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#!/usr/bin/env python3
#
# SPDX-License-Identifier: MIT
#
# This script checks XF86keysym.h for the reserved evdev keysym range and/or
# appends new keysym to that range. An up-to-date libevdev must be
# available to guarantee the correct keycode ranges and names.
#
# Run with --help for usage information.
#
#
# File is formatted with Python Black
import argparse
import logging
import sys
import re
import libevdev
import subprocess
from pathlib import Path
logging.basicConfig(level=logging.DEBUG, format="%(levelname)s: %(message)s")
logger = logging.getLogger("ksgen")
start_token = re.compile(r"#define _EVDEVK.*")
end_token = re.compile(r"#undef _EVDEVK\n")
def die(msg):
logger.critical(msg)
sys.exit(1)
class Kernel(object):
"""
Wrapper around the kernel git tree to simplify searching for when a
particular keycode was introduced.
"""
def __init__(self, repo):
self.repo = repo
exitcode, stdout, stderr = self.git_command("git branch --show-current")
if exitcode != 0:
die(f"{stderr}")
if stdout.strip() != "master":
die(f"Kernel repo must be on the master branch (current: {stdout.strip()})")
exitcode, stdout, stderr = self.git_command("git tag --sort=version:refname")
tags = stdout.split("\n")
self.versions = list(
filter(lambda v: re.match(r"^v[2-6]\.[0-9]+(\.[0-9]+)?$", v), tags)
)
logger.debug(f"Kernel versions: {', '.join(self.versions)}")
def git_command(self, cmd):
"""
Takes a single-string git command and runs it in the repo.
Returns the tuple (exitcode, stdout, stderr)
"""
# logger.debug(f"git command: {cmd}")
try:
result = subprocess.run(
cmd.split(" "), cwd=self.repo, capture_output=True, encoding="utf8"
)
if result.returncode == 128:
die(f"{result.stderr}")
return result.returncode, result.stdout, result.stderr
except FileNotFoundError:
die(f"{self.repo} is not a git repository")
def introduced_in_version(self, string):
"""
Search this repo for the first version with string in the headers.
Returns the kernel version number (e.g. "v5.10") or None
"""
# The fastest approach is to git grep every version for the string
# and return the first. Using git log -G and then git tag --contains
# is an order of magnitude slower.
def found_in_version(v):
cmd = f"git grep -E \\<{string}\\> {v} -- include/"
exitcode, _, _ = self.git_command(cmd)
return exitcode == 0
def bisect(iterable, func):
"""
Return the first element in iterable for which func
returns True.
"""
# bias to speed things up: most keycodes will be in the first
# kernel version
if func(iterable[0]):
return iterable[0]
lo, hi = 0, len(iterable)
while lo < hi:
mid = (lo + hi) // 2
if func(iterable[mid]):
hi = mid
else:
lo = mid + 1
return iterable[hi]
version = bisect(self.versions, found_in_version)
logger.debug(f"Bisected {string} to {version}")
# 2.6.11 doesn't count, that's the start of git
return version if version != self.versions[0] else None
def generate_keysym_line(code, kernel, kver_list=[]):
"""
Generate the line to append to the keysym file.
This format is semi-ABI, scripts rely on the format of this line (e.g. in
xkeyboard-config).
"""
evcode = libevdev.evbit(libevdev.EV_KEY.value, code)
if not evcode.is_defined: # codes without a #define in the kernel
return None
if evcode.name.startswith("BTN_"):
return None
name = "".join([s.capitalize() for s in evcode.name[4:].lower().split("_")])
keysym = f"XF86XK_{name}"
tabs = 4 - len(keysym) // 8
kver = kernel.introduced_in_version(evcode.name) or " "
if kver_list:
from fnmatch import fnmatch
allowed_kvers = [v.strip() for v in kver_list.split(",")]
for allowed in allowed_kvers:
if fnmatch(kver, allowed):
break
else: # no match
return None
return f"#define {keysym}{' ' * tabs}_EVDEVK(0x{code:03X}) /* {kver:5s} {evcode.name} */"
def verify(ns):
"""
Verify that the XF86keysym.h file follows the requirements. Since we expect
the header file to be parsed by outside scripts, the requirements for the format
are quite strict, including things like correct-case hex codes.
