WinType 4000*.

Tally

Perfectly
MT908*.

Tektronix

Perfectly
3693d color printer, 8-bit mode*, 4693d color printer, 2-bit
mode*, 4693d color printer, 4-bit mode*, 4695*, 4696*, 4697*,
Phaser 780*, Phaser IISX*, Phaser PX*.

Xerox

Perfectly
2700 XES, 3700 XES, 4045 XES, DocuPrint 4508, DocuPrint C55,
DocuPrint N17, DocuPrint N32.

Mostly
DocuPrint P12, DocuPrint P8e, XJ6C*.

Partially
Document Homecentre, WorkCentre 450cp*, XJ8C*.

Paperweight
DocuPrint P8, WorkCentre 470cx*, WorkCentre XD120f*,
WorkCentre XE80.

* This entry has not been sanity-checked by me.

4.4. How to buy a printer

It's a bit dificult to select a printer these days; there are many
models to choose from. Here are some shopping tips:

Cost
You get what you pay for. Most printers under $200-300 will
print reasonably well, but printing costs a lot per page. For
some printers, it only takes one or two cartridges to add up to
the cost of a new printer! Similarly, the cheapest printers
won't last very long. The least expensive printers, for
example, have a MTBF of about three months.

Inkjets
Inkjet printheads will clog irreparably over time, so the
ability to replace the head somehow is a feature. Inkjet
printheads are expensive, with integrated head/ink cartridges
costing ten times (!) what ink-only cartridges go for, so the
ability to replace the head only when needed is a feature.
Epson Styluses tend to have fixed heads, and HP DeskJets tend to
have heads integrated into the cartridges. Canons have three-
part cartridges with independently replaceable ink tanks; I like
this design. OTOH, the HP cartridges aren't enormously more
expensive, and HP makes a better overall line; Canon is often
the third choice from the print quality standpoint. You can't
win.

Lasers
Laser printers consume a drum and toner. The cheapest designs
include toner and drum together in a big cartridge; these
designs cost the most to run. The best designs for large volume
take plain toner powder or at least separate toner cartridges
and drums.

Photography
The best color photograph output is from continuous tone
printers like the Alps series (thermal transfer of dry ink or
dye sublimation). A few of the Alps units are actually
affordable, but they have poor Linux support (the one report I
have speaks of banding and grainy pictures). The more common
photo-specialized inkjets usually feature 6 color CMYKcm
printing or even a 7 color CMYKcmy process; only models with
Postscript support work with Linux, since Ghostscript doesn't
seem to support 6 and 7 color printing. Good CMYK output is
nothing to sneeze at, though. All photo-specialized printers
are expensive to run; either you always run out of blue and have
to replace the whole cartridge, or the individual color refills
for your high-end photo printer cost an arm and a leg. Special
papers cost a bundle, too. See also the section on printing
photographs later in this document, and the sections on color
tuning in Ghostscript.

Speed
Speed is proportional to processing power, bandwidth, and
generally printer cost. The fastest printers will be networked
postscript printers with powerful internal processors.
Consumer-grade printers will depend partly on Ghostscript's
rendering speed, which you can affect by having a reasonably
well-powered machine; full pages of color, in particular, can
consume large amounts of host memory.

Forms
If you want to print on multicopy forms, then you need an impact
printer; many companies still make dot matrix printers, most of
which emulate traditional Epson models and thus work fine.

Labels
There are two supported lines of label printer; look for the
Dymo-Costar and the Seiko SLP models. Other models may or may
not work. Avery also makes various sizes of stick-on labels in
8.5x11 format that you can run through a regular printer.

Plotting
Big drafting formats are usually supported these days by monster
inkjets; HP is a popular choice. Mid-sized (11x17) inkjets are
also commonly used for smaller prints. Much plotting of this
sort is done with the languages RTL, HP-GL, and HP-GL/2, all of
which are simple HP proprietary vector languages usually
generated directly by application software.

4.4.1. What do I have?

I own an HP Deskjet 500 and a Lexmark Optra 40. Both work perfectly:
the Deskjet is an older monochrome model, well-supported by
Ghostscript; and the Optra is a more modern color inkjet with full
Postscript and PCL 5 support (!).

I also own a Hawking Technology 10/100 Ethernet print server (model
7117, actually made by Zero One Technologies in Taiwan); this makes it
possible to put the printer anywhere with power and a network jack,
instead of just near a computer. It's a little dongle that attaches
to the printer's parallel port and has an Ethernet jack on the other
side. The only flaw with this is that it doesn't allow bidirectional
communication, so I can't arrange to be sent email when the ink is
low.

5. Which spooling software?

Until recently, the choice for Linux users was simple - everyone ran
the same old lpd lifted mostly verbatim out of BSD's Net-2 code. Even
today, most vendors ship this software. But this is beginning to
change. SVR4-like systems including Sun's Solaris come with a
completely different print spooling package, centered around lpsched.

Today, I recommend the PDQ system for both simple home users and (in a
hybrid pdq/lpd setup) people in many larger environments. It provides
both the simplest and most flexible configuration mechanism, and the
nicest user utilities (indeed, it's the only one that provides a
uniform printer option control vaguely equivalent to the functionality
of the Print Setup dialogs in Windows).

5.1. PDQ

PDQ <http://feynman.tam.uiuc.edu/pdq/> is a non-daemon-centric print
system which has a built-in, and sensible, driver configuration
syntax. This includes the ability to declare printing options, and a
GUI or command line tool for users to specify these options with;
users get a nice dialog box in which to specify resolution, duplexing,
paper type, etc.

Running all of the filters as the user has a number of advantages: the
security problems possible from Postscript are mostly gone, multi-file
LaTeX jobs can be printed effectively as dvi files, and so forth.

This is what I now use; I've written driver spec files for my
printers, and there are several included with the distribution, so
there are plenty of examples to base yours on. I've also written a
few tools to automate driver spec generation to help the rest of you.

If you have many users, many printers, or anything else complex going
on, I recommend using PDQ as a front-end to LPD-protocol based network
printing (you can print via the lpd protocol to the local machine).
In many such situations, rather than using BSD's lpd as the back-end,
I recommend LPRng:

5.2. LPRng

There are signs that some Linux vendors will shift to providing LPRng,
a far less ancient print spooling implementation that is more or less
freely available. LPRng is far easier to administer for large
installations (read: more than one printer, any serial printers, or
any peculiar non-lpd network printers) and has a less frightfully
haphazard codebase than does stock lpd. It can even honestly claim to
be secure - there are no SUID binaries, and it supports authentication
via PGP or Kerberos.

LPRng also includes some example setups for common network printers -
HP LaserJets, mainly, that include some accounting abilities. If
you'd like more information on LPRng, check out the LPRng Web Page
<http://www.astart.com/lprng/LPRng.html>.

LPRng is distributed under either the GPL or an Artistic license.
(Previously that was not so, but it is now.)
5.3. PPR

PPR <ftp://ppr-dist.trincoll.edu/pub/ppr/> is a Postscript-centric
spooler which includes a rudimentary Postscript parsing ability from
which it derives several nice features. It includes good accounting
capabilities, good support for Appletalk, SMB, and LPD clients, and
much better error handling than lpd. PPR, like every other spooler
here, can call Ghostscript to handle non-Postscript printers.

I only recently found out about PPR; I don't know of anyone who has
tried it. It was written by, and is in use at, Trinity College. The
license is BSD-style; free for all use but credit is due.

5.4. CUPS

One interesting newcomer on the scene is "CUPS", an implementation of
the Internet Printing Protocol, an HTTP-esque RFC-defined replacement
protocol for the venerable (and klunky) lpd protocol. The primary
implementation of this is the open-source component of the commercial
product "Easy Print", which consists of an intelligent spooler (CUPS)
and a collection of commercial printer drivers built around
Ghostscript (ESP Print Pro).

CUPS, the spooler, is distributed under a GPL license. ESP Print Pro
is a binary-only commercial product (except for the included spooler,
which is also available separately as the GPLed CUPS).

6. How it works, basic

In order to get printing working well, you need to understand how your
spooling software works.

6.1. PDQ

Pdq stands for "Print, Don't Queue", and the way it works reflects
this design. The following sequence of events happens when you use
PDQ to print:

o You run pdq or xpdq, specifying a file.

o You specify a printer.

o You specify the settings for the various options and arguments
defined in the printer's PDQ driver file (duplex, copies, print
quality, and so forth).

o PDQ analyzes the contents of what you printed, and follows the
instructions in the PDQ driver file which tell it how to process
your data for this printer with your options.

o PDQ sends the processed data to the printer according to the
interface defined for that printer (straight to /dev/lp0, or to an
LPD daemon on the network, over the network to an Apple or
Microsoft system, or even to a fax machine).

o If PDQ can't send the data to the printer right away, it spawns a
background process to wait and try again until it succeeds or hits
a time limit.

