KurtPfeifleDanka Deutschland GmbH kpfeifle@danka.deCiprianVizitiuCVizitiu@gbif.orgdrawings&person.jelmer;drawings (27 Jan 2004) CUPS Printing SupportIntroductionFeatures and Benefits
The Common UNIX Print System (CUPS)
has become quite popular. All major Linux distributions now ship it as their default printing
system. To many, it is still a mystical tool. Mostly, it just works.
People tend to regard it as a black box
that they do not want to look into as long as it works. But once
there is a little problem, they are in trouble to find out where to
start debugging it. Refer to the chapter Classical Printing that
contains a lot of information that is relevant for CUPS.
CUPS sports quite a few unique and powerful features. While their
basic functions may be grasped quite easily, they are also
new. Because they are different from other, more traditional printing
systems, it is best not to try and apply any prior knowledge about
printing to this new system. Rather, try to understand CUPS
from the beginning. This documentation will lead you to a
complete understanding of CUPS. Let's start with the most basic
things first.
Overview
CUPS is more than just a print spooling system. It is a complete
printer management system that complies with the new
Internet Printing Protocol (IPP). IPP is an industry
and Internet Engineering Task Force (IETF)
standard for network printing. Many of its functions can be managed
remotely (or locally) via a Web browser (giving you a
platform-independent access to the CUPS print server). Additionally, it
has the traditional command line and several more modern GUI interfaces
(GUI interfaces developed by third parties, like KDE's
overwhelming KDEPrint).
CUPS allows creation of raw printers (i.e., no print file
format translation) as well as smart printers (i.e., CUPS does
file format conversion as required for the printer). In many ways
this gives CUPS similar capabilities to the MS Windows print
monitoring system. Of course, if you are a CUPS advocate, you would
argue that CUPS is better! In any case, let us now move on to
explore how one may configure CUPS for interfacing with MS Windows
print clients via Samba.
Basic CUPS Support Configuration
Printing with CUPS in the most basic &smb.conf; setup in Samba-3.0 (as was true for 2.2.x) only needs two
settings: cups and
cups. CUPS does not need a printcap file.
However, the cupsd.conf configuration file knows of two related directives that control
how such a file will be automatically created and maintained by CUPS for the convenience of third-party
applications (example: Printcap /etc/printcap and PrintcapFormat BSD).
Legacy programs often require the existence of a printcap file containing printer names or they will refuse to
print. Make sure CUPS is set to generate and maintain a printcap file. For details, see
man cupsd.conf and other CUPS-related documentation, like the wealth of documents on your CUPS server
itself: http://localhost:631/documentation.html.
Linking smbd with libcups.so
Samba has a special relationship to CUPS. Samba can be compiled with CUPS library support.
Most recent installations have this support enabled. Per default, CUPS linking is compiled
into smbd and other Samba binaries. Of course, you can use CUPS even
if Samba is not linked against libcups.so &smbmdash; but
there are some differences in required or supported configuration.
When Samba is compiled against libcups, cups
uses the CUPS API to list printers, submit jobs, query queues, and so on. Otherwise it maps to the System V
commands with an additional -oraw option for printing. On a Linux
system, you can use the ldd utility to find out details (ldd may not be present on
other OS platforms, or its function may be embodied by a different command):
&rootprompt;ldd `which smbd`
libssl.so.0.9.6 => /usr/lib/libssl.so.0.9.6 (0x4002d000)
libcrypto.so.0.9.6 => /usr/lib/libcrypto.so.0.9.6 (0x4005a000)
libcups.so.2 => /usr/lib/libcups.so.2 (0x40123000)
[....]
The line libcups.so.2 => /usr/lib/libcups.so.2 (0x40123000) shows
there is CUPS support compiled into this version of Samba. If this is the case, and printing = cups
is set, then any otherwise manually set print command in &smb.conf; is ignored.
This is an important point to remember!
Should it be necessary, for any reason, to set your own print commands, you can do this by setting
sysv. However, you will lose all the benefits
of tight CUPS/Samba integration. When you do this you must manually configure the printing system commands
(most important:
; other commands are
,
,
,
,
and
).Simple &smb.conf; Settings for CUPS
To summarize, following example shows simplest printing-related setup for &smb.conf; to enable basic CUPS support:
Simplest printing-related smb.conf[global]yescupscups[printers]All Printers/var/spool/sambanoyesyesnoyesroot, @ntadmins
This is all you need for basic printing setup for CUPS. It will print
all graphic, text, PDF, and PostScript files submitted from Windows
clients. However, most of your Windows users would not know how to
send these kinds of files to print without opening a GUI
application. Windows clients tend to have local printer drivers
installed, and the GUI application's print buttons start a printer
driver. Your users also rarely send files from the command
line. Unlike UNIX clients, they hardly submit graphic, text or PDF
formatted files directly to the spooler. They nearly exclusively print
from GUI applications with a printer driver hooked in between the
application's native format and the print-data-stream. If the backend
printer is not a PostScript device, the print data stream is binary,
sensible only for the target printer. Read on to learn which problem
this may cause and how to avoid it.
More Complex CUPS &smb.conf; Settings
Next configuration is a slightly more complex printing-related setup
for &smb.conf;. It enables general CUPS printing
support for all printers, but defines one printer share, which is set
up differently.
Overriding global CUPS settings for one printer[global]cupscupsyes[printers]All Printers/var/spool/sambayesyesnoyesroot, @ntadmins[special_printer]A special printer with his own settings/var/spool/samba-specialsysvlpstatecho "NEW: `date`: printfile %f" \ >> /tmp/smbprn.log ; \echo " `date`: p-%p s-%s f-%f" >> /tmp/smbprn.log ; \echo " `date`: j-%j J-%J z-%z c-%c" >> /tmp/smbprn.log ; rm %fnononoyeskurt0.0.0.0turbo_xp, 10.160.50.23, 10.160.51.60
This special share is only there for testing purposes. It does not write the print job to a file. It just logs the job parameters
known to Samba into the /tmp/smbprn.log file and deletes the job-file. Moreover, the
of this share is kurt (not the @ntadmins group),
guest access is not allowed, the share isn't published to the Network Neighborhood (so you need to know it is there), and it only
allows access from only three hosts. To prevent CUPS kicking in and taking over the print jobs for that share, we need to set
sysv and
lpstat.
Advanced Configuration
Before we delve into all the configuration options, let us clarify a few
points. Network printing needs to be organized and setup
correctly. This frequently doesn't happen. Legacy systems
or small business LAN environments often lack design and good housekeeping.
Central Spooling vs. Peer-to-Peer Printingspoolingcentralspoolingpeer-to-peer
Many small office or home networks, as well as badly organized larger
environments, allow each client a direct access to available network
printers. This is generally a bad idea. It often blocks one client's
access to the printer when another client's job is printing. It might
freeze the first client's application while it is waiting to get
rid of the job. Also, there are frequent complaints about various jobs
being printed with their pages mixed with each other. A better concept
is the usage of a print server: it routes all jobs through one
central system, which responds immediately, takes jobs from multiple
concurrent clients at the same time, and in turn transfers them to the
printer(s) in the correct order.
Raw Print Serving &smbmdash; Vendor Drivers on Windows Clientsspooling-only"raw" printing
Most traditionally configured UNIX print servers acting on behalf of
Samba's Windows clients represented a really simple setup. Their only
task was to manage the raw spooling of all jobs handed to them by
Samba. This approach meant that the Windows clients were expected to
prepare the print job file that its ready to be sent to the printing
device. Here a native (vendor-supplied) Windows printer driver needs to
be installed on each and every client for the target device.
It is possible to configure CUPS, Samba and your Windows clients in the
same traditional and simple way. When CUPS printers are configured
for RAW print-through mode operation, it is the responsibility of the
Samba client to fully render the print job (file). The file must be
sent in a format that is suitable for direct delivery to the
printer. Clients need to run the vendor-provided drivers to do
this. In this case, CUPS will not do any print file format conversion
work.
The easiest printing configuration possible is to use raw print-through.
This is achieved by installation of the printer as if it was physically
attached to the Windows client. You then redirect output to a raw network
print queue. The following procedure may be followed to achieve this:
Edit /etc/cups/mime.types to uncomment the line
near the end of the file that has:
#application/octet-...
Do the same for the file /etc/cups/mime.convs.
Add a raw printer using the Web interface. Point your browser at
http://localhost:631. Enter Administration, add
the printer following the prompts. Do not install any drivers for it.
Choose Raw. Choose queue name Raw Queue.
In the &smb.conf; file [printers] section add
Yes,
and in the [global] section add
CUPS, plus
CUPS.
Install the printer as if it is a local printer. i.e.: Printing to LPT1:.
Edit the configuration under the Detail tab, create a
local port that points to the raw printer queue that
you have configured above. Example: \\server\raw_q.
Here, the name raw_q is the name you gave the print
queue in the CUPS environment.
Installation of Windows Client Drivers
The printer drivers on the Windows clients may be installed
in two functionally different ways:
Manually install the drivers locally on each client,
one by one; this yields the old LanMan style
printing and uses a \\sambaserver\printershare
type of connection.point 'n' print
Deposit and prepare the drivers (for later download) on
the print server (Samba); this enables the clients to use
Point'n'Print to get drivers semi-automatically installed the
first time they access the printer; with this method NT/200x/XP
clients use the SPOOLSS/MS-RPC
type printing calls.
The second method is recommended for use over the first.
Explicitly Enable raw Printing for application/octet-streamapplication/octet-streamraw printingMIMEraw
If you use the first option (drivers are installed on the client
side), there is one setting to take care of: CUPS needs to be told
that it should allow raw printing of deliberate (binary) file
formats. The CUPS files that need to be correctly set for RAW mode
printers to work are:
/etc/cups/mime.types/etc/cups/mime.convs
Both contain entries (at the end of the respective files) which must
be uncommented to allow RAW mode operation.
In /etc/cups/mime.types, make sure this line is
present:
application/octet-stream
/etc/cups/mime.convs/etc/cups/mime.types
In /etc/cups/mime.convs,
have this line:
application/vnd.cups-raw
application/octet-stream application/vnd.cups-raw 0 -
If these two files are not set up correctly for raw Windows client
printing, you may encounter the dreaded Unable to
convert file 0 in your CUPS error_log file.
Editing the mime.convs and the
mime.types file does not
enforceraw printing, it only
allows it.
Backgroundapplication/octet-stream
CUPS being a more security-aware printing system than traditional ones
does not by default allow a user to send deliberate (possibly binary)
data to printing devices. This could be easily abused to launch a
Denial of Service attack on your printer(s), causing at least
the loss of a lot of paper and ink. Unknown data are tagged by CUPS
as MIME type: application/octet-stream and not
allowed to go to the printer. By default, you can only send other
(known) MIME types raw. Sending data raw means that CUPS does not
try to convert them and passes them to the printer untouched (see the next
chapter for even more background explanations).
This is all you need to know to get the CUPS/Samba combo printing
raw files prepared by Windows clients, which have vendor drivers
locally installed. If you are not interested in background information about
more advanced CUPS/Samba printing, simply skip the remaining sections
of this chapter.
Driver Upload Methods
This section describes three familiar methods, plus one new one, by which
printer drivers may be uploaded.
point 'n' print
If you want to use the MS-RPC type printing, you must upload the
drivers onto the Samba server first ([print$]
share). For a discussion on how to deposit printer drivers on the
Samba host (so the Windows clients can download and use them via
Point'n'Print), please refer to the previous chapter of this
HOWTO Collection. There you will find a description or reference to
three methods of preparing the client drivers on the Samba server:
add printer wizard
The GUI, Add Printer Wizardupload-from-a-Windows-client
method.The command line, smbclient/rpcclient
upload-from-a-UNIX-workstation method.imprints
The Imprints Toolset
method.
These three methods apply to CUPS all the same. A new and more
convenient way to load the Windows drivers into Samba is provided
if you use CUPS:
cupsaddsmb
the cupsaddsmb
utility.cupsaddsmb is discussed in much detail further below. But we first
explore the CUPS filtering system and compare the Windows and UNIX printing architectures.
Advanced Intelligent Printing with PostScript Driver DownloadPostScriptGhostscript
We now know
how to set up a dump printserver, that is, a server which is spooling
print-jobs raw, leaving the print data untouched.
Possibly you need to setup CUPS in a smarter way. The reasons could
be manifold:
Maybe your boss wants to get monthly statistics: Which
printer did how many pages? What was the average data size of a job?
What was the average print run per day? What are the typical hourly
peaks in printing? Which department prints how much?Maybe you are asked to setup a print quota system:
Users should not be able to print more jobs, once they have surpassed
a given limit per period.Maybe your previous network printing setup is a mess
and must be re-organized from a clean beginning.Maybe you have experiencing too many blue screens
originating from poorly debugged printer drivers running in NT kernel mode?
These goals cannot be achieved by a raw print server. To build a
server meeting these requirements, you'll first need to learn about
how CUPS works and how you can enable its features.
What follows is the comparison of some fundamental concepts for
Windows and UNIX printing; then follows a description of the
CUPS filtering system, how it works and how you can tweak it.
GDI on Windows -- PostScript on UNIXGDIPostScript
Network printing is one of the most complicated and error-prone
day-to-day tasks any user or administrator may encounter. This is
true for all OS platforms. And there are reasons for this.
PCLPDL
You can't expect most file formats to just throw them toward
printers and they get printed. There needs to be a file format
conversion in between. The problem is that there is no common standard for
print file formats across all manufacturers and printer types. While
PostScript (trademark held by Adobe) and, to an
extent, PCL (trademark held by HP) have developed
into semi-official standards by being the most widely used PDLs
Page Description Languages (PDLs), there are still
many manufacturers who roll their own (their reasons may be
unacceptable license fees for using printer-embedded PostScript
interpreters, and so on).
Windows Drivers, GDI and EMFGDIEMFWYSIWYG
In Windows OS, the format conversion job is done by the printer
drivers. On MS Windows OS platforms all application programmers have
at their disposal a built-in API, the Graphical Device
Interface (GDI), as part and parcel of the OS itself to base
themselves on. This GDI core is used as one common unified ground for
all Windows programs to draw pictures, fonts and documents
on screen as well as on
paper (print). Therefore, printer driver developers can
standardize on a well-defined GDI output for their own driver
input. Achieving WYSIWYG (What You See Is What You Get) is
relatively easy, because the on-screen graphic primitives, as well as
the on-paper drawn objects, come from one common source. This source,
the GDI, often produces a file format called Enhanced
MetaFile (EMF). The EMF is processed by the printer driver and
converted to the printer-specific file format.
PDF
To the GDI foundation in MS Windows, Apple has chosen to
put paper and screen output on a common foundation for their
(BSD-UNIX-based, did you know?) Mac OS X and Darwin Operating
X Window SystemPostScriptPCLXprint
Systems. Their Core Graphic Engine uses a
PDF derivative for all display work.
Windows printing to a local printer.1smallUNIX Printfile Conversion and GUI BasicsX Window SystemPostScriptPCLXprint
In UNIX and Linux, there is no comparable layer built into the OS
kernel(s) or the X (screen display) server. Every application is
responsible for itself to create its print output. Fortunately, most
use PostScript and that at least gives some common ground. Unfortunately,
there are many different levels of quality for this PostScript. And
worse, there is a huge difference (and no common root) in the way
the same document is displayed on screen and how it is presented on
paper. WYSIWYG is more difficult to achieve. This goes back to the
time, decades ago, when the predecessors of X.org,
designing the UNIX foundations and protocols for Graphical User
Interfaces, refused to take responsibility for paper output
also, as some had demanded at the time, and restricted itself to
on-screen only. (For some years now, the Xprint project has been
under development, attempting to build printing support into the X
framework, including a PostScript and a PCL driver, but it is not yet
ready for prime time.) You can see this unfavorable inheritance up to
the present day by looking into the various font directories on your
system; there are separate ones for fonts used for X display and fonts
to be used on paper.
BackgroundPostScript
The PostScript programming language is an invention by Adobe Inc.,
but its specifications have been published to the full. Its strength
lies in its powerful abilities to describe graphical objects (fonts,
shapes, patterns, lines, curves, and dots), their attributes (color,
linewidth) and the way to manipulate (scale, distort, rotate,
shift) them. Because of its open specification, anybody with the
skill can start writing his own implementation of a PostScript
interpreter and use it to display PostScript files on screen or on
paper. Most graphical output devices are based on the concept of
raster images or pixels (one notable exception is pen
plotters). Of course, you can look at a PostScript file in its textual
form and you will be reading its PostScript code, the language
instructions which need to be interpreted by a rasterizer. Rasterizers
produce pixel images, which may be displayed on screen by a viewer
program or on paper by a printer.
PostScript and GhostscriptPostScriptGhostScriptPostScriptPostScriptRIP
So, UNIX is lacking a common ground for printing on paper and
displaying on screen. Despite this unfavorable legacy for UNIX, basic
printing is fairly easy if you have PostScript printers at your
disposal. The reason is these devices have a built-in PostScript
language interpreter, also called a Raster Image
Processor (RIP) (which makes them more expensive than
other types of printers); throw PostScript toward them, and they will
spit out your printed pages. Their RIP is doing all the hard work of
converting the PostScript drawing commands into a bitmap picture as
you see it on paper, in a resolution as done by your printer. This is
no different to PostScript printing a file from a Windows origin.
PPD
Traditional UNIX programs and printing systems &smbmdash; while
using PostScript &smbmdash; are largely not PPD-aware. PPDs are PostScript
Printer Description files. They enable you to specify and control all
options a printer supports: duplexing, stapling and punching. Therefore,
UNIX users for a long time couldn't choose many of the supported
device and job options, unlike Windows or Apple users. But now there
is CUPS.