"""
# No other keysym must use this range
reserved_range = re.compile(r"#define.*0x10081.*")
normal_range = re.compile(r"#define.*0x1008.*")
# This is the full pattern we expect.
expected_pattern = re.compile(
r"#define XF86XK_\w+\t+_EVDEVK\(0x([0-9A-F]{3})\)\t+/\* (v[2-6]\.[0-9]+(\.[0-9]+)?)? +KEY_\w+ \*/"
)
# This is the comment pattern we expect
expected_comment_pattern = re.compile(
r"/\* Use: \w+\t+_EVDEVK\(0x([0-9A-F]{3})\)\t+ (v[2-6]\.[0-9]+(\.[0-9]+)?)? +KEY_\w+ \*/"
)
# Some patterns to spot specific errors, just so we can print useful errors
define = re.compile(r"^#define .*")
name_pattern = re.compile(r"#define (XF86XK_[^\s]*)")
tab_check = re.compile(r"#define \w+(\s+)[^\s]+(\s+)")
hex_pattern = re.compile(r".*0x([a-f0-9]+).*", re.I)
comment_format = re.compile(r".*/\* ([^\s]+)?\s+(\w+)")
kver_format = re.compile(r"v[2-6]\.[0-9]+(\.[0-9]+)?")
in_evdev_codes_section = False
had_evdev_codes_section = False
success = True
all_defines = []
class ParserError(Exception):
pass
def error(msg, line):
raise ParserError(f"{msg} in '{line.strip()}'")
last_keycode = 0
for line in open(ns.header):
try:
if not in_evdev_codes_section:
if re.match(start_token, line):
in_evdev_codes_section = True
had_evdev_codes_section = True
continue
if re.match(reserved_range, line):
error("Using reserved range", line)
match = re.match(name_pattern, line)
if match:
all_defines.append(match.group(1))
else:
# Within the evdev defines section
if re.match(end_token, line):
in_evdev_codes_section = False
continue
# Comments we only search for a hex pattern and where there is one present
# we only check for uppercase format, ordering and update our last_keycode.
if not re.match(define, line):
match = re.match(expected_comment_pattern, line)
if match:
if match.group(1) != match.group(1).upper():
error(
f"Hex code 0x{match.group(1)} must be uppercase", line
)
if match.group(1):
keycode = int(match.group(1), 16)
if keycode < last_keycode:
error("Keycode must be ascending", line)
if keycode == last_keycode:
error("Duplicate keycode", line)
last_keycode = keycode
elif re.match(hex_pattern, line):
logger.warning(f"Unexpected hex code in {line}")
continue
# Anything below here is a #define line
# Let's check for specific errors
if re.match(normal_range, line):
error("Define must use _EVDEVK", line)
match = re.match(name_pattern, line)
if match:
if match.group(1) in all_defines:
error("Duplicate define", line)
all_defines.append(match.group(1))
else:
error("Typo", line)
match = re.match(hex_pattern, line)
if not match:
error("No hex code", line)
if match.group(1) != match.group(1).upper():
error(f"Hex code 0x{match.group(1)} must be uppercase", line)
tabs = re.match(tab_check, line)
if not tabs: # bug
error("Matching error", line)
if " " in tabs.group(1) or " " in tabs.group(2):
error("Use tabs, not spaces", line)
comment = re.match(comment_format, line)
if not comment:
error("Invalid comment format", line)
kver = comment.group(1)
if kver and not re.match(kver_format, kver):
error("Invalid kernel version format", line)
keyname = comment.group(2)
if not keyname.startswith("KEY_") or keyname.upper() != keyname:
error("Kernel keycode name invalid", line)
# This could be an old libevdev
if keyname not in [c.name for c in libevdev.EV_KEY.codes]:
logger.warning(f"Unknown kernel keycode name {keyname}")
# Check the full expected format, no better error messages
# available if this fails
match = re.match(expected_pattern, line)
if not match:
error("Failed match", line)
keycode = int(match.group(1), 16)
if keycode < last_keycode:
error("Keycode must be ascending", line)
if keycode == last_keycode:
error("Duplicate keycode", line)
# May cause a false positive for old libevdev if KEY_MAX is bumped
if keycode < 0x0A0 or keycode > libevdev.EV_KEY.KEY_MAX.value:
error("Keycode outside range", line)
last_keycode = keycode
except ParserError as e:
logger.error(e)
success = False
if not had_evdev_codes_section:
logger.error("Unable to locate EVDEVK section")
success = False
elif in_evdev_codes_section:
logger.error("Unterminated EVDEVK section")
success = False
if success:
logger.info("Verification succeeded")
return 0 if success else 1
def add_keysyms(ns):
"""
Print a new XF86keysym.h file, adding any *missing* keycodes to the existing file.