At all times during this process, and afterwards, the state of each
print job can be seen and inspected using xpdq. Jobs that failed
are shown in red and can be resent.
6.2. LPD

Lpd stands for Line Printer Daemon, and refers in different contexts
to both the daemon and the whole collection of programs which run
print spooling. These are:

lpd
The spooling daemon. One of these runs to control everything on
a machine, AND one is run per printer while the printer is
printing.

lpr
The user spooling command. Lpr contacts lpd and injects a new
print job into the spool.

lpq
Lists the jobs in a print queue.

lpc
The Lpd system control command. With lpc you can stop, start,
reorder, etc, the print queues.

lprm
lprm will remove a job from the print spool.

So how does it fit together? Well, when the system boots, lpd is run.
It scans the file /etc/printcap to learn which printers it will be
managing spools for. Each time someone runs lpr, lpr contacts lpd
through the named socket /dev/printer, and feeds lpd both the file to
print and some information about who is printing and how to print it.
Lpd then prints the file on the appropriate printer in turn.

The lp system was originally designed when most printers were line
printers - that is, people mostly printed plain ascii. As it turns
out, only a little extra scripting is needed to make lpd work quite
well for today's print jobs, which are often in PostScript, or text,
or dvi, or...

7. How to set things up

For common configurations, you can probably ignore this section
entirely - instead, you should jump straight to the Vendor Solutions
section below, or better yet, your vendor's documentation. Most Linux
distributions supply one or more "idiot-proof" tools to do everything
described here for common printers.

If your vendor's tool's results are not satisfactory, or you'd like
the ability to interactively control printing options when you print,
then you should use PDQ; I recommend PDQ in most cases.

7.1. Configuring PDQ

PDQ can be configured by either the superuser or by a joeuser. Root's
changes are made to /etc/printrc, and affect everyone, while joeuser
can only modify his personal .printrc. Everything applies to both
types of configuration.

If PDQ is not available prepackaged for your distribution, you should
obtain the source distribution from the PDQ web page
<http://feynman.tam.uiuc.edu/pdq/> and compile it yourself. It is an
easy compile, but you must first be sure to have installed the various
GTK development library packages, the C library development package,
the gcc compiler, make, and possibly a few other development things.
7.1.1. Drivers and Interfaces

PDQ lets users select a printer to print to. A printer is defined in
PDQ as the combination of a "driver" and an "interface". Both drivers
and interfaces are, in fact, merely snippets of text in the PDQ
configuration file.

A PDQ interface says everything about how to ship data out to a
printer. The most common interfaces, which are predefined in the PDQ
distribution's example printrc file, are:

local-port
A local port interface speaks to a parallel or serial port on
the machine PDQ is running on. Using this interface, PDQ can
print directly to your parallel port. Note that if you have a
multiuser system this can cause confusion, and if you have a
network the local-port interface will only apply to one system.
In those cases, you can define a raw unfiltered lpd queue for
the port and print to the system's lpd daemon exactly the same
way from all systems and accounts without any troubles. This
interface has a device name argument; the typical value would be
/dev/lp0.

bsd-lpd
A bsd lpd interface speaks over the network to an LPD daemon or
LPD-speaking networked printer. PDQ supports job submission,
cancellation, and queries to LPD interfaces. This interface has
hostname and queuename arguments.

appletalk
The appletalk interface allows you to print to printers over the
Appletalk network; if you have a printer plugged into your Mac
this is the way to go. This interface needs to have the
Netatalk package installed to work.

A PDQ driver says everything about how to massage print data into a
format that a particular printer can handle. For Postscript printers,
this will include conversion from ascii into Postscript; for non-
Postscript printers this will include conversion from Postscript into
the printer's language with Ghostscript.

If one of PDQ's included driver specifications doesn't fit your
printer, then read the section below on how to write your own.

7.1.2. Defining Printers

To define a printer in PDQ:

o First check that you've got suitable driver and interface
declarations in the system or your personal printrc.

o If you want to define the printer in /etc/printrc (for all users),
then su to root.

o Run xpdq, and select Printer->Add printer. This "wizard" will walk
you through the selection of a driver and interface.

That's really all there is to it; most of the work lies in finding
or creating a suitable driver specification if you can't find one
premade.

7.1.3. Creating a PDQ Driver Declaration

Here I'll walk through an example of how to make a PDQ driver
declaration. Before you try that, though, there are several places to
look for existing driver specs:

o PDQ itself comes with a small collection of prewritten driver
files.

o This HOWTO's database <http://www.picante.com/~gtaylor/pht/>
includes a program called "PDQ-O-Matic" which will generate a PDQ
specification from the information in the database. With a bit of
fiddling, this may suit. This is the easy path if you have a non-
Postscript printer.

o I've written a tool called ppdtopdq which takes a Postscript
Printer Definition file and converts it into a PDQ driver
specification. This is the obvious path if you have a Postscript
printer. Mail me for a copy.

There are several places to look for the information needed to write
your own PDQ driver:

o The PDQ driver specification syntax is quite rich, and is fully
documented in the printrc(5) man page.

o The PDQ distribution includes a few example files. Look in
particular at the Epson Stylus file, which demonstrates the
structure of the definition for a Ghostscript-driven printer.

o The Printing HOWTO Database <http://www.picante.com/~gtaylor/pht/>
includes raw Linux driver information for over 400 printers. This
will tell you what options to give Ghostscript, or what extra
program to run on the Ghostscript output.

If you have to create your own driver specification, or if you enhance
one from the PDQ distribution or one of the PDQ driver generator
programs mentioned above, please share your creation with the world!
Send it to me ([email protected]), and I'll make sure that it
gets found by future PDQ users with your type of printer.

Now, let's walk through the writing of a driver specification for a
printer listed in the Printing HOWTO's database as working, but for
which you can't find a PDQ driver spec. I'll use the Canon BJC-210 as
the example printer.

First, we look at the database entry
<http://www.picante.com/~gtaylor/pht/show_printer.cgi?recnum=58752>
for this printer. Note that it is supported "perfectly", so we can
expect to get comparable results (or better) to Windows users. The
important information is in three places in the entry:

Driver
The last line in the Works?/Language/Driver column tells us one
driver that works with this printer. More importantly, this
name is a link to the driver's home page.

Notes
The human-readable notes will often contain useful information.
For some printers, there is a More Info link, which usually
refers to a web page run by a user with this printer, or to the
driver's home page.

Driver List
Most printers have a list of driver command data. This is the
most important part.

A PDQ driver spec has two logical functions: user interaction, and
print job processing. These are represented in the file in three
places:

Option Declarations
These define what options the user can set, and declare PDQ
variables for later parts of the driver to use.

Language Filters
These process the print job from whatever format it arrived in
(typically Postscript or ASCII) into a language the printer can
understand (for example, PCL). Option values are available
here, as well as in the output filter.

Output Filter
This final filter bundles up the printer data regardless of
input type; often printer options are set here.

Let's work on each of these for a Canon BJC-210:

7.1.3.1. Options

The driver list for this printer looks like this:

Driver: Ghostscript: -sDEVICE=bj200 -r360x360 # (360x360 BW)
Driver: Ghostscript: -sDEVICE=bjc600 -r360x360 # (360x360 Color)

The database's documentation tells us that a "Ghostscript" driver
type's text is a set of options for Ghostscript, less the "usual"
options like -q or the file specifying options.

So, as far as the user is concerned, the BJC-210 supports one useful
option: the user should pick color or black-and-white. Let's declare
that as choice option called "MODE":

option {
var = "MODE"
desc = "Print Mode"
# default_choice "Color" # uncomment to default to color
choice "BW" {
# The value part assigns to the variable MODE whatever you
# want. Here we'll assign the text that varies between the
# two Ghostscript option sets for the two modes.
value = "bj200"
help = "Fast black printing with the black cartridge."
desc = "Black-only"
}
choice "Color" {
value = "bjc600"
help = "Full-color printing."
desc = "Color"
}
}

With the above choice declarations, the user will see a Color or BW
choice in the driver options dialog when he prints from xpdq. In the
command-line pdq tool, he may specify -oBW or -oColor. The default
can be set from xpdq, or declared above with the default_choice key-
word.

7.1.3.2. Language Filtering

PDQ normally identifies its input with the file(1) command. For each
type returned by file that you want to handle, you provide a
language_driver clause. The clause consists mostly of a script to
process the printjob language, in any (!) scripting language you wish
(the default is the usual Bourne shell).

