Difference between revisions of "USB Scanner Support"

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[[Category:Scanner]]
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#REDIRECT [[Sane]]
===USB Scanner===
 
 
 
This document describes the process of installing a scanner with a USB interface in Arch Linux.
 
 
 
'''Update:''' Since I first wrote this document, the installation routine for the sane package has been improved. The only thing you have to do for supported scanners is to install sane with pacman and add your username to the group "scanner". This document is therefore only necessary for scanners that are not listed in the default usermap file of sane, for people who are interested in hotplug configuration or for those who are interested in network support.
 
 
 
====Verify that your scanner works with SANE====
 
Many but not all of the scanners on the market are supported by SANE. The best way to find out whether yours is supported is to directly check on the project's website: [http://www.sane-project.org/sane-supported-devices.html sne-supported-devices]. On this site, you will also find the information, which SANE backend you will need.
 
 
 
====Install sane====
 
 
 
  # pacman -S sane
 
 
 
While xsane is not necessary, but the program is very useful under X windows, it's with gtk2 GUI.
 
 
 
  # pacman -S xsane
 
 
 
By default, '''hotplug''' has been installed on your Arch system, but if not, you can decide to install or not. However it's strongly recommended.
 
 
 
 
 
====Get scanner to work====
 
 
 
# Open a terminal and log in as root
 
 
 
# Execute the program
 
 
 
  # sane-find-scanner
 
 
 
to verify that SANE correctly detects your scanner.
 
 
 
# Get the device name of your scanner. The easiest way to find it, is to user the program scanimage:
 
 
 
  # scanimage -L
 
 
 
The output of this was alike:
 
 
 
  device `plustek:libusb:003:004' is a Canon N1240U/LiDE30 USB flatbed scanner
 
 
 
With this information, we are ready to start the testscan:
 
 
 
  # scanimage -d plustek:libusb:003:004 -x 50 -y 50 --format=tiff > /home/hunzikea/test.tiff
 
 
 
If this correctly creates a file called test.tiff with a reasonable content, we are ready to setup the scanner for the ordinary user.
 
 
 
  # gpasswd -a yourusername scanner
 
 
 
That's it, have fun with your scanner.
 
 
 
====Epson Perfection 1270====
 
 
 
This is for some scanners which are listed as 'good' support but you simple don't know how to make it work, here I take '''Epson Perfection 1270''' as an example.
 
 
 
By checking the sane-support-devices page, you can find very useful information for your scanner. Here I know Epson Perfection 1270 is supported by snapscan backend.
 
 
 
For Epson Perfection 1270, you also need a firmware named esfw3e.bin, you can get it from (anyone could give a working place so I can upload it?), or you can get it yourself by reference to [http://wiki.archlinux.org/index.php/Scanner_setup_%26_configure Scanner setup & configure]. I get it by installing the driver in the windows.
 
 
 
Modify configuration file of snapscan backend:
 
 
 
  # vi /etc/sane.d/snapscan.conf
 
 
 
Change the firmware path line with yours. :
 
 
 
  # Change to the fully qualified filename of your firmware file, if
 
  # firmware upload is needed by the scanner
 
  firmware /mnt/mydata/Backups/firmware/esfw3e.bin
 
 
 
And add the following line in the end or anywhere you like
 
 
 
  # Epson Perfection 1270
 
  usb 0x04b8 0x0120
 
 
 
''usb 0x04b8 0x0120'', you can get such code information by "sane-find-scanner" command.
 
 
 
Also add such information lines in your libusbscan.usermap file, like:
 
 
 
Redo the previous steps, you have a working Epson Perfection 1270 now.
 
 
 
====Configuring hotplug====
 
 
 
'''The following hotplug configuration steps are no longer needed (with 0.6 or above), For your information only'''
 
 
 
In this section we will use hotplug to detect when the scanner is plugged in and, as a consequence, set the permissions on the scanner device so that members of the group \"users\" can use it.
 
 
 
# First, you will need to get the Vendor and ProdID number of your scanner. To get those, type, as root,
 
 
 
  # cat /proc/bus/usb/devices
 
 
 
Search the output of this command for your scanner. In that block of information, you will find your scanner's Vender and ProdID numbers. In my case, the relevant output of the above command was
 
 
 
<pre>
 
T:  Bus<code>03 Lev</code>01 Prnt<code>01 Port</code>01 Cnt<code>02 Dev#</code>  4 Spd<code>12  MxCh</code> 0
 
D:  Ver<code> 1.10 Cls</code>ff(vend.) Sub<code>00 Prot</code>00 MxPS<code> 8 #Cfgs</code>  1
 
P:  Vendor<code>04a9 ProdID</code>220e Rev= 1.00
 
S:  Manufacturer=Canon
 
S:  Product=CanoScan
 
C:* #Ifs<code> 1 Cfg#</code> 1 Atr<code>a0 MxPwr</code>500mA
 
I:  If#<code> 0 Alt</code> 0 #EPs<code> 3 Cls</code>ff(vend.) Sub<code>00 Prot</code>ff Driver=(none)
 
E:  Ad<code>81(I) Atr</code>03(Int.) MxPS<code>  1 Ivl</code>16ms
 
E:  Ad<code>82(I) Atr</code>02(Bulk) MxPS<code>  64 Ivl</code>0ms
 
E:  Ad<code>03(O) Atr</code>02(Bulk) MxPS<code>  64 Ivl</code>0ms
 
</pre>
 
 
 
So, for me, the Vendor number is 04a9 and the ProdID is 220e.
 