"""
if verify(ns) != 0:
die("Header file verification failed")
# If verification succeeds, we can be a bit more lenient here because we already know
# what the format of the field is. Specifically, we're searching for
# 3-digit hexcode in brackets and use that as keycode.
pattern = re.compile(r".*_EVDEVK\((0x[a-fA-F0-9]{3})\).*")
max_code = max(
[
c.value
for c in libevdev.EV_KEY.codes
if c.is_defined
and c != libevdev.EV_KEY.KEY_MAX
and not c.name.startswith("BTN")
]
)
def defined_keycodes(path):
"""
Returns an iterator to the next #defined (or otherwise mentioned)
keycode, all other lines (including the returned one) are passed
through to printf.
"""
with open(path) as fd:
in_evdev_codes_section = False
for line in fd:
if not in_evdev_codes_section:
if re.match(start_token, line):
in_evdev_codes_section = True
# passthrough for all other lines
print(line, end="")
else:
if re.match(r"#undef _EVDEVK\n", line):
in_evdev_codes_section = False
yield max_code
else:
match = re.match(pattern, line)
if match:
logger.debug(f"Found keycode in {line.strip()}")
yield int(match.group(1), 16)
print(line, end="")
kernel = Kernel(ns.kernel_git_tree)
prev_code = 255 - 8 # the last keycode we can map directly in X
for code in defined_keycodes(ns.header):
for missing in range(prev_code + 1, code):
newline = generate_keysym_line(
missing, kernel, kver_list=ns.kernel_versions
)
if newline:
print(newline)
prev_code = code
return 0
def find_xf86keysym_header():
"""
Search for the XF86keysym.h file in the current tree or use the system one
as last resort. This is a convenience function for running the script
locally, it should not be relied on in the CI.
"""
paths = tuple(Path.cwd().glob("**/XF86keysym.h"))
if not paths:
path = Path("/usr/include/X11/XF86keysym.h")
if not path.exists():
die("Unable to find XF86keysym.h in CWD or /usr")
else:
if len(paths) > 1:
die("Multiple XF86keysym.h in CWD, please use --header")
path = paths[0]
logger.info(f"Using header file {path}")
return path
def main():
parser = argparse.ArgumentParser(description="Keysym parser script")
parser.add_argument("--verbose", "-v", action="count", default=0)
parser.add_argument(
"--header",
type=str,
default=None,
help="Path to the XF86Keysym.h header file (default: search $CWD)",
)
subparsers = parser.add_subparsers(help="command-specific help", dest="command")
parser_verify = subparsers.add_parser(
"verify", help="Verify the XF86keysym.h matches requirements"
)
parser_verify.set_defaults(func=verify)
parser_generate = subparsers.add_parser(
"add-keysyms", help="Add missing keysyms to the existing ones"
)
parser_generate.add_argument(
"--kernel-git-tree",
type=str,
default=None,
required=True,
help="Path to a kernel git repo, required to find git tags",
)
parser_generate.add_argument(
"--kernel-versions",
type=str,
default=[],
required=False,
help="Comma-separated list of kernel versions to limit ourselves to (e.g. 'v5.10,v5.9'). Supports fnmatch.",
)
parser_generate.set_defaults(func=add_keysyms)
ns = parser.parse_args()
logger.setLevel(
{2: logging.DEBUG, 1: logging.INFO, 0: logging.WARNING}.get(ns.verbose, 2)
)
if not ns.header:
ns.header = find_xf86keysym_header()
if ns.command is None:
parser.error("Invalid or missing command")
sys.exit(ns.func(ns))
if __name__ == "__main__":
main()
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