Printing to a PostScript printer.2smallPDL
However, there are other types of printers out there. These do not know
how to print PostScript. They use their own Page Description
Language (PDL, often proprietary). To print to them is much
more demanding. Since your UNIX applications mostly produce
PostScript, and since these devices do not understand PostScript, you
need to convert the print files to a format suitable for your printer
on the host before you can send it away.
Ghostscript &smbmdash; the Software RIP for Non-PostScript PrintersGhostScript
Here is where Ghostscript kicks in. Ghostscript is
the traditional (and quite powerful) PostScript interpreter used on
UNIX platforms. It is a RIP in software, capable of doing a
lot of file format conversions for a very broad
spectrum of hardware devices as well as software file formats.
Ghostscript technology and drivers are what enable PostScript printing
to non-PostScript hardware.
Ghostscript as a RIP for non-postscript printers.3small
Use the gs -h command to check for all built-in devices
of your Ghostscript version. If you specify a parameter of
-sDEVICE=png256 on your Ghostscript command
line, you are asking Ghostscript to convert the input into a PNG
file. Naming a device on the command line is the most important
single parameter to tell Ghostscript exactly how it should render the
input. New Ghostscript versions are released at fairly regular
intervals, now by artofcode LLC. They are initially put under the
AFPL license, but re-released under the GNU GPL as soon as the next
AFPL version appears. GNU Ghostscript is probably the version
installed on most Samba systems. But it has some deficiencies.
GhostscriptESPESP GhostScript
Therefore, ESP Ghostscript was developed as an
enhancement over GNU Ghostscript, with lots of bug-fixes, additional
devices and improvements. It is jointly maintained by developers from
CUPS, Gimp-Print, MandrakeSoft, SuSE, Red Hat, and Debian. It includes
the cups device (essential to print to non-PS printers from CUPS).
PostScript Printer Description (PPD) SpecificationPPD
While PostScript in essence is a Page Description
Language (PDL) to represent the page layout in a
device-independent way, real-world print jobs are
always ending up being output on hardware with device-specific
features. To take care of all the differences in hardware and to
allow for innovations, Adobe has specified a syntax and file format
for PostScript Printer Description (PPD)
files. Every PostScript printer ships with one of these files.
PPDs contain all the information about general and special features of the
given printer model: Which different resolutions can it handle? Does
it have a Duplexing Unit? How many paper trays are there? What media
types and sizes does it take? For each item, it also names the special
command string to be sent to the printer (mostly inside the PostScript
file) in order to enable it.
Information from these PPDs is meant to be taken into account by the
printer drivers. Therefore, installed as part of the Windows
PostScript driver for a given printer is the printer's PPD. Where it
makes sense, the PPD features are presented in the drivers' UI dialogs
to display to the user a choice of print options. In the end, the
user selections are somehow written (in the form of special
PostScript, PJL, JCL or vendor-dependent commands) into the PostScript
file created by the driver.
PDF
A PostScript file that was created to contain device-specific commands
for achieving a certain print job output (e.g., duplex-ed, stapled and
punched) on a specific target machine, may not print as expected, or
may not be printable at all on other models; it also may not be fit
for further processing by software (e.g., by a PDF distilling program).
Using Windows-Formatted Vendor PPDs
CUPS can handle all spec-compliant PPDs as supplied by the
manufacturers for their PostScript models. Even if a
vendor might not have mentioned our favorite
OS in his manuals and brochures, you can safely trust this:
If you get the Windows NT version of the PPD, you
can use it unchanged in CUPS and thus access the full
power of your printer just like a Windows NT user could!
To check the spec compliance of any PPD online, go to http://www.cups.org/testppd.php
and upload your PPD. You will see the results displayed
immediately. CUPS in all versions after 1.1.19 has a much more strict
internal PPD parsing and checking code enabled; in case of printing
trouble, this online resource should be one of your first pit-stops.
foomaticcupsomatic
For real PostScript printers, do not use the
Foomatic or cupsomatic
PPDs from Linuxprinting.org. With these devices, the original
vendor-provided PPDs are always the first choice!
If you are looking for an original vendor-provided PPD of a specific
device, and you know that an NT4 box (or any other Windows box) on
your LAN has the PostScript driver installed, just use
smbclient //NT4-box/print\$ -U username to
access the Windows directory where all printer driver files are
stored. First look in the W32X86/2 subdir for
the PPD you are seeking.
CUPS Also Uses PPDs for Non-PostScript Printers
CUPS also uses specially crafted PPDs to handle non-PostScript
printers. These PPDs are usually not available from the vendors (and
no, you can't just take the PPD of a PostScript printer with the same
model name and hope it works for the non-PostScript version too). To
understand how these PPDs work for non-PS printers, we first need to
dive deeply into the CUPS filtering and file format conversion
architecture. Stay tuned.
The CUPS Filtering Architecture
The core of the CUPS filtering system is based on
Ghostscript. In addition to Ghostscript, CUPS
uses some other filters of its own. You (or your OS vendor) may have
plugged in even more filters. CUPS handles all data file formats under
the label of various MIME types. Every incoming
printfile is subjected to an initial
auto-typing. The auto-typing determines its given
MIME type. A given MIME type implies zero or more possible filtering
chains relevant to the selected target printer. This section discusses
how MIME types recognition and conversion rules interact. They are
used by CUPS to automatically setup a working filtering chain for any
given input data format.
If CUPS rasterizes a PostScript file natively to
a bitmap, this is done in two stages:
The first stage uses a Ghostscript device named cups
(this is since version 1.1.15) and produces a generic raster format
called CUPS raster.
The second stage uses a raster driver that converts
the generic CUPS raster to a device-specific raster.
Make sure your Ghostscript version has the cups device compiled in
(check with gs -h | grep cups). Otherwise you
may encounter the dreaded Unable to convert file
0 in your CUPS error_log file. To have cups as a
device in your Ghostscript, you either need to patch GNU
Ghostscript and re-compile, or use ESPGhostscriptESP Ghostscript. The
superior alternative is ESP Ghostscript. It supports not just CUPS,
but 300 other devices too (while GNU Ghostscript supports only about
180). Because of this broad output device support, ESP Ghostscript is
the first choice for non-CUPS spoolers, too. It is now recommended by
Linuxprinting.org for all spoolers.
cupsomaticfoomatic
CUPS printers may be setup to use external rendering paths. One of the most common is provided by the
Foomatic/cupsomatic concept from Linuxprinting.org. This
uses the classical Ghostscript approach, doing everything in one step.
It does not use the cups device, but one of the many
others. However, even for Foomatic/cupsomatic usage, best results and
ESPGhostscript
broadest printer model support is provided by ESP Ghostscript (more
about cupsomatic/Foomatic, particularly the new version called now
foomatic-rip, follows below).
MIME Types and CUPS FiltersMIMEfiltersMIME
CUPS reads the file /etc/cups/mime.types
(and all other files carrying a *.types suffix
in the same directory) upon startup. These files contain the MIME
type recognition rules that are applied when CUPS runs its
auto-typing routines. The rule syntax is explained in the man page
for mime.types and in the comments section of the
mime.types file itself. A simple rule reads
like this:
application/pdf
application/pdf pdf string(0,%PDF)
This means if a filename has either a
.pdf suffix or if the magic
string %PDF is right at the
beginning of the file itself (offset 0 from the start), then it is
a PDF file (application/pdf).
Another rule is this:
application/postscript ai eps ps string(0,%!) string(0,<04>%!)
If the filename has one of the suffixes
.ai, .eps,
.ps or if the file itself starts with one of the
strings %! or %!]]>, it
is a generic PostScript file
(application/postscript).
Don't confuse the other mime.types files your system might be using
with the one in the /etc/cups/ directory.
There is an important difference between two similar MIME types in
CUPS: one is application/postscript, the other is
application/vnd.cups-postscript. While
application/postscript is meant to be device
independent (job options for the file are still outside the PS file
content, embedded in command line or environment variables by CUPS),
application/vnd.cups-postscript may have the job
options inserted into the PostScript data itself (where
applicable). The transformation of the generic PostScript
(application/postscript) to the device-specific version
(application/vnd.cups-postscript) is the responsibility of the
CUPS pstops filter. pstops uses information
contained in the PPD to do the transformation.
CUPS can handle ASCII text, HP-GL, PDF, PostScript, DVI, and
many image formats (GIF. PNG, TIFF, JPEG, Photo-CD, SUN-Raster,
PNM, PBM, SGI-RGB, and more) and their associated MIME types
with its filters.
MIME Type Conversion RulesMIMEapplication/pdf
CUPS reads the file /etc/cups/mime.convs
(and all other files named with a *.convs
suffix in the same directory) upon startup. These files contain
lines naming an input MIME type, an output MIME type, a format
conversion filter that can produce the output from the input type
and virtual costs associated with this conversion. One example line
reads like this:
application/pdf application/postscript 33 pdftops
This means that the pdftops filter will take
application/pdf as input and produce
application/postscript as output; the virtual
cost of this operation is 33 CUPS-$. The next filter is more
expensive, costing 66 CUPS-$:
pdf
application/vnd.hp-HPGL application/postscript 66 hpgltops
This is the hpgltops, which processes HP-GL
plotter files to PostScript.
application/octet-stream
application/octet-stream
Here are two more examples:
text/plain
application/x-shell application/postscript 33 texttops
text/plain application/postscript 33 texttops
The last two examples name the texttops filter
to work on text/plain as well as on application/x-shell. (Hint:
This differentiation is needed for the syntax highlighting feature of
texttops).
Filtering OverviewMIME
There are many more combinations named in mime.convs. However, you
are not limited to use the ones pre-defined there. You can plug in any
filter you like into the CUPS framework. It must meet, or must be made
to meet, some minimal requirements. If you find (or write) a cool
conversion filter of some kind, make sure it complies to what CUPS
needs and put in the right lines in mime.types
and mime.convs, then it will work seamlessly
inside CUPS.
Filter requirements
The mentioned CUPS requirements for filters are simple. Take
filenames or stdin as input and write to
stdout. They should take these 5 or 6 arguments:
printer job user title copies options [filename]Printer The name of the printer queue (normally this is the
name of the filter being run).job The numeric job ID for the job being
printed.user The string from the originating-user-name
attribute.title The string from the job-name attribute.copies The numeric value from the number-copies
attribute.options The job options.filename (Optionally) The print request file (if missing,
filters expected data fed through stdin). In most
cases, it is easy to write a simple wrapper script around existing
filters to make them work with CUPS.PrefiltersPostScript
As previously stated, PostScript is the central file format to any UNIX-based
printing system. From PostScript, CUPS generates raster data to feed
non-PostScript printers.
But what happens if you send one of the supported non-PS formats
to print? Then CUPS runs pre-filters on these input formats to
generate PostScript first. There are pre-filters to create PS from
ASCII text, PDF, DVI, or HP-GL. The outcome of these filters is always
of MIME type application/postscript (meaning that
any device-specific print options are not yet embedded into the
PostScript by CUPS, and that the next filter to be called is
pstops). Another pre-filter is running on all supported image formats,
the imagetops filter. Its outcome is always of
MIME type application/vnd.cups-postscript
(not application/postscript), meaning it has the
print options already embedded into the file.
Pre-filtering in CUPS to form PostScript.4smallpstopspstops is the filter to convert
application/postscript to
application/vnd.cups-postscript. It was said
above that this filter inserts all device-specific print options
(commands to the printer to ask for the duplexing of output, or
stapling and punching it, and so on) into the PostScript file.
Adding device-specific print options.5small
This is not all. Other tasks performed by it are:
Selecting the range of pages to be printed (if you choose to
print only pages 3, 6, 8-11, 16, 19-21, or only the odd numbered
ones).
Putting 2 or more logical pages on one sheet of paper (the
so-called number-up function).
Counting the pages of the job to insert the accounting
information into the /var/log/cups/page_log.
pstorasterpstoraster is at the core of the CUPS filtering
system. It is responsible for the first stage of the rasterization
process. Its input is of MIME type application/vnd.cups-postscript;
its output is application/vnd.cups-raster. This output format is not
yet meant to be printable. Its aim is to serve as a general purpose
input format for more specialized raster drivers
that are able to generate device-specific printer data.
PostScript to intermediate raster format.6small
CUPS raster is a generic raster format with powerful features. It is
able to include per-page information, color profiles, and more, to be
used by the following downstream raster drivers. Its MIME type is
registered with IANA and its specification is, of course, completely
open. It is designed to make it quite easy and inexpensive for
manufacturers to develop Linux and UNIX raster drivers for their
printer models, should they choose to do so. CUPS always takes care
for the first stage of rasterization so these vendors do not need to care
about Ghostscript complications (in fact, there is currently more
than one vendor financing the development of CUPS raster drivers).
CUPS-raster production using Ghostscript.7small
CUPS versions before version 1.1.15 were shipping a binary (or source
code) standalone filter, named pstoraster. pstoraster was derived
from GNU Ghostscript 5.50, and could be installed besides and in
addition to any GNU or AFPL Ghostscript package without conflicting.
>From version 1.1.15, this has changed. The functions for this have been
integrated back into Ghostscript (now based on GNU Ghostscript version
7.05). The pstoraster filter is now a simple shell script calling
gs with the -sDEVICE=cups
parameter. If your Ghostscript does not show a success on asking for
gs -h |grep cups, you might not be able to
print. Update your Ghostscript.
imagetops and imagetoraster
In the section about pre-filters, we mentioned the pre-filter
that generates PostScript from image formats. The imagetoraster
filter is used to convert directly from image to raster, without the
intermediate PostScript stage. It is used more often than the above
mentioned pre-filters. We summarize flowchart of image file
filtering on next picture.
Image format to CUPS-raster format conversion.8smallrasterto [printers specific]
CUPS ships with quite different raster drivers processing CUPS
raster. On my system I find in /usr/lib/cups/filter/ these:
rastertoalps, rastertobj, rastertoepson, rastertoescp,
rastertopcl, rastertoturboprint, rastertoapdk, rastertodymo,
rastertoescp, rastertohp, and
rastertoprinter. Don't worry if you have less
than this; some of these are installed by commercial add-ons to CUPS
(like rastertoturboprint), others (like
rastertoprinter) by third-party driver
development projects (such as Gimp-Print) wanting to cooperate as
closely as possible with CUPS.
Raster to printer-specific formats.9smallCUPS Backends
The last part of any CUPS filtering chain is a backend. Backends
are special programs that send the print-ready file to the final
device. There is a separate backend program for any transfer
protocol of sending print jobs over the network, or for every local
interface. Every CUPS print queue needs to have a CUPS device-URI
associated with it. The device URI is the way to encode the backend
used to send the job to its destination. Network device-URIs are using
two slashes in their syntax, local device URIs only one, as you can
see from the following list. Keep in mind that local interface names
may vary much from my examples, if your OS is not Linux:
usb
This backend sends print files to USB-connected printers. An
example for the CUPS device-URI to use is:
usb:/dev/usb/lp0.
serial
This backend sends print files to serially connected printers.
An example for the CUPS device-URI to use is:
serial:/dev/ttyS0?baud=11500.
parallel
This backend sends print files to printers connected to the
parallel port. An example for the CUPS device-URI to use is:
parallel:/dev/lp0.
SCSI
This backend sends print files to printers attached to the
SCSI interface. An example for the CUPS device-URI to use is:
scsi:/dev/sr1.
lpd
This backend sends print files to LPR/LPD connected network
printers. An example for the CUPS device-URI to use is:
lpd://remote_host_name/remote_queue_name.
AppSocket/HP JetDirect
This backend sends print files to AppSocket (a.k.a. "HP
JetDirect") connected network printers. An example for the CUPS
device-URI to use is:
socket://10.11.12.13:9100.
ipp
This backend sends print files to IPP connected network
printers (or to other CUPS servers). Examples for CUPS device-URIs
to use are:
ipp:://192.193.194.195/ipp
(for many HP printers) or
ipp://remote_cups_server/printers/remote_printer_name.
http
This backend sends print files to HTTP connected printers.
(The http:// CUPS backend is only a symlink to the ipp:// backend.)
Examples for the CUPS device-URIs to use are:
http:://192.193.194.195:631/ipp
(for many HP printers) or
http://remote_cups_server:631/printers/remote_printer_name.
smb
This backend sends print files to printers shared by a Windows
host. An example for CUPS device-URIs that may be used includes:
smb://workgroup/server/printersharenamesmb://server/printersharenamesmb://username:password@workgroup/server/printersharenamesmb://username:password@server/printersharename
The smb:// backend is a symlink to the Samba utility
smbspool (does not ship with CUPS). If the
symlink is not present in your CUPS backend directory, have your
root user create it: ln -s `which smbspool'
/usr/lib/cups/backend/smb.
It is easy to write your own backends as shell or Perl scripts, if you
need any modification or extension to the CUPS print system. One
reason could be that you want to create special printers that send
the print-jobs as email (through a mailto:/ backend), convert them to
PDF (through a pdfgen:/ backend) or dump them to /dev/null. (In
fact I have the system-wide default printer set up to be connected to
a devnull:/ backend: there are just too many people sending jobs
without specifying a printer, or scripts and programs which do not name
a printer. The system-wide default deletes the job and sends a polite
email back to the $USER asking him to always specify the correct
printer name.)
Not all of the mentioned backends may be present on your system or
usable (depending on your hardware configuration). One test for all
available CUPS backends is provided by the lpinfo
utility. Used with the parameter, it lists
all available backends:
&prompt;lpinfo -vThe Role of cupsomatic/foomaticcupsomaticfoomaticcupsomatic filters may be the most widely used on CUPS
installations. You must be clear about the fact that these were not
developed by the CUPS people. They are a third party add-on to
CUPS. They utilize the traditional Ghostscript devices to render jobs
for CUPS. When troubleshooting, you should know about the
difference. Here the whole rendering process is done in one stage,
inside Ghostscript, using an appropriate device for the target
printer. cupsomatic uses PPDs that are generated from the Foomatic
Printer & Driver Database at Linuxprinting.org.
