#!/usr/bin/python # -*- coding: utf-8 -*- # Copyright: (c) 2016-2017, Yanis Guenane # Copyright: (c) 2017, Markus Teufelberger # GNU General Public License v3.0+ (see COPYING or https://www.gnu.org/licenses/gpl-3.0.txt) from __future__ import absolute_import, division, print_function __metaclass__ = type ANSIBLE_METADATA = {'metadata_version': '1.1', 'status': ['preview'], 'supported_by': 'community'} DOCUMENTATION = r''' --- module: openssl_certificate_info version_added: '2.8' short_description: Provide information of OpenSSL X.509 certificates description: - This module allows one to query information on OpenSSL certificates. - It uses the pyOpenSSL or cryptography python library to interact with OpenSSL. If both the cryptography and PyOpenSSL libraries are available (and meet the minimum version requirements) cryptography will be preferred as a backend over PyOpenSSL (unless the backend is forced with C(select_crypto_backend)). Please note that the PyOpenSSL backend was deprecated in Ansible 2.9 and will be removed in Ansible 2.13. requirements: - PyOpenSSL >= 0.15 or cryptography >= 1.6 author: - Felix Fontein (@felixfontein) - Yanis Guenane (@Spredzy) - Markus Teufelberger (@MarkusTeufelberger) options: path: description: - Remote absolute path where the certificate file is loaded from. - Either I(path) or I(content) must be specified, but not both. type: path content: description: - Content of the X.509 certificate in PEM format. - Either I(path) or I(content) must be specified, but not both. type: str version_added: "2.10" valid_at: description: - A dict of names mapping to time specifications. Every time specified here will be checked whether the certificate is valid at this point. See the C(valid_at) return value for informations on the result. - Time can be specified either as relative time or as absolute timestamp. - Time will always be interpreted as UTC. - Valid format is C([+-]timespec | ASN.1 TIME) where timespec can be an integer + C([w | d | h | m | s]) (e.g. C(+32w1d2h), and ASN.1 TIME (i.e. pattern C(YYYYMMDDHHMMSSZ)). Note that all timestamps will be treated as being in UTC. type: dict select_crypto_backend: description: - Determines which crypto backend to use. - The default choice is C(auto), which tries to use C(cryptography) if available, and falls back to C(pyopenssl). - If set to C(pyopenssl), will try to use the L(pyOpenSSL,https://pypi.org/project/pyOpenSSL/) library. - If set to C(cryptography), will try to use the L(cryptography,https://cryptography.io/) library. - Please note that the C(pyopenssl) backend has been deprecated in Ansible 2.9, and will be removed in Ansible 2.13. From that point on, only the C(cryptography) backend will be available. type: str default: auto choices: [ auto, cryptography, pyopenssl ] notes: - All timestamp values are provided in ASN.1 TIME format, i.e. following the C(YYYYMMDDHHMMSSZ) pattern. They are all in UTC. seealso: - module: openssl_certificate ''' EXAMPLES = r''' - name: Generate a Self Signed OpenSSL certificate openssl_certificate: path: /etc/ssl/crt/ansible.com.crt privatekey_path: /etc/ssl/private/ansible.com.pem csr_path: /etc/ssl/csr/ansible.com.csr provider: selfsigned # Get information on the certificate - name: Get information on generated certificate openssl_certificate_info: path: /etc/ssl/crt/ansible.com.crt register: result - name: Dump information debug: var: result # Check whether the certificate is valid or not valid at certain times, fail # if this is not the case. The first task (openssl_certificate_info) collects # the information, and the second task (assert) validates the result and # makes the playbook fail in case something is not as expected. - name: Test whether that certificate is valid tomorrow and/or in three weeks openssl_certificate_info: path: /etc/ssl/crt/ansible.com.crt valid_at: point_1: "+1d" point_2: "+3w" register: result - name: Validate that certificate is valid tomorrow, but not in three weeks assert: that: - result.valid_at.point_1 # valid in one day - not result.valid_at.point_2 # not valid in three weeks ''' RETURN = r''' expired: description: Whether the certificate is expired (i.e. C(notAfter) is in the past) returned: success type: bool basic_constraints: description: Entries in the C(basic_constraints) extension, or C(none) if extension is not present. returned: success type: list elements: str sample: "[CA:TRUE, pathlen:1]" basic_constraints_critical: description: Whether the C(basic_constraints) extension is critical. returned: success type: bool extended_key_usage: description: Entries in the C(extended_key_usage) extension, or C(none) if extension is not present. returned: success type: list elements: str sample: "[Biometric Info, DVCS, Time Stamping]" extended_key_usage_critical: description: Whether the C(extended_key_usage) extension is critical. returned: success type: bool extensions_by_oid: description: Returns a dictionary for