File: //snap/gnome-42-2204/202/usr/libexec/libinput/libinput-measure-fuzz
#!/usr/bin/env python3
# vim: set expandtab shiftwidth=4:
# -*- Mode: python; coding: utf-8; indent-tabs-mode: nil -*- */
#
# Copyright © 2018 Red Hat, Inc.
#
# Permission is hereby granted, free of charge, to any person obtaining a
# copy of this software and associated documentation files (the 'Software'),
# to deal in the Software without restriction, including without limitation
# the rights to use, copy, modify, merge, publish, distribute, sublicense,
# and/or sell copies of the Software, and to permit persons to whom the
# Software is furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice (including the next
# paragraph) shall be included in all copies or substantial portions of the
# Software.
#
# THE SOFTWARE IS PROVIDED 'AS IS', WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
# THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
# FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
# DEALINGS IN THE SOFTWARE.
#
import os
import sys
import argparse
import subprocess
try:
import libevdev
import pyudev
except ModuleNotFoundError as e:
print("Error: {}".format(str(e)), file=sys.stderr)
print(
"One or more python modules are missing. Please install those "
"modules and re-run this tool."
)
sys.exit(1)
DEFAULT_HWDB_FILE = "/usr/lib/udev/hwdb.d/60-evdev.hwdb"
OVERRIDE_HWDB_FILE = "/etc/udev/hwdb.d/99-touchpad-fuzz-override.hwdb"
class tcolors:
GREEN = "\033[92m"
RED = "\033[91m"
YELLOW = "\033[93m"
BOLD = "\033[1m"
NORMAL = "\033[0m"
def print_bold(msg, **kwargs):
print(tcolors.BOLD + msg + tcolors.NORMAL, **kwargs)
def print_green(msg, **kwargs):
print(tcolors.BOLD + tcolors.GREEN + msg + tcolors.NORMAL, **kwargs)
def print_yellow(msg, **kwargs):
print(tcolors.BOLD + tcolors.YELLOW + msg + tcolors.NORMAL, **kwargs)
def print_red(msg, **kwargs):
print(tcolors.BOLD + tcolors.RED + msg + tcolors.NORMAL, **kwargs)
class InvalidConfigurationError(Exception):
pass
class InvalidDeviceError(Exception):
pass
class Device(libevdev.Device):
def __init__(self, path):
if path is None:
self.path = self.find_touch_device()
else:
self.path = path
fd = open(self.path, "rb")
super().__init__(fd)
context = pyudev.Context()
self.udev_device = pyudev.Devices.from_device_file(context, self.path)
def find_touch_device(self):
context = pyudev.Context()
for device in context.list_devices(subsystem="input"):
if not device.get("ID_INPUT_TOUCHPAD", 0):
continue
if not device.device_node or not device.device_node.startswith(
"/dev/input/event"
):
continue
return device.device_node
print("Unable to find a touch device.", file=sys.stderr)
sys.exit(1)
def check_property(self):
"""Return a tuple of (xfuzz, yfuzz) with the fuzz as set in the libinput
property. Returns None if the property doesn't exist"""
axes = {
0x00: self.udev_device.get("LIBINPUT_FUZZ_00"),
0x01: self.udev_device.get("LIBINPUT_FUZZ_01"),
0x35: self.udev_device.get("LIBINPUT_FUZZ_35"),
0x36: self.udev_device.get("LIBINPUT_FUZZ_36"),
}
if axes[0x35] is not None:
if axes[0x35] != axes[0x00]:
print_bold(
"WARNING: fuzz mismatch ABS_X: {}, ABS_MT_POSITION_X: {}".format(
axes[0x00], axes[0x35]
)
)
if axes[0x36] is not None:
if axes[0x36] != axes[0x01]:
print_bold(
"WARNING: fuzz mismatch ABS_Y: {}, ABS_MT_POSITION_Y: {}".format(
axes[0x01], axes[0x36]
)
)
xfuzz = axes[0x35] or axes[0x00]
yfuzz = axes[0x36] or axes[0x01]
if xfuzz is None and yfuzz is None:
return None
if (xfuzz is not None and yfuzz is None) or (
xfuzz is None and yfuzz is not None
):
raise InvalidConfigurationError("fuzz should be set for both axes")
return (int(xfuzz), int(yfuzz))
def check_axes(self):
"""
Returns a tuple of (xfuzz, yfuzz) with the fuzz as set on the device
axis. Returns None if no fuzz is set.