In our case, we want to print Postscript and ASCII on our BJC-210.
This needs two language drivers: one to run Ghostscript for Postscript
jobs, and one to add carriage returns to ASCII jobs:

# The first language_driver in the file that matches what file(1)
# says is what gets used.
language_driver ps {
# file(1) returns "PostScript document text conforming at..."
filetype_regx = "postscript"
convert_exec = {
gs -sDEVICE=$MODE -r360x360 \ # gs options from the database
-q -dNOPAUSE -dBATCH -dSAFER \ # the "usual" Ghostscript options
-sOutputFile=$OUTPUT $INPUT # process INPUT into file OUTPUT

# Those last two lines will often be the same for gs-supported
# printers. The gs... line, however, will be different for each
# printer.
}
}

# We declare text after postscript, because the command "file" will
# often describe a postscript file as text (which it is).
language_driver text {
# No filetype_regx; we match the driver's name: "text"
convert_exec = {#!/usr/bin/perl
# a Perl program, just because we can!
my ($in, $out) = ($ENV{'INPUT'}, $ENV{'OUTPUT'});
open INPUT, "$in";
open OUTPUT, ">$out";
while(<INPUT>) {
chomp;
print OUTPUT, "$_\r\n";
}
}
}

That's it! While other printers may need output filtering (as
described in the next section), the above clauses are it for the
BJC-210. We just wrap them all up in a named driver clause:

driver canon-bjc210-0.1 {
option {
var = "MODE"
desc = "Print Mode"
# default_choice "Color" # uncomment to default to color
choice "BW" {
# The value part assigns to the variable MODE whatever you
# want. Here we'll assign the text that varies between the
# two Ghostscript option sets for the two modes.
value = "bj200"
help = "Fast black printing with the black cartridge."
desc = "Black-only"
}
choice "Color" {
value = "bjc600"
help = "Full-color printing."
desc = "Color"
}
}

# The first language_driver in the file that matches what file(1)
# says is what gets used.
language_driver ps {
# file(1) returns "PostScript document text conforming at..."
filetype_regx = "postscript"
convert_exec = {
gs -sDEVICE=$MODE -r360x360 \ # gs options from the database
-q -dNOPAUSE -dBATCH -dSAFER \ # the "usual" Ghostscript options
-sOutputFile=$OUTPUT $INPUT # process INPUT into file OUTPUT

# Those last two lines will often be the same for gs-supported
# printers. The gs... line, however, will be different for each
# printer.
}
}

# We declare text after postscript, because the command "file" will
# often describe a postscript file as text (which it is).
language_driver text {
# No filetype_regx; we match the driver's name: "text"
convert_exec = {#!/usr/bin/perl
# a Perl program, just because we can!
my ($in, $out) = ($ENV{'INPUT'}, $ENV{'OUTPUT'});
open INPUT, "$in";
open OUTPUT, ">$out";
while(<INPUT>) {
chomp;
print OUTPUT, "$_\r\n";
}
}
}
}

7.1.3.3. Output Filtering

If you want to prepend or append something to all printjobs, or do
some sort of transformation on all the data of all types, then it
belongs in the filter_exec clause. Our little Canon doesn't require
such a clause, but just to have an example, here's a simple
illustration showing how to support duplexing and resolution choice on
a Laserjet or clone that speaks PJL:

driver generic-ljet4-with-duplex-0.1 {
# First, two option clauses for the user-selectable things:
option {
var = "DUPLEX_MODE"
desc = "Duplex Mode"
default_choice = "SIMPLEX"
choice "SIMPLEX" {
value = "OFF"
desc = "One-sided prints"
}
choice "DUPLEX" {
value = "ON"
desc = "Two-sided prints"
}
}

option {
var = "GS_RES"
desc = "Resolution"
default_choice = "DPI600"
choice "DPI300" {
value = "-r300x300"
desc = "300 dpi"
}
choice "DPI600" {
value = "-r600x600"
desc = "600 dpi"
}
}

# Now, we handle Postscript input with Ghostscript's ljet4 driver:
language_driver ps {
filetype_regx = "postscript"
convert_exec = {
gs -sDEVICE=ljet4 $GS_RES \
-q -dNOPAUSE -dBATCH -dSAFER \
-sOutputFile=$OUTPUT $INPUT
}
}

# Finally, we wrap the job in PJL commands:
filter_exec {
# requires echo with escape code ability...
echo -ne '\33%-12345X' > $OUTPUT

echo "@PJL SET DUPLEX=$DUPLEX_MODE" >> $OUTPUT
# You can add additional @PJL commands like the above line here.
# Be sure to always append (>>) to the output file!

cat $INPUT >> $OUTPUT
echo -ne '\33%-12345X' >> $OUTPUT
}
}

7.2. Configuring LPD

Most Linux systems ship with LPD. This section describes a very basic
setup for LPD; further sections detail the creation of complex filters
and network configuration.

7.2.1. Traditional lpd configuration

The minimal setup for lpd results in a system that can queue files and
print them. It will not pay any attention to wether or not your
printer will understand them, and will probably not let you produce
attractive output. Nevertheless, it is the first step to
understanding, so read on!

Basically, to add a print queue to lpd, you must add an entry in
/etc/printcap, and make the new spool directory under /var/spool/lpd.

An entry in /etc/printcap looks like:

# LOCAL djet500
lp|dj|deskjet:\
:sd=/var/spool/lpd/dj:\
:mx#0:\
:lp=/dev/lp0:\
:sh:

This defines a spool called lp, dj, or deskjet, spooled in the direc-
tory /var/spool/lpd/dj, with no per-job maximum size limit, which
prints to the device /dev/lp0, and which does not have a banner page
(with the name of the person who printed, etc) added to the front of
the print job.

Go now and read the man page for printcap.

The above looks very simple, but there a catch - unless I send in
files a DeskJet 500 can understand, this DeskJet will print strange
things. For example, sending an ordinary Unix text file to a deskjet
results in literally interpreted newlines, and gets me:

This is line one.
This is line two.
This is line three.

ad nauseam. Printing a PostScript file to this spool would get a
beautiful listing of the PostScript commands, printed out with this
"staircase effect", but no useful output.

Clearly more is needed, and this is the purpose of filtering. The
more observant of you who read the printcap man page might have
noticed the spool attributes if and of. Well, if, or the input
filter, is just what we need here.

If we write a small shell script called filter that adds carriage
returns before newlines, the staircasing can be eliminated. So we
have to add in an if line to our printcap entry above:

lp|dj|deskjet:\
:sd=/var/spool/lpd/dj:\
:mx#0:\
:lp=/dev/lp0:\
:if=/var/spool/lpd/dj/filter:\
:sh:

A simple filter script might be:

#!perl
# The above line should really have the whole path to perl
# This script must be executable: chmod 755 filter
while(<STDIN>){chop $_; print "$_\r\n";};
# You might also want to end with a form feed: print "\f";

If we were to do the above, we'd have a spool to which we could print
regular Unix text files and get meaningful results. (Yes, there are
four million better ways to write this filter, but few so illustra-
tive. You are encouraged to do this more efficiently.)

The only remaining problem is that printing plain text is really not
too hot - surely it would be better to be able to print PostScript and
other formatted or graphic types of output. Well, yes, it would, and
it's easy to do. The method is simply an extention of the above
linefeed-fixing filter. If you write a filter than can accept
arbitrary file types as input and produce DeskJet-kosher output for
each case, then you've got a clever print spooler indeed!

Such a filter is called a magic filter. Don't bother writing one
yourself unless you print strange things - there are a good many
written for you already on the net. APS Filter is among the best, or
your Linux distribution may have a printer setup tool that makes this
all really easy.

There's one catch to such filters: some older version of lpd don't run
the if filter for remote printers, and some do. The version of lpd
with modern Linux distributions, and FreeBSD does; most commercial
unices that still ship lpd have a version that does not. See the
section on network printing later in this document for more
information on this.

7.2.2. Accounting

Some installations need to keep track of who prints how much; this
section summarizes methods for doing this.

Regular LPD provides very little to help you with accouting. You can
specify the name of an accounting file in the af= printcap attribute,
but this is merely passed as an argument to your if= filter. It's up
to you to make your if= filter write entries to the accounting file,
and up to you to process the accounting file later (the traditional
format is mainly useful for line printers, and is nontrivial to parse
in Perl, so there's no reason to preserve it).

Ghostscript provides a PageCount operator that you can use to count
the number of pages in each job; basically you just tack a few lines
of postscript onto the end of the job to write an accounting file
entry; for the best example of this see the file unix-lpr.sh in the
Ghostscript source distribution.

Note that the unix-lpr implementation of accounting writes to a file
from the Ghostscript interpreter, and is thus incompatible with the
recommended -dSAFER option. A better solution might be to query the
printer with a PJL command after each job, or to write a postscript
snippet that prints the pagecount on stdout, where it can be captured
without having to write to a file.

The LPRng print spooler includes an HP-specific sample implementation
of accounting; I assume that it queries the printer with PJL.

