Libreboot Documentation

GNU/Linux distributions

Working with source code

Hardware maintenance

Macbook2,1

Installing libreboot (software: using internal programmer)

Installing libreboot (hardware: using external programmer)

GRUB2 payload

Miscallaneous


How to build libreboot_src from libreboot_meta

If you downloaded libreboot_meta.tar.gz, then you can use the scripts included which download all of the extra dependencies and (basically) generates libreboot_src.

You need to install the build dependencies first.

The following scripts installs them for apt-get distros.
Adapt what's in this script if you don't use an apt-get distro:
$ sudo ./builddeb

After that, run the get script:
$ ./getall

What this did was download everything (grub, coreboot, memtest86+, bucts, flashrom) at the versions last tested for this release, and patch them. Read the script in a text editor to learn more.

After that, you will have the full source. Rename libreboot_meta to libreboot_src. To build the ROM's, see #build.

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How to build "bucts" (for LenovoBIOS X60/T60)

This is for Lenovo BIOS users on the ThinkPad X60 and T60. If you have coreboot or libreboot running already, ignore this.

Bucts is needed when flashing the X60/T60 ROM while Lenovo BIOS is running. Each ROM contains identical data inside the two final 64K region in the file. This corresponds to the final two 64K regions in the flash chip. Lenovo BIOS will prevent you from writing the final one, so running "bucts 1" will set the machine to boot from the other block instead (which is writeable along with everything beneath it when using a patched flashrom. see #build_flashrom). After shutting down and booting up after the first flash, the final 64K block is writeable so you flash the ROM again with an unpatched flashrom and run "bucts 0" to make the machine boot from the normal (highest) block again.

BUC.TS utility is included in libreboot_src.tar.gz and libreboot_bin.tar.gz.
If you downloaded libreboot_meta.tar.gz, follow #build_meta before you proceed.

"BUC" means "Backup Control" (it's a register) and "TS" means "Top Swap" (it's a status bit). Hence "bucts" (BUC.TS). TS 1 and TS 0 corresponds to bucts 1 and bucts 0.

You need to install GCC. The following will work on apt-get distros (adapt that script if your distro doesn't use apt-get):
$ sudo ./builddeb-bucts

To build bucts, do that in the main directory:
$ ./builddeps-bucts

The "builddeps" script in libreboot_src and libreboot_meta also makes use of builddeps-bucts.

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How to build "flashrom"

Flashrom is the utility for flashing/dumping ROM's. This is what you will use to install libreboot.

Flashrom source code is included in libreboot_src.tar.gz and libreboot_bin.tar.gz.
If you downloaded libreboot_meta.tar.gz, follow #build_meta before you proceed.

You need the build dependencies for flashrom. The following script works in apt-get distros (tested in Trisquel 6):
$ sudo ./builddeb-flashrom

To build it, do that in the main directory:
$ ./builddeps-flashrom

After you've done that, under ./flashrom/ you will find the following executables:

The "builddeps" script in libreboot_src and libreboot_meta also makes use of builddeps-flashrom.

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Configuring libreboot

Before building a ROM in libreboot (or coreboot, for that matter), you need to configure it. This is done using the following inside the source tree:
$ make menuconfig

If you've already built a kernel before, you know how to use this interface.

Configurations are saved then as files called ".config". Copies of each configuration used for each machine type by the libreboot build scripts are stored in resources/libreboot/config/

dmidecode

There is certain information that can be useful to enter in particular:

This information can be obtained using:
$ sudo dmidecode
# dmidecode

Specifically, it's good practise to enter the same information for libreboot that you found when running this with the original BIOS or firmware. libreboot has already done this for you. This information is for reference, in the hope that it will be useful.

ThinkPad X60 configuration (file: resources/libreboot/config/x60/config)

Now go back into Devices:

The resulting .config file was saved as resources/libreboot/config/x60/config and is used by the build scripts for this machine.

This is based on an X60S with the Core 2 Duo L7400 processor.

SMBIOS Version Number is ThinkPad X60 on the X60, but it is believed that X60 and X60s both have identical motherboards where the only difference is the CPU. This same configuration is used on the X60 and X60s.