"""
if not self.has(libevdev.EV_ABS.ABS_X) or not self.has(libevdev.EV_ABS.ABS_Y):
raise InvalidDeviceError("device does not have x/y axes")
if self.has(libevdev.EV_ABS.ABS_MT_POSITION_X) != self.has(
libevdev.EV_ABS.ABS_MT_POSITION_Y
):
raise InvalidDeviceError("device does not have both multitouch axes")
xfuzz = (
self.absinfo[libevdev.EV_ABS.ABS_X].fuzz
or self.absinfo[libevdev.EV_ABS.ABS_MT_POSITION_X].fuzz
)
yfuzz = (
self.absinfo[libevdev.EV_ABS.ABS_Y].fuzz
or self.absinfo[libevdev.EV_ABS.ABS_MT_POSITION_Y].fuzz
)
if xfuzz == 0 and yfuzz == 0:
return None
return (xfuzz, yfuzz)
def print_fuzz(what, fuzz):
print(" Checking {}... ".format(what), end="")
if fuzz is None:
print("not set")
elif fuzz == (0, 0):
print("is zero")
else:
print("x={} y={}".format(*fuzz))
def handle_existing_entry(device, fuzz):
# This is getting messy because we don't really know where the entry
# could be or how the match rule looks like. So we just check the
# default location only.
# For the match comparison, we search for the property value in the
# file. If there is more than one entry that uses the same
# overrides this will generate false positives.
# If the lines aren't in the same order in the file, it'll be a false
# negative.
overrides = {
0x00: device.udev_device.get("EVDEV_ABS_00"),
0x01: device.udev_device.get("EVDEV_ABS_01"),
0x35: device.udev_device.get("EVDEV_ABS_35"),
0x36: device.udev_device.get("EVDEV_ABS_36"),
}
has_existing_rules = False
for key, value in overrides.items():
if value is not None:
has_existing_rules = True
break
if not has_existing_rules:
return False
print_red("Error! ", end="")
print("This device already has axis overrides defined")
print("")
print_bold("Searching for existing override...")
# Construct a template that looks like a hwdb entry (values only) from
# the udev property values
template = [
" EVDEV_ABS_00={}".format(overrides[0x00]),
" EVDEV_ABS_01={}".format(overrides[0x01]),
]
if overrides[0x35] is not None:
template += [
" EVDEV_ABS_35={}".format(overrides[0x35]),
" EVDEV_ABS_36={}".format(overrides[0x36]),
]
print("Checking in {}... ".format(OVERRIDE_HWDB_FILE), end="")
entry, prefix, lineno = check_file_for_lines(OVERRIDE_HWDB_FILE, template)
if entry is not None:
print_green("found")
print("The existing hwdb entry can be overwritten")
return False
else:
print_red("not found")
print("Checking in {}... ".format(DEFAULT_HWDB_FILE), end="")
entry, prefix, lineno = check_file_for_lines(DEFAULT_HWDB_FILE, template)
if entry is not None:
print_green("found")
else:
print_red("not found")
print(
"The device has a hwdb override defined but it's not where I expected it to be."
)
print("Please look at the libinput documentation for more details.")
print("Exiting now.")
return True
print_bold("Probable entry for this device found in line {}:".format(lineno))
print("\n".join(prefix + entry))
print("")
print_bold("Suggested new entry for this device:")
new_entry = []
for i in range(0, len(template)):
parts = entry[i].split(":")
while len(parts) < 4:
parts.append("")
parts[3] = str(fuzz)
new_entry.append(":".join(parts))
print("\n".join(prefix + new_entry))
print("")
# Not going to overwrite the 60-evdev.hwdb entry with this program, too
# risky. And it may not be our device match anyway.
print_bold("You must now:")
print(
"\n".join(
(
"1. Check the above suggestion for sanity. Does it match your device?",
"2. Open {} and amend the existing entry".format(DEFAULT_HWDB_FILE),
" as recommended above",
"",
" The property format is:",
" EVDEV_ABS_00=min:max:resolution:fuzz",
"",
" Leave the entry as-is and only add or amend the fuzz value.",
" A non-existent value can be skipped, e.g. this entry sets the ",
" resolution to 32 and the fuzz to 8",
" EVDEV_ABS_00=::32:8",
"",
"3. Save the edited file",
"4. Say Y to the next prompt",
)
)
)
cont = input("Continue? [Y/n] ")
if cont == "n":
raise KeyboardInterrupt
if test_hwdb_entry(device, fuzz):
print_bold("Please test the new fuzz setting by restarting libinput")
print_bold(
"Then submit a pull request for this hwdb entry change to "
"to systemd at http://github.com/systemd/systemd"
)
else:
print_bold("The new fuzz setting did not take effect.")
print_bold("Did you edit the correct file?")
print("Please look at the libinput documentation for more details.")
print("Exiting now.")
