"""Renewable certificates storage.""" import datetime import logging import os import re import configobj import parsedatetime import pytz from letsencrypt import constants from letsencrypt import crypto_util from letsencrypt import errors from letsencrypt import error_handler from letsencrypt import le_util logger = logging.getLogger(__name__) ALL_FOUR = ("cert", "privkey", "chain", "fullchain") def config_with_defaults(config=None): """Merge supplied config, if provided, on top of builtin defaults.""" defaults_copy = configobj.ConfigObj(constants.RENEWER_DEFAULTS) defaults_copy.merge(config if config is not None else configobj.ConfigObj()) return defaults_copy def add_time_interval(base_time, interval, textparser=parsedatetime.Calendar()): """Parse the time specified time interval, and add it to the base_time The interval can be in the English-language format understood by parsedatetime, e.g., '10 days', '3 weeks', '6 months', '9 hours', or a sequence of such intervals like '6 months 1 week' or '3 days 12 hours'. If an integer is found with no associated unit, it is interpreted by default as a number of days. :param datetime.datetime base_time: The time to be added with the interval. :param str interval: The time interval to parse. :returns: The base_time plus the interpretation of the time interval. :rtype: :class:`datetime.datetime`""" if interval.strip().isdigit(): interval += " days" # try to use the same timezone, but fallback to UTC tzinfo = base_time.tzinfo or pytz.UTC return textparser.parseDT(interval, base_time, tzinfo=tzinfo)[0] class RenewableCert(object): # pylint: disable=too-many-instance-attributes """Renewable certificate. Represents a lineage of certificates that is under the management of the Let's Encrypt client, indicated by the existence of an associated renewal configuration file. Note that the notion of "current version" for a lineage is maintained on disk in the structure of symbolic links, and is not explicitly stored in any instance variable in this object. The RenewableCert object is able to determine information about the current (or other) version by accessing data on disk, but does not inherently know any of this information except by examining the symbolic links as needed. The instance variables mentioned below point to symlinks that reflect the notion of "current version" of each managed object, and it is these paths that should be used when configuring servers to use the certificate managed in a lineage. These paths are normally within the "live" directory, and their symlink targets -- the actual cert files -- are normally found within the "archive" directory. :ivar str cert: The path to the symlink representing the current version of the certificate managed by this lineage. :ivar str privkey: The path to the symlink representing the current version of the private key managed by this lineage. :ivar str chain: The path to the symlink representing the current version of the chain managed by this lineage. :ivar str fullchain: The path to the symlink representing the current version of the fullchain (combined chain and cert) managed by this lineage. :ivar configobj.ConfigObj configuration: The renewal configuration options associated with this lineage, obtained from parsing the renewal configuration file and/or systemwide defaults. """ def __init__(self, config_filename, cli_config): """Instantiate a RenewableCert object from an existing lineage. :param str config_filename: the path to the renewal config file that defines this lineage. :param .RenewerConfiguration: parsed command line arguments :raises .CertStorageError: if the configuration file's name didn't end in ".conf", or the file is missing or broken. """ self.cli_config = cli_config if not config_filename.endswith(".conf"): raise errors.CertStorageError( "renewal config file name must end in .conf") self.lineagename = os.path.basename( config_filename[:-len(".conf")]) # self.configuration should be used to read parameters that # may have been chosen based on default values from the # systemwide renewal configuration; self.configfile should be # used to make and save changes. try: self.configfile = configobj.ConfigObj(config_filename) except configobj.ConfigObjError: raise errors.CertStorageError( "error parsing {0}".format(config_filename)) # TODO: Do we actually use anything from defaults and do we want to # read further defaults from the systemwide renewal configuration # file at this stage? self.configuration = config_with_defaults(self.configfile) if not all(x in self.configuration for x in ALL_FOUR): raise errors.CertStorageError( "renewal config file {0} is missing a required " "file reference".format(self.configfile)) self.cert = self.configuration["cert"] self.privkey = self.configuration["privkey"] self.chain = self.configuration["chain"] self.fullchain = self.configuration["fullchain"] self._fix_symlinks() def _consistent(self): """Are the files associated with this lineage self-consistent? :returns: Whether the files stored in connection with this lineage appear to be correct and consistent with one another. :rtype: bool """ # Each element must be referenced with an absolute path for x in (self.cert, self.privkey, self.chain, self.fullchain): if not os.path.isabs(x): logger.debug("Element %s is not referenced with an " "absolute path.", x) return False # Each element must exist and be a symbolic link for x in (self.cert, self.privkey, self.chain, self.fullchain): if not os.path.islink(x): logger.debug("Element %s is not a symbolic link.", x) return False for kind in ALL_FOUR: link = getattr(self, kind) where = os.path.dirname(link) target = os.readlink(link) if not os.path.isabs(target): target = os.path.join(where, target) # Each element's link must point within the cert lineage's # directory within the official archive directory desired_directory = os.path.join( self.cli_config.archive_dir, self.lineagename) if not os.path.samefile(os.path.dirname(target), desired_directory): logger.debug("Element's link does not point within the " "cert lineage's directory within the " "official archive directory. Link: %s, " "target directory: %s, " "archive directory: %s.", link, os.path.dirname(target), desired_directory) return False # The link must point to a file that exists if not os.path.exists(target): logger.debug("Link %s points to file %s that does not exist.", link, target) return False # The link must point to a file that follows the archive # naming convention pattern = re.compile(r"^{0}([0-9]+)\.pem$".format(kind)) if not pattern.match(os.path.basename(target)): logger.debug("%s does not follow the archive naming " "convention.", target) return False # It is NOT required that the link's target be a regular # file (it may itself be a symlink). But we should probably # do a recursive check that ultimately the target does # exist? # XXX: Additional possible consistency checks (e.g. # cryptographic validation of the chain being a chain, # the chain matching the cert, and the cert matching # the subject key) # XXX: All four of the targets are in the same directory # (This check is redundant with the check that they # are all in the desired directory!) # len(set(os.path.basename(self.current_target(x) # for x in ALL_FOUR))) == 1 return True def _fix(self): """Attempt to fix defects or inconsistencies in this lineage. .. todo:: Currently unimplemented. """ # TODO: Figure out what kinds of fixes are possible. For # example, checking if there is a valid version that # we can update the symlinks to. (Maybe involve # parsing keys and certs to see if they exist and # if a key corresponds to the subject key of a cert?) # TODO: In general, the symlink-reading functions below are not # cautious enough about the possibility that links or their # targets may not exist. (This shouldn't happen, but might # happen as a result of random tampering by a sysadmin, or # filesystem errors, or crashes.) def _previous_symlinks(self): """Returns the kind and path of all symlinks used in recovery. :returns: list of (kind, symlink) tuples :rtype: list """ previous_symlinks = [] for kind in ALL_FOUR: link_dir = os.path.dirname(getattr(self, kind)) link_base = "previous_{0}.pem".format(kind) previous_symlinks.append((kind, os.path.join(link_dir, link_base))) return previous_symlinks def _fix_symlinks(self): """Fixes symlinks in the event of an incomplete version update. If there is no problem with the current symlinks, this function has no effect. """ previous_symlinks = self._previous_symlinks() if all(os.path.exists(link[1]) for link in previous_symlinks): for kind, previous_link in previous_symlinks: current_link = getattr(self, kind) if os.path.lexists(current_link): os.unlink(current_link) os.symlink(os.readlink(previous_link), current_link) for _, link in previous_symlinks: if os.path.exists(link): os.unlink(link) def current_target(self, kind): """Returns full path to which the specified item currently points. :param str kind: the lineage member item ("cert", "privkey", "chain", or "fullchain") :returns: The path to the current version of the specified member. :rtype: str """ if kind not in ALL_FOUR: raise errors.CertStorageError("unknown kind of item") link = getattr(self, kind) if not os.path.exists(link): logger.debug("Expected symlink %s for %s does not exist.", link, kind) return None target = os.readlink(link) if not os.path.isabs(target): target = os.path.join(os.path.dirname(link), target) return os.path.abspath(target) def current_version(self, kind): """Returns numerical version of the specified item. For example, if kind is "chain" and the current chain link points to a file named "chain7.pem", returns the integer 7. :param str kind: the lineage member item ("cert", "privkey", "chain", or "fullchain") :returns: the current version of the specified member. :rtype: int """ if kind not in ALL_FOUR: raise errors.CertStorageError("unknown kind of item") pattern = re.compile(r"^{0}([0-9]+)\.pem$".format(kind)) target = self.current_target(kind) if target is None or not os.path.exists(target): logger.debug("Current-version target for %s " "does not exist at %s.", kind, target) target = "" matches = pattern.match(os.path.basename(target)) if matches: return int(matches.groups()[0]) else: logger.debug("No matches for target %s.", kind) return None def version(self, kind, version): """The filename that corresponds to the specified version and