7.2.3. Large Installations

Large installations, by which I mean networks including more than two
printers or hosts, have special needs. Here is a description of one
possible arrangement.

o Each printer should have a single point of control, where an
administrator can pause, reorder, or redirect the queue. To
implement this, have everyone printing to a local server, which
will then queue jobs and direct them to the proper printer.

o Use LPRng, at least on servers; the BSD LPD is too buggy for "real"
use.

o Client systems should not have unique printing configurations. To
implement this, use LPRng's extended printcap syntax so that you
have one printcap to use everywhere.

o Print queues should not be named for make or model; name print
queues for something sensible like location (floor2_nw) or
capability (color_transparency). Three years from now, when a
printer breaks, you will be able to replace it with a different
make or model without causing confusion.

o Operate a web page which shows detailed information on each
printer, including location, capabilities, etc. Consider having it
show the queue. Complex networked environments are unmanagable for
users without proper documentation.

o On Unix systems, use PDQ to allow selection of print job attributes
such as duplex or paper size, and to force users to run all
Ghostscript processing under the proper user ID.

o On Windows and Apple systems, use either the platform-specific
drivers everywhere (Samba supports the Windows automagical driver-
download mechanism) or use generic Postscript drivers everywhere.
Do not mix and match; primitive word processors often produce
different output when the installed printer driver changes; users
cannot deal with output that vaires depending on the particular
client/printer pair.

o If at all possible, buy a large-volume printer for large-volume
printing. If on a budget, use LPRng's multiple printers/one queue
facility and assign a babysitter; printers are complex mechanical
devices that will often jam and run out of paper in such
configurations.

o Do not feel that printers must be plugged into workstations;
Ethernet "print servers" now cost under $100. The ability to
locate printers anywhere you can network is a big improvement over
forced location near a host; locate printers in sensible, central
locations.

7.2.4. File Permissions

By popular demand, I include below a listing of the permissions on
interesting files on my system. There are a number of better ways to
do this, ideally using only SGID binaries and not making everything
SUID root, but this is how my system came out of the box, and it works
for me. (Quite frankly, if your vendor can't even ship a working lpd
you're in for a rough ride).
-r-sr-sr-x 1 root lp /usr/bin/lpr*
-r-sr-sr-x 1 root lp /usr/bin/lprm*
-rwxr--r-- 1 root root /usr/sbin/lpd*
-r-xr-sr-x 1 root lp /usr/sbin/lpc*
drwxrwxr-x 4 root lp /var/spool/lpd/
drwxr-xr-x 2 root lp /var/spool/lpd/lp/

Lpd must currently be run as root so that it can bind to the low-
numbered lp service port. It should probably become UID lp.lp or
something after binding, but I don't think it does. Bummer.

PDQ uses a different, non-daemon-centric scheme, so it has different
programs. The only SUID root programs are the lpd interface programs
lpd_cancel, lpd_print, and lpd_status; these are SUID because actual
Unix print servers require print requests to originate from a
priviledged port. If the only printers for which you use PDQ's bsd-
lpd interface are networked print servers (like the HP JetDirect or
Lexmark's MarkNet adapters) then you do not need the suid bit on these
programs.

8. Vendor Solutions

This section is, by definition, incomplete. Feel free to send in
details of your favourite distribution. At the moment, I am aware of
no distribution that supports, or even provides, the software I
recommend: PDQ.

For a while, there were several packages out there all trying to make
printer configuration with regular lpd easier. They probably all
still exist, but one of the best and most up-to-date is Andreas
Klemm's APS Filter package, which has a menu-driven printcap
configurator and handles practically any type of input imaginable. If
your vendor doesn't ship a nice printer setup tool, APS Filter is
another choice; several distributions include apsfilter, or it's an
easy add-on.

8.1. Red Hat

Red Hat has a GUI printer administration tool called printtool which
can add remote printers and printers on local devices. It lets you
choose a ghostscript-supported printer type and Unix device file to
print to, then installs a print queue in /etc/printcap and uses the
magic filter program from the rhs-printfilters package to support
postscript and other common input types. This solution works fairly
well, and is trivial to setup for common cases.

Where Red Hat fails is when you have a printer which isn't supported
by their standard Ghostscript (which is GNU rather than Aladdin
Ghostscript, and which supports fewer printers). Check in the printer
compatibility list above (or online
<http://www.picante.com/~gtaylor/pht/printer_list.cgi>) if you find
that you can't print properly with the stock Red Hat software. If
your printer isn't supported by Red Hat's tools, you may need to
install a contributed verison of Aladdin Ghostscript, and will
probably also be better off if you use the apsfilter package, which
knows all about the printers supported by late-model Ghostscripts.

In future versions of Red Hat the printtool will be reimplemented to
support a larger list of printers and with the intent to support an
eventual rhs-printfilters replacement (the current filter has
difficultly with many common printers like some non-PCL DeskJets and
most Lexmarks). Some VA Linux-developed PPD features may be
incorporated, as well.

8.2. Debian

Debian offers a choice between plain lpd and LPRng; LPRng is probably
a better choice. I believe Debian also offers a choice of printer
configuration tools; apsfilter version 5 or later is probably your
best bet, since that verison adds support for LPRng and Ghostscript's
uniprint driver scheme.

8.3. SuSE

The printing system on SuSE Linux is based on apsfilter, with some
enhancements; SuSE's apsfilter will recognize all common file formats
(including HTML, if html2ps is installed). There are two ways to
setup printers on SuSE systems:

o YaST will let you configure "PostScript", "DeskJet" and "Other
printers", supported by Ghostscript drivers; it's also possible to
setup HP's GDI printers (DeskJet 710/720, 820, 1000, via the "ppa"
package; at this moment b/w only). YaST will provide /etc/printcap
entries for every printer ("raw", "ascii", "auto" and "color", if
the printer to configure is a color printer). YaST will create
spool directories and it will arrange apsfilterrc files, where
you're able to fine tune some settings (Ghostscript preloads, paper
size, paper orientation, resolution, printer escape sequences,
etc.). With YaST it's also possible to setup network printers
(TCP/IP, Samba, or Novell Netware Printer).

o In addition there's the regular SETUP program from the original
apsfilter package (with some enhancements); run `lprsetup' to
invoke this configuration script. Once you get accustomed to its
GUI, you'll be able to configure quickly local and network printers
(with local filtering via the "bypass" feature - that's quite
handy).

The SuSE installation manual explains both of these setup procedures.

Wolf Rogner reported some difficulties with SuSE. Apparently the
following bugs may bite:

o Apsfilter's regular SETUP script is a bit broken, as are the KDE
setup tools. Use YaST.

o For networked printers that need to be fed from Ghostscript, you'll
need to first uncomment the line REMOTE_PRINTER="remote" in
/etc/apsfilterrc. Then run YaST to configure the printer and,
under Network configurations, set up a remote printer queue.

o YaST's setup doesn't allow color laser printers, so configure a
mono printer and then change mono to color everwhere in the
printcap entry. You may have to rename the spool directory, too.

8.4. Other Distributions

Please send me info on what other distributions do!

9. Ghostscript.

Ghostscript is an incredibly significant program for Linux printing.
Most printing software under Unix generates PostScript, which is
typically a $100 option on a printer. Ghostscript, however, is free,
and will generate the language of your printer from PostScript. When
tied in with your PDQ printer driver declaration or lpd input filter,
it gives you a virtual PostScript printer and simplifies life
immensely.

Ghostscript is available in two forms. The commercial version of
Ghostscript, called Aladdin Ghostscript, may be used freely for
personal use but may not be distributed by commercial Linux
distributions. It is generally a year or so ahead of the free
Ghostscript; at the moment, for example, it supports many color
inkjets that the older Ghostscripts do not.

The free version of Ghostscript is GNU Ghostscript, and is simply an
aged version of Aladdin ghostscript kindly given to GNU. (Kudos to
Aladdin for this arrangement; more software vendors should support
free software in this way, if they can't handle full-blown GPL
distribution of their code).

Whatever you do with gs, be very sure to run it with the option for
disabling file access (-dSAFER). PostScript is a fully functional
language, and a bad PostScript program could give you quite a
headache.

Speaking of PDF, Adobe's Portable Document Format is actually little
more than organized PostScript in a compressed file. Ghostscript can
handle PDF input just as it does PostScript. So you can be the first
on your block with a PDF-capable printer.

9.1. Invoking Ghostscript

Typically, Ghostscript will be run by whatever magic filter you settle
upon (I recommend apsfilter if your vendor didn't supply anything that
suits you), but for debugging purposes it's often handy to run it
directly.

gs -help will give a brief informative listing of options and
available drivers (note that this list is the list of drivers compiled
in, not the master list of all available drivers).