every extension OID returned: success type: dict contains: critical: description: Whether the extension is critical. returned: success type: bool value: description: The Base64 encoded value (in DER format) of the extension returned: success type: str sample: "MAMCAQU=" sample: '{"1.3.6.1.5.5.7.1.24": { "critical": false, "value": "MAMCAQU="}}' key_usage: description: Entries in the C(key_usage) extension, or C(none) if extension is not present. returned: success type: str sample: "[Key Agreement, Data Encipherment]" key_usage_critical: description: Whether the C(key_usage) extension is critical. returned: success type: bool subject_alt_name: description: Entries in the C(subject_alt_name) extension, or C(none) if extension is not present. returned: success type: list elements: str sample: "[DNS:www.ansible.com, IP:1.2.3.4]" subject_alt_name_critical: description: Whether the C(subject_alt_name) extension is critical. returned: success type: bool ocsp_must_staple: description: C(yes) if the OCSP Must Staple extension is present, C(none) otherwise. returned: success type: bool ocsp_must_staple_critical: description: Whether the C(ocsp_must_staple) extension is critical. returned: success type: bool issuer: description: - The certificate's issuer. - Note that for repeated values, only the last one will be returned. returned: success type: dict sample: '{"organizationName": "Ansible", "commonName": "ca.example.com"}' issuer_ordered: description: The certificate's issuer as an ordered list of tuples. returned: success type: list elements: list sample: '[["organizationName", "Ansible"], ["commonName": "ca.example.com"]]' version_added: "2.9" subject: description: - The certificate's subject as a dictionary. - Note that for repeated values, only the last one will be returned. returned: success type: dict sample: '{"commonName": "www.example.com", "emailAddress": "test@example.com"}' subject_ordered: description: The certificate's subject as an ordered list of tuples. returned: success type: list elements: list sample: '[["commonName", "www.example.com"], ["emailAddress": "test@example.com"]]' version_added: "2.9" not_after: description: C(notAfter) date as ASN.1 TIME returned: success type: str sample: 20190413202428Z not_before: description: C(notBefore) date as ASN.1 TIME returned: success type: str sample: 20190331202428Z public_key: description: Certificate's public key in PEM format returned: success type: str sample: "-----BEGIN PUBLIC KEY-----\nMIICIjANBgkqhkiG9w0BAQEFAAOCAg8A..." public_key_fingerprints: description: - Fingerprints of certificate's public key. - For every hash algorithm available, the fingerprint is computed. returned: success type: dict sample: "{'sha256': 'd4:b3:aa:6d:c8:04:ce:4e:ba:f6:29:4d:92:a3:94:b0:c2:ff:bd:bf:33:63:11:43:34:0f:51:b0:95:09:2f:63', 'sha512': 'f7:07:4a:f0:b0:f0:e6:8b:95:5f:f9:e6:61:0a:32:68:f1..." signature_algorithm: description: The signature algorithm used to sign the certificate. returned: success type: str sample: sha256WithRSAEncryption serial_number: description: The certificate's serial number. returned: success type: int sample: 1234 version: description: The certificate version. returned: success type: int sample: 3 valid_at: description: For every time stamp provided in the I(valid_at) option, a boolean whether the certificate is valid at that point in time or not. returned: success type: dict subject_key_identifier: description: - The certificate's subject key identifier. - The identifier is returned in hexadecimal, with C(:) used to separate bytes. - Is C(none) if the C(SubjectKeyIdentifier) extension is not present. returned: success and if the pyOpenSSL backend is I(not) used type: str sample: '00:11:22:33:44:55:66:77:88:99:aa:bb:cc:dd:ee:ff:00:11:22:33' version_added: "2.9" authority_key_identifier: description: - The certificate's authority key identifier. - The identifier is returned in hexadecimal, with C(:) used to separate bytes. - Is C(none) if the C(AuthorityKeyIdentifier) extension is not present. returned: success and if the pyOpenSSL backend is I(not) used type: str sample: '00:11:22:33:44:55:66:77:88:99:aa:bb:cc:dd:ee:ff:00:11:22:33' version_added: "2.9" authority_cert_issuer: description: - The certificate's authority cert issuer as a list of general names. - Is C(none) if the C(AuthorityKeyIdentifier) extension is not present. returned: success and if the pyOpenSSL backend is I(not) used type: list elements: str sample: "[DNS:www.ansible.com, IP:1.2.3.4]" version_added: "2.9" authority_cert_serial_number: description: - The certificate's authority cert serial number. - Is C(none) if the C(AuthorityKeyIdentifier) extension is not present. returned: success and if the pyOpenSSL backend is I(not) used type: int sample: '12345' version_added: "2.9" ocsp_uri: description: The OCSP responder URI, if included in the certificate. Will be C(none) if no OCSP responder URI is included. returned: success type: str version_added: "2.9" ''' import abc import binascii import datetime import os import re import traceback from distutils.version import LooseVersion from ansible.module_utils import crypto as crypto_utils from ansible.module_utils.basic import AnsibleModule, missing_required_lib from ansible.module_utils.six import string_types from ansible.module_utils._text import to_native, to_text, to_bytes from ansible.module_utils.compat import ipaddress as compat_ipaddress MINIMAL_CRYPTOGRAPHY_VERSION = '1.6' MINIMAL_PYOPENSSL_VERSION = '0.15' PYOPENSSL_IMP_ERR = None try: import OpenSSL from OpenSSL import crypto PYOPENSSL_VERSION = LooseVersion(OpenSSL.