Miscellaneous


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TODO: this page is very old, and could do with an update. It was old when we inherited it from Libreboot, which we forked to create Canoeboot; it is even older now. It’s almost a tradition now, that this page is never updated.

You should assume that these instructions no longer work. Otherwise, if you wish to test them and send changes, patches are very much welcome!

High Pitched Whining Noise on Idle in Arch-based distros

NOTE: VERY OLD advice (years old), it may not be relevant for modern Arch.

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 Canoeboot, 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 system, the buzz will be gone.

Might want to run with –calibrate first

If powertop doesn’t work, another way (reduces battery life slightly) is to add processor.max_cstate=2 to the linux line in grub.cfg, using this guide.

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

For the Thinkpad X60 you can use the “UltraBase X6” dock (for the X60 Tablet it is called X6 Tablet UltraBase). For the ThinkPad T60, you can use the “Advanced Mini Dock”.

If you are using one of the ROM images with ‘serial’ in the name, then you have serial port enabled in Canoeboot 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 system using your USB Serial adapter.

On the 2nd system, you can try this (using screen):

sudo screen /dev/ttyUSB0 115200

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

There are also others like Minicom but Screen works nicely.

By doing this before booting the X60/T60, you will see console output from Canoeboot. 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, but it should work in Debian-based distros, Devuan, Trisquel etc, 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 ../gnulinux/grub_cbfs.html.

Finetune backlight control on intel gpu’s

Sometimes the backlight control value (BLC_PWM_CTL) set by Canoeboot is not ideal. The result is either flicker, which could cause nausea or epilepsy or an uneven backlight and/or coil whine coming from the display. To fix this a different value for the gpu reg BLC_PWM_CTL needs to be set. See p94 of https://01.org/sites/default/files/documentation/g45_vol_3_register_0_0.pdf for more information on this reg. The tool for setting registry values on intel gpu’s is included in intel-gpu-tools. Install intel-gpu-tools:

sudo apt-get install intel-gpu-tools

You can set values:

sudo intel_reg write 0x00061254 your_value_in_C_hex_format

NOTE: on older versions of this utility, use intel_reg_write instead.

The value set has the following structure: bits [31:16] is PWM divider. PWM / PWM_divider = frequency bits [15:0] is the duty cycle and determines the portion of the backlight modulation frequency. A value of 0 will mean that the display is off. A value equal to the backlight modulation frequency means full on. The value should not be larger than the backlight modulation frequency.

On displays with a CCFL backlight start from: 0x60016001 To verify if all modes work as desired use: xbacklight -set 10 and gradually increase until 100. Displays with an LED backlight need a lower backlight modulation. Do the same thing but start from 0x01290129 . Try setting different values until you have found a value which presents no issue.

It is important to know that there are four failure modes:

  1. flickering very fast, which could cause epilepsy (frequency is too low. decrease divider)
  2. randomly flickering in random intervals - driver IC cannot keep up with toggling the mosfet (frequency too fast, increase divider)
  3. frequency is in audible range and causes coils to whine (frequency is too high. increase divider)
  4. backlight is uneven. (CCFL specific, frequency is too high. increase divider)

To check for flickering try moving your laptop while looking at it.

A higher frequency equals higher power consumption. You want to find the highest good working value.

Next this value should be set at boot: either add

intel_reg write 0x00061254 <your_ideal_value>

NOTE: on older versions of this utility, use intel_reg_write instead.

before exit 0 in /etc/rc.local or create a systemd service file /etc/systemd/system/backlight.service:

[Unit]
Description=Set BLC_PWM_CTL to a good value
[Service]
Type=oneshot
RemainAfterExit=no
ExecStart=/usr/bin/intel_reg write 0x00061254 <your_value>
[Install]
WantedBy=multi-user.target

Now start and enable it:

sudo systemctl start backlight && sudo systemctl enable backlight

Special note on i945:

i945 behaves differently. Bit 16 needs to be 1 and the duty cycle is not updated when backlight is changed. There are no available datasheets on this target so why it behaves in such a way is not known. So to find a working value BLC_PWM_CTL set bit 16 to 1 and make sure PWM divider == duty cycle. see https://review.coreboot.org/#/c/10624/ on bit 16. The cause of this issue is that i945, in contrast with to GM45, is set to work in BLM Legacy Mode. This makes backlight more complicated since the duty cycle is derived from 3 instead of 2 registers using the following formula: if(BPC[7:0] <> xFF) then BPCR[15:0] * BPC[7:0] Else BPCR[15:0] BPC is LBB - PCI Backlight Control Register, described on http://www.mouser.com/pdfdocs/945gmedatasheet.pdf on page 315. BPCR is BLC_PWM_CTL described in https://01.org/sites/default/files/documentation/g45_vol_3_register_0_0.pdf on page 94. More research needs to be done on this target so proceed with care.

Power Management Beeps on Thinkpads

When disconnecting or connecting the charger, a beep occurs. When the battery goes to a critically low charge level, a beep occurs. Nvramtool is included in Canoeboot, and can be used to enable or disable this behaviour.

You need to write changes in a Canoeboot ROM image, and flash it, in order to apply them. You can either use a pre-compiled rom image, or create an image from the current one in your computer. See here ../gnulinux/grub_cbfs.html#get-the-rom-image for more information on how to do that.

Once you have a Canoeboot rom image, say ‘canoeboot.rom’, you can write changes on the image with the following commands.

Disable or enable beeps when removing/adding the charger:

sudo ./nvramtool -C canoeboot.rom -w power_management_beeps=Enable
sudo ./nvramtool -C canoeboot.rom -w power_management_beeps=Disable

Disable or enable beeps when battery is low:

sudo ./nvramtool -C canoeboot.rom -w low_battery_beep=Enable
sudo ./nvramtool -C canoeboot.rom -w low_battery_beep=Disable

You can check that the parameters are set in the image with :

sudo ./nvramtool -C canoeboot.rom -a

Finally, you need to flash the rom with this new image. See here ../gnulinux/grub_cbfs.html#with-re-flashing-the-rom for a detailed explanation.

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

Get the panel name:

sudo get-edid | strings

Or look in /sys/class/drm/card0-LVDS-1/edid

Alternatively you can use i2cdump. In Debian-based distros or Trisquel, this is in the package i2c-tools.

sudo modprobe i2c-dev
sudo i2cdump -y 5 0x50 (you might have to change the value for -y)

sudo rmmod i2c-dev

You’ll see the panel name in the output (from the EDID dump).

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.

e1000e driver trouble shooting (Intel NICs)

Example error, ¿may happen on weird and complex routing schemes(citation needed for cause):

e1000e 0000:00:19.0 enp0s25: Detected Hardware Unit Hang

Possible workaround, tested by Nazara: Disable C-STATES.

NOTE: this also disables power management, because disabling C-States means that your CPU will now be running at full capacity (and therefore using more power) non-stop, which will drain battery life if this is a laptop. If power usage is a concern, then you should not use this. (we’re also not sure whether this workaround is appropriate)

To disable c-states, do this in GNU+Linux:

for i in /sys/devices/system/cpu/cpu/cpuidle/state/disable;
do
	echo 1 > $i;
done

You can reproduce this issue more easily by sending lots of traffic across subnets on the same interface (NIC).

More information, including logs, can be found on this page.

Markdown file for this page: https://canoeboot.org/docs/misc/index.md

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