You might run gs for testing purposes like: gs options -q -dSAFER
-sOutputFile=/dev/lp1 test.ps.

9.2. Ghostscript output tuning

There are a number of things one can do if gs's output is not
satisfactory (actually, you can do anything you darn well please,
since you have the source).

Some of these options, and others described in the Ghostscript User
Guide (the file Use.htm in the Ghostscript distribution; possibly
installed under /usr/doc or /usr/share/doc on your system) are all
excellent candidates for driver options in your PDQ driver
declaration.

9.2.1. Output location and size

The location, size, and aspect ratio of the image on a page is
controlled by the printer-specific driver in ghostscript. If you find
that your pages are coming out scrunched too short, or too long, or
too big by a factor of two, you might want to look in your driver's
source module and adjust whatever parameters jump out at you.
Unfortunately, each driver is different, so I can't really tell you
what to adjust, but most of them are reasonably well commented.

9.2.2. Gamma, dotsizes, etc.

Most non-laser printers suffer from the fact that their dots are
rather large. This results in pictures coming out too dark. If you
experience this problem you should use your own transfer function.
Simply create the following file in the ghostscript lib-dir and add
its name to the gs call just before the actual file. You may need to
tweak the actual values to fit your printer. Lower values result in a
brighter print. Especially if your driver uses a Floyd-Steinberg
algorithm to rasterize colors, lower values ( 0.2 - 0.15 ) are
probably a good choice.

---8<---- gamma.ps ----8<---
%!
%transfer functions for cyan magenta yellow black
{0.3 exp} {0.3 exp} {0.3 exp} {0.3 exp} setcolortransfer
---8<------------------8<---

It is also possible to mend printers that have some kind of colour
fault by tweaking these values. If you do that kind of thing, I
recommend using the file colorcir.ps, that comes with ghostscript (in
the examples/ subdir), as a test page.

For many of the newer color inkjet drivers, there are command-line
options, or different upp driver files, which implement gamma and
other changes to adapt the printer to different paper types. You
sould look into this before playing with Postscript to fix things.

9.2.3. Color Printing in Ghostscript

Ghostscript's default color dithering is optimized for low-resolution
devices. It will dither rather coarsely in an attempt to produce
60ppi output (not dpi, ppi - the "apparent" color pixels per inch you
get after dithering). This produces rather poor output on modern
color printers; inkjets with photo paper, in particular, are capable
of mich finer ppi settings.

To adjust this, use the Ghostscript option -dDITHERPPI=x, where x is
the value to use. This may or may not have an effect with all
drivers; many newer drivers implement their own dithering and pay no
attention to this setting. Some drivers can use either the regular
Ghostscript or driver-specific dithering.

This makes for an excellent argument in a PDQ driver declaration, if
it applies.

10. How to print to a printer over the network

One of the features of pdq and lpd is that they support printing over
the network to printers physically connected to a different machine.
With the careful combination of filter scripts and assorted utilities,
you can make either print transparently to printers on all sorts of
networks.

10.1. To a Unix/lpd host

To allow remote machines to print to your printer using the LPD
protocol, you must list the machines in /etc/hosts.equiv or
/etc/hosts.lpd. (Note that hosts.equiv has a host of other effects;
be sure you know what you are doing if you list any machine there).
You can allow only certain users on the other machines to print to
your printer by usign the rs attribute; read the lpd man page for
information on this.

10.1.1. With pdq

With PDQ, you define a printer with the interface type "bsd-lpd".
This interface takes arguments for the remote hostname and queue name;
the printer definition wizard will prompt you for these.

10.1.2. With lpd

To print to another machine, you make an /etc/printcap entry like
this:

# REMOTE djet500
lp|dj|deskjet:\
:sd=/var/spool/lpd/dj:\
:rm=machine.out.there.com:\
:rp=printername:\
:lp=/dev/null:\
:sh:

Note that there is still a spool directory on the local machine man-
aged by lpd. If the remote machine is busy or offline, print jobs
from the local machine wait in the spool area until they can be sent.

10.1.3. With rlpr

You can also use rlpr to send a print job directly to a queue on a
remote machine without going through the hassle of configuring lpd to
handle it. This is mostly useful in situations where you print to a
variety of printers only occasionally. From the announcement for
rlpr:

Rlpr uses TCP/IP to send print jobs to lpd servers anywhere on a
network.

Unlike lpr, it *does not* require that the remote printers be
explicitly known to the machine you wish to print from, (e.g. through
/etc/printcap) and thus is considerably more flexible and requires
less administration.

rlpr can be used anywhere a traditional lpr might be used, and is
backwards compatible with traditional BSD lpr.
The main power gained by rlpr is the power to print remotely *from
anywhere to anywhere* without regard for how the system you wish to
print from was configured. Rlpr can work as a filter just like
traditional lpr so that clients executing on a remote machine like
netscape, xemacs, etc, etc can print to your local machine with little
effort.

Rlpr is available from Metalab
<ftp://metalab.unc.edu/pub/Linux/system/printing/>.

10.2. To a Win95, WinNT, LanManager, or Samba printer

There is a Printing to Windows mini-HOWTO out there which has more
info than there is here.

10.2.1. From PDQ

There is not a prebuilt smb interface that I am aware of, but it would
be fairly easy to create using the model set by the Netatalk-based
appletalk interface. Someone please create one and submit it for
inclusion!

Read the Windows/LPD section below for more tips on how to do it.

10.2.2. From LPD

It is possible to direct a print queue through the smbclient program
(part of the samba suite) to a TCP/IP based SMB print service. Samba
includes a script to do this called smbprint. In short, you put a
configuration file for the specific printer in question in the spool
directory, and install the smbprint script as the if.

The /etc/printcap entry goes like this:

lp|remote-smbprinter:\
:lp=/dev/null:sh:\
:sd=/var/spool/lpd/lp:\
:if=/usr/local/sbin/smbprint:

You should read the documentation inside the smbprint script for more
information on how to set this up.

You can also use smbclient to submit a file directly to an SMB
printing service without involving lpd. See the man page.

10.3. To a NetWare Printer

The ncpfs suite includes a utility called nprint which provides the
same functionality as smbprint but for NetWare. You can get ncpfs
from Metalab. From the LSM entry for version 0.16:

With ncpfs you can mount volumes of your netware server
under Linux. You can also print to netware print queues and
spool netware print queues to the Linux printing system. You
need kernel 1.2.x or 1.3.54 and above. ncpfs does NOT work
with any 1.3.x kernel below 1.3.54.
10.3.1. From LPD

To make nprint work via lpd, you write a little shell script to print
stdin on the NetWare printer, and install that as the if for an lpd
print queue. You'll get something like:

sub2|remote-NWprinter:\
:lp=/dev/null:sh:\
:sd=/var/spool/lpd/sub2:\
:if=/var/spool/lpd/nprint-script:

The nprint-script might look approximately like:

#! /bin/sh
# You should try the guest account with no password first!
/usr/local/bin/nprint -S net -U name -P passwd -q printq-name -

10.4. To an EtherTalk (Apple) printer

The netatalk package includes something like nprint and smbclient.
Others have documented the procedure for printing to and from an Apple
network far better than I ever will; see the Linux Netatalk-HOWTO
<http://thehamptons.com/anders/netatalk/>.

10.4.1. From PDQ

PDQ includes an interface declaration called "appletalk". This uses
the Netatalk package to print to a networked Apple printer. Just
select this interface in xpdq's "Add printer" wizard.

10.5. To an HP or other ethernet printer

HPs and some other printers come with an ethernet interface which you
can print to directly using the lpd protocol. You should follow the
instructions that came with your printer or its network adaptor, but
in general, such printers are "running" lpd, and provide one or more
queues which you can print to. An HP, for example, might work with a
printcap like:

lj-5|remote-hplj:\
:lp=/dev/null:sh:\
:sd=/var/spool/lpd/lj-5:\
:rm=printer.name.com:rp=raw:

or, using the PDQ bsd-lpd interface arguments of
REMOTE_HOST=printer.name.com and QUEUE=raw.

HP Laserjet printers with Jet Direct interfaces generally support two
built in lpd queues - "raw" which accepts PCL (and possibly
Postscript) and "text" which accepts straight ascii (and copes
automatically with the staircase effect). If you've got a JetDirect
Plus3 three-port box, the queues are named "raw1", "text2", and so
forth.

Note that the ISS company has identified an assortment of denial of
service attacks which hang HP Jetdirect interfaces. Most of these
have been addressed beginning in Fall 98.

In a large scale environment, especially a large environment where
some printers do not support PostScript, it may be useful to establish
a dedicated print server to which all machines print and on which all
ghostscript jobs are run. This will allow the queue to be paused or
reordered using the topq and lprm commands.

