Difference between revisions of "Software projects/OS/Slackware/Advanced usage/USB graphic"
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'''Needs Internet connection!''' | '''Needs Internet connection!''' | ||
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+ | See also: [http://pandorawiki.org/Software_projects/OS/Slackware/Advanced_usage/Kernel Kernel compilation] | ||
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+ | Especially the note about the 3D graphics driver, that should be considered when compiling a new kernel: [http://pandorawiki.org/Software_projects/OS/Slackware/Advanced_usage/Kernel#3D_driver] | ||
<pre> | <pre> |
Revision as of 23:06, 10 December 2012
Contents
Display Link
- Check this thread.
These instructions are for users of SL4P 14.0 RC4 and RC5.
If you use an earlier or later version of SL4P, the steps necessary to make DisplayLink work may be different.
Step 1: Preconditions
- Boot SL4P
- Open a console
- Connect the Pandora to the Internet
- Connect the Pandora to AC power
- Make sure that you don't need to carry away the Pandora for the next 2..5 hours.
Step 2: Compile a new kernel with "udl" support
Needs Internet connection!
See also: Kernel compilation
Especially the note about the 3D graphics driver, that should be considered when compiling a new kernel: [1]
su - sh kernel-sync.sh cd /usr/src/linux make xconfig (or, if that fails due to missing KDE, use "make menuconfig", which uses the text mode menu system)
Use the search feature, search for "udl" Check it to be compiled as a module, then:
cd sh kernel.sh
This compiles a new kernel and all the modules. Depending on your CPU speed and RAM, this may take about 2 to 5 hours. Then reboot.
Step 3: Compile the X driver for DisplayLink (udlfb)
(ONLY UNTIL SL4P 14.0 RC4, in later versions this is already integrated into the default system, so in 14.0 RC5 and later versions you may skip this step!). Fetch sources of, compile, make a package and install the X driver:
Needs Internet connection!
rm -rf /tmp/build/* cd git clone http://git.plugable.com/webdav/xf-video-udlfb/ cd xf-video-udlfb export CFLAGS="-DPANDORA -O2 -pipe -mcpu=cortex-a8 -mfpu=neon -mfloat-abi=softfp" export CXXFLAGS="-DPANDORA -O2 -pipe -mcpu=cortex-a8 -mfpu=neon -mfloat-abi=softfp" ./autogen.sh ./configure --prefix=/usr --localstatedir=/var --sysconfdir=/etc make make install DESTDIR=/tmp/build/ cd /tmp/build/ makepkg -c y /tmp/xf-video-udlfb-201211-arm-1.tgz installpkg /tmp/xf-video-udlfb-*-arm-1.tgz
Step 4: Find out framebuffer device
Find out, which framebuffer device is used:
Plug in the DisplayLink adapter, then do a
dmesg
The output should show you, what fb device is used. For me, it's /dev/fb3. You should see something like this:
[ 230.808593] usb 1-2: new high-speed USB device number 2 using ehci-omap [ 235.933532] usb 1-2: device descriptor read/64, error -32 [ 236.201080] usb 1-2: New USB device found, idVendor=17e9, idProduct=0198 [ 236.201110] usb 1-2: New USB device strings: Mfr=1, Product=2, SerialNumber=3 [ 236.201110] usb 1-2: Product: WS Tech USB-DVI [ 236.201141] usb 1-2: Manufacturer: DisplayLink [ 236.201141] usb 1-2: SerialNumber: 305711 [ 236.443908] udlfb: DisplayLink WS Tech USB-DVI - serial #305711 [ 236.443939] udlfb: vid_17e9&pid_0198&rev_0015 driver's dlfb_data struct at c7890800 [ 236.443939] udlfb: console enable=1 [ 236.443969] udlfb: fb_defio enable=1 [ 236.443969] udlfb: shadow enable=1 [ 236.444244] udlfb: vendor descriptor length:1e data:1e 5f 01 001c 05 00 01 03 04 02 [ 236.444274] udlfb: DL chip limited to 1500000 pixel modes [ 236.445434] udlfb: allocated 4 65024 byte urbs [ 236.447937] usbcore: registered new interface driver udlfb [ 236.598724] udlfb: Unable to get valid EDID from device/display [ 236.598754] udlfb: 640x350 @ 85 Hz valid mode [ 236.598785] udlfb: 640x400 @ 85 Hz valid mode [ 236.598785] udlfb: 721x400 @ 85 Hz valid mode [ 236.598815] udlfb: 640x480 @ 60 Hz valid mode [ 236.598815] udlfb: 640x480 @ 72 Hz valid mode [ 236.598815] udlfb: 640x480 @ 75 Hz valid mode [ 236.598846] udlfb: 640x480 @ 85 Hz valid mode [ 236.598846] udlfb: 800x600 @ 56 Hz valid mode [ 236.598876] udlfb: 800x600 @ 60 Hz valid mode [ 236.598876] udlfb: 800x600 @ 72 Hz valid mode [ 236.598876] udlfb: 800x600 @ 75 Hz valid mode [ 236.598907] udlfb: 800x600 @ 85 Hz valid mode [ 236.598907] udlfb: 1024x768 @ 43 Hz valid mode [ 236.598937] udlfb: 1024x768 @ 60 Hz valid mode [ 236.598937] udlfb: 1024x768 @ 70 Hz valid mode [ 236.598968] udlfb: 1024x768 @ 75 Hz