kind. .. warning:: The specified version may not exist in this lineage. There is no guarantee that the file path returned by this method actually exists. :param str kind: the lineage member item ("cert", "privkey", "chain", or "fullchain") :param int version: the desired version :returns: The path to the specified version of the specified member. :rtype: str """ if kind not in ALL_FOUR: raise errors.CertStorageError("unknown kind of item") where = os.path.dirname(self.current_target(kind)) return os.path.join(where, "{0}{1}.pem".format(kind, version)) def available_versions(self, kind): """Which alternative versions of the specified kind of item exist? The archive directory where the current version is stored is consulted to obtain the list of alternatives. :param str kind: the lineage member item ( ``cert``, ``privkey``, ``chain``, or ``fullchain``) :returns: all of the version numbers that currently exist :rtype: `list` of `int` """ if kind not in ALL_FOUR: raise errors.CertStorageError("unknown kind of item") where = os.path.dirname(self.current_target(kind)) files = os.listdir(where) pattern = re.compile(r"^{0}([0-9]+)\.pem$".format(kind)) matches = [pattern.match(f) for f in files] return sorted([int(m.groups()[0]) for m in matches if m]) def newest_available_version(self, kind): """Newest available version of the specified kind of item? :param str kind: the lineage member item (``cert``, ``privkey``, ``chain``, or ``fullchain``) :returns: the newest available version of this member :rtype: int """ return max(self.available_versions(kind)) def latest_common_version(self): """Newest version for which all items are available? :returns: the newest available version for which all members (``cert, ``privkey``, ``chain``, and ``fullchain``) exist :rtype: int """ # TODO: this can raise CertStorageError if there is no version overlap # (it should probably return None instead) # TODO: this can raise a spurious AttributeError if the current # link for any kind is missing (it should probably return None) versions = [self.available_versions(x) for x in ALL_FOUR] return max(n for n in versions[0] if all(n in v for v in versions[1:])) def next_free_version(self): """Smallest version newer than all full or partial versions? :returns: the smallest version number that is larger than any version of any item currently stored in this lineage :rtype: int """ # TODO: consider locking/mutual exclusion between updating processes # This isn't self.latest_common_version() + 1 because we don't want # collide with a version that might exist for one file type but not # for the others. return max(self.newest_available_version(x) for x in ALL_FOUR) + 1 def has_pending_deployment(self): """Is there a later version of all of the managed items? :returns: ``True`` if there is a complete version of this lineage with a larger version number than the current version, and ``False`` otherwis :rtype: bool """ # TODO: consider whether to assume consistency or treat # inconsistent/consistent versions differently smallest_current = min(self.current_version(x) for x in ALL_FOUR) return smallest_current < self.latest_common_version() def _update_link_to(self, kind, version): """Make the specified item point at the specified version. (Note that this method doesn't verify that the specified version exists.) :param str kind: the lineage member item ("cert", "privkey", "chain", or "fullchain") :param int version: the desired version """ if kind not in ALL_FOUR: raise errors.CertStorageError("unknown kind of item") link = getattr(self, kind) filename = "{0}{1}.pem".format(kind, version) # Relative rather than absolute target directory target_directory = os.path.dirname(os.readlink(link)) # TODO: it could be safer to make the link first under a temporary # filename, then unlink the old link, then rename the new link # to the old link; this ensures that this process is able to # create symlinks. # TODO: we might also want to check consistency of related links # for the other corresponding items os.unlink(link) os.symlink(os.path.join(target_directory, filename), link) def update_all_links_to(self, version): """Change all member objects to point to the specified version. :param int version: the desired version """ with error_handler.ErrorHandler(self._fix_symlinks): previous_links = self._previous_symlinks() for kind, link in previous_links: os.symlink(self.current_target(kind), link) for kind in ALL_FOUR: self._update_link_to(kind, version) for _, link in previous_links: os.unlink(link) def names(self, version=None): """What are the subject names of this certificate? (If no version is specified, use the current version.) :param int version: the desired version number :returns: the subject names :rtype: `list` of `str` """ if version is None: target = self.current_target("cert") else: target = self.version("cert", version) with open(target) as f: return crypto_util.get_sans_from_cert(f.read()) def autodeployment_is_enabled(self): """Is automatic deployment enabled for this cert? If autodeploy is not specified, defaults to True. :returns: True if automatic deployment is enabled :rtype: bool """ return ("autodeploy" not in self.configuration or self.configuration.as_bool("autodeploy")) def