View file File name : input_checking.py Content :# # input_checking.py : input & password/passphrase input checking # # Copyright (C) 2013, 2017 Red Hat, Inc. # # This copyrighted material is made available to anyone wishing to use, # modify, copy, or redistribute it subject to the terms and conditions of # the GNU General Public License v.2, or (at your option) any later version. # This program is distributed in the hope that it will be useful, but WITHOUT # ANY WARRANTY expressed or implied, including the implied warranties of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General # Public License for more details. You should have received a copy of the # GNU General Public License along with this program; if not, write to the # Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA # 02110-1301, USA. Any Red Hat trademarks that are incorporated in the # source code or documentation are not subject to the GNU General Public # License and may only be used or replicated with the express permission of # Red Hat, Inc. # import pwquality from pyanaconda.core.signal import Signal from pyanaconda.core.i18n import _ from pyanaconda.core import constants, regexes from pyanaconda.core import users from pyanaconda.anaconda_loggers import get_module_logger log = get_module_logger(__name__) def get_policy(kickstart_data, policy_name): """Get a policy corresponding to the name or default policy. If no policy is found for the name the default policy is returned. """ policy = kickstart_data.anaconda.pwpolicy.get_policy(policy_name) if not policy: policy = kickstart_data.anaconda.PwPolicyData() return policy class PwqualitySettingsCache(object): """Cache for libpwquality settings used for password validation. Libpwquality settings instantiation is probably not exactly cheap and we might need the settings for checking every password (even when it is being typed by the user) so it makes sense to cache the objects for reuse. As there might be multiple active policies for different passwords we need to be able to cache multiple policies based on minimum password length, as we don't input anything else to libpwquality than minimum password length and the password itself. """ def __init__(self): self._pwq_settings = {} def get_settings_by_minlen(self, minlen): settings = self._pwq_settings.get(minlen) if settings is None: settings = pwquality.PWQSettings() settings.read_config() settings.minlen = minlen self._pwq_settings[minlen] = settings return settings pwquality_settings_cache = PwqualitySettingsCache() class PasswordCheckRequest(object): """A wrapper for a password check request. This in general means the password to be checked as well as its validation criteria such as minimum length, if it can be empty, etc. """ def __init__(self): self._password = "" self._password_confirmation = "" self._policy = None self._pwquality_settings = None self._username = "root" self._fullname = "" self._secret_type = constants.SecretType.PASSWORD @property def password(self): """Password string to be checked. :returns: password string for the check :rtype: str """ return self._password @password.setter def password(self, new_password): self._password = new_password @property def password_confirmation(self): """Content of the password confirmation field. :returns: password confirmation string :rtype: str """ return self._password_confirmation @password_confirmation.setter def password_confirmation(self, new_password_confirmation): self._password_confirmation = new_password_confirmation @property def policy(self): """Password quality policy. :returns: password quality policy """ return self._policy @policy.setter def policy(self, new_policy): self._policy = new_policy @property def pwquality_settings(self): """Settings for libpwquality (if any). :returns: libpwquality settings :rtype: pwquality settings object or None """ if not self._pwquality_settings: self._pwquality_settings = pwquality_settings_cache.get_settings_by_minlen(self.policy.minlen) return self._pwquality_settings @property def username(self): """The username for which the password is being set. If no username is provided, "root" will be used. Use username=None to disable the username check. :returns: username corresponding to the password :rtype: str or None """ return self._username @username.setter def username(self, new_username): self._username = new_username @property def fullname(self): """The full name of the user for which the password is being set. If no full name is provided, "root" will be used. :returns: full user name corresponding to the password :rtype: str or None """ return self._fullname @fullname.setter def fullname(self, new_fullname): self._fullname = new_fullname @property def secret_type(self): """Type of secret that is being checked. At the moment is either a password or a passphrase and this property decides how it will be called in error and status messages. :returns: secret type :rtype: Enum """ return self._secret_type @secret_type.setter def secret_type(self, new_type): """Set type of secret being checked. :param Enum new_type: new secret type """ # Prevent uknown/unsuported secret type from being set, so that # this does no blow up later on once we try to access the status/error message # corresponding to the secret type. if new_type not in constants.SecretType: raise RuntimeError("Unknown secret type: {}".format(new_type)) self._secret_type = new_type class CheckResult(object): """Result of an input check.""" def __init__(self): self._success = False self._error_message = "" self.error_message_changed = Signal() @property def success(self): return self._success @success.setter def success(self, value): self._success = value @property def error_message(self): """Optional error message describing why the input is not valid. :returns: why the input is bad (provided it is bad) or None :rtype: str or None """ return self._error_message @error_message.setter def error_message(self, new_error_message): self._error_message = new_error_message self.error_message_changed.emit(new_error_message) class PasswordValidityCheckResult(CheckResult): """A wrapper for results for a password check.""" def __init__(self): super().__init__() self._password_score = 0 self.password_score_changed = Signal() self._status_text = "" self.status_text_changed = Signal() self._password_quality = 0 self.password_quality_changed = Signal() self._length_ok = False self.length_ok_changed = Signal() @property def password_score(self): """A high-level integer score indicating password quality. Goes from 0 (invalid password) to 4 (valid & very strong password). Mainly used to drive the password quality indicator in the GUI. """ return self._password_score @password_score.setter def password_score(self, new_score): self._password_score = new_score self.password_score_changed.emit(new_score) @property def status_text(self): """A short overall status message describing the password. Generally something like "Good.", "Too short.", "Empty.", etc. :rtype: short status message :rtype: str """ return self._status_text @status_text.setter def status_text(self, new_status_text): self._status_text = new_status_text self.status_text_changed.emit(new_status_text) @property def password_quality(self): """More fine grained integer indicator describing password strength. This basically exports the quality score assigned by libpwquality to the password, which goes from 0 (unacceptable password) to 100 (strong password). Note of caution though about using the password quality value - it is intended mainly for on-line password strength hints, not for long-term stability, even just because password dictionary updates and other peculiarities of password strength judging. :returns: password quality value as reported by libpwquality :rtype: int """ return self._password_quality @password_quality.setter def password_quality(self, value): self._password_quality = value self.password_quality_changed.emit(value) @property def length_ok(self): """Reports if the password is long enough. :returns: if the password is long enough :rtype: bool """ return self._length_ok @length_ok.setter def length_ok(self, value): self._length_ok = value self.length_ok_changed.emit(value) class InputCheck(object): """Input checking base class.""" def __init__(self): self._result = CheckResult() self._skip = False @property def result(self): return self._result @property def skip(self): """A flag hinting if this check should be skipped.""" return self._skip @skip.setter def skip(self, value): # Checks flagged as skipped are # considered successful. # Otherwise old state will linger even if the # check is skipped during checking runs. if value: self.result.error_message = "" self.result.success = True self._skip = value def run(self, check_request): """Run the check. :param check_request: arbitrary input data to be processed Subclasses need to always implement this. """ raise NotImplementedError class PasswordValidityCheck(InputCheck): """Check the validity and quality of a password.""" def __init__(self): super().__init__() self._result = PasswordValidityCheckResult() def run(self, check_request): """Check the validity and quality of a password. This is how password quality checking works: - starts with a password and an optional parameters - will report if this password can be used at all (score >0) - will report how strong the password approximately is on a scale of 1-100 - if the password is unusable it will be reported why This function uses libpwquality to check the password strength. Pwquality will raise a PWQError on a weak password but this function does not pass that forward. If the password fails the PWQSettings conditions, the score will be set to 0 and the resulting error message will contain the reason why the password is bad. :param check_request: a password check request wrapper :type check_request: a PasswordCheckRequest instance :returns: a password check result wrapper :rtype: a PasswordCheckResult instance """ length_ok = False error_message = "" pw_quality = 0 try: # lets run the password through libpwquality pw_quality = check_request.pwquality_settings.check(check_request.password, None, check_request.username) except pwquality.PWQError as e: # Leave valid alone here: the password is weak but can still # be accepted. # PWQError values are built as a tuple of (int, str) error_message = e.args[1] if check_request.policy.emptyok: # if we are OK with empty passwords, then empty passwords are also fine length wise length_ok = len(check_request.password) >= check_request.policy.minlen or not check_request.password else: length_ok = len(check_request.password) >= check_request.policy.minlen if not check_request.password: if check_request.policy.emptyok: pw_score = 1 else: pw_score = 0 status_text = _(constants.SecretStatus.EMPTY.value) elif not length_ok: pw_score = 0 status_text = _(constants.SecretStatus.TOO_SHORT.value) # If the password is too short replace the libpwquality error # message with a generic "password is too short" message. # This is because the error messages returned by libpwquality # for short passwords don't make much sense. error_message = _(constants.SECRET_TOO_SHORT[check_request.secret_type]) elif error_message: pw_score = 1 status_text = _(constants.SecretStatus.WEAK.value) elif pw_quality < 30: pw_score = 2 status_text = _(constants.SecretStatus.FAIR.value) elif pw_quality < 70: pw_score = 3 status_text = _(constants.SecretStatus.GOOD.value) else: pw_score = 4 status_text = _(constants.SecretStatus.STRONG.value) # the policy influences the overall success of the check # - score 0 & strict == True -> success = False # - score 0 & strict == False -> success = True success = not error_message # set the result now so that the *_changed signals fire only once the check is done self.result.success = success # pylint: disable=attribute-defined-outside-init self.result.password_score = pw_score # pylint: disable=attribute-defined-outside-init self.result.status_text = status_text # pylint: disable=attribute-defined-outside-init self.result.password_quality = pw_quality # pylint: disable=attribute-defined-outside-init self.result.error_message = error_message # pylint: disable=attribute-defined-outside-init self.result.length_ok = length_ok # pylint: disable=attribute-defined-outside-init class PasswordConfirmationCheck(InputCheck): """Check if the password & password confirmation match.""" def __init__(self): super().__init__() self._success_if_confirmation_empty = False @property def success_if_confirmation_empty(self): """Enables success-if-confirmation-empty mode. This property can be used to tell the check to report success if the confirmation filed is empty, which is a paradigm used by Anaconda uses for two things: - to make it possible for users to exit without setting a valid password - to make it possible to exit the spoke if only the password is set but confirmation is empty """ return self._success_if_confirmation_empty @success_if_confirmation_empty.setter def success_if_confirmation_empty(self, value): self._success_if_confirmation_empty = value def run(self, check_request): """If the user has entered confirmation data, check whether it matches the password.""" if self.success_if_confirmation_empty and not check_request.password_confirmation: self.result.error_message = "" self.result.success = True elif check_request.password != check_request.password_confirmation: self.result.error_message = _(constants.SECRET_CONFIRM_ERROR_GUI[check_request.secret_type]) self.result.success = False else: self.result.error_message = "" self.result.success = True class PasswordASCIICheck(InputCheck): """Check if the password contains non-ASCII characters. Non-ASCII characters might be hard to type in the console and in the LUKS volume unlocking screen, so check if the password contains them so we can warn the user. """ def run(self, check_request): """Fail if the password contains non-ASCII characters.""" has_non_ASCII = any(char not in constants.PW_ASCII_CHARS for char in check_request.password) if check_request.password and has_non_ASCII: self.result.error_message = _(constants.SECRET_ASCII[check_request.secret_type]) self.result.success = False else: self.result.error_message = "" self.result.success = True class PasswordEmptyCheck(InputCheck): """Check if the password is set.""" def run(self, check_request): """Check whether a password has been specified at all.""" if check_request.password: # password set is always success self.result.error_message = "" self.result.success = True else: # otherwise empty password is an error self.result.error_message = _(constants.SECRET_EMPTY_ERROR[check_request.secret_type]) self.result.success = False class UsernameCheck(InputCheck): """Check if the username is valid.""" def __init__(self): super().__init__() self._success_if_username_empty = False @property def success_if_username_empty(self): """Should empty username be considered a success ?""" return self._success_if_username_empty @success_if_username_empty.setter def success_if_username_empty(self, value): self._success_if_username_empty = value def run(self, check_request): """Check if the username is valid.""" # in some cases an empty username is also considered valid, # so that the user can exit the User spoke without filling it in if self.success_if_username_empty and not check_request.username: self.result.error_message = "" self.result.success = True else: success, error_message = users.check_username(check_request.username) self.result.error_message = error_message self.result.success = success class FullnameCheck(InputCheck): """Check if the full user name is valid. Most importantly the full user name cannot contain colons. """ def run(self, check_request): """Check if the full user name is valid.""" if regexes.GECOS_VALID.match(check_request.fullname): self.result.error_message = "" self.result.success = True else: self.result.error_message = _("Full name