ThinkPad X60 Tablet configuration (file: resources/libreboot/config/x60t/config)

Now go back into Devices:

The resulting .config file was saved as resources/libreboot/config/x60t/config and is used by the build scripts for this machine.

This is based on an X60T with the Core 2 Duo L7400 processor.

ThinkPad T60 configuration (file: resources/libreboot/config/t60/config)

Go back into Devices:

The resulting .config file was saved as resources/libreboot/config/t60/config and is used by the build scripts for this machine.

It is believed that the motherboards on 14.1" and 15.1" T60's are the same, so the same configuration is used on both the 14.1" and 15.1" T60's.

MacBook2,1 configuration (file: resources/libreboot/config/macbook21/config)

Go back and disable option ROM's:

The resulting .config file was saved as resources/libreboot/config/macbook21/config and is used by the build scripts for this machine.

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How to build the ROM's!

If you have anything special in a directory called libreboot_bin, just outside of libreboot_src, then back it up first.

You don't need to do much: there are scripts already written for you that can build everything automatically.

Install all dependencies (works on apt-get distros, tested in Trisquel 6)
$ sudo ./builddeb

If your distro uses a different package manager or package names, then you'll need to adapt what you see in 'builddeb' and install it yourself - maybe you could share the script for your distro!

Also, make sure that you have the sha512sum utility installed.

If running for the first time, run this:
$ ./buildall (also performs the "./build" step below)
Or if you only want to build dependencies (crossgcc, grub and so on):
$ ./builddeps

If you've already run ./builddeps and/or ./buildall before, you don't need to run them again. Just run that from now on to build your ROM's:
$ ./build

To un-build (clean) the build dependencies that you built before, do that:
$ ./cleandeps

Note: after running 'cleandeps', you will need to run 'builddeps' or 'buildall' again before you can use 'build'.

After 'build' or 'buildall' has finished, an ../libreboot_bin directory will exist outside of libreboot_src containing the ROM's and other files. In libreboot_src will also be a directory called 'bin' which contains all of the ROM's that you compiled.

The script also generates a 'libreboot_meta' directory outside of libreboot_src, which contains everything in src except for grub, coreboot, memtest, flashrom and bucts. There is a script called 'getall' from src included in meta, which downloads and patches everything needed to create src.

Reading all of those scripts will teach you how everything is built. It should also be simple to modify it to your needs.

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Supported T60 list

T60 15.4" (1280x800 and 1680x1050) with Intel GPU is untested in this release. Not much yet is known about panel names. They will be tested at a later date.

A user with 2 T60's, each with a Core 2 Duo T7200 processor tried libreboot on each machine. One worked, one did not. It should be explained that in addition to the microcode (on the CPU), updates are usually supplied in coreboot (from Intel) which patch the onboard microcode to fix bugs. Errata's can be found at http://download.intel.com/design/mobile/SPECUPDT/30922214.pdf and http://download.intel.com/design/mobile/SPECUPDT/31407918.pdf. These microcode updates are not included in libreboot because they are proprietary (blobs). Most CPU's work fine without them: hundreds of Core Duo T2300/T2400/T2500/L2300/L2400/L2500 processors have been tested on the X60, and a few T5600 CPU's have been tested on the T60 (and X60 and all work). In the case of the T7200, it was found that one of the two tested had instability issues (kernel panics) without the updates: work is being done to find out exactly what version of the microcode that particular CPU had in this case. If you find that your CPU gives you similar issues (after trying libreboot), the current workaround is to simply try another CPU (fortunately, the CPU's in the T60 are installed in a socket so replacing them is easy).

There might be a patched kernel that can be used, or a kernel parameter that can be used in GRUB to work around these (rare) buggy CPU's (it is unknown at the moment whether this is possible). The Core 2 Duo T7600 is untested, but will be tested soon (the lead developer of libreboot project has 3 of them to try out).

If reading this for 2nd beta, note that any debugging obtained so far will be included in the 3rd beta.