This also allows your Linux box to act as a spool server for the
printer so that your network users can complete their print jobs
quickly and get on with things without waiting for the printer to
print any other job that someone else has sent. This is suggested too
if you have unfixable older HP Jetdirects; it reduces the likelihood
of the printers wedging.

To do this, set up a queue on your linux box that points at the
ethernet equipped HP LJ (as above). Now set up all the clients on your
LAN to point at the Linux queue (eg lj-5 in the example above).

Some HP network printers apparently don't heed the banner page setting
sent by clients; you can turn off their internally generated banner
page by telnetting to the printer, hitting return twice, typing
"banner: 0" followed by "quit". There are other settings you can
change this way, as well; type "?" to see a list.

The full range of settings can be controlled with HP's WebJet
<http://www.hp.com/go/webjetadmin> software. This package runs as a
daemon, and accepts http requests on a designated port. It serves up
forms and Java applets which can control HP printers on the network.
In theory, it can also control Unix print queues, but it does so using
the rexec service, which is completely unsecure. I don't advise using
that feature.

10.5.1. To older HPs

Some printers (and printer networking "black boxes") support only a
cheesy little non-protocol involving plain TCP connections. Notable
in this category are early-model JetDirect (including some
JetDirectEx) cards. Basically, to print to the printer, you must open
a TCP connection to the printer on a specified port (typically 9100,
or 9100, 9101 and 9102 for three-port boxes) and stuff your print job
into it. LPRng has built-in support for stuffing print jobs into
random TCP ports, but with BSD lpd it's not so easy. The best thing
is probably to obtain and use the little utility called netcat.

A netcat-using PDQ interface would look something like this:

interface tcp-port-0.1 {

help "This is one of the first interfaces supported by standalone
network printers and print servers. The device simply
listens for a TCP connection on a certain port, and sends
data from any connection to the printer.\nThis interface
requires the netcat program (\"nc\")."

required_args "REMOTE_HOST"

argument {
var = "REMOTE_HOST"
desc = "Remote host"
help = "This is IP name or number of the print server."
}

argument {
var = "REMOTE_PORT"
def_value = "9100"
desc = "Remote port"
help = "This is the TCP port number on the print server that the
print job should be sent to. Most JetDirect cards, and
clones, accept jobs on port 9100 (or 9101 for port 2,
etc)."
}

requires "nc"

# nc ends after 45 seconds of no network activity; it doesn't
# actually stop on EOF the way we'd like.
send_exec { cat $OUTPUT | nc -w 45 $REMOTE_HOST $REMOTE_PORT }

}

Failing that, it can be implemented, among other ways, in Perl using
the program below. Or, or better performance, use the program netcat
("nc"), which does much the same thing in a general purpose way. Most
distributions should have netcat available in prepackaged form.

#!/usr/bin/perl
# Thanks to Dan McLaughlin for writing the original version of this
# script (And to Jim W. Jones for sitting next to Dan when writing me
# for help ;)

$fileName = @ARGV[0];

open(IN,"$fileName") || die "Can't open file $fileName";

$dpi300 = "\x1B*t300R";
$dosCr = "\x1B&k3G";
$ends = "\x0A";

$port = 9100 unless $port;
$them = "bach.sr.hp.com" unless $them;

$AF_INET = 2;
$SOCK_STREAM = 1;
$SIG{'INT'} = 'dokill';
$sockaddr = 'S n a4 x8';

chop($hostname = `hostname`);
($name,$aliases,$proto) = getprotobyname('tcp');
($name,$aliases,$port) = getservbyname($port,'tcp')
unless $port =~ /^\d+$/;;
($name,$aliases,$type,$len,$thisaddr) =
gethostbyname($hostname);
($name,$aliases,$type,$len,$thataddr) = gethostbyname($them);
$this = pack($sockaddr, $AF_INET, 0, $thisaddr);
$that = pack($sockaddr, $AF_INET, $port, $thataddr);

if (socket(S, $AF_INET, $SOCK_STREAM, $proto)) {
# print "socket ok\n";
}
else {
die $!;
}
# Give the socket an address.
if (bind(S, $this)) {
# print "bind ok\n";
}
else {
die $!;
}

# Call up the server.

if (connect(S,$that)) {
# print "connect ok\n";
}
else {
die $!;
}

# Set socket to be command buffered.

select(S); $| = 1; select(STDOUT);

# print S "@PJL ECHO Hi $hostname! $ends";
# print S "@PJL OPMSG DISPLAY=\"Job $whoami\" $ends";
# print S $dpi300;

# Avoid deadlock by forking.

if($child = fork) {
print S $dosCr;
print S $TimesNewR;

while (<IN>) {
print S;
}
sleep 3;
do dokill();
} else {
while(<S>) {
print;
}
}

sub dokill {
kill 9,$child if $child;
}

10.6. Running an if for remote printers with old LPDs

One oddity of older version of lpd is that the if is not run for
remote printers. (Version after 0.43 or so have the change originated
on FreeBSD such that the if is always run). If you find that you need
to run an if for a remote printer, and it isn't working with your lpr,
you can do so by setting up a double queue and requeueing the job. As
an example, consider this printcap:

lj-5:\
:lp=/dev/null:sh:\
:sd=/var/spool/lpd/lj-5:\
:if=/usr/lib/lpd/filter-lj-5:
lj-5-remote:lp=/dev/null:sh:rm=printer.name.com:\
:rp=raw:sd=/var/spool/lpd/lj-5-raw:

in light of this filter-lj-5 script:

#!/bin/sh
gs <options> -q -dSAFER -sOutputFile=- - | \
lpr -Plj-5-remote -U$5

The -U option to lpr only works if lpr is run as daemon, and it sets
the submitter's name for the job in the resubmitted queue correctly.
You should probably use a more robust method of getting the username,
since in some cases it is not argument 5. See the man page for
printcap.

10.7. From Windows.

Printing from a Windows (or presumably, OS/2) client to a Linux server
is directly supported over SMB through the use of the SAMBA package,
which also supports file sharing of your Linux filesystem to Windows
clients.

Samba includes fairly complete documentation, and there is a good
Samba FAQ which covers it, too. You can either configure a magic
filter on the Linux box and print PostScript to it, or run around
installing printer-specific drivers on all the Windows machines and
having a queue for them with no filters at all. Relying on the
Windows drivers may in some cases produce better output, but is a bit
more of an administrative hassle if there are many Windows boxen. So
try Postscript first.

With PDQ, you should configure Samba to run the pdq command with
appropriate arguments instead of the lpr command that it defaults to
running. I believe that Samba will run pdq as the proper user, so it
should work well this way. There are several Samba options that you
should adjust to do this:

printcap
This should point to a "fake" printcap you whip up listing
available printers. All you need is a short and long name for
each printer, one per line:

lp1|Printer One
lp2|Printer Two
lp3|Printer Three

The short name will be used as the printer name for the print com-
mand:

print command
This will need to be set to something like pdq -P %p %s ; rm %s.

lprm command
There doesn't seem to be a good value for this setting at the
moment. PDQ's queued jobs will expire after a time, so if the
printer is totally gone there's no problem. If you just change
your mind, you can use xpdq to cancel jobs, but this is
inconvenient from Windows. Just put a do-nothing command like
true for now. If you use lpd or lprng as the back-end, then a
suitable lprm command should work. I'm not sure how Samba would
identify the lpr queue entry number for a pdq-submitted job.

lpq command
Again, PDQ doesn't offer a good value to put here. Distributed
systems don't offer a sensible way to see the queue, but samba-
centric centralized server systems to have a queue worth
examining. Just put a do-nothing command like true for now. If
you use lpd or lprng as the back-end, then a suitable lpq
command should work; you just won't see jobs until they're done
being filtered by PDQ.

10.8. From an Apple.

Netatalk supports printing from Apple clients over EtherTalk. See the
Netatalk HOWTO Page <http://thehamptons.com/anders/netatalk/> for more
information.

10.9. From Netware.

The ncpfs package includes a daemon named pserver which can be used to
privide service to a NetWare print queue. From what I understand,
this system requires a Bindery-based NetWare, ie 2.x, 3.x, or 4.x with
bindery access enabled.

For more information on ncpfs and it's pserver program, see the ncpfs
FTP site <ftp://ftp.gwdg.de/pub/linux/misc/ncpfs/>.

11. Windows-only printers

As I discussed earlier, some printers are inherently unsupported
because they don't speak a normal printer language, instead using the
computer's CPU to render a bitmap which is then piped to the printer
at a fixed speed. In a few cases, these printers also speak something
normal like PCL, but often they do not. In some (really low-end)
cases, the printer doesn't even use a normal parallel connection but
relies on the vendor's driver to emulate what should be hardware
behaviour (most importantly flow control).

In any case, there are a few possible workarounds if you find yourself
stuck with such a lemon.