You can recognize these PPDs from the line calling the
cupsomatic filter:
*cupsFilter: "application/vnd.cups-postscript 0 cupsomatic"
You may find this line among the first 40 or so lines of the PPD
file. If you have such a PPD installed, the printer shows up in the
CUPS Web interface with a foomatic namepart for
the driver description. cupsomatic is a Perl script that runs
Ghostscript with all the complicated command line options
auto-constructed from the selected PPD and command line options give to
the print-job.
point 'n' print
However, cupsomatic is now deprecated. Its PPDs (especially the first
generation of them, still in heavy use out there) are not meeting the
Adobe specifications. You might also suffer difficulties when you try
to download them with Point'n'Print to Windows clients. A better
and more powerful successor is now in a stable beta-version: it is called foomatic-rip. To use
foomatic-rip as a filter with CUPS, you need the new-type PPDs. These
have a similar but different line:
*cupsFilter: "application/vnd.cups-postscript 0 foomatic-rip"
The PPD generating engine at Linuxprinting.org has been revamped.
The new PPDs comply to the Adobe spec. On top, they also provide a
new way to specify different quality levels (hi-res photo, normal
color, grayscale, and draft) with a single click, whereas before you
could have required five or more different selections (media type,
resolution, inktype and dithering algorithm). There is support for
custom-size media built in. There is support to switch
print-options from page to page in the middle of a job. And the
best thing is the new foomatic-rip now works seamlessly with all
legacy spoolers too (like LPRng, BSD-LPD, PDQ, PPR and so on), providing
for them access to use PPDs for their printing.
The Complete Picture
If you want to see an overview of all the filters and how they
relate to each other, the complete picture of the puzzle is at the end
of this document.
mime.convs
CUPS auto-constructs all possible filtering chain paths for any given
MIME type, and every printer installed. But how does it decide in
favor or against a specific alternative? (There may often be cases
where there is a choice of two or more possible filtering chains for
the same target printer.) Simple. You may have noticed the figures in
the third column of the mime.convs file. They represent virtual costs
assigned to this filter. Every possible filtering chain will sum up to
a total filter cost. CUPS decides for the most inexpensive route.
The setting of FilterLimit 1000 in
cupsd.conf will not allow more filters to
run concurrently than will consume a total of 1000 virtual filter
cost. This is an efficient way to limit the load of any CUPS
server by setting an appropriate FilterLimit value. A FilterLimit of
200 allows roughly one job at a time, while a FilterLimit of 1000 allows
approximately five jobs maximum at a time.
Raw Printing
You can tell CUPS to print (nearly) any file raw. Raw means it
will not be filtered. CUPS will send the file to the printer as is
without bothering if the printer is able to digest it. Users need to
take care themselves that they send sensible data formats only. Raw
printing can happen on any queue if the -o raw option is specified
on the command line. You can also set up raw-only queues by simply not
associating any PPD with it. This command:
&prompt;lpadmin -P rawprinter -v socket://11.12.13.14:9100 -E
sets up a queue named rawprinter, connected via the socket
protocol (a.k.a. HP JetDirect) to the device at IP address
11.12.1.3.14, using port 9100. (If you had added a PPD with
-P /path/to/PPD to this command line, you would
have installed a normal print queue.
CUPS will automatically treat each job sent to a queue as a raw one,
if it can't find a PPD associated with the queue. However, CUPS will
only send known MIME types (as defined in its own mime.types file) and
refuse others.
application/octet-stream Printing
Any MIME type with no rule in the
/etc/cups/mime.types file is regarded as unknown
or application/octet-stream and will not be
sent. Because CUPS refuses to print unknown MIME types per default,
you will probably have experienced the fact that print jobs originating
from Windows clients were not printed. You may have found an error
message in your CUPS logs like:
Unable to convert file 0 to printable format for job
To enable the printing of application/octet-stream files, edit
these two files:
/etc/cups/mime.convs/etc/cups/mime.types
Both contain entries (at the end of the respective files) which must
be uncommented to allow RAW mode operation for
application/octet-stream. In /etc/cups/mime.types
make sure this line is present:
application/octet-stream
application/octet-stream
This line (with no specific auto-typing rule set) makes all files
not otherwise auto-typed a member of application/octet-stream. In
/etc/cups/mime.convs, have this
line:
application/octet-stream application/vnd.cups-raw 0 -
MIME
This line tells CUPS to use the Null Filter
(denoted as -, doing nothing at all) on
application/octet-stream, and tag the result as
application/vnd.cups-raw. This last one is
always a green light to the CUPS scheduler to now hand the file over
to the backend connecting to the printer and sending it over.
Editing the mime.convs and the
mime.types file does not
enforceraw printing, it only
allows it.
Background
CUPS being a more security-aware printing system than traditional ones
does not by default allow one to send deliberate (possibly binary)
data to printing devices. (This could be easily abused to launch a
Denial of Service attack on your printer(s), causing at least the loss
of a lot of paper and ink...) Unknown data are regarded by CUPS
as MIME typeapplication/octet-stream. While you
can send data raw, the MIME type for these must
be one that is known to CUPS and an allowed one. The file
/etc/cups/mime.types defines the rules of how CUPS
recognizes MIME types. The file
/etc/cups/mime.convs decides which file
conversion filter(s) may be applied to which MIME types.
PostScript Printer Descriptions (PPDs) for Non-PS PrintersPPD
Originally PPDs were meant to be used for PostScript printers
only. Here, they help to send device-specific commands and settings
to the RIP which processes the job file. CUPS has extended this
scope for PPDs to cover non-PostScript printers too. This was not
difficult, because it is a standardized file format. In a way
it was logical too: CUPS handles PostScript and uses a PostScript
RIP (Ghostscript) to process the job files. The only difference is:
a PostScript printer has the RIP built-in, for other types of
printers the Ghostscript RIP runs on the host computer.
PPDs for a non-PS printer have a few lines that are unique to
CUPS. The most important one looks similar to this:
application/vnd.cups-raster
*cupsFilter: application/vnd.cups-raster 66 rastertoprinter
It is the last piece in the CUPS filtering puzzle. This line tells the
CUPS daemon to use as a last filter rastertoprinter. This filter
should be served as input an application/vnd.cups-raster MIME type
file. Therefore, CUPS should auto-construct a filtering chain, which
delivers as its last output the specified MIME type. This is then
taken as input to the specified rastertoprinter filter. After this
the last filter has done its work (rastertoprinter is a Gimp-Print
filter), the file should go to the backend, which sends it to the
output device.
CUPS by default ships only a few generic PPDs, but they are good for
several hundred printer models. You may not be able to control
different paper trays, or you may get larger margins than your
specific model supports. See PPDs shipped with CUPS for summary information.
PPDs shipped with CUPSPPD filePrinter typedeskjet.ppdolder HP inkjet printers and compatibledeskjet2.ppdnewer HP inkjet printers and compatible dymo.ppdlabel printers epson9.ppdEpson 24pin impact printers and compatible epson24.ppdEpson 24pin impact printers and compatible okidata9.ppdOkidata 9pin impact printers and compatible okidat24.ppdOkidata 24pin impact printers and compatible stcolor.ppdolder Epson Stylus Color printers stcolor2.ppdnewer Epson Stylus Color printers stphoto.ppdolder Epson Stylus Photo printers stphoto2.ppdnewer Epson Stylus Photo printers laserjet.ppdall PCL printers. Further below is a discussion
of several other driver/PPD-packages suitable for use with CUPS.
cupsomatic/foomatic-rip Versus native CUPS Printingcupsomaticfoomatic-rip
Native CUPS rasterization works in two steps:
First is the pstoraster step. It uses the special CUPS
ESPGhostscript
device from ESP Ghostscript 7.05.x as its tool.
Second comes the rasterdriver step. It uses various
device-specific filters; there are several vendors who provide good
quality filters for this step. Some are free software, some are
shareware/non-free and some are proprietary.
Often this produces better quality (and has several more
advantages) than other methods.
cupsomatic/foomatic Processing versus Native CUPS.10small
One other method is the cupsomatic/foomatic-rip
way. Note that cupsomatic is not made by the CUPS
developers. It is an independent contribution to printing development,
made by people from Linuxprinting.org see also http://www.cups.org/cups-help.html.
cupsomatic is no longer developed and maintained and is no longer
supported. It has now been replaced by
foomatic-rip. foomatic-rip is a complete re-write
of the old cupsomatic idea, but very much improved and generalized to
other (non-CUPS) spoolers. An upgrade to foomatic-rip is strongly
advised, especially if you are upgrading to a recent version of CUPS,
too.
cupsomaticfoomatic
Both the cupsomatic (old) and the foomatic-rip (new) methods from
Linuxprinting.org use the traditional Ghostscript print file
processing, doing everything in a single step. It therefore relies on
all the other devices built into Ghostscript. The quality is as
good (or bad) as Ghostscript rendering is in other spoolers. The
advantage is that this method supports many printer models not
supported (yet) by the more modern CUPS method.
Of course, you can use both methods side by side on one system (and
even for one printer, if you set up different queues) and find out
which works best for you.
cupsomatic kidnaps the printfile after the
application/vnd.cups-postscript stage and
deviates it through the CUPS-external, system-wide Ghostscript
installation. Therefore the printfile bypasses the pstoraster filter
(and also bypasses the CUPS-raster-drivers
rastertosomething). After Ghostscript finished its rasterization,
cupsomatic hands the rendered file directly to the CUPS backend. The
flowchart in cupsomatic/foomatic processing versus Native CUPS illustrates the difference between native CUPS
rendering and the Foomatic/cupsomatic method.
Examples for Filtering Chains
Here are a few examples of commonly occurring filtering chains to
illustrate the workings of CUPS.
Assume you want to print a PDF file to an HP JetDirect-connected
PostScript printer, but you want to print the pages 3-5, 7, 11-13
only, and you want to print them two-up and duplex:
Your print options (page selection as required, two-up,
duplex) are passed to CUPS on the command line.The (complete) PDF file is sent to CUPS and auto-typed as
application/pdf.The file therefore must first pass the
pdftops pre-filter, which produces PostScript
MIME type application/postscript (a preview here
would still show all pages of the original PDF).The file then passes the pstops
filter that applies the command line options: it selects the pages
2-5, 7 and 11-13, creates an imposed layout 2 pages on 1 sheet and
inserts the correct duplex command (as defined in the printer's
PPD) into the new PostScript file; the file is now of PostScript MIME
type
application/vnd.cups-postscript.The file goes to the socket
backend, which transfers the job to the printers.
The resulting filter chain, therefore, is as drawn in PDF to socket chain.
pdftosocketPDF to socket chain.
Assume you want to print the same filter to an USB-connected
Epson Stylus Photo printer installed with the CUPS
stphoto2.ppd. The first few filtering stages
are nearly the same:
Your print options (page selection as required, two-up,
duplex) are passed to CUPS on the command-line.The (complete) PDF file is sent to CUPS and auto-typed as
application/pdf.The file must first pass the
pdftops pre-filter, which produces PostScript
MIME type application/postscript (a preview here
would still show all pages of the original PDF).The file then passes the pstops filter that applies
the command-line options: it selects the pages 2-5, 7 and 11-13,
creates an imposed layout two pages on one sheet and inserts the
correct duplex command... (Oops &smbmdash; this printer and PPD
do not support duplex printing at all &smbmdash; so this option will
be ignored) into the new PostScript file; the file is now of PostScript
MIME type
application/vnd.cups-postscript.The file then passes the
pstoraster stage and becomes MIME type
application/
cups-raster.Finally, the rastertoepson filter
does its work (as indicated in the printer's PPD), creating the
printer-specific raster data and embedding any user-selected
print-options into the print data stream.The file goes to the usb backend,
which transfers the job to the printers.
The resulting filter chain therefore is as drawn in this figure.
pdftoepsonusbPDF to USB chain.Sources of CUPS Drivers/PPDs
On the Internet you can now find many thousands of CUPS-PPD files
(with their companion filters), in many national languages
supporting more than thousand non-PostScript models.
ESPPrint ProPrintProESP Print ProESP
PrintPro (commercial,
non-free) is packaged with more than three thousand PPDs, ready for
successful use out of the box on Linux, Mac OS X, IBM-AIX,
HP-UX, Sun-Solaris, SGI-IRIX, Compaq Tru64, Digital UNIX, and some
more commercial Unices (it is written by the CUPS developers
themselves and its sales help finance the further development of
CUPS, as they feed their creators).The Gimp-Print-Project
(GPL, free software)
provides around 140 PPDs (supporting nearly 400 printers, many driven
to photo quality output), to be used alongside the Gimp-Print CUPS
filters.TurboPrint
(shareware, non-free) supports
roughly the same amount of printers in excellent
quality.OMNI
(LPGL, free) is a package made by IBM, now containing support for more
than 400 printers, stemming from the inheritance of IBM OS/2 Know-How
ported over to Linux (CUPS support is in a beta-stage at
present).HPIJS
(BSD-style licenses, free)
supports around 150 of HP's own printers and is also providing
excellent print quality now (currently available only via the Foomatic
path).Foomatic/cupsomatic
(LPGL, free) from Linuxprinting.org are providing PPDs for practically every Ghostscript
filter known to the world (including Omni, Gimp-Print and HPIJS).Printing with Interface Scripts
CUPS also supports the usage of interface scripts as known from
System V AT&T printing systems. These are often used for PCL
printers, from applications that generate PCL print jobs. Interface
scripts are specific to printer models. They have a similar role as
PPDs for PostScript printers. Interface scripts may inject the Escape
sequences as required into the print data stream, if the user has
chosen to select a certain paper tray, or print landscape, or use A3
paper, etc. Interfaces scripts are practically unknown in the Linux
realm. On HP-UX platforms they are more often used. You can use any
working interface script on CUPS too. Just install the printer with
the -i option:
&rootprompt;lpadmin -p pclprinter -v socket://11.12.13.14:9100 \
-i /path/to/interface-script
Interface scripts might be the unknown animal to many. However,
with CUPS they provide the easiest way to plug in your own
custom-written filtering script or program into one specific print
queue (some information about the traditional usage of interface scripts is
to be found at http://playground.sun.com/printing/documentation/interface.html).
Network Printing (Purely Windows)
Network printing covers a lot of ground. To understand what exactly
goes on with Samba when it is printing on behalf of its Windows
clients, let's first look at a purely Windows setup: Windows clients
with a Windows NT print server.
From Windows Clients to an NT Print Server
Windows clients printing to an NT-based print server have two
options. They may:
GDIEMFExecute the driver locally and render the GDI output
(EMF) into the printer-specific format on their own.
Send the GDI output (EMF) to the server, where the
driver is executed to render the printer specific
output.
Both print paths are shown in the flowcharts Print driver
execution on the client and Print driver execution on the server.
Driver Execution on the Client
In the first case the print server must spool the file as raw,
meaning it shouldn't touch the jobfile and try to convert it in any
way. This is what a traditional UNIX-based print server can do too, and
at a better performance and more reliably than an NT print server. This
is what most Samba administrators probably are familiar with. One
advantage of this setup is that this spooling-only print server may
be used even if no driver(s) for UNIX are available it is sufficient
to have the Windows client drivers available; and installed on the
clients.
Print driver execution on the client.11smallDriver Execution on the ServerPostScriptPCLESC/PEMFGDI
The other path executes the printer driver on the server. The client
transfers print files in EMF format to the server. The server uses the
PostScript, PCL, ESC/P or other driver to convert the EMF file into
the printer-specific language. It is not possible for UNIX to do the
same. Currently, there is no program or method to convert a Windows
client's GDI output on a UNIX server into something a printer could
understand.
Print driver execution on the server.12small
However, there is something similar possible with CUPS. Read on.
Network Printing (Windows Clients &smbmdash; UNIX/Samba Print
Servers)
Since UNIX print servers cannot execute the Win32
program code on their platform, the picture is somewhat
different. However, this does not limit your options all that
much. On the contrary, you may have a way here to implement printing
features that are not possible otherwise.
From Windows Clients to a CUPS/Samba Print Server
Here is a simple recipe showing how you can take advantage of CUPS'
powerful features for the benefit of your Windows network printing
clients:
Let the Windows clients send PostScript to the CUPS
server.Let the CUPS server render the PostScript into device-specific raster format.
This requires the clients to use a PostScript driver (even if the
printer is a non-PostScript model. It also requires that you have a
driver on the CUPS server.
First, to enable CUPS-based printing through Samba the
following options should be set in your &smb.conf; file [global]
section:
cupscups
When these parameters are specified, all manually set print directives
(like , or ) in &smb.conf; (as well as
in Samba itself) will be ignored. Instead, Samba will directly
interface with CUPS through its application program interface (API),
as long as Samba has been compiled with CUPS library (libcups)
support. If Samba has not been compiled with CUPS support, and if no
other print commands are set up, then printing will use the
System V AT&T command set, with the -oraw
option automatically passing through (if you want your own defined
print commands to work with a Samba that has CUPS support compiled in,
simply use sysv).
Printing via CUPS/Samba server.13smallSamba Receiving Job-files and Passing Them to CUPS
Samba must use its own spool directory (it is set
by a line similar to /var/spool/samba,
in the [printers] or
[printername] section of
&smb.conf;). Samba receives the job in its own
spool space and passes it into the spool directory of CUPS (the CUPS
spooling directory is set by the RequestRoot
directive, in a line that defaults to RequestRoot
/var/spool/cups). CUPS checks the access rights of its
spool dir and resets it to healthy values with every restart. We have
seen quite a few people who had used a common spooling space for Samba
and CUPS, and were struggling for weeks with this problem.