To find what LCD panel you have, see: #get_edid_panelname.

Tested LCD panels (as of libreboot 6th release, initial revision)

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Inverter boards for ThinkPad T60 when upgrading LCD panel

When upgrading the XGA (1024x768) LCD panel to SXGA+ (1400x1050) on the 14.1" T60, you also need to use this inverter board:

When upgrading the XGA (1024x768) LCD panel to SXGA+ (1400x1050), UXGA (1600x1200) or QXGA (2048x1536) on the 15.1" T60, you also need to use one of these inverter boards:

See #supported_t60_list for a list of LCD panels on ThinkPad T60 14.1" and ThinkPad T60 15.1".

The Video BIOS (VBIOS) for T60 has been reverse engineered and replaced with Free Software. However, at the time of preparing this release the free replacement did not yet support the XGA (1024x768) panels, which is what made upgrading them necessary.

The 'Video BIOS' is what initializes graphics.

See: https://en.wikipedia.org/wiki/Video_BIOS.

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ThinkPad T60 (ATI GPU) and ThinkPad T60 (Intel GPU) differences.

If your T60 is a 14.1" or 15.1" model with an ATI GPU, it won't work with libreboot by default but you can replace the motherboard with another T60 motherboard that has an Intel GPU, and then libreboot should work.

As far as I know, 14.1" (Intel GPU) and 15.1" (Intel GPU) T60 motherboards are the same, where 'spacers' are used on the 15.1" T60. In any case, it makes sense to find one that is guaranteed to fit in your chassis.

Note: the T60p is a 15.4" widescreen laptop and uses completely different shaped motherboards (all of which have ATI). The T60p laptops cannot be used with libreboot under any circumstances.

There is a 15.4" T60 with Intel graphics, which might work. (untested at the time of writing). Note to self: REMOVE THIS WHEN TESTED.

The following T60 motherboard shows an ATI GPU (do not buy this) (highlighted in red, or on the right next to the white CPU socket), which is unsupported by libreboot:

The following T60 motherboard shows an Intel GPU (buy this!) (highlighted in red or on the right next to the white CPU socket, you can see that the space for ATI GPU is empty):

The reason that the ATI GPU on T60 is unsupported is due to the VBIOS (Video BIOS) which is non-free. The VBIOS for the Intel GPU on X60/T60 has been reverse engineered, and replaced with Free Software and so will work in libreboot.

The 'Video BIOS' is what initializes graphics.

See: https://en.wikipedia.org/wiki/Video_BIOS.
In fact, lack of free VBIOS in general is a big problem in coreboot, and is one reason (among others) why many ports for coreboot are unsuitable for libreboot's purpose.

Theoretically, the ThinkPad T60 with ATI GPU can work with libreboot and have ROM's compiled for it, however in practise it would not be usable as a laptop because there would be no visual display at all. That being said, such a configuration is acceptable for use in a 'headless' server setup (with serial and/or ssh console as the display).

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Information about the macbook2,1

There is an Apple laptop called the macbook2,1 from late 2006 or early 2007 that uses the same i945 chipset as the ThinkPad X60 and ThinkPad T60. A developer ported coreboot to his macbook2,1, and now libreboot can run on it.

Mono Moosbart is the person who wrote the port for macbook2,1. Referenced below are copies (up to date at the time of writing, 20140630) of the pages he wrote when porting coreboot to the macbook2,1. They are included here in case the main site goes down for whatever reason, since they include a lot of useful information.

Backups created using wget:
$ wget -m -p -E -k -K -np http://macbook.donderklumpen.de/
$ wget -m -p -E -k -K -np http://macbook.donderklumpen.de/coreboot/
Use -e robots=off if using this trick for other sites and the site restricts using robots.txt

Links to wget backups (and the backups themselves) of Mono's pages (see above) removed temporarily. Mono has given me permission to distribute them, but I need to ask him to tell me what license these works fall under first. Otherwise, the above URL's should be fine. NOTE TO SELF: REMOVE THIS WHEN DONE

Installing GNU/Linux distributions (on Apple EFI firmware)

Information about coreboot

coreboot wiki page

Compatible models

It is believed that all models are compatible, listed here:

Specifically (Order No. / Model No. / CPU):

Also of interest: #config_macbook21.

