"""Let's Encrypt client API.""" import logging import os from cryptography.hazmat.backends import default_backend from cryptography.hazmat.primitives.asymmetric import rsa import OpenSSL from acme import client as acme_client from acme import jose from acme import messages from letsencrypt import account from letsencrypt import auth_handler from letsencrypt import configuration from letsencrypt import constants from letsencrypt import continuity_auth from letsencrypt import crypto_util from letsencrypt import errors from letsencrypt import error_handler from letsencrypt import le_util from letsencrypt import reverter from letsencrypt import storage from letsencrypt.display import ops as display_ops from letsencrypt.display import enhancements logger = logging.getLogger(__name__) def _acme_from_config_key(config, key): # TODO: Allow for other alg types besides RS256 return acme_client.Client(directory=config.server, key=key, verify_ssl=(not config.no_verify_ssl)) def register(config, account_storage, tos_cb=None): """Register new account with an ACME CA. This function takes care of generating fresh private key, registering the account, optionally accepting CA Terms of Service and finally saving the account. It should be called prior to initialization of `Client`, unless account has already been created. :param .IConfig config: Client configuration. :param .AccountStorage account_storage: Account storage where newly registered account will be saved to. Save happens only after TOS acceptance step, so any account private keys or `.RegistrationResource` will not be persisted if `tos_cb` returns ``False``. :param tos_cb: If ACME CA requires the user to accept a Terms of Service before registering account, client action is necessary. For example, a CLI tool would prompt the user acceptance. `tos_cb` must be a callable that should accept `.RegistrationResource` and return a `bool`: ``True`` iff the Terms of Service present in the contained `.Registration.terms_of_service` is accepted by the client, and ``False`` otherwise. ``tos_cb`` will be called only if the client acction is necessary, i.e. when ``terms_of_service is not None``. This argument is optional, if not supplied it will default to automatic acceptance! :raises letsencrypt.errors.Error: In case of any client problems, in particular registration failure, or unaccepted Terms of Service. :raises acme.errors.Error: In case of any protocol problems. :returns: Newly registered and saved account, as well as protocol API handle (should be used in `Client` initialization). :rtype: `tuple` of `.Account` and `acme.client.Client` """ # Log non-standard actions, potentially wrong API calls if account_storage.find_all(): logger.info("There are already existing accounts for %s", config.server) if config.email is None: logger.warn("Registering without email!") # Each new registration shall use a fresh new key key = jose.JWKRSA(key=jose.ComparableRSAKey( rsa.generate_private_key( public_exponent=65537, key_size=config.rsa_key_size, backend=default_backend()))) acme = _acme_from_config_key(config, key) # TODO: add phone? regr = acme.register(messages.NewRegistration.from_data(email=config.email)) if regr.terms_of_service is not None: if tos_cb is not None and not tos_cb(regr): raise errors.Error( "Registration cannot proceed without accepting " "Terms of Service.") regr = acme.agree_to_tos(regr) acc = account.Account(regr, key) account.report_new_account(acc, config) account_storage.save(acc) return acc, acme class Client(object): """ACME protocol client. :ivar .IConfig config: Client configuration. :ivar .Account account: Account registered with `register`. :ivar .AuthHandler auth_handler: Authorizations handler that will dispatch DV and Continuity challenges to appropriate authenticators (providing `.IAuthenticator` interface). :ivar .IAuthenticator dv_auth: Prepared (`.IAuthenticator.prepare`) authenticator that can solve the `.constants.DV_CHALLENGES`. :ivar .IInstaller installer: Installer. :ivar acme.client.Client acme: Optional ACME client API handle. You might already have one from `register`. """ def __init__(self, config, account_, dv_auth, installer, acme=None): """Initialize a client.""" self.config = config self.account = account_ self.dv_auth = dv_auth self.installer = installer # Initialize ACME if account is provided if acme is None and self.account is not None: acme = _acme_from_config_key(config, self.account.key) self.acme = acme # TODO: Check if self.config.enroll_autorenew is None. If # so, set it based to the default: figure out if dv_auth is # standalone (then default is False, otherwise default is True) if dv_auth is not None: cont_auth = continuity_auth.ContinuityAuthenticator(config, installer) self.auth_handler = auth_handler.AuthHandler( dv_auth, cont_auth, self.acme, self.account) else: self.auth_handler = None def _obtain_certificate(self, domains, csr): """Obtain certificate. Internal function with precondition that `domains` are consistent with identifiers present in the `csr`. :param list domains: Domain names. :param .le_util.CSR csr: DER-encoded Certificate Signing Request. The key used to generate this CSR can be different than `authkey`. :returns: `.CertificateResource` and certificate chain (as returned by `.fetch_chain`). :rtype: tuple """ if self.auth_handler is None: msg = ("Unable to obtain certificate because authenticator is " "not set.") logger.warning(msg) raise errors.Error(msg) if self.account.regr is None: raise errors.Error("Please register with the ACME server first.") logger.debug("CSR: %s, domains: %s", csr, domains) authzr = self.auth_handler.get_authorizations(domains) certr = self.acme.request_issuance( jose.ComparableX509(OpenSSL.crypto.load_certificate_request( OpenSSL.crypto.FILETYPE_ASN1, csr.data)), authzr) return certr, self.acme.fetch_chain(certr) def obtain_certificate_from_csr(self, csr): """Obtain certficiate from CSR. :param .le_util.CSR csr: DER-encoded Certificate Signing Request. :returns: `.CertificateResource` and certificate chain (as returned by `.fetch_chain`). :rtype: tuple """ return self._obtain_certificate( # TODO: add CN to domains? crypto_util.get_sans_from_csr( csr.data, OpenSSL.crypto.FILETYPE_ASN1), csr) def obtain_certificate(self, domains): """Obtains a certificate from the ACME server. `.register` must be called before `.obtain_certificate` :param set domains: domains to get a certificate :returns: `.CertificateResource`, certificate chain (as returned by `.fetch_chain`), and newly generated private key (`.le_util.Key`) and DER-encoded Certificate Signing Request (`.le_util.CSR`). :rtype: tuple """ # Create CSR from names key = crypto_util.init_save_key( self.config.rsa_key_size, self.config.key_dir) csr = crypto_util.init_save_csr(key, domains, self.config.csr_dir) return self._obtain_certificate(domains, csr) + (key, csr) def obtain_and_enroll_certificate(self, domains, plugins): """Obtain and enroll certificate. Get a new certificate for the specified domains using the specified authenticator and installer, and then create a new renewable lineage containing it. :param list domains: Domains to request. :param plugins: A PluginsFactory object. :returns: A new :class:`letsencrypt.storage.RenewableCert` instance referred to the enrolled cert lineage, or False if the cert could not be obtained. """ certr, chain, key, _ = self.obtain_certificate(domains) # TODO: remove this dirty hack self.config.namespace.authenticator = plugins.find_init( self.dv_auth).name if self.installer is not None: self.config.namespace.installer = plugins.find_init( self.installer).name # XXX: We clearly need a more general and correct way of getting # options into the configobj for the RenewableCert instance. # This is a quick-and-dirty way to do it to allow integration # testing to start. (Note that the config parameter to new_lineage # ideally should be a ConfigObj, but in this case a dict will be # accepted in practice.) params = vars(self.config.namespace) config = {} cli_config = configuration.RenewerConfiguration(self.config.namespace) if (cli_config.config_dir != constants.CLI_DEFAULTS["config_dir"] or cli_config.work_dir != constants.CLI_DEFAULTS["work_dir"]): logger.warning( "Non-standard path(s), might not work with crontab installed " "by your operating system package manager") lineage = storage.RenewableCert.new_lineage( domains[0], OpenSSL.crypto.dump_certificate( OpenSSL.crypto.FILETYPE_PEM, certr.body), key.pem, crypto_util.dump_pyopenssl_chain(chain), params, config, cli_config) return lineage def save_certificate(self, certr, chain_cert, cert_path, chain_path, fullchain_path): """Saves the certificate received from the ACME server. :param certr: ACME "certificate" resource. :type certr: :class:`acme.messages.Certificate` :param list chain_cert: :param str cert_path: Candidate path to a certificate. :param str chain_path: Candidate path to a certificate chain. :param str fullchain_path: Candidate path to a full cert chain. :returns: cert_path, chain_path, and fullchain_path as absolute paths to the actual files :rtype: `tuple` of `str` :raises IOError: If unable to find room to write the cert files """ for path in cert_path, chain_path, fullchain_path: le_util.make_or_verify_dir( os.path.dirname(path), 0o755, os.geteuid(), self.config.strict_permissions) cert_pem = OpenSSL.crypto.dump_certificate( OpenSSL.crypto.FILETYPE_PEM, certr.body) cert_file, act_cert_path = le_util.unique_file(cert_path, 0o644) try: cert_file.write(cert_pem) finally: cert_file.close() logger.info("Server issued certificate; certificate written to %s", act_cert_path) cert_chain_abspath = None fullchain_abspath = None if chain_cert: chain_pem = crypto_util.dump_pyopenssl_chain(chain_cert) cert_chain_abspath = _save_chain(chain_pem, chain_path) fullchain_abspath = _save_chain(cert_pem + chain_pem, fullchain_path) return os.path.abspath(act_cert_path), cert_chain_abspath, fullchain_abspath def deploy_certificate(self, domains, privkey_path, cert_path, chain_path, fullchain_path): """Install certificate :param list domains: list of domains to install the certificate :param str privkey_path: path to certificate private key :param str cert_path: certificate file path (optional) :param str chain_path: chain file path """ if self.installer is None: logger.warning("No installer specified, client is unable to deploy" "the certificate") raise errors.Error("No installer available") chain_path = None if chain_path is None else os.path.abspath(chain_path) with error_handler.ErrorHandler(self.installer.recovery_routine): for dom in domains: self.installer.deploy_cert( domain=dom, cert_path=os.path.abspath(cert_path), key_path=os.path.abspath(privkey_path), chain_path=chain_path, fullchain_path=fullchain_path) self.installer.save("Deployed Let's Encrypt Certificate") # sites may have been enabled / final cleanup self.installer.restart() def enhance_config(self, domains, redirect=None): """Enhance the configuration. .. todo:: This needs to handle the specific enhancements offered by the installer. We will also have to find a method to pass in the chosen values efficiently. :param list domains: list of domains to configure :param redirect: If traffic should be forwarded from HTTP to HTTPS. :type redirect: bool or None :raises .errors.Error: if no installer is specified in the client. """ if self.installer is None: logger.warning("No installer is specified, there isn't any " "configuration to enhance.") raise errors.Error("No installer available") if redirect is None: redirect = enhancements.ask("redirect") # When support for more enhancements are added, the call to the # plugin's `enhance` function should be wrapped by an ErrorHandler if redirect: self.redirect_to_ssl(domains) def redirect_to_ssl(self, domains): """Redirect all traffic from HTTP to HTTPS :param vhost: list of ssl_vhosts :type vhost: :class:`letsencrypt.interfaces.IInstaller` """ with error_handler.ErrorHandler(self.installer.recovery_routine): for dom in domains: try: self.installer.enhance(dom, "redirect") except errors.PluginError: logger.warn("Unable to perform redirect for %s", dom) raise self.installer.save("Add Redirects") self.installer.restart() def validate_key_csr(privkey, csr=None): """Validate Key and CSR files. Verifies that the client key and csr arguments are valid and correspond to one another. This does not currently check the names in the CSR due to the inability to read SANs from CSRs in python crypto libraries. If csr is left as None, only the key will be validated. :param privkey: Key associated with CSR :type privkey: :class:`letsencrypt.le_util.Key` :param .le_util.CSR csr: CSR :raises .errors.Error: when validation fails """ # TODO: Handle all of these problems appropriately # The client can eventually do things like prompt the user # and allow the user to take more appropriate actions # Key must be readable and valid. if privkey.pem and not crypto_util.valid_privkey(privkey.pem): raise errors.Error("The provided key is not a valid key") if csr: if csr.form == "der": csr_obj = OpenSSL.crypto.load_certificate_request( OpenSSL.crypto.FILETYPE_ASN1, csr.data) csr = le_util.CSR(csr.file, OpenSSL.crypto.dump_certificate( OpenSSL.crypto.FILETYPE_PEM, csr_obj), "pem") # If CSR is provided, it must be readable and valid. if csr.data and not crypto_util.valid_csr(csr.data): raise errors.Error("The provided CSR is not a valid CSR") # If both CSR and key are provided, the key must be the same key used # in the CSR. if csr.data and privkey.pem: if not crypto_util.csr_matches_pubkey( csr.data, privkey.pem): raise errors.Error("The key and CSR do not match") def rollback(default_installer, checkpoints, config, plugins): """Revert configuration the specified number of checkpoints. :param int checkpoints: Number of checkpoints to revert. :param config: Configuration. :type config: :class:`letsencrypt.interfaces.IConfig` """ # Misconfigurations are only a slight problems... allow the user to rollback installer = display_ops.pick_installer( config, default_installer, plugins, question="Which installer " "should be used for rollback?") # No Errors occurred during init... proceed normally # If installer is None... couldn't find an installer... there shouldn't be # anything to rollback if installer is not None: installer.rollback_checkpoints(checkpoints) installer.restart() def view_config_changes(config): """View checkpoints and associated configuration changes. .. note:: This assumes that the installation is using a Reverter object. :param config: Configuration. :type config: :class:`letsencrypt.interfaces.IConfig` """ rev = reverter.Reverter(config) rev.recovery_routine() rev.view_config_changes() def _save_chain(chain_pem, chain_path): """Saves chain_pem at a unique path based on chain_path. :param str chain_pem: certificate chain in PEM format :param str chain_path: candidate path for the cert chain :returns: absolute path to saved cert chain :rtype: str """ chain_file, act_chain_path = le_util.unique_file(chain_path, 0o644) try: chain_file.write(chain_pem) finally: chain_file.close() logger.info("Cert chain written to %s", act_chain_path) # This expects a valid chain file return os.path.abspath(act_chain_path)