should_autodeploy(self, interactive=False): """Should this lineage now automatically deploy a newer version? This is a policy question and does not only depend on whether there is a newer version of the cert. (This considers whether autodeployment is enabled, whether a relevant newer version exists, and whether the time interval for autodeployment has been reached.) :param bool interactive: set to True to examine the question regardless of whether the renewal configuration allows automated deployment (for interactive use). Default False. :returns: whether the lineage now ought to autodeploy an existing newer cert version :rtype: bool """ if interactive or self.autodeployment_is_enabled(): if self.has_pending_deployment(): interval = self.configuration.get("deploy_before_expiry", "5 days") expiry = crypto_util.notAfter(self.current_target("cert")) now = pytz.UTC.fromutc(datetime.datetime.utcnow()) if expiry < add_time_interval(now, interval): return True return False def ocsp_revoked(self, version=None): # pylint: disable=no-self-use,unused-argument """Is the specified cert version revoked according to OCSP? Also returns True if the cert version is declared as intended to be revoked according to Let's Encrypt OCSP extensions. (If no version is specified, uses the current version.) This method is not yet implemented and currently always returns False. :param int version: the desired version number :returns: whether the certificate is or will be revoked :rtype: bool """ # XXX: This query and its associated network service aren't # implemented yet, so we currently return False (indicating that the # certificate is not revoked). return False def autorenewal_is_enabled(self): """Is automatic renewal enabled for this cert? If autorenew is not specified, defaults to True. :returns: True if automatic renewal is enabled :rtype: bool """ return ("autorenew" not in self.configuration or self.configuration.as_bool("autorenew")) def should_autorenew(self, interactive=False): """Should we now try to autorenew the most recent cert version? This is a policy question and does not only depend on whether the cert is expired. (This considers whether autorenewal is enabled, whether the cert is revoked, and whether the time interval for autorenewal has been reached.) Note that this examines the numerically most recent cert version, not the currently deployed version. :param bool interactive: set to True to examine the question regardless of whether the renewal configuration allows automated renewal (for interactive use). Default False. :returns: whether an attempt should now be made to autorenew the most current cert version in this lineage :rtype: bool """ if interactive or self.autorenewal_is_enabled(): # Consider whether to attempt to autorenew this cert now # Renewals on the basis of revocation if self.ocsp_revoked(self.latest_common_version()): logger.debug("Should renew, certificate is revoked.") return True # Renewals on the basis of expiry time interval = self.configuration.get("renew_before_expiry", "10 days") expiry = crypto_util.notAfter(self.version( "cert", self.latest_common_version())) now = pytz.UTC.fromutc(datetime.datetime.utcnow()) if expiry < add_time_interval(now, interval): logger.debug("Should renew, less than %s before certificate " "expiry %s.", interval, expiry.strftime("%Y-%m-%d %H:%M:%S %Z")) return True return False @classmethod def new_lineage(cls, lineagename, cert, privkey, chain, renewalparams=None, config=None, cli_config=None): # pylint: disable=too-many-locals,too-many-arguments """Create a new certificate lineage. Attempts to create a certificate lineage -- enrolled for potential future renewal -- with the (suggested) lineage name lineagename, and the associated cert, privkey, and chain (the associated fullchain will be created automatically). Optional configurator and renewalparams record the configuration that was originally used to obtain this cert, so that it can be reused later during automated renewal. Returns a new RenewableCert object referring to the created lineage. (The actual lineage name, as well as all the relevant file paths, will be available within this object.) :param str lineagename: the suggested name for this lineage (normally the current cert's first subject DNS name) :param str cert: the initial certificate version in PEM format :param str privkey: the private key in PEM format :param str chain: the certificate chain in PEM format :param configobj.ConfigObj renewalparams: parameters that should be used when instantiating authenticator and installer objects in the future to attempt to renew this cert or deploy new versions of it :param configobj.ConfigObj config: renewal configuration defaults, affecting, for example, the locations of the directories where the associated files will be saved :param .RenewerConfiguration cli_config: parsed command line arguments :returns: the newly-created RenewalCert object :rtype: :class:`storage.renewableCert`""" config = config_with_defaults(config) # This attempts to read the renewer config file and augment or replace # the renewer defaults with any options contained in that file. If # renewer_config_file is undefined or if the