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Recommended ROM's to flash

Recommended ROM's to flash:

This will give you your native keyboard layout inside GRUB. The preferences in your OS are not affected, it just makes using the GRUB command line easier (if you ever need to do that). #grub_keyboardshows you how this was done. If your native keyboard layout differs, you can adapt those notes and hack the 'build' script for your needs.

For pictures of what these keyboard layouts look like (so you can compare with yours), see #keyboards.

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X60/T60: How to flash the ROM's onto your machine (if running Lenovo BIOS).

Hover over the next paragraph to make it black.

Following this guide means simply flashing a libreboot ROM. This guide will not (directly) teach you how to make a backup (dump) of the original Lenovo BIOS because to do so would be to explicitly endorse proprietary software. However, for the purposes of reverse engineering it can be useful to have a backup. Each copy of the original Lenovo BIOS is tied to the specific machine that it came from; it will not run on any other machine, even if it's the same type of machine as yours. What this means is that, effectively, you can back it up now (so that you can re-flash it later if you want to run the original Lenovo BIOS again) or lose it forever. The X60/T60 installation guide on the coreboot wiki will show you how to do this: http://www.coreboot.org/Board:lenovo/x60/Installation.
Do not make this decision lightly! This is your last and only chance.

This is for the ThinkPad X60 and T60 while running Lenovo BIOS. If you already have coreboot or libreboot running, then go to #flashrom instead!

If you are flashing a Lenovo ThinkPad T60, be sure to read #supported_t60_list

If you are using Trisquel 6 (32-bit) then the bucts/flashrom binaries are tested. If not (or if you want), recompile them:
See: #build_flashrom
See: #build_bucts
In any case, you will want the dependencies to run them aswell:
$ sudo ./builddeb-flashrom
$ sudo ./builddeb-bucts
(^ works on Trisquel 6, maybe other apt-get distros. Adapt for all other distros.)

"YOURBOARD/YOURROM" should be replaced with what is correct as per #rom. Alternatively you may be using your own custom ROM. Adapt.

Run the script:
$ sudo ./lenovobios_firstflash bin/YOURBOARD/YOURROM.

You should see within the output the following:
"Updated BUC.TS=1 - 64kb address ranges at 0xFFFE0000 and 0xFFFF0000 are swapped".

You should also see within the output the following:
"Flash chip is in an unknown state", "FAILED" and "DO NOT SHUTDOWN OR REBOOT"
Seeing this means that the operation was a resounding success! DON'T PANIC.

See this link for more details: http://thread.gmane.org/gmane.linux.bios.flashrom/575.

If the above is what you see, then SHUT DOWN. Wait a few seconds, and then boot; libreboot is running, but there is a 2nd procedure *needed* (see below).

If you boot and you see nothing, try turning up the backlight (Fn+Home). If this is a ThinkPad X60 and backlight resets to zero when turning it up while at max, look at #tft_brightness.

After the 2nd flash, if this is a ThinkPad X60 then you can look at #x60_wifi for how to enable/disable wifi. You can also look at #x60_trackpoint for how to enable/disable the trackpoint (red mouse on keyboard). You might want to do the 2nd flash first (see below) before doing that.

When you have booted up again:
$ sudo ./lenovobios_secondflash bin/YOURBOARD/YOURROM

You should see within the output the following:
"Updated BUC.TS=0 - 128kb address range 0xFFFE0000-0xFFFFFFFF is untranslated"

You should also see within the output the following:
"Verifying flash... VERIFIED."

Shut down again, wait a few seconds, and then boot.

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X60/T60: How to flash the ROM's onto your machine (if running libreboot or coreboot already)

These instructions work for both the ThinkPad X60 and T60.

This assumes that you already have coreboot or libreboot running

If you have Lenovo BIOS running, go to #flashrom_lenovobios instead.