A Windows user authenticates only to Samba (by whatever means is
configured). If Samba runs on the same host as CUPS, you only need to
allow localhost to print. If they run on different machines, you
need to make sure the Samba host gets access to printing on CUPS.
Network PostScript RIP
This section discusses the use of CUPS filters on the server &smbmdash; configuration where
clients make use of a PostScript driver with CUPS-PPDs.
PostScriptPCLPJL
PPDs can control all print device options. They are usually provided
by the manufacturer, if you own a PostScript printer, that is. PPD
files (PostScript Printer Descriptions) are always a component of
PostScript printer drivers on MS Windows or Apple Mac OS systems. They
are ASCII files containing user-selectable print options, mapped to
appropriate PostScript, PCL or PJL commands for the target
printer. Printer driver GUI dialogs translate these options
on-the-fly into buttons and drop-down lists for the user to select.
CUPS can load, without any conversions, the PPD file from any Windows
(NT is recommended) PostScript driver and handle the options. There is
a Web browser interface to the print options (select http://localhost:631/printers/
and click on one Configure Printer button to see
it), or a command line interface (see man lpoptions
or see if you have lphelp on your system). There are also some
different GUI front-ends on Linux/UNIX, which can present PPD options
to users. PPD options are normally meant to be evaluated by the
PostScript RIP on the real PostScript printer.
PPDs for Non-PS Printers on UNIXPPD
CUPS does not limit itself to real PostScript printers in its usage
of PPDs. The CUPS developers have extended the scope of the PPD
concept to also describe available device and driver options for
non-PostScript printers through CUPS-PPDs.
This is logical, as CUPS includes a fully featured PostScript
interpreter (RIP). This RIP is based on Ghostscript. It can process
all received PostScript (and additionally many other file formats)
from clients. All CUPS-PPDs geared to non-PostScript printers contain
an additional line, starting with the keyword
*cupsFilter. This line tells the CUPS print
system which printer-specific filter to use for the interpretation of
the supplied PostScript. Thus CUPS lets all its printers appear as
PostScript devices to its clients, because it can act as a PostScript
RIP for those printers, processing the received PostScript code into a
proper raster print format.
PPDs for Non-PS Printers on WindowsPPD
CUPS-PPDs can also be used on Windows-Clients, on top of a
core PostScript driver (now recommended is the "CUPS PostScript
Driver for Windows NT/200x/XP"; you can also use the Adobe one, with
limitations). This feature enables CUPS to do a few tricks no other
spooler can do:
Act as a networked PostScript RIP (Raster Image
Processor), handling print files from all client platforms in a uniform
way.Act as a central accounting and billing server, since
all files are passed through the pstops filter and are, therefore,
logged in the CUPS page_log file.
Note: this cannot happen with raw print jobs,
which always remain unfiltered per definition.Enable clients to consolidate on a single PostScript
driver, even for many different target printers.
Using CUPS PPDs on Windows clients enables these to control
all print job settings just as a UNIX client can do.
Windows Terminal Servers (WTS) as CUPS Clients
This setup may be of special interest to people experiencing major
problems in WTS environments. WTS often need a multitude of
non-PostScript drivers installed to run their clients' variety of
different printer models. This often imposes the price of much
increased instability.
Printer Drivers Running in Kernel Mode Cause Many
Problems
In Windows NT printer drivers which run in Kernel
Mode, introduces a high risk for the stability of the system
if the driver is not really stable and well-tested. And there are a
lot of bad drivers out there! Especially notorious is the example
of the PCL printer driver that had an additional sound module
running, to notify users via sound-card of their finished jobs. Do I
need to say that this one was also reliably causing blue screens
of death on a regular basis?
PostScript drivers are generally well tested. They are not known
to cause any problems, even though they also run in kernel mode. This
might be because there have been so far only two different PostScript
drivers: the ones from Adobe and the one from Microsoft. Both are
well tested and are as stable as you can imagine on
Windows. The CUPS driver is derived from the Microsoft one.
Workarounds Impose Heavy Limitations
In many cases, in an attempt to work around this problem, site
administrators have resorted to restricting the allowed drivers installed
on their WTS to one generic PCL and one PostScript driver. This,
however, restricts the clients in the number of printer options
available for them. Often they can't get out more than simplex
prints from one standard paper tray, while their devices could do much
better, if driven by a different driver!
CUPS: A Magical Stone?PPDPostScript
Using a PostScript driver, enabled with a CUPS-PPD, seems to be a very
elegant way to overcome all these shortcomings. There are, depending
on the version of Windows OS you use, up to three different PostScript
drivers available: Adobe, Microsoft and CUPS PostScript drivers. None
of them is known to cause major stability problems on WTS (even if
used with many different PPDs). The clients will be able to (again)
chose paper trays, duplex printing and other settings. However, there
is a certain price for this too: a CUPS server acting as a PostScript
RIP for its clients requires more CPU and RAM than when just acting as
a raw spooling device. Plus, this setup is not yet widely tested,
although the first feedbacks look very promising.
PostScript Drivers with No Major Problems &smbmdash; Even in Kernel
ModeDDK
More recent printer drivers on W200x and XP no longer run in kernel mode
(unlike Windows NT). However, both operating systems can still
use the NT drivers, running in kernel mode (you can roughly tell which
is which as the drivers in subdirectory 2 of W32X86 are old
ones). As was said before, the Adobe as well as the Microsoft
PostScript drivers are not known to cause any stability problems. The
CUPS driver is derived from the Microsoft one. There is a simple
reason for this: The MS DDK (Device Development Kit) for Windows NT (which
used to be available at no cost to licensees of Visual Studio)
includes the source code of the Microsoft driver, and licensees of
Visual Studio are allowed to use and modify it for their own driver
development efforts. This is what the CUPS people have done. The
license does not allow them to publish the whole of the source code.
However, they have released the diff under the GPL, and if you are
the owner of an MS DDK for Windows NT, you can check the driver yourself.
Configuring CUPS for Driver Download
As we have said before, all previously known methods to prepare client
printer drivers on the Samba server for download and Point'n'Print
convenience of Windows workstations are working with CUPS, too. These
methods were described in the previous chapter. In reality, this is a
pure Samba business and only relates to the Samba/Windows client
relationship.
cupsaddsmb: The Unknown Utilitycupsaddsmb
The cupsaddsmb utility (shipped with all current CUPS versions) is an
alternate method to transfer printer drivers into the Samba
[print$] share. Remember, this share is where
clients expect drivers deposited and setup for download and
installation. It makes the sharing of any (or all) installed CUPS
printers quite easy. cupsaddsmb can use the Adobe PostScript driver as
well as the newly developed CUPS PostScript Driver for
Windows NT/200x/XP. cupsaddsmb does
not work with arbitrary vendor printer drivers,
but only with the exact driver files that are
named in its man page.
The CUPS printer driver is available from the CUPS download site. Its
package name is cups-samba-[version].tar.gz . It
is preferred over the Adobe drivers since it has a number of
advantages:
It supports a much more accurate page
accounting.It supports banner pages, and page labels on all
printers.It supports the setting of a number of job IPP
attributes (such as job-priority, page-label and
job-billing).
However, currently only Windows NT, 2000 and XP are supported by the
CUPS drivers. You will also need to get the respective part of Adobe driver
if you need to support Windows 95, 98 and ME clients.
Prepare Your &smb.conf; for cupsaddsmb
Prior to running cupsaddsmb, you need the settings in
&smb.conf; as shown in the next example:
smb.conf for cupsaddsmb usage[global]yescupscups[printers]All Printers/var/spool/sambanoyessetting depends on your requirementsyesnoyesroot[print$]Printer Drivers/etc/samba/driversyesnoyesrootCUPS PostScript Driver for Windows NT/200x/XPPostScript
CUPS users may get the exact same packages from http://www.cups.org/software.html.
It is a separate package from the CUPS base software files, tagged as
CUPS 1.1.x Windows NT/200x/XP Printer Driver for Samba
(tar.gz, 192k). The filename to download is
cups-samba-1.1.x.tar.gz. Upon untar and unzipping,
it will reveal these files:
&rootprompt;tar xvzf cups-samba-1.1.19.tar.gz
cups-samba.install
cups-samba.license
cups-samba.readme
cups-samba.remove
cups-samba.ss
ESPmeta packagerEPMESP meta packager
These have been packaged with the ESP meta packager software
EPM. The *.install and
*.remove files are simple shell scripts, which
untars the *.ss (the *.ss is
nothing else but a tar-archive, which can be untarred by tar
too). Then it puts the content into
/usr/share/cups/drivers/. This content includes three
files:
&rootprompt;tar tv cups-samba.ss
cupsdrvr.dll
cupsui.dll
cups.hlp
The cups-samba.install shell scripts are easy to
handle:
&rootprompt;./cups-samba.install
[....]
Installing software...
Updating file permissions...
Running post-install commands...
Installation is complete.
The script should automatically put the driver files into the
/usr/share/cups/drivers/ directory.
Due to a bug, one recent CUPS release puts the
cups.hlp driver file
into/usr/share/drivers/ instead of
/usr/share/cups/drivers/. To work around this,
copy/move the file (after running the
./cups-samba.install script) manually to the
correct place.
&rootprompt;cp /usr/share/drivers/cups.hlp /usr/share/cups/drivers/DDK
This new CUPS PostScript driver is currently binary-only, but free of
charge. No complete source code is provided (yet). The reason is that
it has been developed with the help of the Microsoft Driver
Developer Kit (DDK) and compiled with Microsoft Visual
Studio 6. Driver developers are not allowed to distribute the whole of
the source code as free software. However, CUPS developers released
the diff in source code under the GPL, so anybody with a license of
Visual Studio and a DDK will be able to compile for him/herself.
Recognizing Different Driver Files
The CUPS drivers do not support the older Windows 95/98/Me, but only
the Windows NT/2000/XP client.
Windows NT, 2000 and XP are supported by:cups.hlpcupsdrvr.dllcupsui.dll
Adobe drivers are available for the older Windows 95/98/Me as well as
the Windows NT/2000/XP clients. The set of files is different from the
different platforms.
Windows 95, 98 and ME are supported by:ADFONTS.MFMADOBEPS4.DRVADOBEPS4.HLPDEFPRTR2.PPDICONLIB.DLLPSMON.DLLWindows NT, 2000 and XP are supported by:ADOBEPS5.DLLADOBEPSU.DLLADOBEPSU.HLP
If both the Adobe driver files and the CUPS driver files for the
support of Windows NT/200x/XP are present in FIXME, the Adobe ones will be ignored
and the CUPS ones will be used. If you prefer &smbmdash; for whatever reason
&smbmdash; to use Adobe-only drivers, move away the three CUPS driver files. The
Windows 9x/Me clients use the Adobe drivers in any case.
Acquiring the Adobe Driver Files
Acquiring the Adobe driver files seems to be unexpectedly difficult
for many users. They are not available on the Adobe Web site as single
files and the self-extracting and/or self-installing Windows-.exe is
not easy to locate either. Probably you need to use the included
native installer and run the installation process on one client
once. This will install the drivers (and one Generic PostScript
printer) locally on the client. When they are installed, share the
Generic PostScript printer. After this, the client's
[print$] share holds the Adobe files, from
where you can get them with smbclient from the CUPS host.
ESP Print Pro PostScript Driver for Windows NT/200x/XPESPPrint Pro
Users of the ESP Print Pro software are able to install their Samba
drivers package for this purpose with no problem. Retrieve the driver
files from the normal download area of the ESP Print Pro software
at http://www.easysw.com/software.html.
You need to locate the link labeled SAMBA among the
Download Printer Drivers for ESP Print Pro 4.x
area and download the package. Once installed, you can prepare any
driver by simply highlighting the printer in the Printer Manager GUI
and select Export Driver... from the menu. Of
course you need to have prepared Samba beforehand to handle the
driver files; i.e., setup the [print$]
share, and so on. The ESP Print Pro package includes the CUPS driver files
as well as a (licensed) set of Adobe drivers for the Windows 95/98/Me
client family.
Caveats to be Consideredcupsaddsmb
Once you have run the install script (and possibly manually
moved the cups.hlp file to
/usr/share/cups/drivers/), the driver is
ready to be put into Samba's [print$] share (which often maps to
/etc/samba/drivers/ and contains a subdirectory
tree with WIN40 and
W32X86 branches). You do this by running
cupsaddsmb (see also man cupsaddsmb for
CUPS since release 1.1.16).
Single Sign On
You may need to put root into the smbpasswd file by running
smbpasswd; this is especially important if you
should run this whole procedure for the first time, and are not
working in an environment where everything is configured for
single sign on to a Windows Domain Controller.
Once the driver files are in the [print$] share
and are initialized, they are ready to be downloaded and installed by
the Windows NT/200x/XP clients.
Win 9x/Me clients will not work with the CUPS PostScript driver. For
these you still need to use the ADOBE*.*
drivers as previously stated.
It is not harmful if you still have the
ADOBE*.* driver files from previous
installations in the /usr/share/cups/drivers/
directory. The new cupsaddsmb (from 1.1.16) will
automatically prefer its own drivers if it finds both.
"Printers" folder
Should your Windows clients have had the old ADOBE*.*
files for the Adobe PostScript driver installed, the download and
installation of the new CUPS PostScript driver for Windows NT/200x/XP
will fail at first. You need to wipe the old driver from the clients
first. It is not enough to delete the printer, as the driver files
will still be kept by the clients and re-used if you try to re-install
the printer. To really get rid of the Adobe driver files on the
clients, open the Printers folder (possibly via Start > Settings > Control Panel > Printers),
right-click on the folder background and select Server
Properties. When the new dialog opens, select the
Drivers tab. On the list select the driver you
want to delete and click the Delete
button. This will only work if there is not one single printer left
that uses that particular driver. You need to delete all printers
using this driver in the Printers folder first. You will need
Administrator privileges to do this.
rpcclientsetdriver
Once you have successfully downloaded the CUPS PostScript driver to a
client, you can easily switch all printers to this one by proceeding
as described in Classical Printing Support. Either change
a driver for an existing printer by running the Printer Properties
dialog, or use rpcclient with the
setdriver subcommand.
Windows CUPS PostScript Driver Versus Adobe Driver
Are you interested in a comparison between the CUPS and the Adobe
PostScript drivers? For our purposes these are the most important
items that weigh in favor of the CUPS ones:
No hassle with the Adobe EULA.No hassle with the question Where do I
get the ADOBE*.* driver files from?PJL
The Adobe drivers (on request of the printer PPD
associated with them) often put a PJL header in front of the main
PostScript part of the print file. Thus, the printfile starts with
<1B >%-12345X or
<escape>%-12345X instead
of %!PS). This leads to the
CUPS daemon auto-typing the incoming file as a print-ready file,
not initiating a pass through the pstops filter (to speak more
technically, it is not regarded as the generic MIME-type
application/postscriptapplication/postscript, but as
the more special MIME type
application/cups.vnd-postscriptapplication/cups.vnd-postscript),
which therefore also leads to the page accounting in
/var/log/cups/page_log not
receiving the exact number of pages; instead the dummy page number
of 1 is logged in a standard setup).The Adobe driver has more options to mis-configure the
PostScript generated by it (like setting it inadvertently to
Optimize for Speed, instead of
Optimize for Portability, which
could lead to CUPS being unable to process it).The CUPS PostScript driver output sent by Windows
clients to the CUPS server is guaranteed to auto-type
as the generic MIME type application/postscript,
thus passing through the CUPS pstops filter and logging the
correct number of pages in the page_log for
accounting and quota purposes.The CUPS PostScript driver supports the sending of
additional standard (IPP) print options by Windows NT/200x/XP clients. Such
additional print options are: naming the CUPS standard
banner pages (or the custom ones, should they be
installed at the time of driver download), using the CUPS
page-label option, setting a
job-priority, and setting the scheduled
time of printing (with the option to support additional
useful IPP job attributes in the future).The CUPS PostScript driver supports the inclusion of
the new *cupsJobTicket comments at the
beginning of the PostScript file (which could be used in the future
for all sort of beneficial extensions on the CUPS side, but which will
not disturb any other applications as they will regard it as a comment
and simply ignore it).The CUPS PostScript driver will be the heart of the
fully fledged CUPS IPP client for Windows NT/200x/XP to be released soon
(probably alongside the first beta release for CUPS
1.2).Run cupsaddsmb (Quiet Mode)cupsaddsmbpoint 'n' print
The cupsaddsmb command copies the needed files into your
[print$] share. Additionally, the PPD
associated with this printer is copied from
/etc/cups/ppd/ to
[print$]. There the files wait for convenient
Windows client installations via Point'n'Print. Before we can run the
command successfully, we need to be sure that we can authenticate
toward Samba. If you have a small network, you are probably using user-level
security (user).
Here is an example of a successfully run cupsaddsmb command:
&rootprompt;cupsaddsmb -U root infotec_IS2027
Password for root required to access localhost via Samba: ['secret']
To share all printers and drivers, use the
parameter instead of a printer name. Since
cupsaddsmbexports the printer drivers to Samba, it should be
obvious that it only works for queues with a CUPS driver associated.