11.1. The Ghostscript Windows redirector

There is now a Windows printer driver available (called mswinpr2) that
will run a print job through Ghostscript before finally printing it.
(Rather like an if filter in Unix's LPD). There is also a new
Ghostscript driver which will print using Windows GDI calls. Taken
all together, this allows a Windows machine to print PostScript to a
Windows-only printer through the vendor's driver.

If you get that working, you can then follow the instructions above
for printing to a Windows printer over the network from Linux to let
Unix (and other Windows, Mac, etc) hosts print to your lemon printer.

11.2. HP Winprinters

Some HP printers use "Printing Performance Architecture"
(marketingspeak for "we were too cheap to implement PCL"). This is
supported in a roundabout way via the pbm2ppa translator written by
Tim Norman. Basically, you use ghostscript to render PostScript into
a bitmapped image in pbm format and then use pbm2ppa to translate this
into a printer-specific ppa format bitmap ready to be dumped to the
printer. This program may also come in ghostscript driver format by
now.

The ppa software can be had from the ppa home page
<http://www.rpi.edu/~normat/technical/ppa/>; pbm2ppa supports some
models of the HP 720, 820, and 1000; read the documentation that comes
with the package for more details on ppa printer support.

11.3. Lexmark Winprinters

Most of the cheap Lexmark inkjets use a proprietary language and are
therefore Winprinters. However, Henryk Paluch has written a program
which can print on a Lexmark 7000. Hopefully he'll be able to figure
out color and expand support to other Lexmark inkjets. See here
<http://bimbo.fjfi.cvut.cz/~paluch/l7kdriver/> for more info.

Similarly, there are now drivers for the 5700, 1000, 1100, 2070, and
others. See the supported printers listing above, and my web site,
for more information on obtaining these drivers.
12. How to print to a fax machine.

You can print to a fax machine with, or without, a modem.

12.1. Using a faxmodem

There are a number of fax programs out there that will let you fax and
receive documents. One of the most complex is Sam Leffler's HylaFax,
available from ftp.sgi.com. It supports all sorts of things from
multiple modems to broadcasting.

SuSE ships a Java HylaFax client which allegedly works on any Java
platform (including Windows and Linux). There are also non-Java fax
clients for most platforms; Linux can almost certainly handle your
network faxing needs.

Also available, and a better choice for most Linux boxen, is efax, a
simple program which sends faxes. The getty program mgetty can
receive faxes (and even do voicemail on some modems!).

12.1.1. Faxing from PDQ

PDQ doesn't ship with a fax interface declaration, but here's a simple
one (which is only partly tested):

interface efax-0.1 {
help "This interface uses the efax package's fax program to send a
fax. You should first get efax's \"fax send\" working by
itself by editing the file /etc/efax.rc and testing. Connect
this interface to a generic postscript driver to define a
fax machine \"printer\"".

requires { "efax" "fax" }

# Making phone number required means that the add printer wizard
# will demand a phone number at add printer time. This is
# undesirable, so it isn't explicitly required, even though it is
# logically required. The send_exec script checks for the number.
# You could skip the wizard by adding this printer by hand to
# .printrc, mark this as required, and it might then prompt?
argument {
var = "PHONE_NUMBER"
desc = "Phone Number"
help = "The phone number to dial. Prefixes like 9 ought to be
defined in your /etc/efax.rc file."
}

option {
var = "RESOLUTION"
desc = "Fax resolution"
default_choice = "high"
choice "low" {
value = "-l"
desc = "Low"
help = "Low resolution on a fax is 96lpi."
}
choice "high" {
value = ""
desc = "High"
help = "High resolution on a fax is 192lpi."
}
}

# If you don't specify a phone number the job just fails, and
# the only way to figure this out is to look at the error message
# at the bottom of the job details. Hmm.
send_exec {
if [ "x$PHONE_NUMBER" != "x" ]
then
fax send $RESOLUTION $PHONE_NUMBER $INPUT
else
echo 'You must specify a phone number!'
false
fi
}

}

12.2. Using the Remote Printing Service

There is an experimental service offered that lets you send an email
message containing something you'd like printed such that it will
appear on a fax machine elsewhere. Nice formats like postscript are
supported, so even though global coverage is spotty, this can still be
a very useful service. For more information on printing via the
remote printing service, see the Remote Printing WWW Site
<http://www.tpc.int/>.
13. How to generate something worth printing.

Here we get into a real rat's-nest of software. Basically, Linux can
run many types of binaries with varying degrees of success: Linux/x86,
Linux/Alpha, Linux/Sparc, Linux/foo, iBCS, Win16/Win32s (with dosemu
and, someday, with Wine), Mac/68k (with Executor), and Java. I'll
just discuss native Linux and common Unix software.

For Linux itself, choices are mostly limited to those available for
Unix in general:

13.1. Markup languages

Most markup languages are more suitable for large or repetitive
projects, where you want the computer to control the layout of the
text to make things uniform.

nroff
This was one of the first Unix markup languages. Man pages are
the most common examples of things formatted in *roff macros;
many people swear by them, but nroff has, to me at least, a more
arcane syntax than needed, and probably makes a poor choice for
new works. It is worth knowing, though, that you can typeset a
man page directly into postscript with groff. Most man commands
will do this for you with man -t foo | lpr.

TeX
TeX, and the macro package LaTeX, are one of the most widely
used markup languages on Unix. Technical works are frequently
written in LaTeX because it greatly simplifies the layout issues
and is still one of the few text processing systems to support
mathematics both completely and well. TeX's output format is
dvi, and is converted to PostScript or Hewlett Packard's PCL
with dvips or dvilj. If you wish to install TeX or LaTeX,
install the whole teTeX group of packages; it contains
everything. Recent TeX installations include pdfTeX and
pdfLaTeX, which produce Adobe PDF files directly. Commands are
available do create hyperlinks and navigation features in the
PDF file.

SGML
There is at least one free sgml parser available for Unix and
Linux; it forms the basis of Linuxdoc-SGML's homegrown document
system. It can support other DTD's, as well, most notable
DocBook

HTML
Someone suggested that for simple projects, it may suffice to
write it in HTML and print it out using Netscape. I disagree,
but YMMV.

13.2. WYSIWYG Word Processors

There is no longer any shortage of WYSIWYG word processing software.
Several complete office suites are available, including one that's
free for personal use (StarOffice).

StarOffice
Sun Microsystems is distributing StarOffice on the net free for
Linux. This full-blown office suite has all the features you'd
expect, and you can't beat the price. There's a mini-HOWTO out
there which describes how to obtain and install it. It
generates PostScript or PCL, so should work with most any
printer that works otherwise on Linux. Apparently it's an
Office clone and is rather bloated; these are probably two
equivalent facts!

WordPerfect
Corel distributes a basic version of Word Perfect 8 free for
Linux, and has suggested that they will distribute Corel Draw
and Quattro Pro as well, once they are ported. This is probably
the best option if you have an ARM machine; Corel makes the ARM-
based Netwinder Linux computers and is almost certian to offer
ARM Linux versions of everything. You can also buy the full-
blown version and support, together or separately. The Linux
WordPerfect Fonts and Printers
<http://www.channel1.com/users/rodsmith/wpfonts.html> page has
information about configuring WordPerfect for use with either
Ghostscript or its built-in printer drivers (which are
apparently identical the DOS WordPerfect drivers, if your
printer's driver isn't included in the WP8 distribution).

Applix
Applix is a cross-platform (ie, various Unices, Windows, and
others) office suite sold by the Applix company. Red Hat and
SuSE sold it themselves when it was the only game in town; now
sales have reverted to Applix.

AbiWord
AbiWord is one of several GPL WYSIWYG word processor projects;
this one has produced a very nice word processor based on an XML
format and capable of Word file import.

LyX
LyX is a front-end to LaTeX which looks very promising. See the
LyX Homepage <http://www.lyx.org/> for more information. There
is a KDE-styled version of LyX, called Klyx; the author of LyX
and the instigator of KDE are the same person.

Maxwell
Maxwell is a simple MS RTF-format based word processor which
started as a commercial product but is now distributed under the
GPL.

The Andrew User Interface System
AUIS includes ez, a WYSIWYG-style editor with most basic word
processor features, HTML capabilities, and full MIME email and
newsgroup support. Unfortunately, AUIS is no longer maintained.

Koffice
The KDE project is working toward a whole office suite. I don't
think it's ready for prime time yet. The word processor will
apparently be a descendant of LyX.

GNOME
The GNOME project also is working toward various GNU-licensed
officey tools. None are available yet, though.

Other vendors should feel free to drop me a line with your offerings.

13.3. Printing Photographs

There are many details to getting decent photo output from common
printers.