If you are flashing a Lenovo ThinkPad T60, be sure to read #supported_t60_list

If you need to recompile flashrom:
See: #build_flashrom

You also need the run-time dependencies. This script works on apt-get distros:
$ sudo ./builddeb-flashrom

Look at #rom to see which ROM is suitable for your machine. Alternative you may be using your own custom ROM. Adapt.

Flash the ROM:
$ sudo ./flash bin/YOURBOARD/YOURROM

You should see "Verifying flash... VERIFIED." written at the end of the flashrom output. SHUT DOWN after you see this, and then boot up again after a few seconds.

If you boot and you see nothing, try turning up the backlight (Fn+Home). If this is a ThinkPad X60 and backlight resets to zero when turning it up while at max, look at #tft_brightness.

If this is a ThinkPad X60 then you can look at #x60_wifi for how to enable/disable wifi. You can also look at #x60_trackpoint for how to enable/disable the trackpoint (red mouse on keyboard).

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Setting font in GRUB (for reference)

You don't need to do this unless you would like to change the default font yourself. (this is just for reference. It has already been done for you)

The old font used was Unifont, and this had some missing characters: for instance, the border showed ??? characters instead of lines.

I tried DeJavu Sans Mono from this website: dejavu-fonts.org

Specifically, the version that I chose was the latest at the time of writing (Saturday 21 June 2014): this one

This is a free font that is also contained in GNU/Linux distributions like Trisquel or Parabola.

$ cd libreboot_src/grub
compile grub ('build' script has the info on how to do this)
come back out into libreboot_src/resources/grub:
$ cd ../libreboot_src/resources/grub/font

I took Dejavu Sans Mono from dejavu (included in this version of libreboot) and did:
$ ../../../grub/grub-mkfont -o dejavusansmono.pf2 ../../../dejavu-fonts-ttf-2.34/ttf/DejaVuSansMono.ttf

I then added the instructions to 'build' script to include resources/grub/dejavusansmono.pf2 in all of the ROM's in root of cbfs.
I then added that instructions to the grub.cfg files (to load the font):
loadfont (cbfsdisk)/dejavusansmono.pf2

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GRUB keyboard layouts (for reference)

Pictures of keyboard layouts

Taken from WikiPedia. See https://en.wikipedia.org/wiki/Dvorak_Simplified_Keyboard, https://en.wikipedia.org/wiki/QWERTY and https://en.wikipedia.org/wiki/AZERTY.

QWERTY (United Kingdom)

https://upload.wikimedia.org/wikipedia/commons/thumb/d/da/KB_United_Kingdom.svg/900px-KB_United_Kingdom.svg.png

QWERTY (United States)

https://upload.wikimedia.org/wikipedia/commons/thumb/5/51/KB_United_States-NoAltGr.svg/900px-KB_United_States-NoAltGr.svg.png

Dvorak (United Kingdom)

https://upload.wikimedia.org/wikipedia/commons/thumb/c/cc/KB_United_Kingdom_Dvorak.svg/900px-KB_United_Kingdom_Dvorak.svg.png

Dvorak (United States)

https://upload.wikimedia.org/wikipedia/commons/thumb/2/25/KB_United_States_Dvorak.svg/800px-KB_United_States_Dvorak.svg.png

AZERTY (French)

https://upload.wikimedia.org/wikipedia/commons/thumb/b/b9/KB_France.svg/800px-KB_France.svg.png

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Custom keyboard layout in GRUB (for reference)

Keymaps are stored in resources/grub/keymap/original (original files) and resources/grub/keymap (.gkb files).

Example (French Azerty):
$ ckbcomp fr > frazerty

Go in grub directory:
cat frazerty | ./grub/grub-mklayout -o frazerty.gkb

You must make sure that the files are named keymap and keymap.gkb (where 'keymap' can be whatever you want).

Then from the above example, you would put frazerty in resources/grub/keymap/original/ and the frazerty.gkb file goes under resources/grub/keymap/

The scripts build and buildrom-withgrub will automatically see this, and automatically build ROM's with your custom layout (given the name) and include them under bin. Example: libreboot_frazerty.rom.