file is nonexistent or # empty, this .merge() will have no effect. config.merge(configobj.ConfigObj(cli_config.renewer_config_file)) # Examine the configuration and find the new lineage's name for i in (cli_config.renewal_configs_dir, cli_config.archive_dir, cli_config.live_dir): if not os.path.exists(i): os.makedirs(i, 0700) logger.debug("Creating directory %s.", i) config_file, config_filename = le_util.unique_lineage_name( cli_config.renewal_configs_dir, lineagename) if not config_filename.endswith(".conf"): raise errors.CertStorageError( "renewal config file name must end in .conf") # Determine where on disk everything will go # lineagename will now potentially be modified based on which # renewal configuration file could actually be created lineagename = os.path.basename(config_filename)[:-len(".conf")] archive = os.path.join(cli_config.archive_dir, lineagename) live_dir = os.path.join(cli_config.live_dir, lineagename) if os.path.exists(archive): raise errors.CertStorageError( "archive directory exists for " + lineagename) if os.path.exists(live_dir): raise errors.CertStorageError( "live directory exists for " + lineagename) os.mkdir(archive) os.mkdir(live_dir) logger.debug("Archive directory %s and live " "directory %s created.", archive, live_dir) relative_archive = os.path.join("..", "..", "archive", lineagename) # Put the data into the appropriate files on disk target = dict([(kind, os.path.join(live_dir, kind + ".pem")) for kind in ALL_FOUR]) for kind in ALL_FOUR: os.symlink(os.path.join(relative_archive, kind + "1.pem"), target[kind]) with open(target["cert"], "w") as f: logger.debug("Writing certificate to %s.", target["cert"]) f.write(cert) with open(target["privkey"], "w") as f: logger.debug("Writing private key to %s.", target["privkey"]) f.write(privkey) # XXX: Let's make sure to get the file permissions right here with open(target["chain"], "w") as f: logger.debug("Writing chain to %s.", target["chain"]) f.write(chain) with open(target["fullchain"], "w") as f: # assumes that OpenSSL.crypto.dump_certificate includes # ending newline character logger.debug("Writing full chain to %s.", target["fullchain"]) f.write(cert + chain) # Document what we've done in a new renewal config file config_file.close() new_config = configobj.ConfigObj(config_filename, create_empty=True) for kind in ALL_FOUR: new_config[kind] = target[kind] if renewalparams: new_config["renewalparams"] = renewalparams new_config.comments["renewalparams"] = ["", "Options and defaults used" " in the renewal process"] # TODO: add human-readable comments explaining other available # parameters logger.debug("Writing new config %s.", config_filename) new_config.write() return cls(new_config.filename, cli_config) def save_successor(self, prior_version, new_cert, new_privkey, new_chain): """Save new cert and chain as a successor of a prior version. Returns the new version number that was created. .. note:: this function does NOT update links to deploy this version :param int prior_version: the old version to which this version is regarded as a successor (used to choose a privkey, if the key has not changed, but otherwise this information is not permanently recorded anywhere) :param str new_cert: the new certificate, in PEM format :param str new_privkey: the new private key, in PEM format, or ``None``, if the private key has not changed :param str new_chain: the new chain, in PEM format :returns: the new version number that was created :rtype: int """ # XXX: assumes official archive location rather than examining links # XXX: consider using os.open for availability of os.O_EXCL # XXX: ensure file permissions are correct; also create directories # if needed (ensuring their permissions are correct) # Figure out what the new version is and hence where to save things target_version = self.next_free_version() archive = self.cli_config.archive_dir prefix = os.path.join(archive, self.lineagename) target = dict( [(kind, os.path.join(prefix, "{0}{1}.pem".format(kind, target_version))) for kind in ALL_FOUR]) # Distinguish the cases where the privkey has changed and where it # has not changed (in the latter case, making an appropriate symlink # to an earlier privkey version) if new_privkey is None: # The behavior below keeps the prior key by creating a new # symlink to the old key or the target of the old key symlink. old_privkey = os.path.join( prefix, "privkey{0}.pem".format(prior_version)) if os.path.islink(old_privkey): old_privkey = os.readlink(old_privkey) else: old_privkey = "privkey{0}.pem".format(prior_version) logger.debug("Writing symlink to old private key, %s.", old_privkey) os.symlink(old_privkey, target["privkey"]) else: with open(target["privkey"], "w") as f: logger.debug("Writing new private key to %s.", target["privkey"]) f.write(new_privkey) # Save everything else with open(target["cert"], "w") as f: logger.debug("Writing certificate to %s.", target["cert"]) f.write(new_cert) with open(target["chain"], "w") as f: logger.debug("Writing chain to %s.", target["chain"]) f.write(new_chain) with open(target["fullchain"], "w") as f: logger.debug("Writing full chain to %s.", target["fullchain"]) f.write(new_cert + new_chain) return target_version