cannot contain colon characters") self.result.success = False class InputField(object): """An input field containing data to be checked. The input field can have an initial value that can be monitored for change via signals. """ def __init__(self, initial_content): self._initial_content = initial_content self._content = initial_content self.changed = Signal() self._initial_change_signal_fired = False self.changed_from_initial_state = Signal() @property def content(self): return self._content @content.setter def content(self, new_content): old_content = self._content self._content = new_content # check if the input changed from the initial state if old_content != new_content: self.changed.emit() # also fire the changed-from-initial-state signal if required if not self._initial_change_signal_fired and new_content != self._initial_content: self.changed_from_initial_state.emit() self._initial_change_signal_fired = True class PasswordChecker(object): """Run multiple password and input checks in a given order and report the results. All added checks (in insertion order) will be run and results returned as error message and success value (True/False). If any check fails success will be False and the error message of the first check to fail will be returned. It's also possible to mark individual checks to be skipped by setting their skip property to True. Such check will be skipped during the checking run. """ def __init__(self, initial_password_content, initial_password_confirmation_content, policy): self._password = InputField(initial_password_content) self._password_confirmation = InputField(initial_password_confirmation_content) self._checks = [] self._success = False self._error_message = "" self._failed_checks = [] self._successful_checks = [] self._policy = policy self._username = None self._fullname = "" self._secret_type = constants.SecretType.PASSWORD # connect to the password field signals self.password.changed.connect(self.run_checks) self.password_confirmation.changed.connect(self.run_checks) # signals self.checks_done = Signal() @property def password(self): """Main password field.""" return self._password @property def password_confirmation(self): """Password confirmation field.""" return self._password_confirmation @property def checks(self): return self._checks @property def success(self): return self._success @property def error_message(self): return self._error_message @property def successful_checks(self): """List of successful checks during the last checking run. If no checks have succeeded the list will be empty. :returns: list of successful checks (if any) :rtype: list """ return self._successful_checks @property def failed_checks(self): """List of checks failed during the last checking run. If no checks have failed the list will be empty. :returns: list of failed checks (if any) :rtype: list """ return self._failed_checks @property def policy(self): return self._policy @property def username(self): return self._username @username.setter def username(self, new_username): self._username = new_username @property def fullname(self): """The full name of the user for which the password is being set. If no full name is provided, "root" will be used. :returns: full user name corresponding to the password :rtype: str or None """ return self._fullname @fullname.setter def fullname(self, new_fullname): self._fullname = new_fullname @property def secret_type(self): """Type of secret that is being checked. At the moment is either a password or a passphrase and this property decides how it will be called in error and status messages. :returns: secret type :rtype: Enum """ return self._secret_type @secret_type.setter def secret_type(self, new_type): """Set type of secret being checked. :param Enum new_type: new secret type """ # Prevent uknown/unsuported secret type from being set, so that # this does no blow up later on once we try to access the status/error message # corresponding to the secret type. if new_type not in constants.SecretType: raise RuntimeError("Unknown secret type: {}".format(new_type)) self._secret_type = new_type def add_check(self, check_instance): """Add check instance to list of checks.""" self._checks.append(check_instance) def run_checks(self): # first we need to prepare a check request instance check_request = PasswordCheckRequest() check_request.password = self.password.content check_request.password_confirmation = self.password_confirmation.content check_request.policy = self.policy check_request.username = self.username check_request.fullname = self.fullname check_request.secret_type = self.secret_type # reset the list of failed checks self._failed_checks = [] error_message = "" for check in self.checks: if not check.skip: check.run(check_request) if check.result.success: self._successful_checks.append(check) else: if not self.failed_checks: # a check failed: # - remember that & it's error message # - run other checks as well and ignore their error messages (if any) # - fail the overall check run (success = False) error_message = check.result.error_message self._failed_checks.append(check) if self.failed_checks: self._error_message = error_message self._success = False else: self._success = True self._error_message = "" # trigger the success changed signal self.checks_done.emit(self._error_message)