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US Qwerty keyboard layout in GRUB (for reference)

$ cd libreboot_src/grub
compile grub ('build' script has the info on how to do this)
come back out into libreboot_src
$ cd ../

Generate the layout file:
$ ckbcomp us > usqwerty
$ cat usqwerty | ./grub/grub-mklayout -o usqwerty.gkb

Note: these files are already included ('build' script also makes use of them). You don't need to do any of this.

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UK Qwerty keyboard layout in GRUB (for reference)

$ ckbcomp gb > ukqwerty
$ cat ukqwerty | ./grub/grub-mklayout -o ukqwerty.gkb

Note: these files are already included ('build' script makes use of them). You don't need to do it.

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US Dvorak keyboard layout in GRUB (for reference)

How the dvorak.gkb was made (for US Dvorak layout in GRUB).

$ cd libreboot_src/grub
compile grub ('build' script has the info on how to do this)
come back out into libreboot_src:
$ cd ../

Generate the layout file:
$ ckbcomp dvorak > usdvorak
$ cat usdvorak | ./grub/grub-mklayout -o dvorak.gkb

Note: these files are already included ('build' script makes use of them). You don't need to do it.

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UK Dvorak keyboard layout in GRUB (for reference)

There isn't much difference to US Dvorak.
$ cp usdvorak ukdvorak

Patch ukdvorak like so (diff usdvorak ukdvorak):
diff the usdvorak file with ukdvorak to see how it was patched.

Now create ukdvorak.gkb
$ cat ukdvorak | ./grub/grub-mklayout -o ukdvorak.gkb

Note: these files are already included ('build' script makes use of them). You don't need to do any of this.

FR AZERTY keyboard layout in GRUB (for reference)

How the frazerty.gkb was made (for FR AZERTY layout in GRUB).

$ cd libreboot_src/grub
compile grub ('build' script has the info on how to do this)
come back out into libreboot_src:
$ cd ../

Generate the layout file:
$ ckbcomp fr > frazerty
$ cat frazerty | ./grub/grub-mklayout -o frazerty.gkb

Note: these files are already included ('build' script makes use of them). You don't need to do it.

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Brightness controls (ThinkPad X60) - how to prevent 'scrolling'

Sometimes, on some setups, when turning up the brightness while at max, it will loop back to minimum. Also, the minimum will turn the backlight off completely.

Install build dependencies (for Trisquel 6. Adapt if your distro is different):
$ sudo apt-get install build-essential

Go into the libreboot_src directory. Under coreboot/util/nvramtool/ do that to compile it:
$ make

Now do that:
$ sudo ./nvramtool -w tft_brightness=0xff
Alternatively if there are errors, try:
$ sudo ./nvramtool -y ../../src/mainboard/lenovo/x60/cmos.layout -w tft_brightness=0xff

The next time you boot, the looping issue should be gone.

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ThinkPad X60: Enable or disable wifi

Install build dependencies in Trisquel 6 (adapt for other distro):
$ sudo apt-get install build-essential
nvramtool is in coreboot or libreboot source tree until util/:
$ cd libreboot_src/coreboot/util/nvramtool
$ make
Enable wifi:
$ sudo ./nvramtool -w wlan=Enable
Disable wifi:
$ sudo ./nvramtool -w wlan=Disable
If that doesn't work, try one of these instead:
$ sudo ./nvramtool -y ../../src/mainboard/lenovo/x60/cmos.layout -w wlan=Enable
$ sudo ./nvramtool -y ../../src/mainboard/lenovo/x60/cmos.layout -w wlan=Disable

The next time you boot, wifi will be enabled.

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ThinkPad X60: Enable or disable trackpoint

Install build dependencies in Trisquel 6 (adapt for other distro):
$ sudo apt-get install build-essential
nvramtool is in coreboot or libreboot source tree until util/:
$ cd libreboot_src/coreboot/util/nvramtool
$ make
Enable wifi:
$ sudo ./nvramtool -w trackpoint=Enable
Disable wifi:
$ sudo ./nvramtool -w trackpoint=Disable
If that doesn't work, try one of these instead:
$ sudo ./nvramtool -y ../../src/mainboard/lenovo/x60/cmos.layout -w trackpoint=Enable
$ sudo ./nvramtool -y ../../src/mainboard/lenovo/x60/cmos.layout -w trackpoint=Disable

The next time you boot, trackpoint will be enabled.

