import sys
+from typing import Optional, OrderedDict, Dict, List, Tuple
+StrOrNone = Optional[str]
+TupleOrNone = Optional[Tuple]
+
GREEN_COLOR = '\x1b[32m'
RED_COLOR = '\x1b[31m'
COLOR_END = '\x1b[0m'
class OptCheck:
- def __init__(self, reason, decision, name, expected):
+ def __init__(self, reason: str, decision: str, name: str, expected: str):
assert(name and name == name.strip() and len(name.split()) == 1), \
f'invalid name "{name}" for {self.__class__.__name__}'
self.name = name
else:
self.result = f'FAIL: "{self.state}"'
- def table_print(self, _mode, with_results):
+ def table_print(self, _mode, with_results: bool):
print(f'{self.name:<40}|{self.opt_type:^7}|{self.expected:^12}|{self.decision:^10}|{self.reason:^18}', end='')
if with_results:
print(f'| {colorize_result(self.result)}', end='')
- def json_dump(self, with_results):
+ def json_dump(self, with_results: bool) -> Dict:
dump = {
"option_name": self.name,
"type": self.opt_type,
"reason": self.reason,
}
if with_results:
+ assert self.result, f'unexpected empty result in {self.name}'
dump["check_result"] = self.result
dump["check_result_bool"] = self.result.startswith('OK')
return dump
class VersionCheck:
- def __init__(self, ver_expected):
+ def __init__(self, ver_expected: Tuple):
assert(ver_expected and isinstance(ver_expected, tuple) and len(ver_expected) == 3), \
f'invalid expected version "{ver_expected}" for VersionCheck (1)'
assert(all(map(lambda x: isinstance(x, int), ver_expected))), \
def opt_type(self):
return 'version'
- def set_state(self, data):
+ def set_state(self, data: Tuple):
assert(data and isinstance(data, tuple) and len(data) >= 3), \
f'invalid version "{data}" for VersionCheck'
self.ver = data[:3]
return
self.result = f'FAIL: version < {self.ver_expected}'
- def table_print(self, _mode, with_results):
+ def table_print(self, _mode, with_results: bool):
ver_req = f'kernel version >= {self.ver_expected}'
print(f'{ver_req:<91}', end='')
if with_results:
def expected(self):
return self.opts[0].expected
- def table_print(self, mode, with_results):
+ def table_print(self, mode: str, with_results: bool):
if mode == 'verbose':
class_name = f'<<< {self.__class__.__name__} >>>'
print(f' {class_name:87}', end='')
if with_results:
print(f'| {colorize_result(self.result)}', end='')
- def json_dump(self, with_results):
+ def json_dump(self, with_results: bool) -> Dict:
dump = self.opts[0].json_dump(False)
if with_results:
# Add the 'check_result' and 'check_result_bool' keys to the dictionary
+ assert self.result, f'unexpected empty result in {self.name}'
dump["check_result"] = self.result
dump["check_result_bool"] = self.result.startswith('OK')
return dump
SIMPLE_OPTION_TYPES = ('kconfig', 'cmdline', 'sysctl', 'version')
-def populate_simple_opt_with_data(opt, data, data_type):
+def populate_simple_opt_with_data(opt, data, data_type: str):
assert(opt.opt_type != 'complex'), \
f'unexpected ComplexOptCheck "{opt.name}"'
assert(opt.opt_type in SIMPLE_OPTION_TYPES), \
def perform_checks(checklist):
for opt in checklist:
opt.check()
+
+
+def print_unknown_options(checklist: List, parsed_options: OrderedDict[str, str], opt_type: str) -> None:
+ known_options = []
+
+ for o1 in checklist:
+ if o1.opt_type != 'complex':
+ known_options.append(o1.name)
+ continue
+ for o2 in o1.opts:
+ if o2.opt_type != 'complex':
+ if hasattr(o2, 'name'):
+ known_options.append(o2.name)
+ continue
+ for o3 in o2.opts:
+ assert(o3.opt_type != 'complex'), \
+ f'unexpected ComplexOptCheck inside {o2.name}'
+ if hasattr(o3, 'name'):
+ known_options.append(o3.name)
+
+ for option, value in parsed_options.items():
+ if option not in known_options:
+ print(f'[?] No check for {opt_type} option {option} ({value})')