13.3.1. Ghostscript and Photos

Ghostscript has some difficulties rendering color photographs through
most drivers. The problems are several:

o Many drivers have poorly tuned color support. Often the colors
don't match the Windows driver output or the screen. OTOH, all
drivers, and Ghostscript as a whole, have readily adjustable color
support; the "Gamma" settings are one thing to play with, and there
are others documented in Ghostscript's Use.htm documentation file.

o I'm only aware of one Ghostscript driver with support for 6 and 7
color printing; it's in beta at the moment and supports a few Epson
Stylus Photo models. It is rumoured to produce better color than
the Windows driver (!).

o Ghostscript often ends up dithering coarsely, or generating
printouts with artifacts like banding. The dithering can usually
be corrected; see the color in ghostscript section above, and read
the documentation for your driver.

You should be able to correct some of these problems by tuning
Ghostscript; see the Ghostscript section above for more information
on how to do this. Fiddling with Ghostscript options is much
easier if you declare them as options in a PDQ driver declaration.

That said, the obvious solution is to use non-Ghostscript software for
printing photos, and indeed, such things do exist. The main contender
is the print plugin in the Gimp, which supports pixel-for-pixel
printing on Epson Styluses and Postscript printers (with basic PPD
support). That driver will shortly be available for Ghostcript, as
well. Also possible to use for this purpose are the assorted external
pnm-to-foo programs used to print on printers like the cheap Lexmarks;
these print pixmaps pixel-for-pixel. A print-via-filter option
shouldn't be too hard to add to the Gimp.

The best solution, of course, is to buy a Postscript printer; such
printers can usually be completely controlled from available free
software, and will print to the full capability of the printer.

13.3.2. Paper

Color inkjets are extremely dependant on the paper for good output.
The expensive glossy coated inkjet papers will allow you to produce
near-photographic output, while plain uncoated paper will often
produce muddy colors and fuzzy details. Nonglossy coated inkjet
papers will produce results in between, and are probably best for
final prints of text, as well. Stiffer glossy coated "photo" papers
will produce similar output to lighter-weight glossy papers, but will
feel like a regular photo.

13.3.3. Printer Settings

For photo output on most color inkjets, you should use the most highly
interlaced (and slowest) print mode; otherwise solid regions may have
banding or weak colors. Generally with Ghostscript this is what will
happen when you pick the highest resolution. With Postscript
printers, you may need to add a snippet to the prologue based on the
settings available in the PPD file. The Gimp's PPD support doesn't
include the print quality setting, but I added it in an ugly way for
my own use; contact me if you'd like that. If you use PDQ, you can
easily add all the printer settings you need in the driver declaration
file; for PJL printers this is particularly easy, and for Postscript
printers my ppdtopdq utility can help.

13.3.4. Print Durability

Color inkjet printouts usually fade after a few years, especially if
exposed to lots of light and air; this is a function of the ink.
Printers with ink-only consumables like the Epsons and Canons can buy
archival inks, which are less prone to this problem.

13.3.5. Shareware and Commercial Software

There's a program called xwtools <http://home.t-
online.de/home/jj.sarton/startE.htm> which supports photo printing
with all the bells and whistles on an assortment of Epson, HP, and
Canon pritners. Unfortunately, it was written under NDA, so comes
without source. Unless you use it for the Epson Stylus Color 300 on
Linux x86, it costs 15 euros for personal use; commercial pricing is
unknown.

The ESP Print Pro package from Easy Software supports many printers
which might otherwise be unsupported. Unfortunately, since it is
based on Ghostscript 4.03, I don't expect wonderful results with this
software for photos. But someone should try.

14. On-screen previewing of printable things.

Nearly anything you can print can be viewed on the screen, too.

14.1. PostScript

Ghostscript has an X11 driver best used under the management of the
PostScript previewer gv. The latest versions of these programs should
be able to view PDF files, as well. Note that gv has replaced the
older previewer "Ghostview"; the new user interface is mch prettier
and featureful that ghostview's plain old Athena gui.

14.2. TeX dvi

TeX DeVice Independent files may be previewed under X11 with xdvi.
Modern versions of xdvi call ghostscript to render PostScript
specials.

A VT100 driver exists as well. It's called dgvt. Tmview works with
Linux and svgalib, if that's all you can do.

14.3. Adobe PDF

Adobe's Acrobat Reader is available for Linux; just download it from
their web site <http://www.adobe.com/>.

You can also use xpdf, which is freeware and comes with source, and I
should think Ghostview supports viewing PDF files with gs under X11 by
now.

15. Serial printers under lpd

Serial printers are rather tricky under lpd.

15.1. Setting up in printcap

Lpd provides five attributes which you can set in /etc/printcap to
control all the settings of the serial port a printer is on. Read the
printcap man page and note the meanings of br#, fc#, xc#, fs# and xs#.
The last four of these attributes are bitmaps indicating the settings
for use the port. The br# atrribute is simply the baud rate, ie
`br#9600'.

It is very easy to translate from stty settings to printcap flag
settings. If you need to, see the man page for stty now.

Use stty to set up the printer port so that you can cat a file to it
and have it print correctly. Here's what `stty -a' looks like for my
printer port:

dina:/usr/users/andy/work/lpd/lpd# stty -a < /dev/ttyS2
speed 9600 baud; rows 0; columns 0; line = 0;
intr = ^C; quit = ^\; erase = ^?; kill = ^U; eof = ^D; eol = <undef>;
eol2 = <undef>; start = ^Q; stop = ^S; susp = ^Z; rprnt = ^R; werase = ^W;
lnext = ^V; min = 1; time = 0;
-parenb -parodd cs8 hupcl -cstopb cread -clocal -crtscts
-ignbrk -brkint -ignpar -parmrk -inpck -istrip -inlcr
-igncr -icrnl ixon -ixoff -iuclc -ixany -imaxbel
-opost -olcuc -ocrnl -onlcr -onocr -onlret -ofill -ofdel nl0 cr0 tab0
bs0 vt0 ff0
-isig -icanon -iexten -echo -echoe -echok -echonl -noflsh -xcase
-tostop -echoprt -echoctl -echoke

The only changes between this and the way the port is initialized at
bootup are -clocal, -crtscts, and ixon. Your port may well be differ-
ent depending on how your printer does flow control.

You actually use stty in a somewhat odd way. Since stty operates on
the terminal connected to it's standard input, you use it to
manipulate a given serial port by using the `<' character as above.

Once you have your stty settings right, so that `cat file >
/dev/ttyS2' (in my case) sends the file to the printer, look at the
file /usr/src/linux/include/asm-i386/termbits.h. This contains a lot
of #defines and a few structs (You may wish to cat this file to the
printer (you do have that working, right?) and use it as scratch
paper). Go to the section that starts out

/* c_cflag bit meaning */
#define CBAUD 0000017

This section lists the meaning of the fc# and fs# bits. You will
notice that the names there (after the baud rates) match up with one
of the lines of stty output. Didn't I say this was going to be easy?

Note which of those settings are preceded with a - in your stty
output. Sum up all those numbers (they are octal). This represents the
bits you want to clear, so the result is your fc# capability. Of
course, remember that you will be setting bits directly after you
clear, so you can just use `fc#0177777' (I do).

Now do the same for those settings (listed in this section) which do
not have a - before them in your stty output. In my example the
important ones are CS8 (0000060), HUPCL (0002000), and CREAD
(0000200). Also note the flags for your baud rate (mine is 0000015).
Add those all up, and in my example you get 0002275. This goes in your
fs# capability (`fs#02275' works fine in my example).

Do the same with set and clear for the next section of the include
file, "c_lflag bits". In my case I didn't have to set anything, so I
just use `xc#0157777' and `xs#0'.

15.2. Older serial printers that drop characters

Jon Luckey points out that some older serial printers with ten-cent
serial interfaces and small buffers really mean stop when they say so
with flow control. He found that disabling the FIFO in his Linux
box's 16550 serial port with setserial corrected the problem of
dropped characters (you apparently just specify the uart type as an
8250 to do this).

16. Credits

Special thanks to Jacob Langford, author of pdq, who finally gave us
something better than the smattering of scripts globbed onto a 20 year
old overgrown line-printer control program.

The smbprint information is from an article by Marcel Roelofs
<[email protected]>.

The nprint information for using Netware printers was provided by
Michael Smith <[email protected]>.

The serial printers under lpd section is from Andrew Tefft
<[email protected]>.

The blurb about gammas and such for gs was sent in by Andreas
<[email protected]>.
The two paragraphs about the 30 second closing_wait of the serial
driver was contributed by Chris Johnson <[email protected]>.

Robert Hart sent a few excellent paragraphs about setting up a print
server to networked HPs which I used verbatim.

And special thanks to the dozens upon dozens of you who've pointed out
typos, bad urls, and errors in the document over the years.