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High Pitched Whining Noise on Idle (how to remove in Trisquel)

Powertop - how to use

Now you can use this command to kill that noise:
$ sudo powertop --auto-tune

You can also run it without parameters and then go into 'Tunables' and set everything to 'Good'

Note: On Trisquel 6, you will need to use a later powertop version from git. The one in the repositories is too old. See below:

Powertop - Start automatically at boot time (Trisquel 6)

Included with libreboot is a script called 'powertop.trisquel6'. Run this and it will setup powertop to run with --auto-tune at boot time. Load the file in your text editor to see how it does that.

$ ./powertop.trisquel6

This has been tested on Trisquel 6.

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High Pitched Whining Noise on Idle (how to remove in Parabola)

The following removes most of the noise. It reduces what is a high frequency whine (that not everyone can hear) to a slight buzz (which most people can't hear or doesn't bother most people).

This is not perfect! The full solution is still not discovered but this is a step towards that. Also, in some instances you will need to run 'sudo powertop --auto-tune' again. This needs to be implemented properly in coreboot itself!

On the X60 with coreboot or libreboot, there is a high pitched sound when idle. So far we have use processor.max_cstate=2 or idle=halt in GRUB. These consume power. Stop using them!

Be root
$ su -

Installed powertop:
# pacman -S powertop

and added the following to /etc/systemd/system/powertop.service :


[Unit]
Description=Powertop tunings

[Service]
Type=oneshot
RemainAfterExit=no
ExecStart=/usr/bin/powertop --auto-tune
# "powertop --auto-tune" still needs a terminal for some reason. Possibly a bug?
Environment="TERM=xterm"

[Install]
WantedBy=multi-user.target

Finally, as root do that:
# systemctl enable powertop
# systemctl start powertop

The next time you boot the machine, the buzz will be gone.

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X60/T60: Serial port - how to use (for dock owners)

For the Thinkpad X60 you can use the "UltraBase X6" dock. For the ThinkPad T60, you can use the "Advanced Mini Dock".

If you are using one of the ROM's with 'serial' in the name, then you have serial port enabled in libreboot and you have memtest86+ included inside the ROM. Connect your null modem cable to the serial port on the dock and connect the other end to a 2nd machine using your USB Serial adapter.

On the 2nd machine, you can try this (using GNU Screen):
$ sudo screen /dev/ttyUSB0 115200

How to quit GNU Screen: Ctrl+A then release and press K, and then press Y.

There are also others like Minicom but I like GNU Screen

By doing this before booting the X60/T60, you will see console output from libreboot. You will also see GRUB displaying on the serial output, and you will be able to see MemTest86+ on the serial output aswell. You can also configure your distro so that a terminal (TTY) is accessible from the serial console.

The following guide is for Ubuntu, and can be followed for Trisquel 6.0 which is based on Ubuntu 12.04 (should also work in Trisquel 7, based on Ubuntu 14.04) to enable a serial console using GeTTY:
https://help.ubuntu.com/community/SerialConsoleHowto

Note: part of the tutorial above requires changing your grub.cfg. Just change the linux line to add instructions for enabling getty. See howtos/grub_cbfs.html.

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Get EDID: Find out the name (model) of your LCD panel

Get the panel name with sudo get-edit | strings
Or look in /sys/class/drm/card0-LVDS-1/edid

If neither of these options work (or they are unavailable), physically removing the LCD panel is an option. Usually, there will be information printed on the back.

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	Unlisted note: http://inertiawar.com/microcode/
	(link published to coreboot mailing list on July 8, 2014)

	This page talks about 'calibration' in powertop:
	https://docs.fedoraproject.org/en-US/Fedora/15/html/Power_Management_Guide/PowerTOP.html
	I should think about adapting information here based on that page.

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