Debugging touchpad pressure/size ranges¶
Touchpad pressure/size ranges depend on Device quirks entry specific to each laptop model. To check if a pressure/size range is already defined for your device, use the libinput quirks tool:
$ libinput quirks list /dev/input/event19
If your device does not list any quirks, it probably needs a touch pressure/size range, a palm threshold and a thumb threshold. Start with Debugging touchpad pressure ranges, then Debugging touch size ranges. The respective tools will exit if the required axis is not supported.
Debugging touchpad pressure ranges¶
This section describes how to determine the touchpad pressure ranges required for a touchpad device and how to add the required Device quirks locally. Note that the quirk is not public API and may change at any time. Users are advised to report a bug with the updated pressure ranges when testing has completed.
Note
Most distributions ship libinput measure
in a separate
libinput-utils
package.
Use the libinput measure touchpad-pressure
tool provided by libinput.
This tool will search for your touchpad device and print some pressure
statistics, including whether a touch is/was considered logically down.
Note
This tool will only work on touchpads with pressure.
Example output of the tool is below:
$ sudo libinput measure touchpad-pressure
Ready for recording data.
Pressure range used: 8:10
Palm pressure range used: 65535
Place a single finger on the touchpad to measure pressure values.
Ctrl+C to exit
Sequence 1190 pressure: min: 39 max: 48 avg: 43 median: 44 tags: down
Sequence 1191 pressure: min: 49 max: 65 avg: 62 median: 64 tags: down
Sequence 1192 pressure: min: 40 max: 78 avg: 64 median: 66 tags: down
Sequence 1193 pressure: min: 36 max: 83 avg: 70 median: 73 tags: down
Sequence 1194 pressure: min: 43 max: 76 avg: 72 median: 74 tags: down
Touchpad pressure: 47 min: 47 max: 86 tags: down
The example output shows five completed touch sequences and one ongoing one.
For each, the respective minimum and maximum pressure values are printed as
well as some statistics. The tags
show that sequence was considered
logically down at some point. This is an interactive tool and its output may
change frequently. Refer to the <i>libinput-measure-touchpad-pressure(1)</i> man
page for more details.
By default, this tool uses the Device quirks for the pressure range. To
narrow down on the best values for your device, specify the ‘logically down’
and ‘logically up’ pressure thresholds with the --touch-thresholds
argument:
$ sudo libinput measure touchpad-pressure --touch-thresholds=10:8 --palm-threshold=20
Interact with the touchpad and check if the output of this tool matches your expectations.
Note
This is an interactive process. You will need to re-run the tool with varying thresholds until you find the right range for your touchpad. Attaching output logs to a bug will not help, only you with access to the hardware can figure out the correct ranges.
Once the thresholds are decided on (e.g. 10 and 8), they can be enabled with Device quirks entry similar to this:
$> cat /etc/libinput/local-overrides.quirks
[Touchpad pressure override]
MatchUdevType=touchpad
MatchName=*SynPS/2 Synaptics TouchPad
MatchDMIModalias=dmi:*svnLENOVO:*:pvrThinkPadX230*
AttrPressureRange=10:8
The file name must be /etc/libinput/local-overrides.quirks
. The
The first line is the section name and can be free-form. The Match
directives limit the quirk to your touchpad, make sure the device name
matches your device’s name (see libinput record
’s output). The dmi
modalias match should be based on the information in
/sys/class/dmi/id/modalias
. This modalias should be shortened to the
specific system’s information, usually system vendor (svn)
and product name (pn).
Once in place, run the following command to verify the quirk is valid and works for your device:
$ sudo libinput list-quirks /dev/input/event10
AttrPressureRange=10:8
Replace the event node with the one from your device. If the
AttrPressureRange
quirk does not show up, re-run with --verbose
and
check the output for any error messages.
If the pressure range quirk shows up correctly, restart X or the Wayland compositor and libinput should now use the correct pressure thresholds. The Helper tools can be used to verify the correct functionality first without the need for a restart.
Once the pressure ranges are deemed correct, report a bug to get the pressure ranges into the repository.
Debugging touch size ranges¶
This section describes how to determine the touchpad size ranges required for a touchpad device and how to add the required Device quirks locally. Note that the quirk is not public API and may change at any time. Users are advised to report a bug with the updated pressure ranges when testing has completed.
Note
Most distributions ship libinput measure
in a separate
libinput-utils
package.
Use the libinput measure touch-size
tool provided by libinput.
This tool will search for your touchpad device and print some touch size
statistics, including whether a touch is/was considered logically down.
Note
This tool will only work on touchpads with the ABS_MT_MAJOR
axis.
Example output of the tool is below:
$ sudo libinput measure touch-size --touch-thresholds 10:8 --palm-threshold 14
Using ELAN Touchscreen: /dev/input/event5
Ready for recording data.
Touch sizes used: 10:8
Palm size used: 14
Place a single finger on the device to measure touch size.
Ctrl+C to exit
Sequence: major: [ 9.. 11] minor: [ 7.. 9]
Sequence: major: [ 9.. 10] minor: [ 7.. 7]
Sequence: major: [ 9.. 14] minor: [ 6.. 9] down
Sequence: major: [ 11.. 11] minor: [ 9.. 9] down
Sequence: major: [ 4.. 33] minor: [ 1.. 5] down palm
The example output shows five completed touch sequences. For each, the
respective minimum and maximum pressure values are printed as well as some
statistics. The down
and palm
tags show that sequence was considered
logically down or a palm at some point. This is an interactive tool and its
output may change frequently. Refer to the <i>libinput-measure-touch-size(1)</i> man
page for more details.
By default, this tool uses the Device quirks for the touch size range. To
narrow down on the best values for your device, specify the ‘logically down’
and ‘logically up’ pressure thresholds with the --touch-thresholds
arguments as in the example above.
Interact with the touchpad and check if the output of this tool matches your expectations.
Note
This is an interactive process. You will need to re-run the tool with varying thresholds until you find the right range for your touchpad. Attaching output logs to a bug will not help, only you with access to the hardware can figure out the correct ranges.
Once the thresholds are decided on (e.g. 10 and 8), they can be enabled with Device quirks entry similar to this:
$> cat /etc/libinput/local-overrides.quirks
[Touchpad touch size override]
MatchUdevType=touchpad
MatchName=*SynPS/2 Synaptics TouchPad
MatchDMIModalias=dmi:*svnLENOVO:*:pvrThinkPadX230*
AttrTouchSizeRange=10:8
The first line is the match line and should be adjusted for the device name
(see libinput record’s output) and for the local system, based on the
information in /sys/class/dmi/id/modalias
. The modalias should be
shortened to the specific system’s information, usually system vendor (svn)
and product name (pn).
Once in place, run the following command to verify the quirk is valid and works for your device:
$ sudo libinput list-quirks /dev/input/event10
AttrTouchSizeRange=10:8
Replace the event node with the one from your device. If the
AttrTouchSizeRange
quirk does not show up, re-run with --verbose
and
check the output for any error messages.
If the touch size range property shows up correctly, restart X or the Wayland compositor and libinput should now use the correct thresholds. The Helper tools can be used to verify the correct functionality first without the need for a restart.
Once the touch size ranges are deemed correct, Reporting bugs “report a bug” to get the thresholds into the repository.