Run cupsaddsmb with Verbose Outputcupsaddsmb
Probably you want to see what's going on. Use the
parameter to get a more verbose output. The
output below was edited for better readability: all \ at the end of
a line indicate that I inserted an artificial line break plus some
indentation here:
You will see the root password for the Samba account printed on
screen.
rpcclientadddriverrpcclientsetdriver
&rootprompt;cupsaddsmb -U root -v infotec_2105
Password for root required to access localhost via &example.server.samba;:
Running command: smbclient //localhost/print\$ -N -U'root%secret' \
-c 'mkdir W32X86; \
put /var/spool/cups/tmp/3e98bf2d333b5 W32X86/infotec_2105.ppd; \
put /usr/share/cups/drivers/cupsdrvr.dll W32X86/cupsdrvr.dll; \
put /usr/share/cups/drivers/cupsui.dll W32X86/cupsui.dll; \
put /usr/share/cups/drivers/cups.hlp W32X86/cups.hlp'
added interface ip=10.160.51.60 bcast=10.160.51.255 nmask=255.255.252.0
Domain=[CUPS-PRINT] OS=[UNIX] Server=[Samba 2.2.7a]
NT_STATUS_OBJECT_NAME_COLLISION making remote directory \W32X86
putting file /var/spool/cups/tmp/3e98bf2d333b5 as \W32X86/infotec_2105.ppd
putting file /usr/share/cups/drivers/cupsdrvr.dll as \W32X86/cupsdrvr.dll
putting file /usr/share/cups/drivers/cupsui.dll as \W32X86/cupsui.dll
putting file /usr/share/cups/drivers/cups.hlp as \W32X86/cups.hlp
Running command: rpcclient localhost -N -U'root%secret'
-c 'adddriver "Windows NT x86" \
"infotec_2105:cupsdrvr.dll:infotec_2105.ppd:cupsui.dll:cups.hlp:NULL: \
RAW:NULL"'
cmd = adddriver "Windows NT x86" \
"infotec_2105:cupsdrvr.dll:infotec_2105.ppd:cupsui.dll:cups.hlp:NULL: \
RAW:NULL"
Printer Driver infotec_2105 successfully installed.
Running command: smbclient //localhost/print\$ -N -U'root%secret' \
-c 'mkdir WIN40; \
put /var/spool/cups/tmp/3e98bf2d333b5 WIN40/infotec_2105.PPD; \
put /usr/share/cups/drivers/ADFONTS.MFM WIN40/ADFONTS.MFM; \
put /usr/share/cups/drivers/ADOBEPS4.DRV WIN40/ADOBEPS4.DRV; \
put /usr/share/cups/drivers/ADOBEPS4.HLP WIN40/ADOBEPS4.HLP; \
put /usr/share/cups/drivers/DEFPRTR2.PPD WIN40/DEFPRTR2.PPD; \
put /usr/share/cups/drivers/ICONLIB.DLL WIN40/ICONLIB.DLL; \
put /usr/share/cups/drivers/PSMON.DLL WIN40/PSMON.DLL;'
added interface ip=10.160.51.60 bcast=10.160.51.255 nmask=255.255.252.0
Domain=[CUPS-PRINT] OS=[UNIX] Server=[Samba 2.2.7a]
NT_STATUS_OBJECT_NAME_COLLISION making remote directory \WIN40
putting file /var/spool/cups/tmp/3e98bf2d333b5 as \WIN40/infotec_2105.PPD
putting file /usr/share/cups/drivers/ADFONTS.MFM as \WIN40/ADFONTS.MFM
putting file /usr/share/cups/drivers/ADOBEPS4.DRV as \WIN40/ADOBEPS4.DRV
putting file /usr/share/cups/drivers/ADOBEPS4.HLP as \WIN40/ADOBEPS4.HLP
putting file /usr/share/cups/drivers/DEFPRTR2.PPD as \WIN40/DEFPRTR2.PPD
putting file /usr/share/cups/drivers/ICONLIB.DLL as \WIN40/ICONLIB.DLL
putting file /usr/share/cups/drivers/PSMON.DLL as \WIN40/PSMON.DLL
Running command: rpcclient localhost -N -U'root%secret' \
-c 'adddriver "Windows 4.0" \
"infotec_2105:ADOBEPS4.DRV:infotec_2105.PPD:NULL:ADOBEPS4.HLP: \
PSMON.DLL:RAW:ADOBEPS4.DRV,infotec_2105.PPD,ADOBEPS4.HLP,PSMON.DLL, \
ADFONTS.MFM,DEFPRTR2.PPD,ICONLIB.DLL"'
cmd = adddriver "Windows 4.0" "infotec_2105:ADOBEPS4.DRV:\
infotec_2105.PPD:NULL:ADOBEPS4.HLP:PSMON.DLL:RAW:ADOBEPS4.DRV,\
infotec_2105.PPD,ADOBEPS4.HLP,PSMON.DLL,ADFONTS.MFM,DEFPRTR2.PPD,\
ICONLIB.DLL"
Printer Driver infotec_2105 successfully installed.
Running command: rpcclient localhost -N -U'root%secret' \
-c 'setdriver infotec_2105 infotec_2105'
cmd = setdriver infotec_2105 infotec_2105
Successfully set infotec_2105 to driver infotec_2105.
If you look closely, you'll discover your root password was transferred
unencrypted over the wire, so beware! Also, if you look further,
you'll discover error messages like NT_STATUS_OBJECT_NAME_COLLISION in between. They occur, because the directories WIN40 and W32X86 already existed in the [print$] driver download share (from a previous driver installation). They are harmless here.
Understanding cupsaddsmbcupsaddsmb
What has happened? What did cupsaddsmb do? There are five stages of
the procedure:
IPP
Call the CUPS server via IPP and request the
driver files and the PPD file for the named printer.Store the files temporarily in the local
TEMPDIR (as defined in
cupsd.conf).Connect via smbclient to the Samba server's
[print$] share and put the files into the
share's WIN40 (for Windows 9x/Me) and W32X86/ (for Windows NT/200x/XP) subdirectories.rpcclientadddriver
Connect via rpcclient to the Samba server and
execute the adddriver command with the correct
parameters.rpcclientsetdriver
Connect via rpcclient to the Samba server a second
time and execute the setdriver command.
You can run the cupsaddsmb utility with parameters to
specify one remote host as Samba host and a second remote host as CUPS
host. Especially if you want to get a deeper understanding, it is a
good idea to try it and see more clearly what is going on (though in real
life most people will have their CUPS and Samba servers run on the
same host):
&rootprompt;cupsaddsmb -H sambaserver -h cupsserver -v printerHow to Recognize If cupsaddsmb Completed Successfully
You must always check if the utility completed
successfully in all fields. You need as a minimum these three messages
among the output:
Printer Driver infotec_2105 successfully
installed. # (for the W32X86 == Windows NT/200x/XP
architecture).Printer Driver infotec_2105 successfully
installed. # (for the WIN40 == Windows 9x/Me
architecture).Successfully set [printerXPZ] to driver
[printerXYZ].
These messages are probably not easily recognized in the general
output. If you run cupsaddsmb with the
parameter (which tries to prepare all active CUPS
printer drivers for download), you might miss if individual printers
drivers had problems installing properly. Here a redirection of the
output will help you analyze the results in retrospective.
If you get:
SetPrinter call failed!
result was WERR_ACCESS_DENIED
It means that you might have set yes for this printer.
Set it to no will solve the problem. Refer to man samba(5) for explanantion on
use client driver.
It is impossible to see any diagnostic output if you do not run
cupsaddsmb in verbose mode. Therefore, we strongly recommend to not
use the default quiet mode. It will hide any problems from you that
might occur.
cupsaddsmb with a Samba PDCcupsaddsmb
Can't get the standard cupsaddsmb command to run on a Samba PDC?
Are you asked for the password credential all over again and again and
the command just will not take off at all? Try one of these
variations:
&rootprompt;cupsaddsmb -U &example.workgroup;\\root -v printername
&rootprompt;cupsaddsmb -H &example.pdc.samba; -U &example.workgroup;\\root -v printername
&rootprompt;cupsaddsmb -H &example.pdc.samba; -U &example.workgroup;\\root -h cups-server -v printername
(Note the two backslashes: the first one is required to
escape the second one).
cupsaddsmb Flowchartcupsaddsmb
cupsaddsmb flowchart shows a chart about the procedures, command-flows and
data-flows of the cupaddsmb command. Note again: cupsaddsmb is
not intended to, and does not work with, raw queues!
cupsaddsmb flowchart.14smallInstalling the PostScript Driver on a Clientpoint 'n' print
After cupsaddsmb is completed, your driver is prepared for the clients to
use. Here are the steps you must perform to download and install it
via Point'n'Print. From a Windows client, browse to the CUPS/Samba
server:
"Printers" folder
Open the Printers
share of Samba in Network Neighborhood.Right-click on the printer in
question.From the opening context-menu select
Install... or
Connect... (depending on the Windows version you
use).
After a few seconds, there should be a new printer in your
client's localPrinters folder. On Windows
XP it will follow a naming convention of PrinterName on
SambaServer. (In my current case it is "infotec_2105 on
kde-bitshop"). If you want to test it and send your first job from
an application like Winword, the new printer appears in a
\\SambaServer\PrinterName entry in the
drop-down list of available printers.
PPDcupsaddsmb will only reliably work with CUPS version 1.1.15 or higher
and Samba from 2.2.4. If it does not work, or if the automatic printer
driver download to the clients does not succeed, you can still manually
install the CUPS printer PPD on top of the Adobe PostScript driver on
clients. Then point the client's printer queue to the Samba printer
share for a UNC type of connection:
&dosprompt;net use lpt1: \\sambaserver\printershare /user:ntadmin
should you desire to use the CUPS networked PostScript RIP
functions. (Note that user ntadmin needs to be a valid Samba user
with the required privileges to access the printershare.) This
sets up the printer connection in the traditional
LanMan way (not using MS-RPC).
Avoiding Critical PostScript Driver Settings on the Client
Printing works, but there are still problems. Most jobs print
well, some do not print at all. Some jobs have problems with fonts,
which do not look very good. Some jobs print fast and some are
dead-slow. Many of these problems can be greatly reduced or even
completely eliminated if you follow a few guidelines. Remember, if
your print device is not PostScript-enabled, you are treating your
Ghostscript installation on your CUPS host with the output your client
driver settings produce. Treat it well:
Avoid the PostScript Output Option: Optimize
for Speed setting. Use the Optimize for
Portability instead (Adobe PostScript
driver).Don't use the Page Independence:
NO setting. Instead, use Page Independence
YES (CUPS PostScript Driver).Recommended is the True Type Font
Downloading Option: Native True Type over
Automatic and Outline; you
should by all means avoid Bitmap (Adobe
PostScript Driver).Choose True Type Font: Download as Softfont
into Printer over the default Replace by Device
Font (for exotic fonts, you may need to change it back to
get a printout at all) (Adobe).Sometimes you can choose PostScript Language
Level: In case of problems try 2
instead of 3 (the latest ESP Ghostscript package
handles Level 3 PostScript very well) (Adobe).Say Yes to PostScript
Error Handler (Adobe).Installing PostScript Driver Files Manually Using rpcclient
Of course, you can run all the commands that are embedded into the
cupsaddsmb convenience utility yourself, one by one, and hereby upload
and prepare the driver files for future client downloads.
Prepare Samba (A CUPS print queue with the name of the
printer should be there. We are providing the driver
now).Copy all files to
[print$].rpcclientadddriver
Run rpcclient adddriver
(for each client architecture you want to support).rpcclientsetdriver
Run rpcclient
setdriver.rpcclientenumportsrpcclientenumprintersrpcclientenumdriversrpcclientsetdriverrpcclientadddriver
We are going to do this now. First, read the man page on rpcclient
to get a first idea. Look at all the printing related
subcommands. enumprinters,
enumdrivers, enumports,
adddriver, setdriver are among
the most interesting ones. rpcclient implements an important part of
the MS-RPC protocol. You can use it to query (and command) a Windows NT
(or 200x/XP) PC, too. MS-RPC is used by Windows clients, among other
things, to benefit from the Point'n'Print features. Samba can now
mimic this as well.
A Check of the rpcclient man Page
First let's check the rpcclient man page. Here are
two relevant passages:
adddriver <arch> <config> Execute an
AddPrinterDriver() RPC to install the printer driver information on
the server. The driver files should already exist in the
directory returned by getdriverdir. Possible
values for arch are the same as those for the
getdriverdir command. The
config parameter is defined as follows:
Long Printer Name:\
Driver File Name:\
Data File Name:\
Config File Name:\
Help File Name:\
Language Monitor Name:\
Default Data Type:\
Comma Separated list of Files
Any empty fields should be enter as the string NULL. Samba does not need to support the concept of Print Monitors
since these only apply to local printers whose driver can make use of
a bi-directional link for communication. This field should be NULL.
On a remote NT print server, the Print Monitor for a driver must
already be installed prior to adding the driver or else the RPC will
fail.
setdriver <printername> <drivername>
Execute a SetPrinter() command to update the
printer driver associated with an installed printer. The printer
driver must already be correctly installed on the print server.
See also the enumprinters and enumdrivers commands for
obtaining a list of installed printers and drivers.
Understanding the rpcclient man Page
The exact format isn't made too clear by the man
page, since you have to deal with some parameters containing
spaces. Here is a better description for it. We have line-broken the
command and indicated the breaks with \. Usually you would type the
command in one line without the line-breaks:
rpcclientadddriver
adddriver "Architecture" \
"LongPrinterName:DriverFile:DataFile:ConfigFile:HelpFile:\
LanguageMonitorFile:DataType:ListOfFiles,Comma-separated"
What the man pages denote as a simple <config>
keyword, in reality consists of eight colon-separated fields. The
last field may take multiple (in some very insane cases, even
20 different additional) files. This might sound confusing at first.
What the man pages names the LongPrinterName in
reality should be called the Driver Name. You can name it
anything you want, as long as you use this name later in the
rpcclient ... setdriver command. For
practical reasons, many name the driver the same as the
printer.
It isn't simple at all. I hear you asking:
How do I know which files are "Driver
File, Data File, Config File, Help File and Language
Monitor File" in each case? &smbmdash; For an answer, you may
want to have a look at how a Windows NT box with a shared printer
presents the files to us. Remember, that this whole procedure has
to be developed by the Samba team by overhearing the traffic caused
by Windows computers on the wire. We may as well turn to a Windows
box now and access it from a UNIX workstation. We will query it
with rpcclient to see what it tells us and
try to understand the man page more clearly that we've read just
now.
Producing an Example by Querying a Windows Boxrpcclientgetdriverrpcclientgetprinter
We could run rpcclient with a
getdriver or a getprinter
subcommand (in level 3 verbosity) against it. Just sit down at a UNIX or
Linux workstation with the Samba utilities installed, then type the
following command:
&rootprompt;rpcclient -U'user%secret' NT-SERVER -c 'getdriver printername 3'
From the result it should become clear which is which. Here is an example from my installation:
rpcclientgetdriver
&rootprompt;rpcclient -U'Danka%xxxx' W200xSERVER \
-c'getdriver "DANKA InfoStream Virtual Printer" 3'
cmd = getdriver "DANKA InfoStream Virtual Printer" 3
[Windows NT x86]
Printer Driver Info 3:
Version: [2]
Driver Name: [DANKA InfoStream]
Architecture: [Windows NT x86]
Driver Path: [C:\WINNT\System32\spool\DRIVERS\W32X86\2\PSCRIPT.DLL]
Datafile: [C:\WINNT\System32\spool\DRIVERS\W32X86\2\INFOSTRM.PPD]
Configfile: [C:\WINNT\System32\spool\DRIVERS\W32X86\2\PSCRPTUI.DLL]
Helpfile: [C:\WINNT\System32\spool\DRIVERS\W32X86\2\PSCRIPT.HLP]
Dependentfiles: []
Dependentfiles: []
Dependentfiles: []
Dependentfiles: []
Dependentfiles: []
Dependentfiles: []
Dependentfiles: []
Monitorname: []
Defaultdatatype: []
Some printer drivers list additional files under the label
Dependentfiles and these would go into the last field
ListOfFiles,Comma-separated. For the CUPS
PostScript drivers, we do not need any (nor would we for the Adobe
PostScript driver), therefore, the field will get a NULL entry.
Requirements for adddriver and setdriver to Succeed
>From the man page (and from the quoted output
of cupsaddsmb above) it becomes clear that you
need to have certain conditions in order to make the manual uploading
and initializing of the driver files succeed. The two rpcclientrpcclientadddriver
subcommands (adddriver and
setdriver) need to encounter the following
preconditions to complete successfully:
You are connected as or root (this is not the Printer Operators group in
NT, but the printer admin group as defined in
the [global] section of
&smb.conf;).Copy all required driver files to
\\SAMBA\print$\w32x86 and
\\SAMBA\print$\win40 as appropriate. They
will end up in the 0 respective 2 subdirectories later. For now,
do not put them there, they'll be automatically
used by the adddriver subcommand. (If you use
smbclient to put the driver files into the share, note that you need
to escape the $: smbclient //sambaserver/print\$ -U
root.)The user you're connecting as must be able to write to
the [print$] share and create
subdirectories.The printer you are going to setup for the Windows
clients needs to be installed in CUPS already.rpcclientsetdriverrpcclientenumprinters
The CUPS printer must be known to Samba, otherwise the
setdriver subcommand fails with an
NT_STATUS_UNSUCCESSFUL error. To check if the printer is known by
Samba, you may use the enumprinters subcommand to
rpcclient. A long-standing bug prevented a proper update of the
printer list until every smbd process had received a SIGHUP or was
restarted. Remember this in case you've created the CUPS printer just
recently and encounter problems: try restarting
Samba.Manual Driver Installation in 15 Steps
We are going to install a printer driver now by manually executing all
required commands. As this may seem a rather complicated process at
first, we go through the procedure step by step, explaining every
single action item as it comes up.
Manual Driver InstallationInstall the printer on CUPS.
&rootprompt;lpadmin -p mysmbtstprn -v socket://10.160.51.131:9100 -E \
-P canonIR85.ppd
This installs a printer with the name mysmbtstprn
to the CUPS system. The printer is accessed via a socket
(a.k.a. JetDirect or Direct TCP/IP) connection. You need to be root
for this step.