valid mode [ 236.598968] udlfb: 1024x768 @ 85 Hz valid mode [ 236.598968] udlfb: 1152x864 @ 75 Hz valid mode [ 236.598999] udlfb: 1280x960 @ 60 Hz valid mode [ 236.598999] udlfb: 1280x960 @ 85 Hz valid mode [ 236.599029] udlfb: 1280x1024 @ 60 Hz valid mode [ 236.599060] udlfb: 1280x1024 @ 75 Hz valid mode [ 236.599060] udlfb: 1280x1024 @ 85 Hz valid mode [ 236.599060] udlfb: 1600x1200 beyond chip capabilities [ 236.599090] udlfb: 1600x1200 beyond chip capabilities [ 236.599090] udlfb: 1600x1200 beyond chip capabilities [ 236.599121] udlfb: 1600x1200 beyond chip capabilities [ 236.599121] udlfb: 1600x1200 beyond chip capabilities [ 236.599121] udlfb: 1792x1344 beyond chip capabilities [ 236.599151] udlfb: 1792x1344 beyond chip capabilities [ 236.599151] udlfb: 1856x1392 beyond chip capabilities [ 236.599182] udlfb: 1856x1392 beyond chip capabilities [ 236.599182] udlfb: 1920x1440 beyond chip capabilities [ 236.599182] udlfb: 1920x1440 beyond chip capabilities [ 236.599212] udlfb: Reallocating framebuffer. Addresses will change! [ 236.600250] udlfb: 800x600 @ 60 Hz valid mode [ 236.600250] udlfb: set_par mode 800x600 [ 236.642547] udlfb: DisplayLink USB device /dev/fb3 attached. 800x600 resolution. Using 1880K framebuffer memory
(Note last line mentioning the device /dev/fb3)
Step 5: First Test
Plug in the DisplayLink adapter, connect the display. Make sure that USB Host is enabled on the Pandora. Then reboot the Pandora. After the reboot, the external display should turn green, as the sign that the DisplayLink driver is active and talking to the DisplayLink adapter. If it does, the first test was successful.
Step 6: Adjust /etc/X11/xorg.conf
Add this block to /etc/X11/xorg.conf (and replace "/dev/fb3" with the framebuffer device you discovered in Step 4 above):
################ DisplayLink Stuff ################### Section "Device" Identifier "DisplayLinkDevice" Driver "fbdev" BusID "USB" # needed to use multiple DisplayLink devices Option "fbdev" "/dev/fb3" # change to whatever device you want to use # Option "rotate" "CCW" # uncomment for rotation EndSection Section "Monitor" Identifier "DisplayLinkMonitor" EndSection Section "Screen" Identifier "DisplayLinkScreen" Device "DisplayLinkDevice" Monitor "DisplayLinkMonitor" DefaultDepth 16 EndSection
Then find the Section "ServerLayout" and add a reference to the new screen, e.g. like this:
Screen 0 "DisplayLinkScreen" Screen 1 "Screen0" LeftOf "DisplayLinkScreen" Option "Xinerama" "on"
Hints:
- "Screen0" is the reference to the Pandora screen. I think that's the default identified in SL4P and SuperZaxxon. You may check to make sure it's correct.
- You may replace "LeftOf" by "RightOf", "Above" or "Below".
- For cloning, you may experiment with
Option "Clone" "on"
. However, this will need adjustment of the DisplayLink display's resolution and probably more, in order to produce a satisfying result. Please document it here, if you find a good solution for cloning.
Optional: Further tweaking of the setup
If you want to change xorg.conf and test the changes without waiting for X with XFCE to start up each time, you may As a user:
xwmconfig
choose fvwm2
As root, edit /etc/inittab, and change:
id:4:initdefault:
into
id:3:initdefault:
Then SL4P boots into text mode, and you can log in and type startx to start X with the much quicker loading fwwm2 window manager. Once you have found a setup you want to use, you may revert the last steps to boot directly into XFCE again.
To Do: Hotplug
We still need to find a satisfactory hotplug solution. Currently, the X server needs to be restarted, in order to make a newly plugged in DisplayLink adapter work, or to revert the desktop to 800x480 Pandora screen size, when the adapter has been disconnected.
It seems that real hotplug is not possible with the versions of X and udlfb (kernel): [2]
What would in theory be possible using the hotplug mechanism of Linux, as I understand it, would be, to kill and restart X automatically on every plug / unplug of a DisplayLink device. Of course, this is a really bad hack. Open applications would lose any unsaved data. But I could think of a semi-automatic solution: Whenever hot(un)plug of a DisplayLink adapter is detected, prompt the user to save any unsaved data, and to then hit the "Restart X" button of the prompting dialog.
Work in progress...
SiS USB2VGA adapters
They should work in general, using the sisusbvga / sisusb kernel module and X driver. However, I have not succeeded to make one work in SL4P yet.
Work in progress...