kopia lustrzana https://gitlab.com/sane-project/backends
237 wiersze
8.8 KiB
Groff
237 wiersze
8.8 KiB
Groff
.TH sane-usb 5 "27 Nov 2002" "@PACKAGEVERSION@" "SANE Scanner Access Now Easy"
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.IX sane-usb
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.SH NAME
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sane-usb \- USB configuration tips for SANE
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.SH DESCRIPTION
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This manual page contains information on how to access scanners with a USB
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interface. It focusses on two main topics: getting the scanner detected by the
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operating system kernel and using it with SANE.
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.PP
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This page applies to most backends and scanners, as they use the generic
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sanei_usb interface. However, there are some exceptions: USB Scanners
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supported by the avision and microtek2 backends need special USB kernel
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drivers, see
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.BR sane-avision (5)
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and
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.BR sane-microtek2 (5)
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for details. The sm3600 backend supports only access via libusb. See the
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appropriate section in this manpage and
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.BR sane-sm3600 (5).
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.SH "QUICK START"
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This is a short HOWTO-like section. For the full details, read the following
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sections. The goal of this section is to get the scanner detected by
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.BR sane-find-scanner (5).
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.PP
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Run sane-find-scanner. If it lists your scanner with the correct vendor and
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product ids, you are done. See section
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.B "SANE ISSUES"
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for details on how to go on.
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.PP
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Sane-find-scanner lists your scanner, but can't detect the vendor- and product
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ids? Scanning may work nevertheless, just try with section
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.BR "SANE ISSUES" .
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If it doesn't, install libusb (see section
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.BR LIBUSB )
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or, if you use Linux, upgrade your kernel (see section
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.BR "GENERIC KERNEL SCANNER DRIVER" ).
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.PP
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Sane-find-scanner doesn't list your scanner? Does it work as root? If yes,
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there is a permission issue. If sane-find-scanner lists a device name starting with
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.IR libusb: ,
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read
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.BR LIBUSB ,
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otherwise have a look at the section
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.BR "GENERIC KERNEL SCANNER DRIVER" ).
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.PP
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Nothing is found even as root? Either install libusb (see section
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.BR LIBUSB ),
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or make sure, that the kernel scanner driver knows the ids of your scanner
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(see section
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.BR "GENERIC KERNEL SCANNER DRIVER" ).
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.SH "USB ACCESS METHODS"
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Two methods for accessing USB devices are currently in use: direct access
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using the kernel scanner driver and access over libusb. By default, both
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methods are tried by SANE, if they are available. Currently USB access is
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tested for Linux (kernel, libusb), FreeBSD (kernel, libsub), NetBSD (libusb),
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OpenBSD (kernel, libusb) and MacOS X (libusb). Testing on MacOS X is very
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limited and not all scanners seem to work reliably with the BSDs. For
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installation issues, also check the @DOCDIR@/README.platform files.
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.PP
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Generally speaking, if your scanner works with one method, there is no need to
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switch to the other one.
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.PP
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Libusb is the more general approach and is able to access any scanner. Also,
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it supports more platforms.
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.PP
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Autodetecting scanners and using USB control messages with the kernel access
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method only works with recent (>=v2.4.12) Linux kernels. If you need one of
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these two features on a different platform, use libusb instead. Also, the
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kernel scanner driver may be removed from Linux 2.5/2.6 in future so libusb
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will be the only access method.
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.SH LIBUSB
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SANE can only use libusb 0.1.6 or newer. It needs to be installed at
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build-time.
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.PP
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Libusb can only access your scanner if it's not claimed by the kernel scanner
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driver. If you want to use libusb, unload the kernel driver (e.g. rmmod
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scanner under Linux) or disable the driver when compiling a new kernel. For
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Linux, your kernel needs support for the USB filesystem (usbfs). For kernels
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older than 2.4.19, replace "usbfs" with "usbdevfs" because the name has
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changed. This filesystem must be mounted. That's done automatically at boot
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time, if /etc/fstab contains a line like this:
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.PP
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.RS
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none /proc/bus/usb usbfs defaults 0 0
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.RE
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.PP
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The permissions for the device files used by libusb must be adjusted for user
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access. Otherwise only root can use SANE devices. For
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.IR Linux ,
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the devices are located in /proc/bus/usb/. There are directories named
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e.g. "001" (the bus name) containing files "001", "002" etc. (the device
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files). The right device files can be found out by running scanimage -L as
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root. Setting permissions with "chmod" is not permanent, however. They will be
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resetted after reboot or replugging the scanner. It's also possible to mount
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the usbfs with the option "devmode=0666", e.g. by using the following line in
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/etc/fstab:
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.PP
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.RS
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none /proc/bus/usb usbfs defaults,devmode=0666 0 0
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.RE
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.PP
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However, this way everyone has access to all USB devices. Another way to set
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permissions is to use the hotplug utilities
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.RI ( http://linux-hotplug.sourceforge.net/ ),
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which support dynamic setting of access permissions. Last, the frontends can
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be run as root. However, that's not recommended for security reasons.