return True
def reload_and_trigger_udev(device):
import time
print("Running systemd-hwdb update")
subprocess.run(["systemd-hwdb", "update"], check=True)
syspath = device.path.replace("/dev/input/", "/sys/class/input/")
time.sleep(2)
print("Running udevadm trigger {}".format(syspath))
subprocess.run(["udevadm", "trigger", syspath], check=True)
time.sleep(2)
def test_hwdb_entry(device, fuzz):
reload_and_trigger_udev(device)
print_bold("Testing... ", end="")
d = Device(device.path)
f = d.check_axes()
if f is not None:
if f == (fuzz, fuzz):
print_yellow("Warning")
print_bold(
"The hwdb applied to the device but libinput's udev "
"rules have not picked it up. This should only happen"
"if libinput is not installed"
)
return True
else:
print_red("Error")
return False
else:
f = d.check_property()
if f is not None and f == (fuzz, fuzz):
print_green("Success")
return True
else:
print_red("Error")
return False
def check_file_for_lines(path, template):
"""
Checks file at path for the lines given in template. If found, the
return value is a tuple of the matching lines and the prefix (i.e. the
two lines before the matching lines)
"""
try:
lines = [l[:-1] for l in open(path).readlines()]
idx = -1
try:
while idx < len(lines) - 1:
idx += 1
line = lines[idx]
if not line.startswith(" EVDEV_ABS_00"):
continue
if lines[idx : idx + len(template)] != template:
continue
return (lines[idx : idx + len(template)], lines[idx - 2 : idx], idx)
except IndexError:
pass
except FileNotFoundError:
pass
return (None, None, None)
def write_udev_rule(device, fuzz):
"""Write out a udev rule that may match the device, run udevadm trigger and
check if the udev rule worked. Of course, there's plenty to go wrong...
"""
print("")
print_bold("Guessing a udev rule to overwrite the fuzz")
# Some devices match better on pvr, others on pn, so we get to try both. yay
modalias = open("/sys/class/dmi/id/modalias").readlines()[0]
ms = modalias.split(":")
svn, pn, pvr = None, None, None
for m in ms:
if m.startswith("svn"):
svn = m
elif m.startswith("pn"):
pn = m
elif m.startswith("pvr"):
pvr = m
# Let's print out both to inform and/or confuse the user
template = "\n".join(
(
"# {} {}",
"evdev:name:{}:dmi:*:{}*:{}*:",
" EVDEV_ABS_00=:::{}",
" EVDEV_ABS_01=:::{}",
" EVDEV_ABS_35=:::{}",
" EVDEV_ABS_36=:::{}",
"",
)
)
rule1 = template.format(
svn[3:], device.name, device.name, svn, pvr, fuzz, fuzz, fuzz, fuzz
)
rule2 = template.format(
svn[3:], device.name, device.name, svn, pn, fuzz, fuzz, fuzz, fuzz
)
print("Full modalias is: {}".format(modalias))
print()
print_bold("Suggested udev rule, option 1:")
print(rule1)
print()
print_bold("Suggested udev rule, option 2:")
print(rule2)
print("")
# The weird hwdb matching behavior means we match on the least specific
# rule (i.e. most wildcards) first although that was supposed to be fixed in
# systemd 3a04b789c6f1.
# Our rule uses dmi strings and will be more specific than what 60-evdev.hwdb
# already has. So we basically throw up our hands because we can't do anything
# then.
if handle_existing_entry(device, fuzz):
return
while True:
print_bold("Wich rule do you want to to test? 1 or 2? ", end="")
yesno = input("Ctrl+C to exit ")
if yesno == "1":
rule = rule1
break
elif yesno == "2":
rule = rule2
break
fname = OVERRIDE_HWDB_FILE
try:
fd = open(fname, "x")
except FileExistsError:
yesno = input("File {} exists, overwrite? [Y/n] ".format(fname))
if yesno.lower == "n":
return
fd = open(fname, "w")
fd.write("# File generated by libinput measure fuzz\n\n")
fd.write(rule)
fd.close()
if test_hwdb_entry(device, fuzz):
print("Your hwdb override file is in {}".format(fname))
print_bold("Please test the new fuzz setting by restarting libinput")
print_bold(
"Then submit a pull request for this hwdb entry to "
"systemd at http://github.com/systemd/systemd"
)
else:
print("The hwdb entry failed to apply to the device.")
print("Removing hwdb file again.")
os.remove(fname)
reload_and_trigger_udev(device)
print_bold("What now?")
print(
"1. Re-run this program and try the other suggested udev rule. If that fails,"
)
print(
"2. File a bug with the suggested udev rule at http://github.com/systemd/systemd"
)
def main(args):
parser = argparse.ArgumentParser(
description="Print fuzz settings and/or suggest udev rules for the fuzz to be adjusted."
)
parser.add_argument(
"path",
metavar="/dev/input/event0",
nargs="?",
type=str,
help="Path to device (optional)",
)
parser.add_argument("--fuzz", type=int, help="Suggested fuzz")
args = parser.parse_args()
try:
device = Device(args.path)
print_bold("Using {}: {}".format(device.name, device.path))
fuzz = device.check_property()
print_fuzz("udev property", fuzz)
fuzz = device.check_axes()
print_fuzz("axes", fuzz)
userfuzz = args.fuzz
if userfuzz is not None:
write_udev_rule(device, userfuzz)
except PermissionError:
print("Permission denied, please re-run as root")
except InvalidConfigurationError as e:
print("Error: {}".format(e))
except InvalidDeviceError as e:
print("Error: {}".format(e))
except KeyboardInterrupt:
print("Exited on user request")
if __name__ == "__main__":
main(sys.argv)