(Optional) Check if the printer is recognized by Samba.rpcclientenumprinters
&rootprompt;rpcclient -Uroot%xxxx -c 'enumprinters' localhost \
| grep -C2 mysmbtstprn
flags:[0x800000]
name:[\\kde-bitshop\mysmbtstprn]
description:[\\kde-bitshop\mysmbtstprn,,mysmbtstprn]
comment:[mysmbtstprn]
This should show the printer in the list. If not, stop and restart
the Samba daemon (smbd), or send a HUP signal:
&rootprompt;kill -HUP `pidof smbd`Check again. Troubleshoot and repeat until
successful. Note the empty field between the two commas in the
description line. The driver name would appear here if there was one already. You need to know root's Samba password (as set by the
smbpasswd command) for this step and most of the
following steps. Alternately, you can authenticate as one of the
users from the write list as defined in &smb.conf; for
[print$].
(Optional) Check if Samba knows a driver for the printer.rpcclientgetprinterrpcclientgetdriver
&rootprompt;rpcclient -Uroot%xxxx -c 'getprinter mysmbtstprn 2' localhost \
| grep driver
drivername:[]
&rootprompt;rpcclient -Uroot%xxxx -c 'getprinter mysmbtstprn 2' localhost \
| grep -C4 driv
servername:[\\kde-bitshop]
printername:[\\kde-bitshop\mysmbtstprn]
sharename:[mysmbtstprn]
portname:[Samba Printer Port]
drivername:[]
comment:[mysmbtstprn]
location:[]
sepfile:[]
printprocessor:[winprint]
&rootprompt;rpcclient -U root%xxxx -c 'getdriver mysmbtstprn' localhost
result was WERR_UNKNOWN_PRINTER_DRIVER
None of the three commands shown above should show a driver.
This step was done for the purpose of demonstrating this condition. An
attempt to connect to the printer at this stage will prompt the
message along the lines of: The server does not have the required printer
driver installed.Put all required driver files into Samba's
[print$].
&rootprompt;smbclient //localhost/print\$ -U 'root%xxxx' \
-c 'cd W32X86; \
put /etc/cups/ppd/mysmbtstprn.ppd mysmbtstprn.PPD; \
put /usr/share/cups/drivers/cupsui.dll cupsui.dll; \
put /usr/share/cups/drivers/cupsdrvr.dll cupsdrvr.dll; \
put /usr/share/cups/drivers/cups.hlp cups.hlp'
(This command should be entered in one long single
line. Line-breaks and the line-end indicated by \ have been inserted
for readability reasons.) This step is required
for the next one to succeed. It makes the driver files physically
present in the [print$] share. However, clients
would still not be able to install them, because Samba does not yet
treat them as driver files. A client asking for the driver would still
be presented with a not installed here message.
Verify where the driver files are now.
&rootprompt;ls -l /etc/samba/drivers/W32X86/
total 669
drwxr-sr-x 2 root ntadmin 532 May 25 23:08 2
drwxr-sr-x 2 root ntadmin 670 May 16 03:15 3
-rwxr--r-- 1 root ntadmin 14234 May 25 23:21 cups.hlp
-rwxr--r-- 1 root ntadmin 278380 May 25 23:21 cupsdrvr.dll
-rwxr--r-- 1 root ntadmin 215848 May 25 23:21 cupsui.dll
-rwxr--r-- 1 root ntadmin 169458 May 25 23:21 mysmbtstprn.PPD
The driver files now are in the W32X86 architecture root of
[print$].
Tell Samba that these are driver files (adddriver).rpcclientadddriver
&rootprompt;rpcclient -Uroot%xxxx -c 'adddriver "Windows NT x86" \
"mydrivername:cupsdrvr.dll:mysmbtstprn.PPD: \
cupsui.dll:cups.hlp:NULL:RAW:NULL"' \
localhost
Printer Driver mydrivername successfully installed.
You cannot repeat this step if it fails. It could fail even
as a result of a simple typo. It will most likely have moved a part of
the driver files into the 2 subdirectory. If this step fails, you
need to go back to the fourth step and repeat it before you can try
this one again. In this step, you need to choose a name for your
driver. It is normally a good idea to use the same name as is used for
the printer name; however, in big installations you may use this driver
for a number of printers that obviously have different names, so the
name of the driver is not fixed.
Verify where the driver files are now.
&rootprompt;ls -l /etc/samba/drivers/W32X86/
total 1
drwxr-sr-x 2 root ntadmin 532 May 25 23:22 2
drwxr-sr-x 2 root ntadmin 670 May 16 03:15 3
&rootprompt;ls -l /etc/samba/drivers/W32X86/2
total 5039
[....]
-rwxr--r-- 1 root ntadmin 14234 May 25 23:21 cups.hlp
-rwxr--r-- 1 root ntadmin 278380 May 13 13:53 cupsdrvr.dll
-rwxr--r-- 1 root ntadmin 215848 May 13 13:53 cupsui.dll
-rwxr--r-- 1 root ntadmin 169458 May 25 23:21 mysmbtstprn.PPD
Notice how step 6 also moved the driver files to the appropriate
subdirectory. Compare this with the situation after step 5.
(Optional) Verify if Samba now recognizes the driver.rpcclientenumdrivers
&rootprompt;rpcclient -Uroot%xxxx -c 'enumdrivers 3' \
localhost | grep -B2 -A5 mydrivername
Printer Driver Info 3:
Version: [2]
Driver Name: [mydrivername]
Architecture: [Windows NT x86]
Driver Path: [\\kde-bitshop\print$\W32X86\2\cupsdrvr.dll]
Datafile: [\\kde-bitshop\print$\W32X86\2\mysmbtstprn.PPD]
Configfile: [\\kde-bitshop\print$\W32X86\2\cupsui.dll]
Helpfile: [\\kde-bitshop\print$\W32X86\2\cups.hlp]
Remember, this command greps for the name you chose for the
driver in step 6. This command must succeed before you can proceed.
Tell Samba which printer should use these driver files (setdriver).rpcclientsetdriver
&rootprompt;rpcclient -Uroot%xxxx -c 'setdriver mysmbtstprn mydrivername' \
localhost
Successfully set mysmbtstprn to driver mydrivername
Since you can bind any printername (print queue) to any driver, this
is a convenient way to setup many queues that use the same
driver. You do not need to repeat all the previous steps for the
setdriver command to succeed. The only preconditions are:
enumdrivers must find the driver and
enumprinters must find the printer.
(Optional) Verify if Samba has recognized this association.rpcclientgetprinterrpcclientgetdriverrpcclientenumprinters
&rootprompt;rpcclient -Uroot%xxxx -c 'getprinter mysmbtstprn 2' localhost \
| grep driver
drivername:[mydrivername]
&rootprompt;rpcclient -Uroot%xxxx -c 'getprinter mysmbtstprn 2' localhost \
| grep -C4 driv
servername:[\\kde-bitshop]
printername:[\\kde-bitshop\mysmbtstprn]
sharename:[mysmbtstprn]
portname:[Done]
drivername:[mydrivername]
comment:[mysmbtstprn]
location:[]
sepfile:[]
printprocessor:[winprint]
&rootprompt;rpcclient -U root%xxxx -c 'getdriver mysmbtstprn' localhost
[Windows NT x86]
Printer Driver Info 3:
Version: [2]
Driver Name: [mydrivername]
Architecture: [Windows NT x86]
Driver Path: [\\kde-bitshop\print$\W32X86\2\cupsdrvr.dll]
Datafile: [\\kde-bitshop\print$\W32X86\2\mysmbtstprn.PPD]
Configfile: [\\kde-bitshop\print$\W32X86\2\cupsui.dll]
Helpfile: [\\kde-bitshop\print$\W32X86\2\cups.hlp]
Monitorname: []
Defaultdatatype: [RAW]
Monitorname: []
Defaultdatatype: [RAW]
&rootprompt;rpcclient -Uroot%xxxx -c 'enumprinters' localhost \
| grep mysmbtstprn
name:[\\kde-bitshop\mysmbtstprn]
description:[\\kde-bitshop\mysmbtstprn,mydrivername,mysmbtstprn]
comment:[mysmbtstprn]
rpcclientenumprinters
Compare these results with the ones from steps 2 and 3. Every one of these commands show the driver is installed. Even
the enumprinters command now lists the driver
on the description line.
(Optional) Tickle the driver into a correct
device mode."Printers" folder
You certainly know how to install the driver on the client. In case
you are not particularly familiar with Windows, here is a short
recipe: Browse the Network Neighborhood, go to the Samba server, and look
for the shares. You should see all shared Samba printers.
Double-click on the one in question. The driver should get
installed and the network connection set up. An alternate way is to
open the Printers (and Faxes) folder, right-click on the printer in
question and select Connect or Install. As a result, a new printer
should have appeared in your client's local Printers (and Faxes)
folder, named something like printersharename on Sambahostname.
It is important that you execute this step as a Samba printer admin
(as defined in &smb.conf;). Here is another method
to do this on Windows XP. It uses a command line, which you may type
into the DOS box (type root's smbpassword when prompted):
&dosprompt;runas /netonly /user:root "rundll32 printui.dll,PrintUIEntry \
/in /n \\sambaserver\mysmbtstprn"
Change any printer setting once (like changing portrait to
landscape), click on Apply; change the setting
back.
Install the printer on a client
(Point'n'Print).point 'n' print
&dosprompt;rundll32 printui.dll,PrintUIEntry /in /n \\sambaserver\mysmbtstprn
If it does not work it could be a permission problem with the
[print$] share.
(Optional) Print a test page.
&dosprompt;rundll32 printui.dll,PrintUIEntry /p /n "\\sambaserver\mysmbtstprn"
Then hit [TAB] five times, [ENTER] twice, [TAB] once and [ENTER] again
and march to the printer.
(Recommended) Study the test page.
Hmmm.... just kidding! By now you know everything about printer
installations and you do not need to read a word. Just put it in a
frame and bolt it to the wall with the heading "MY FIRST
RPCCLIENT-INSTALLED PRINTER" &smbmdash; why not just throw it away!
(Obligatory) Enjoy. Jump. Celebrate your
success.
&rootprompt;echo "Cheeeeerioooooo! Success..." >> /var/log/samba/log.smbdTroubleshooting Revisited
The setdriver command will fail, if in Samba's mind the queue is not
already there. You had promising messages about the:
Printer Driver ABC successfully installed.
after the adddriver parts of the procedure? But you are also seeing
a disappointing message like this one?
result was NT_STATUS_UNSUCCESSFUL
lpstat
It is not good enough that you
can see the queue in CUPS, using
the lpstat -p ir85wm command. A
bug in most recent versions of Samba prevents the proper update of
the queue-list. The recognition of newly installed CUPS printers
fails unless you restart Samba or send a HUP to all smbd
processes. To verify if this is the reason why Samba does not
execute the setdriver command successfully, check if Samba sees
the printer:
rpcclientenumprinters
&rootprompt;rpcclient transmeta -N -U'root%xxxx' -c 'enumprinters 0'|grep ir85wm
printername:[ir85wm]
An alternate command could be this:
rpcclientgetprinter
&rootprompt;rpcclient transmeta -N -U'root%secret' -c 'getprinter ir85wm'
cmd = getprinter ir85wm
flags:[0x800000]
name:[\\transmeta\ir85wm]
description:[\\transmeta\ir85wm,ir85wm,DPD]
comment:[CUPS PostScript-Treiber for Windows NT/200x/XP]
By the way, you can use these commands, plus a few more, of course,
to install drivers on remote Windows NT print servers too!
The Printing *.tdb FilesTDBconnections.tdbTDBprinting.tdbTDBshare_info.tdbTDBntdrivers.tdbTDBunexpected.tdbTDBbrlock.tdbTDBlocking.tdbTDBntforms.tdbTDBmessages.tdbTDBntprinters.tdbTDBsessionid.tdbTDBsecrets.tdbTDB
Some mystery is associated with the series of files with a
tdb suffix appearing in every Samba installation. They are
connections.tdb,
printing.tdb,
share_info.tdb,
ntdrivers.tdb,
unexpected.tdb,
brlock.tdb,
locking.tdb,
ntforms.tdb,
messages.tdb ,
ntprinters.tdb,
sessionid.tdb and
secrets.tdb. What is their purpose?
Trivial Database FilesTDB
A Windows NT (print) server keeps track of all information needed to serve
its duty toward its clients by storing entries in the Windows
registry. Client queries are answered by reading from the registry,
Administrator or user configuration settings that are saved by writing into
the registry. Samba and UNIX obviously do not have such a
Registry. Samba instead keeps track of all client related information in a
series of *.tdb files. (TDB = Trivial Data
Base). These are often located in /var/lib/samba/
or /var/lock/samba/. The printing related files
are ntprinters.tdb,
printing.tdb,ntforms.tdb and
ntdrivers.tdb.
Binary Format*.tdb files are not human readable. They are
written in a binary format. Why not ASCII?, you may ask. After all,
ASCII configuration files are a good and proven tradition on UNIX.
The reason for this design decision by the Samba team is mainly
performance. Samba needs to be fast; it runs a separate
smbd process for each client connection, in some
environments many thousands of them. Some of these smbds might need to
write-access the same *.tdb file at the
same time. The file format of Samba's
*.tdb files allows for this provision. Many smbd
processes may write to the same *.tdb file at the
same time. This wouldn't be possible with pure ASCII files.
Losing *.tdb Files
It is very important that all *.tdb files remain
consistent over all write and read accesses. However, it may happen
that these files do get corrupted. (A
kill -9 `pidof smbd' while a write access is in
progress could do the damage as well as a power interruption,
etc.). In cases of trouble, a deletion of the old printing-related
*.tdb files may be the only option. After that you need to
re-create all print-related setup or you have made a
backup of the *.tdb files in time.
Using tdbbackupTDBbacking uptdbbackuptdbbackup
Samba ships with a little utility that helps the root user of your
system to backup your *.tdb files. If you run it
with no argument, it prints a usage message:
&rootprompt;tdbbackup
Usage: tdbbackup [options] <fname...>
Version:3.0a
-h this help message
-s suffix set the backup suffix
-v verify mode (restore if corrupt)
Here is how I backed up my printing.tdb file:
&rootprompt;ls
. browse.dat locking.tdb ntdrivers.tdb printing.tdb
.. share_info.tdb connections.tdb messages.tdb ntforms.tdb
printing.tdbkp unexpected.tdb brlock.tdb gmon.out namelist.debug
ntprinters.tdb sessionid.tdb
&rootprompt;tdbbackup -s .bak printing.tdb
printing.tdb : 135 records
&rootprompt;ls -l printing.tdb*
-rw------- 1 root root 40960 May 2 03:44 printing.tdb
-rw------- 1 root root 40960 May 2 03:44 printing.tdb.bak
CUPS Print Drivers from Linuxprinting.orgLinuxprinting.org
CUPS ships with good support for HP LaserJet-type printers. You can
install the generic driver as follows:
lpadmin
&rootprompt;lpadmin -p laserjet4plus -v parallel:/dev/lp0 -E -m laserjet.ppd
The switch will retrieve the
laserjet.ppd from the standard repository for
not-yet-installed-PPDs, which CUPS typically stores in
/usr/share/cups/model. Alternately, you may use
.
The generic laserjet.ppd, however, does not support every special option
for every LaserJet-compatible model. It constitutes a sort of least common
denominator of all the models. If for some reason
you must pay for the commercially available ESP Print Pro drivers, your
first move should be to consult the database on the
Linuxprinting web site.
Linuxprinting.org has excellent recommendations about which driver is
best used for each printer. Its database is kept current by the
tireless work of Till Kamppeter from MandrakeSoft, who is also the
principal author of the foomatic-rip utility.
foomatic-rip
The former cupsomatic concept is now being replaced by the new
successor, a much
more powerful foomatic-rip.
cupsomatic is no longer maintained. Here is the new URL
to the Foomatic-3.0 database.
If you upgrade to foomatic-rip, remember to also upgrade to the
new-style PPDs for your Foomatic-driven printers. foomatic-rip will
not work with PPDs generated for the old cupsomatic. The new-style
PPDs are 100% compliant to the Adobe PPD specification. They are
also intended to be used by Samba and the cupsaddsmb utility, to
provide the driver files for the Windows clients!
foomatic-rip and Foomatic Explainedfoomaticfoomatic-rip
Nowadays, most Linux distributions rely on the utilities of Linuxprinting.org
to create their printing-related software (which, by the way, works on all
UNIXes and on Mac OS X or Darwin, too). It is not known as well as it
should be, that it also has a very end-user-friendly interface that
allows for an easy update of drivers and PPDs for all supported
models, all spoolers, all operating systems, and all package formats
(because there is none). Its history goes back a few years.
Recently, Foomatic has achieved the astonishing milestone of 1000
listed printer models. Linuxprinting.org keeps all the
important facts about printer drivers, supported models and which
options are available for the various driver/printer combinations in
its Foomatic
database. Currently there are 245 drivers
in the database. Many drivers support various models, and many models
may be driven by different drivers &smbmdash; its your choice!
690 Perfect Printers
At present, there are 690 devices dubbed as working perfectly, 181
mostly, 96 partially, and 46 are paperweights. Keeping in mind
that most of these are non-PostScript models (PostScript printers are
automatically supported by CUPS to perfection, by using
their own manufacturer-provided Windows-PPD), and that a
multi-functional device never qualifies as working perfectly if it
does not also scan and copy and fax under GNU/Linux &smbmdash; then this is a
truly astonishing achievement! Three years ago the number was not
more than 500, and Linux or UNIX printing at the time wasn't
anywhere near the quality it is today.