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.PP
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For the
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.BR BSDs ,
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the device files are named
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.IR /dev/ugen* .
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Use chmod to apply appropriate permissions.
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.SH "GENERIC KERNEL SCANNER DRIVER"
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Ensure that the access permissions for the USB device are set appropriately.
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We recommend to add a group "scanner" to
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.I /etc/group
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which contains all users that should have access to the scanner. The
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permission of the device should then be set to allow group read and write
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access. For example, if the scanner is at USB device
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.BR /dev/usb/scanner0 ,
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then the following two commands would set the permission correctly:
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.PP
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.RS
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$ chgrp scanner /dev/usb/scanner0
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.br
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$ chmod 660 /dev/usb/scanner0
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.RE
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.PP
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If your scanner isn't detected automatically by your operating system's
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scanner driver, you need to tell the kernel the vendor and product ids of your
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scanner. For
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.BR Linux ,
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this can be done with modprobe parameters: First, remove the scanner module
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.RI ( "rmmod scanner" ),
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then load it again:
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.IR "modprobe scanner vendor=0x0001 product=0x0002" .
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Use the appropriate vendor and product ids (e.g. from
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.IR /var/log/messages ,
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.IR dmesg ,
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or
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.IR "cat /proc/bus/usb/devices" ).
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Some scanners supported by the gt68xx backend are not supported by the current
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version of the generic scanner driver. See
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.BR sane-gt68xx (5)
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for details. For these scanners, there will be a message concerning "only 2 or
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three endpoints" in syslog.
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.PP
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For OpenBSD the kernel may need to be recompiled. For details look at
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@DOCDIR@/README.openbsd. Similar approaches should be used for the other BSDs.
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.PP
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Linux kernel messages in syslog like "kernel: scanner.c: open_scanner(1):
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Unable to access minor data" can be ignored. They are generated when SANE
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scans all available USB devices for scanners.
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.SH "SANE ISSUES"
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.PP
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This section assumes that your scanner is detected by sane-find-scanner. It
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doesn't make sense to go on, if this is not the case. While sane-find-scanner
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is able to detect any USB scanner, actual scanning will only work if the
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scanner is supported by a SANE backend. Information on the level of support
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can be found on the SANE webpage
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.RI ( http://www.mostang.com/sane/ ),
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and the individual backend manpages.
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.PP
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Most backends can detect USB scanners automatically using "usb" configuration
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file lines. This method allows to identify scanners by the USB vendor and
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product numbers. The syntax for specifying a scanner this way is:
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.PP
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.RS
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usb
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.I VENDOR PRODUCT
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.RE
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.PP
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where
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.I VENDOR
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is the USB vendor id, and
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.I PRODUCT
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is the USB product id of the scanner. Both ids are non-negative integer
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numbers in decimal or hexadecimal format. The correct values for these fields
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can be found by looking into the syslog (e.g., /var/log/messages) or under
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Linux by issuing the command "cat /proc/bus/usb/devices/". This is an example
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of a config file line:
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.PP
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.RS
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usb 0x055f 0x0006
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.RE
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.PP
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would have the effect that all USB devices in the system with a vendor id of
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0x55f and a product id of 0x0006 would be probed and recognized by the
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backend.
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.PP
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If your scanner is not detected automatically, it may be necessary to edit the
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appropriate backend configuration file before using SANE for the first time.
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For most systems, the configuration file should list the name of the USB
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device file that the scanner is connected to (e.g., under Linux,
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.B /dev/usb/scanner0
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or
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.B /dev/usbscanner0
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is such a USB device, the device file for FreeBSD is e.g.
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.BR /dev/uscanner0 ).
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If libusb is used, the device name looks like the following example:
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.BR libusb:001:002 .
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.PP
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For a detailed description of each backend's configuration file, please refer
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to the relevant backend manual page (e.g.
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.BR sane-mustek_usb (5)
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for Mustek USB scanners).
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.PP
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Do
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.B not
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create a symlink from
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.I /dev/scanner
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to the USB device because this link is used by the SCSI backends. The scanner
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may be confused if it receives SCSI commands.
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.SH ENVIRONMENT
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.TP
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.B SANE_DEBUG_SANEI_USB
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If the library was compiled with debug support enabled, this
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environment variable controls the debug level for the USB I/O
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subsystem. E.g., a value of 128 requests all debug output to be
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printed. Smaller levels reduce verbosity. Values greater than 4 enable
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libusb debugging (if available). Example: export SANE_DEBUG_SANEI_USB=4.
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.SH "SEE ALSO"
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.BR sane (7),
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.BR sane-find-scanner (1),
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.BR sane-"backendname" (5),
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.BR sane-scsi (5)
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.SH AUTHOR
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Henning Meier-Geinitz
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