 
 
# Create a usbscanner.usermap file in /etc/hotplug/usb. Open your favorite text editor, e.g.
 
 
 
  # cd /etc/hotplug/usb
 
  # vi usbscanner.usermap
 
 
 
Add the following two lines to this file:
 
 
 
  #Name of your scanner
 
  usbscanner 0x0003 0x04a9 0x220e 0x0000 0x0000 0x00 0x00 0x00 0x00 0x00 0x00 0x00000000
 
 
 
Instead of the values 0x04a9 and 0x220e, insert the Vendor oder ProdID numbers from step 1.
 
Save the file as usbscanner.usermap.
 
 
 
# We now need to create a shell script to set the correct permissions on the scanner device. Again, with you favorite text editor, create a file called usbscanner in /etc/hotplug/usb. Insert the following text
 
<pre>
 
#!/bin/bash
 
#
 
# /etc/hotplug/usb/usbscanner
 
#
 
 
 
GROUP=users
 
 
 
if [[ \"${ACTION}\" = \"add\" ]] && [[ -f \"${DEVICE}\" ]]
 
then
 
    chmod o-rwx \"${DEVICE}\"
 
    chgrp \"${GROUP}\" \"${DEVICE}\"
 
    chmod g+rw \"${DEVICE}\"
 
fi
 
 
and save the script.
 
 
 
# Make the script executable
 
 
# chmod +x /etc/hotplug/usb/usbscanner
 
</pre>
 
 
 
====Test your configuration====
 
# To test your configuration, plug in your scanner and turn it on. If it was already plugged in before, plug it out and in again to invoke the script.
 
 
 
# List the contents of /proc/bus/usb by typing
 
 
 
  # ls -lR /proc/bus/usb
 
 
 
There should be at least one device which doesn't say \"root\" twice. On my machine, the output looks like so:
 
 
 
<pre>
 
/proc/bus/usb/003:
 
total 0
 
-rw-r--r--  1 root root  43 Apr 12 22:02 001
 
-rw-r--r--  1 root root  73 Apr 12 22:02 002
 
-rw-rw----  1 root users 57 Apr 12 22:08 004
 
</pre>
 
 
 
  Notice the last line.
 
 
 
====Use your scanner in your favourite application====
 
 
 
You can now use gimp or xsane to scan pictures with your scanner. Enjoy!
 
 
 
==== Sharing Your Scanner Over a Network ====
 
 
 
You can share your scanner with other hosts on your network who use sane, xsane or xsane-enabled Gimp.  To set up the server (the PC which is connected to your scanner), first indicate which hosts on your network are allowed access.
 
 
 
Add the following to the /etc/sane.d/sane.conf file:
 
<pre>
 
# required
 
localhost
 
# allow all local hosts
 
192.168.0.0/24
 
</pre>
 
 
 
Of course, you may need to change "192.168.0.0/24" to suit your local area network.  You can also specify individual hosts, as the following examples illustrate:
 
<pre>
 
# specific host with static IP address
 
192.168.0.2
 
# specific hosts supported by local DNS or /etc/hosts
 
bristol
 
brandal
 
brutus
 
</pre>
 
 
 
Ensure xinetd is installed:
 
<pre>
 
# pacman -S xinetd
 
:: xinetd-#.#.##-#: is up to date.  Upgrade anyway? [Y/n] n
 
</pre>
 
 
 
Also be sure to add xinetd to the list of DAEMONS in /etc/rc.conf
 
 
 
Next, create a file called /etc/xinetd.d/sane-port and include the following:
 
<pre>
 
service sane-port
 
{
 
  port        = 6566
 
  socket_type = stream
 
  wait        = no
 
  user        = nobody
 
  group      = nobody
 
  server      = /usr/sbin/saned
 
  disable    = no
 
}
 
</pre>
 
 
 
Ensure that port 6566 is not blocked by any firewall which would affect connections inside your local area network.
 
 
 
Now start (or restart) xinetd:
 
<pre>
 
# /etc/rc.d/xinetd start
 
</pre>
 
 
 
Your scanner can now be used by other workstations, accross your local area network.
 
 
 
==== Accessing Your Scanner from a Remote Workstation ====
 
 
 
You can access your network-enabled scanner from a remote Arch Linux workstation.
 
 
 
To set up your workstation, begin by installing xsane:
 
<pre>
 
# pacman -S xsane
 
</pre>
 
 
 
Next, specify the server's host name or IP address in the /etc/sane.d/net.conf file:
 
<pre>
 
# static IP address
 
192.168.0.1
 
# OR /etc/hosts or DNS supported host name
 
stratus
 
</pre>
 
 
 
Now test your workstation's connection, from a non-root login prompt:
 
<pre>
 
$ xsane
 
</pre>
 
 
 
After a short while, xsane should find your remote scanner and present you with the usual windows, ready for network scanning delight!
 

Revision as of 10:13, 27 September 2012

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