How the Printing HOWTO Started It All
A few years ago Grant Taylor
started it all. The roots of today's Linuxprinting.org are in the
first Linux Printing
HOWTO that he authored. As a side-project to this document,
which served many Linux users and Admins to guide their first steps in
this complicated and delicate setup (to a scientist, printing is
applying a structured deposition of distinct patterns of ink or toner
particles on paper substrates, he started to
build in a little Postgres database with information about the
hardware and driver zoo that made up Linux printing of the time. This
database became the core component of today's Foomatic collection of
tools and data. In the meantime, it has moved to an XML representation
of the data.
Foomatic's Strange NamefoomaticWhy the funny name? you ask. When it really took off, around spring
2000, CUPS was far less popular than today, and most systems used LPD,
LPRng or even PDQ to print. CUPS shipped with a few generic drivers
(good for a few hundred different printer models). These didn't
support many device-specific options. CUPS also shipped with its own
built-in rasterization filter (pstoraster, derived from
Ghostscript). On the other hand, CUPS provided brilliant support for
controlling all printer options through
standardized and well-defined PPD files (PostScript Printers
Description files). Plus, CUPS was designed to be easily extensible.
Taylor already had in his database a respectable compilation
of facts about many more printers and the Ghostscript drivers
they run with. His idea, to generate PPDs from the database information
and use them to make standard Ghostscript filters work within CUPS,
proved to work very well. It also killed several birds with one
stone:
It made all current and future Ghostscript filter
developments available for CUPS.It made available a lot of additional printer models
to CUPS users (because often the traditional Ghostscript way of
printing was the only one available).It gave all the advanced CUPS options (Web interface,
GUI driver configurations) to users wanting (or needing) to use
Ghostscript filters.cupsomatic, pdqomatic, lpdomatic, directomaticcupsomaticCUPS-PPDPPDCUPSCUPS-PPD
CUPS worked through a quickly-hacked up filter script named cupsomatic.
cupsomatic ran the printfile through Ghostscript, constructing
automatically the rather complicated command line needed. It just
needed to be copied into the CUPS system to make it work. To
configure the way cupsomatic controls the Ghostscript rendering
process, it needs a CUPS-PPD. This PPD is generated directly from the
contents of the database. For CUPS and the respective printer/filter
combo, another Perl script named CUPS-O-Matic did the PPD
generation. After that was working, Taylor implemented within a few
days a similar thing for two other spoolers. Names chosen for the
config-generator scripts were PDQ-O-Matic
(for PDQ) and LPD-O-Matic
(for &smbmdash; you guessed it &smbmdash; LPD); the configuration here didn't use PPDs
but other spooler-specific files.
From late summer of that year, Till Kamppeter
started to put work into the database. Kamppeter had been newly employed by
MandrakeSoft to
convert its printing system over to CUPS, after they had seen his
FLTK-based XPP (a GUI front-end to
the CUPS lp-command). He added a huge amount of new information and new
printers. He also developed the support for other spoolers, like
PPR (via ppromatic),
GNUlpr and
LPRng (both via an extended
lpdomatic) and spooler-less printing (directomatic).
So, to answer your question: Foomatic is the general name for all
the overlapping code and data behind the *omatic scripts.
Foomatic, up to versions 2.0.x, required (ugly) Perl data structures
attached to Linuxprinting.org PPDs for CUPS. It had a different
*omatic script for every spooler, as well as different printer
configuration files.
The Grand Unification Achievedfoomatic-rip
This has all changed in Foomatic versions 2.9 (beta) and released as
stable 3.0. It has now achieved the convergence of all *omatic
scripts and is called the foomatic-rip.
This single script is the unification of the previously different
spooler-specific *omatic scripts. foomatic-rip is used by all the
different spoolers alike and because it can read PPDs (both the
original PostScript printer PPDs and the Linuxprinting.org-generated
ones), all of a sudden all supported spoolers can have the power of
PPDs at their disposal. Users only need to plug foomatic-rip into
their system. For users there is improved media type and source
support &smbmdash; paper sizes and trays are easier to configure.
Also, the New Generation of Linuxprinting.org PPDs no longer contains
Perl data structures. If you are a distro maintainer and have
used the previous version of Foomatic, you may want to give the new
one a spin, but remember to generate a new-version set of PPDs
via the new foomatic-db-engine!
Individual users just need to generate a single new PPD specific to
their model by following
the steps outlined in the Foomatic tutorial or in this chapter. This new development is truly amazing.
foomatic-rip is a very clever wrapper around the need to run
Ghostscript with a different syntax, options, device selections, and/or filters for each different printer
or spooler. At the same time it can read the PPD associated
with a print queue and modify the print job according to the user
selections. Together with this comes the 100% compliance of the new
Foomatic PPDs with the Adobe spec. Some innovative features of
the Foomatic concept may surprise users. It will support custom paper
sizes for many printers and will support printing on media drawn
from different paper trays within the same job (in both cases, even
where there is no support for this from Windows-based vendor printer
drivers).
Driver Development Outside
Most driver development itself does not happen within
Linuxprinting.org. Drivers are written by independent maintainers.
Linuxprinting.org just pools all the information and stores it in its
database. In addition, it also provides the Foomatic glue to integrate
the many drivers into any modern (or legacy) printing system known to
the world.
Speaking of the different driver development groups, most of
the work is currently done in three projects. These are:
Omni
&smbmdash; a free software project by IBM that tries to convert their printer
driver knowledge from good-ol' OS/2 times into a modern, modular,
universal driver architecture for Linux/UNIX (still beta). This
currently supports 437 models.HPIJS &smbmdash;
a free software project by HP to provide the support for their own
range of models (very mature, printing in most cases is perfect and
provides true photo quality). This currently supports 369
models.Gimp-Print &smbmdash; a free software
effort, started by Michael Sweet (also lead developer for CUPS), now
directed by Robert Krawitz, which has achieved an amazing level of
photo print quality (many Epson users swear that its quality is
better than the vendor drivers provided by Epson for the Microsoft
platforms). This currently supports 522 models.Forums, Downloads, Tutorials, Howtos &smbmdash; also for Mac OS X and Commercial UNIX
Linuxprinting.org today is the one-stop shop to download printer
drivers. Look for printer information and tutorials
or solve printing problems in its popular forums. This forum
it's not just for GNU/Linux users, but admins of commercial UNIX
systems are also going there, and the relatively new Mac
OS X forum has turned out to be one of the most frequented
forums after only a few weeks.
Linuxprinting.org and the Foomatic driver wrappers around Ghostscript
are now a standard tool-chain for printing on all the important
distros. Most of them also have CUPS underneath. While in recent years
most printer data had been added by Kamppeter (who works at Mandrake), many
additional contributions came from engineers with SuSE, Red Hat,
Conectiva, Debian, and others. Vendor-neutrality is an important goal
of the Foomatic project.
Till Kamppeter from MandrakeSoft is doing an excellent job in his
spare time to maintain Linuxprinting.org and Foomatic. So if you use
it often, please send him a note showing your appreciation.
Foomatic Database-Generated PPDs
The Foomatic database is an amazing piece of ingenuity in itself. Not
only does it keep the printer and driver information, but it is
organized in a way that it can generate PPD files on the fly from
its internal XML-based datasets. While these PPDs are modeled to the
Adobe specification of PostScript Printer Descriptions (PPDs), the
Linuxprinting.org/Foomatic-PPDs do not normally drive PostScript
printers. They are used to describe all the bells and whistles you
could ring or blow on an Epson Stylus inkjet, or a HP Photosmart, or
what-have-you. The main trick is one little additional line, not
envisaged by the PPD specification, starting with the *cupsFilter
keyword. It tells the CUPS daemon how to proceed with the PostScript
print file (old-style Foomatic-PPDs named the
cupsomatic filter script, while the new-style
PPDs are now call foomatic-rip). This filter
script calls Ghostscript on the host system (the recommended variant
is ESP Ghostscript) to do the rendering work. foomatic-rip knows which
filter or internal device setting it should ask from Ghostscript to
convert the PostScript print job into a raster format ready for the
target device. This usage of PPDs to describe the options of non-PS
printers was the invention of the CUPS developers. The rest is easy.
GUI tools (like KDE's marvelous kprinter,
or the GNOME gtklp, xpp and the CUPS
Web interface) read the PPD as well and use this information to present
the available settings to the user as an intuitive menu selection.
foomatic-rip and Foomatic-PPD Download and Installation
Here are the steps to install a foomatic-rip driven LaserJet 4 Plus-compatible
printer in CUPS (note that recent distributions of SuSE, UnitedLinux and
Mandrake may ship with a complete package of Foomatic-PPDs plus the
foomatic-rip utility. Going directly to
Linuxprinting.org ensures that you get the latest driver/PPD files):
Open your browser at the Linuxprinting.org printer listpage.Check the complete list of printers in the
database..
Select your model and click on the link.
You'll arrive at a page listing all drivers working with this
model (for all printers, there will always be one
recommended driver. Try this one first).
In our case (HP LaserJet 4 Plus), we'll arrive at the default driver for the
HP-LaserJet 4 Plus.The recommended driver is ljet4.Several links are provided here. You should visit them all if you
are not familiar with the Linuxprinting.org database.
There is a link to the database page for the
ljet4.
On the driver's page, you'll find important and detailed information
about how to use that driver within the various available
spoolers.Another link may lead you to the home-page of the
driver author or the driver.Important links are the ones that provide hints with
setup instructions for CUPS,
PDQ,
LPD, LPRng and GNUlpr)
as well as PPR
or spooler-lessprinting.You can view the PPD in your browser through this link:
http://www.linuxprinting.org/ppd-o-matic.cgi?driver=ljet4&printer=HP-LaserJet_4_Plus&show=1Most importantly, you can also generate and download
the PPD.The PPD contains all the information needed to use our
model and the driver; once installed, this works transparently
for the user. Later you'll only need to choose resolution, paper size,
and so on from the Web-based menu, or from the print dialog GUI, or from
the command line.If you ended up on the drivers
page
you can choose to use the PPD-O-Matic online PPD generator
program.Select the exact model and check either Download or
Display PPD file and click Generate PPD file.If you save the PPD file from the browser view, please
do not use cut and paste (since it could possibly damage line endings
and tabs, which makes the PPD likely to fail its duty), but use Save
as... in your browsers menu. (It is best to use the Download option
directly from the Web page).Another interesting part on each driver page is
the Show execution details button. If you
select your printer model and click on that button,
a complete Ghostscript command line will be displayed, enumerating all options
available for that combination of driver and printer model. This is a great way to
learn Ghostscript by doing. It is also an excellent cheat sheet
for all experienced users who need to re-construct a good command line
for that damn printing script, but can't remember the exact
syntax. Some time during your visit to Linuxprinting.org, save
the PPD to a suitable place on your hard-disk, say
/path/to/my-printer.ppd (if you prefer to install
your printers with the help of the CUPS Web interface, save the PPD to
the /usr/share/cups/model/ path and restart
cupsd).Then install the printer with a suitable command line,
like this:
&rootprompt;lpadmin -p laserjet4plus -v parallel:/dev/lp0 -E \
-P path/to/my-printer.ppdFor all the new-style Foomatic-PPDs
from Linuxprinting.org, you also need a special CUPS filter named
foomatic-rip.
The foomatic-rip Perl script itself also makes some
interesting reading
because it is well documented by Kamppeter's in-line comments (even
non-Perl hackers will learn quite a bit about printing by reading
it).Save foomatic-rip either directly in
/usr/lib/cups/filter/foomatic-rip or somewhere in
your $PATH (and remember to make it world-executable). Again,
do not save by copy and paste but use the appropriate link or the
Save as... menu item in your browser.If you save foomatic-rip in your $PATH, create a symlink:
&rootprompt;cd /usr/lib/cups/filter/ ; ln -s `which foomatic-rip'
CUPS will discover this new available filter at startup after restarting
cupsd.
Once you print to a print queue set up with the Foomatic-PPD, CUPS will
insert the appropriate commands and comments into the resulting
PostScript jobfile. foomatic-rip is able to read and act upon
these and uses some specially encoded Foomatic comments
embedded in the jobfile. These in turn are used to construct
(transparently for you, the user) the complicated Ghostscript command
line telling the printer driver exactly how the resulting raster
data should look and which printer commands to embed into the
data stream. You need:
A foomatic+something PPD &smbmdash; but this is not enough
to print with CUPS (it is only one important
component).The foomatic-rip filter script (Perl) in
/usr/lib/cups/filters/.Perl to make foomatic-rip run.Ghostscript (because it is doing the main work,
controlled by the PPD/foomatic-rip combo) to produce the raster data
fit for your printer model's consumption.Ghostscript must (depending on
the driver/model) contain support for a certain device representing
the selected driver for your model (as shown by gs
-h).foomatic-rip needs a new version of PPDs (PPD versions
produced for cupsomatic do not work with
foomatic-rip).Page Accounting with CUPSCUPSPage Accounting
Often there are questions regarding print quotas where Samba users
(that is, Windows clients) should not be able to print beyond a
certain number of pages or data volume per day, week or month. This
feature is dependent on the real print subsystem you're using.
Samba's part is always to receive the job files from the clients
(filtered or unfiltered) and hand it over to this
printing subsystem.
Of course one could hack things with one's own scripts. But then
there is CUPS. CUPS supports quotas that can be based on the size of
jobs or on the number of pages or both, and span any time
period you want.
Setting Up QuotasCUPSquotas
This is an example command of how root would set a print quota in CUPS,
assuming an existing printer named quotaprinter:
lpadmin
&rootprompt;lpadmin -p quotaprinter -o job-quota-period=604800 \
-o job-k-limit=1024 -o job-page-limit=100
This would limit every single user to print 100 pages or 1024 KB of
data (whichever comes first) within the last 604,800 seconds ( = 1
week).
Correct and Incorrect Accounting
For CUPS to count correctly, the printfile needs to pass the CUPS
pstops filter, otherwise it uses a dummy count of one. Some
print files do not pass it (e.g., image files) but then those are mostly one-
page jobs anyway. This also means that proprietary drivers for the
target printer running on the client computers and CUPS/Samba, which
then spool these files as raw (i.e., leaving them untouched, not
filtering them), will be counted as one-pagers too!
You need to send PostScript from the clients (i.e., run a PostScript
driver there) to have the chance to get accounting done. If the
printer is a non-PostScript model, you need to let CUPS do the job to
convert the file to a print-ready format for the target printer. This
is currently working for about a thousand different printer models.
Linuxprinting has a driver
list.Adobe and CUPS PostScript Drivers for Windows Clients
Before CUPS 1.1.16, your only option was to use the Adobe PostScript
Driver on the Windows clients. The output of this driver was not
always passed through the pstops filter on the CUPS/Samba side, and
therefore was not counted correctly (the reason is that it often,
depending on the PPD being used, wrote a PJL-header in front of
the real PostScript which caused CUPS to skip pstops and go directly
to the pstoraster stage).
From CUPS 1.1.16 onward, you can use the CUPS PostScript Driver for
Windows NT/200x/XP clients (which is tagged in the download area of
http://www.cups.org/ as the cups-samba-1.1.16.tar.gz
package). It does not work for Windows 9x/ME clients, but it guarantees:
PJL To not write a PJL-header.To still read and support all PJL-options named in the
driver PPD with its own means.That the file will pass through the pstops filter
on the CUPS/Samba server.To page-count correctly the print file.
You can read more about the setup of this combination in the man page
for cupsaddsmb (which is only present with CUPS installed, and only
current from CUPS 1.1.16).
The page_log File Syntaxpage_log
These are the items CUPS logs in the page_log for every
page of a job:
Printer nameUser nameJob IDTime of printingThe page numberThe number of copiesA billing information string (optional)The host that sent the job (included since version 1.1.19)
Here is an extract of my CUPS server's page_log file to illustrate the
format and included items:
tec_IS2027 kurt 401 [22/Apr/2003:10:28:43 +0100] 1 3 #marketing 10.160.50.13
tec_IS2027 kurt 401 [22/Apr/2003:10:28:43 +0100] 2 3 #marketing 10.160.50.13
tec_IS2027 kurt 401 [22/Apr/2003:10:28:43 +0100] 3 3 #marketing 10.160.50.13
tec_IS2027 kurt 401 [22/Apr/2003:10:28:43 +0100] 4 3 #marketing 10.160.50.13
Dig9110 boss 402 [22/Apr/2003:10:33:22 +0100] 1 440 finance-dep 10.160.51.33
This was job ID 401, printed on tec_IS2027
by user kurt, a 64-page job printed in three copies and billed to
#marketing, sent from IP address 10.160.50.13.
The next job had ID 402, was sent by user boss
from IP address 10.160.51.33, printed from one page 440 copies and
is set to be billed to finance-dep.
Possible Shortcomings
What flaws or shortcomings are there with this quota system?
The ones named above (wrongly logged job in case of
printer hardware failure, and so on).In reality, CUPS counts the job pages that are being
processed in software (that is, going through the
RIP) rather than the physical sheets successfully leaving the
printing device. Thus if there is a jam while printing the fifth sheet out
of a thousand and the job is aborted by the printer, the page count will
still show the figure of a thousand for that job.All quotas are the same for all users (no flexibility
to give the boss a higher quota than the clerk) and no support for
groups.No means to read out the current balance or the
used-up number of current quota.A user having used up 99 sheets of a 100 quota will
still be able to send and print a thousand sheet job.A user being denied a job because of a filled-up quota
does not get a meaningful error message from CUPS other than
client-error-not-possible.Future Developments
This is the best system currently available, and there are huge
improvements under development for CUPS 1.2:
Page counting will go into the backends (these talk
directly to the printer and will increase the count in sync with the
actual printing process; thus, a jam at the fifth sheet will lead to a
stop in the counting).Quotas will be handled more flexibly.Probably there will be support for users to inquire
about their accounts in advance.Probably there will be support for some other tools
around this topic.Additional Material
A printer queue with no PPD associated to it is a
raw printer and all files will go directly there as received by the
spooler. The exceptions are file types application/octet-stream
that need pass-through feature enabled. Raw queues do not do any
filtering at all, they hand the file directly to the CUPS backend.
