# kernel.kexec_load_disabled=1
# kernel.yama.ptrace_scope=3
# user.max_user_namespaces=0
+# what about bpf_jit_enable?
# kernel.unprivileged_bpf_disabled=1
# net.core.bpf_jit_harden=2
#
class ComplexOptCheck:
def __init__(self, *opts):
self.opts = opts
+ if not self.opts:
+ sys.exit('[!] ERROR: empty {} check'.format(self.__class__.__name__))
+ if not isinstance(opts[0], OptCheck):
+ sys.exit('[!] ERROR: invalid {} check: {}'.format(self.__class__.__name__, opts))
self.result = None
@property
for i, opt in enumerate(self.opts):
ret = opt.check()
if ret:
- if i == 0 or not hasattr(opt, 'expected'):
+ if opt.result != 'OK' or i == 0:
+ # Preserve additional explanation of this OK result.
+ # Simple OK is enough only for the main option that
+ # this OR-check is about.
self.result = opt.result
else:
+ # Simple OK is not enough for additional checks.
self.result = 'OK: CONFIG_{} "{}"'.format(opt.name, opt.expected)
return True
self.result = self.opts[0].result
self.result = opt.result
return ret
if not ret:
- if hasattr(opt, 'expected'):
+ # This FAIL is caused by additional checks,
+ # and not by the main option that this AND-check is about.
+ if opt.result.startswith('FAIL: \"'):
+ # Describe the reason of the FAIL.
self.result = 'FAIL: CONFIG_{} not "{}"'.format(opt.name, opt.expected)
else:
+ # This FAIL message is self-explaining.
self.result = opt.result
return False
if arch == 'ARM64':
l += [OptCheck('self_protection', 'defconfig', 'ARM64_PAN', 'y')]
l += [OptCheck('self_protection', 'defconfig', 'UNMAP_KERNEL_AT_EL0', 'y')]
- l += [OptCheck('self_protection', 'defconfig', 'HARDEN_EL2_VECTORS', 'y')]
+ l += [OR(OptCheck('self_protection', 'defconfig', 'HARDEN_EL2_VECTORS', 'y'),
+ VerCheck((5,9)))] # HARDEN_EL2_VECTORS was removed in v5.9
l += [OptCheck('self_protection', 'defconfig', 'RODATA_FULL_DEFAULT_ENABLED', 'y')]
l += [OptCheck('self_protection', 'defconfig', 'ARM64_PTR_AUTH', 'y')]
if arch in ('X86_64', 'ARM64'):
iommu_support_is_set)]
# 'self_protection', 'my'
- l += [OptCheck('self_protection', 'my', 'SLUB_DEBUG_ON', 'y')]
+ l += [OptCheck('self_protection', 'my', 'SLUB_DEBUG_ON', 'y')] # TODO: is it better to set that via kernel cmd?
l += [OptCheck('self_protection', 'my', 'RESET_ATTACK_MITIGATION', 'y')] # needs userspace support (systemd)
if arch == 'X86_64':
l += [AND(OptCheck('self_protection', 'my', 'AMD_IOMMU_V2', 'y'),
l += [OptCheck('cut_attack_surface', 'clipos', 'X86_CPUID', 'is not set')]
l += [OptCheck('cut_attack_surface', 'clipos', 'IO_URING', 'is not set')]
l += [OptCheck('cut_attack_surface', 'clipos', 'X86_IOPL_IOPERM', 'is not set')] # refers to LOCKDOWN
+ l += [OptCheck('cut_attack_surface', 'clipos', 'ACPI_TABLE_UPGRADE', 'is not set')] # refers to LOCKDOWN
+ l += [OptCheck('cut_attack_surface', 'clipos', 'EFI_CUSTOM_SSDT_OVERLAYS', 'is not set')]
l += [AND(OptCheck('cut_attack_surface', 'clipos', 'LDISC_AUTOLOAD', 'is not set'),
PresenceCheck('LDISC_AUTOLOAD'))]
if arch in ('X86_64', 'X86_32'):
l += [OptCheck('cut_attack_surface', 'clipos', 'X86_INTEL_TSX_MODE_OFF', 'y')] # tsx=off
# 'cut_attack_surface', 'lockdown'
- l += [OptCheck('cut_attack_surface', 'lockdown', 'ACPI_TABLE_UPGRADE', 'is not set')] # refers to LOCKDOWN
l += [OptCheck('cut_attack_surface', 'lockdown', 'EFI_TEST', 'is not set')] # refers to LOCKDOWN
l += [OptCheck('cut_attack_surface', 'lockdown', 'BPF_SYSCALL', 'is not set')] # refers to LOCKDOWN
l += [OptCheck('cut_attack_surface', 'lockdown', 'MMIOTRACE_TEST', 'is not set')] # refers to LOCKDOWN
l += [OptCheck('cut_attack_surface', 'my', 'IP_DCCP', 'is not set')]
l += [OptCheck('cut_attack_surface', 'my', 'IP_SCTP', 'is not set')]
l += [OptCheck('cut_attack_surface', 'my', 'FTRACE', 'is not set')] # refers to LOCKDOWN
- l += [OptCheck('cut_attack_surface', 'my', 'BPF_JIT', 'is not set')]
l += [OptCheck('cut_attack_surface', 'my', 'VIDEO_VIVID', 'is not set')]
l += [OptCheck('cut_attack_surface', 'my', 'INPUT_EVBUG', 'is not set')] # Can be used as a keylogger
print('[+] Config check is finished: \'OK\' - {}{} / \'FAIL\' - {}{}'.format(ok_count, ok_suppressed, fail_count, fail_suppressed))
-def perform_checks(checklist, parsed_options, kernel_version):
- for opt in checklist:
+def perform_check(opt, parsed_options, kernel_version):
if hasattr(opt, 'opts'):
# prepare ComplexOptCheck
for o in opt.opts:
+ if hasattr(o, 'opts'):
+ # Recursion for nested ComplexOptChecks
+ perform_check(o, parsed_options, kernel_version)
if hasattr(o, 'state'):
o.state = parsed_options.get(o.name, None)
if hasattr(o, 'ver'):
o.ver = kernel_version
else:
- # prepare simple check
+ # prepare simple check, opt.state is mandatory
if not hasattr(opt, 'state'):
sys.exit('[!] ERROR: bad simple check {}'.format(vars(opt)))
opt.state = parsed_options.get(opt.name, None)
opt.check()
+def perform_checks(checklist, parsed_options, kernel_version):
+ for opt in checklist:
+ perform_check(opt, parsed_options, kernel_version)
+
+
def parse_config_file(parsed_options, fname):
with open(fname, 'r') as f:
opt_is_on = re.compile("CONFIG_[a-zA-Z0-9_]*=[a-zA-Z0-9_\"]*")