This backend is responsible for sending the data to the device
(as in the device URI notation: lpd://, socket://,
smb://, ipp://, http://, parallel:/, serial:/, usb:/, and so on).
cupsomatic/Foomatic are not native CUPS drivers
and they do not ship with CUPS. They are a third party add-on
developed at Linuxprinting.org. As such, they are a brilliant hack to
make all models (driven by Ghostscript drivers/filters in traditional
spoolers) also work via CUPS, with the same (good or bad!) quality as
in these other spoolers. cupsomatic is only a vehicle to execute a
Ghostscript command-line at that stage in the CUPS filtering chain,
where normally the native CUPS pstoraster filter would kick
in. cupsomatic bypasses pstoraster, kidnaps the printfile from CUPS
away and redirects it to go through Ghostscript. CUPS accepts this,
because the associated cupsomatic/foomatic-PPD specifies:
*cupsFilter: "application/vnd.cups-postscript 0 cupsomatic"
This line persuades CUPS to hand the file to cupsomatic, once it has
successfully converted it to the MIME type
application/vnd.cups-postscript. This conversion will not happen for
Jobs arriving from Windows that are auto-typed
application/octet-stream, with the according changes in
/etc/cups/mime.types in place.
CUPS is widely configurable and flexible, even regarding its filtering
mechanism. Another workaround in some situations would be to have in
/etc/cups/mime.types entries as follows:
application/postscript application/vnd.cups-raw 0 -
application/vnd.cups-postscript application/vnd.cups-raw 0 -
This would prevent all PostScript files from being filtered (rather,
they will through the virtual nullfilter
denoted with -). This could only be useful for PS printers. If you
want to print PS code on non-PS printers (provided they support ASCII
text printing), an entry as follows could be useful:
*/* application/vnd.cups-raw 0 -
and would effectively send all files to the
backend without further processing.
You could have the following entry:
application/vnd.cups-postscript application/vnd.cups-raw 0 \
my_PJL_stripping_filter
You will need to write a my_PJL_stripping_filter
(which could be a shell script) that parses the PostScript and removes the
unwanted PJL. This needs to conform to CUPS filter design
(mainly, receive and pass the parameters printername, job-id,
username, jobtitle, copies, print options and possibly the
filename). It is installed as world executable into
/usr/lib/cups/filters/ and is called by CUPS
if it encounters a MIME type application/vnd.cups-postscript.
CUPS can handle -o job-hold-until=indefinite.
This keeps the job in the queue on hold. It will only be printed
upon manual release by the printer operator. This is a requirement in
many central reproduction departments, where a few operators manage
the jobs of hundreds of users on some big machine, where no user is
allowed to have direct access (such as when the operators often need
to load the proper paper type before running the 10,000 page job
requested by marketing for the mailing, and so on).
Auto-Deletion or Preservation of CUPS Spool Files
Samba print files pass through two spool directories. One is the
incoming directory managed by Samba, (set in the
/var/spool/samba
directive in the [printers] section of
&smb.conf;). The other is the spool directory of
your UNIX print subsystem. For CUPS it is normally
/var/spool/cups/, as set by the cupsd.conf
directive RequestRoot /var/spool/cups.
CUPS Configuration Settings Explained
Some important parameter settings in the CUPS configuration file
cupsd.conf are:
PreserveJobHistory Yes
This keeps some details of jobs in cupsd's mind (well it keeps the
c12345, c12346, and so on, files in the CUPS spool directory, which do a
similar job as the old-fashioned BSD-LPD control files). This is set
to Yes as a default.
PreserveJobFiles Yes
This keeps the job files themselves in cupsd's mind
(it keeps the d12345, d12346 etc. files in the CUPS spool
directory). This is set to No as the CUPS
default.
MaxJobs 500
This directive controls the maximum number of jobs
that are kept in memory. Once the number of jobs reaches the limit,
the oldest completed job is automatically purged from the system to
make room for the new one. If all of the known jobs are still
pending or active, then the new job will be rejected. Setting the
maximum to 0 disables this functionality. The default setting is
0.
(There are also additional settings for MaxJobsPerUser and
MaxJobsPerPrinter...)
Pre-Conditions
For everything to work as announced, you need to have three
things:
A Samba-smbd that is compiled against libcups (check
on Linux by running ldd `which smbd').A Samba-&smb.conf; setting of
cups.Another Samba-&smb.conf; setting of
cups.
In this case, all other manually set printing-related commands (like
,
,
,
or
) are ignored and they should normally have no
influence whatsoever on your printing.
Manual Configuration
If you want to do things manually, replace the cups
by bsd. Then your manually set commands may work
(I haven't tested this), and a lp -d %P %s; rm %s"
may do what you need.
Printing from CUPS to Windows Attached Printers
>From time to time the question arises, how can you print
to a Windows attached printer
from Samba? Normally the local connection
from Windows host to printer would be done by USB or parallel
cable, but this does not matter to Samba. From here only an SMB
connection needs to be opened to the Windows host. Of course, this
printer must be shared first. As you have learned by now, CUPS uses
backends to talk to printers and other
servers. To talk to Windows shared printers, you need to use the
smb (surprise, surprise!) backend. Check if this
is in the CUPS backend directory. This usually resides in
/usr/lib/cups/backend/. You need to find an smb
file there. It should be a symlink to smbspool
and the file must exist and be executable:
&rootprompt;ls -l /usr/lib/cups/backend/
total 253
drwxr-xr-x 3 root root 720 Apr 30 19:04 .
drwxr-xr-x 6 root root 125 Dec 19 17:13 ..
-rwxr-xr-x 1 root root 10692 Feb 16 21:29 canon
-rwxr-xr-x 1 root root 10692 Feb 16 21:29 epson
lrwxrwxrwx 1 root root 3 Apr 17 22:50 http -> ipp
-rwxr-xr-x 1 root root 17316 Apr 17 22:50 ipp
-rwxr-xr-x 1 root root 15420 Apr 20 17:01 lpd
-rwxr-xr-x 1 root root 8656 Apr 20 17:01 parallel
-rwxr-xr-x 1 root root 2162 Mar 31 23:15 pdfdistiller
lrwxrwxrwx 1 root root 25 Apr 30 19:04 ptal -> /usr/sbin/ptal-cups
-rwxr-xr-x 1 root root 6284 Apr 20 17:01 scsi
lrwxrwxrwx 1 root root 17 Apr 2 03:11 smb -> /usr/bin/smbspool
-rwxr-xr-x 1 root root 7912 Apr 20 17:01 socket
-rwxr-xr-x 1 root root 9012 Apr 20 17:01 usb
&rootprompt;ls -l `which smbspool`
-rwxr-xr-x 1 root root 563245 Dec 28 14:49 /usr/bin/smbspool
If this symlink does not exist, create it:
&rootprompt;ln -s `which smbspool` /usr/lib/cups/backend/smbsmbspool has been written by Mike Sweet from the CUPS folks. It is
included and ships with Samba. It may also be used with print
subsystems other than CUPS, to spool jobs to Windows printer shares. To
set up printer winprinter on CUPS, you need to have a driver for
it. Essentially this means to convert the print data on the CUPS/Samba
host to a format that the printer can digest (the Windows host is
unable to convert any files you may send). This also means you should
be able to print to the printer if it were hooked directly at your
Samba/CUPS host. For troubleshooting purposes, this is what you
should do to determine if that part of the process chain is in
order. Then proceed to fix the network connection/authentication to
the Windows host, and so on.
To install a printer with the smb backend on CUPS, use this command:
&rootprompt;lpadmin -p winprinter -v smb://WINDOWSNETBIOSNAME/printersharename \
-P /path/to/PPD
The PPD must be able to direct CUPS to generate
the print data for the target model. For PostScript printers, just use
the PPD that would be used with the Windows NT PostScript driver. But
what can you do if the printer is only accessible with a password? Or
if the printer's host is part of another workgroup? This is provided
for: You can include the required parameters as part of the
smb:// device-URI like this:
smb://WORKGROUP/WINDOWSNETBIOSNAME/printersharenamesmb://username:password@WORKGROUP/WINDOWSNETBIOSNAME/printersharenamesmb://username:password@WINDOWSNETBIOSNAME/printersharename
Note that the device-URI will be visible in the process list of the
Samba server (e.g., when someone uses the ps -aux
command on Linux), even if the username and passwords are sanitized
before they get written into the log files. So this is an inherently
insecure option, however, it is the only one. Don't use it if you want
to protect your passwords. Better share the printer in a way that
does not require a password! Printing will only work if you have a
working netbios name resolution up and running. Note that this is a
feature of CUPS and you do not necessarily need to have smbd running.
More CUPS-Filtering Chains
The following diagrams reveal how CUPS handles print jobs.
cups1Filtering chain 1.cups2Filtering chain with cupsomaticCommon ErrorsWindows 9x/ME Client Can't Install DriverFor Windows 9x/ME, clients require the printer names to be eight
characters (or 8 plus 3 chars suffix) max; otherwise, the driver files
will not get transferred when you want to download them from
Samba.cupsaddsmb Keeps Asking for Root Password in Never-ending LoopHave you user? Have
you used smbpasswd to give root a Samba account?
You can do two things: open another terminal and execute
smbpasswd -a root to create the account and
continue entering the password into the first terminal. Or break
out of the loop by pressing ENTER twice (without trying to type a
password).
If the error is: tree connect failed: NT_STATUS_BAD_NETWORK_NAME,
you may have forgotten to create the /etc/samba/drivers directory.
cupsaddsmb or rpcclient addriver Keeps Giving WERR_BAD_PASSWORDSee the previous common error.cupsaddsmb Errors
The use of cupsaddsmb gives No PPD file for printer...
Message While PPD File Is Present. What might the problem be?
Have you enabled printer sharing on CUPS? This means:
Do you have a <Location
/printers>....</Location> section in CUPS
server's cupsd.conf that does not deny access to
the host you run cupsaddsmb from? It could be
an issue if you use cupsaddsmb remotely, or if you use it with a
parameter: cupsaddsmb -H
sambaserver -h cupsserver -v printername.
Is your TempDir directive in
cupsd.conf set to a valid value and is it writable?
Client Can't Connect to Samba PrinterUse smbstatus to check which user
you are from Samba's point of view. Do you have the privileges to
write into the [print$]
share?New Account Reconnection from Windows 200x/XP TroublesOnce you are connected as the wrong user (for
example, as nobody, which often occurs if you have
bad user), Windows Explorer will not accept an
attempt to connect again as a different user. There will not be any byte
transfered on the wire to Samba, but still you'll see a stupid error
message that makes you think Samba has denied access. Use
smbstatus to check for active connections. Kill the
PIDs. You still can't re-connect and you get the dreaded
You can't connect with a second account from the same
machine message, as soon as you are trying. And you
do not see any single byte arriving at Samba (see logs; use ethereal)
indicating a renewed connection attempt. Shut all Explorer Windows.
This makes Windows forget what it has cached in its memory as
established connections. Then reconnect as the right user. The best
method is to use a DOS terminal window and first
do net use z: \\&example.server.samba;\print$ /user:root. Check
with smbstatus that you are connected under a
different account. Now open the Printers folder (on the Samba server
in the Network Neighborhood), right-click on the
printer in question and select
Connect...Avoid Being Connected to the Samba Server as the Wrong UserYou see per smbstatus that you are
connected as user nobody; while you want to be root or
printer admin. This is probably due to
bad user, which silently connects you under the guest account
when you gave (maybe by accident) an incorrect username. Remove
, if you want to prevent
this.Upgrading to CUPS Drivers from Adobe Drivers
This information came from a mailing list posting regarding problems experienced when
upgrading from Adobe drivers to CUPS drivers on Microsoft Windows NT/200x/XP Clients.
First delete all old Adobe-using printers. Then
delete all old Adobe drivers. (On Windows 200x/XP, right-click in
the background of Printers folder, select Server Properties..., select
tab Drivers and delete here).Can't Use cupsaddsmb on Samba Server Which Is a PDCDo you use the naked root user name? Try to do it
this way: cupsaddsmb -U DOMAINNAME\\root -v
printername> (note the two backslashes: the first one is
required to escape the second one).Deleted Windows 200x Printer Driver Is Still ShownDeleting a printer on the client will not delete the
driver too (to verify, right-click on the white background of the
Printers folder, select Server Properties and click on the
Drivers tab). These same old drivers will be re-used when you try to
install a printer with the same name. If you want to update to a new
driver, delete the old ones first. Deletion is only possible if no
other printer uses the same driver.Windows 200x/XP "Local Security Policies"Local Security Policies may not
allow the installation of unsigned drivers. Local Security Policies
may not allow the installation of printer drivers at
all.Administrator Cannot Install Printers for All Local UsersWindows XP handles SMB printers on a per-user basis.
This means every user needs to install the printer himself. To have a
printer available for everybody, you might want to use the built-in
IPP client capabilities of Win XP. Add a printer with the print path of
http://cupsserver:631/printers/printername.
We're still looking into this one. Maybe a logon script could
automatically install printers for all
users.Print Change Notify Functions on NT-clientsFor print change, notify functions on NT++ clients.
These need to run the Server service first (renamed to
File & Print Sharing for MS Networks in
XP).Win XP-SP1Win XP-SP1 introduced a Point and Print Restriction Policy (this restriction does not apply to
Administrator or Power User groups of users). In Group Policy
Object Editor, go to User Configuration -> Administrative Templates ->
Control Panel -> Printers. The policy is automatically set to
Enabled and the Users can only Point
and Print to machines in their Forest . You probably need
to change it to Disabled or Users can
only Point and Print to these servers to make
driver downloads from Samba possible.
Print Options for All Users Can't Be Set on Windows 200x/XPHow are you doing it? I bet the wrong way (it is not
easy to find out, though). There are three different ways to bring
you to a dialog that seems to set everything. All
three dialogs look the same, yet only one of them
does what you intend. You need to be
Administrator or Print Administrator to do this for all users. Here
is how I do in on XP:
The first wrong way:
Open the Printers
folder.Right-click on the printer
(remoteprinter on cupshost) and
select in context menu Printing
Preferences...Look at this dialog closely and remember what it looks
like.The second wrong way:
Open the Printers
folder.Right-click on the printer (remoteprinter on
cupshost) and select the context menu
Properties.Click on the General
tab.Click on the button Printing
Preferences...A new dialog opens. Keep this dialog open and go back
to the parent dialog.The third, and the correct way:
Open the Printers
folder.Click on the Advanced
tab. (If everything is grayed out, then you are not logged
in as a user with enough privileges).Click on the Printing
Defaults... button.On any of the two new tabs, click on the
Advanced...
button.A new dialog opens. Compare this one to the other
identical looking one from B.5 or A.3".
Do you see any difference? I don't either. However, only the last
one, which you arrived at with steps C.1.-6., will save any settings
permanently and be the defaults for new users. If you want all clients
to get the same defaults, you need to conduct these steps as
Administrator ( in
&smb.conf;) before a client
downloads the driver (the clients can later set their own
per-user defaults by following the
procedures A or B
above).Most Common Blunders in Driver Settings on Windows ClientsDon't use Optimize for
Speed, but use Optimize for
Portability instead (Adobe PS Driver). Don't use
Page Independence: No: always
settle with Page Independence:
Yes (Microsoft PS Driver and CUPS PS Driver for
Windows NT/200x/XP). If there are problems with fonts, use
Download as Softfont into
printer (Adobe PS Driver). For
TrueType Download Options
choose Outline. Use PostScript
Level 2, if you are having trouble with a non-PS printer and if
there is a choice.cupsaddsmb Does Not Work with Newly Installed PrinterSymptom: The last command of
cupsaddsmb does not complete successfully:
cmd = setdriver printername printername result was
NT_STATUS_UNSUCCESSFUL then possibly the printer was not yet
recognized by Samba. Did it show up in Network
Neighborhood? Did it show up i n rpcclient
hostname -c `enumprinters'? Restart smbd (or send a
kill -HUP to all processes listed by
smbstatus and try
again.Permissions on /var/spool/samba/ Get Reset After Each RebootHave you ever by accident set the CUPS spool directory to
the same location? (RequestRoot /var/spool/samba/ in cupsd.conf or
the other way round: /var/spool/cups/ is set as
> in the [printers]
section). These must be different. Set
RequestRoot /var/spool/cups/ in
cupsd.conf and path
/var/spool/samba in the [printers]
section of &smb.conf;. Otherwise cupsd will
sanitize permissions to its spool directory with each restart and
printing will not work reliably.Print Queue Called lp Mis-handles Print Jobs
In this case a print queue called lp intermittently swallows jobs and
spits out completely different ones from what was sent.
It is a bad idea to name any printer lp. This
is the traditional UNIX name for the default printer. CUPS may be set
up to do an automatic creation of Implicit Classes. This means, to
group all printers with the same name to a pool of devices, and
load-balancing the jobs across them in a round-robin fashion. Chances
are high that someone else has a printer named lp too. You may
receive his jobs and send your own to his device unwittingly. To have
tight control over the printer names, set BrowseShortNames
No. It will present any printer as printername@cupshost
and then gives you better control over what may happen in a large
networked environment.Location of Adobe PostScript Driver Files for cupsaddsmbUse smbclient to connect to any
Windows box with a shared PostScript printer: smbclient
//windowsbox/print\$ -U guest. You can navigate to the
W32X86/2 subdir to mget ADOBE*
and other files or to WIN40/0 to do the same.
Another option is to download the *.exe packaged
files from the Adobe Web site.Overview of the CUPS Printing ProcessesA complete overview of the CUPS printing processes can be found in the next flowchart.CUPS printing overview.a_small