__version__) if OpenSSL.SSL.OPENSSL_VERSION_NUMBER >= 0x10100000: # OpenSSL 1.1.0 or newer OPENSSL_MUST_STAPLE_NAME = b"tlsfeature" OPENSSL_MUST_STAPLE_VALUE = b"status_request" else: # OpenSSL 1.0.x or older OPENSSL_MUST_STAPLE_NAME = b"1.3.6.1.5.5.7.1.24" OPENSSL_MUST_STAPLE_VALUE = b"DER:30:03:02:01:05" except ImportError: PYOPENSSL_IMP_ERR = traceback.format_exc() PYOPENSSL_FOUND = False else: PYOPENSSL_FOUND = True CRYPTOGRAPHY_IMP_ERR = None try: import cryptography from cryptography import x509 from cryptography.hazmat.primitives import serialization CRYPTOGRAPHY_VERSION = LooseVersion(cryptography.__version__) except ImportError: CRYPTOGRAPHY_IMP_ERR = traceback.format_exc() CRYPTOGRAPHY_FOUND = False else: CRYPTOGRAPHY_FOUND = True TIMESTAMP_FORMAT = "%Y%m%d%H%M%SZ" class CertificateInfo(crypto_utils.OpenSSLObject): def __init__(self, module, backend): super(CertificateInfo, self).__init__( module.params['path'] or '', 'present', False, module.check_mode, ) self.backend = backend self.module = module self.content = module.params['content'] if self.content is not None: self.content = self.content.encode('utf-8') self.valid_at = module.params['valid_at'] if self.valid_at: for k, v in self.valid_at.items(): if not isinstance(v, string_types): self.module.fail_json( msg='The value for valid_at.{0} must be of type string (got {1})'.format(k, type(v)) ) self.valid_at[k] = crypto_utils.get_relative_time_option(v, 'valid_at.{0}'.format(k)) def generate(self): # Empty method because crypto_utils.OpenSSLObject wants this pass def dump(self): # Empty method because crypto_utils.OpenSSLObject wants this pass @abc.abstractmethod def _get_signature_algorithm(self): pass @abc.abstractmethod def _get_subject_ordered(self): pass @abc.abstractmethod def _get_issuer_ordered(self): pass @abc.abstractmethod def _get_version(self): pass @abc.abstractmethod def _get_key_usage(self): pass @abc.abstractmethod def _get_extended_key_usage(self): pass @abc.abstractmethod def _get_basic_constraints(self): pass @abc.abstractmethod def _get_ocsp_must_staple(self): pass @abc.abstractmethod def _get_subject_alt_name(self): pass @abc.abstractmethod def _get_not_before(self): pass @abc.abstractmethod def _get_not_after(self): pass @abc.abstractmethod def _get_public_key(self, binary): pass @abc.abstractmethod def _get_subject_key_identifier(self): pass @abc.abstractmethod def _get_authority_key_identifier(self): pass @abc.abstractmethod def _get_serial_number(self): pass @abc.abstractmethod def _get_all_extensions(self): pass @abc.abstractmethod def _get_ocsp_uri(self): pass def get_info(self): result = dict() self.cert = crypto_utils.load_certificate(self.path, content=self.content, backend=self.backend) result['signature_algorithm'] = self._get_signature_algorithm() subject = self._get_subject_ordered() issuer = self._get_issuer_ordered() result['subject'] = dict() for k, v in subject: result['subject'][k] = v result['subject_ordered'] = subject result['issuer'] = dict() for k, v in issuer: result['issuer'][k] = v result['issuer_ordered'] = issuer result['version'] = self._get_version() result['key_usage'], result['key_usage_critical'] = self._get_key_usage() result['extended_key_usage'], result['extended_key_usage_critical'] = self._get_extended_key_usage() result['basic_constraints'], result['basic_constraints_critical'] = self._get_basic_constraints() result['ocsp_must_staple'], result['ocsp_must_staple_critical'] = self._get_ocsp_must_staple() result['subject_alt_name'], result['subject_alt_name_critical'] = self._get_subject_alt_name() not_before = self._get_not_before() not_after = self._get_not_after() result['not_before'] = not_before.strftime(TIMESTAMP_FORMAT) result['not_after'] = not_after.strftime(TIMESTAMP_FORMAT) result['expired'] = not_after < datetime.datetime.utcnow() result['valid_at'] = dict() if self.valid_at: for k, v in self.valid_at.items(): result['valid_at'][k] = not_before <= v <= not_after result['public_key'] = self._get_public_key(binary=False) pk = self._get_public_key(binary=True) result['public_key_fingerprints'] = crypto_utils.get_fingerprint_of_bytes(pk) if pk is not None else dict() if self.backend != 'pyopenssl': ski = self._get_subject_key_identifier() if ski is not None: ski = to_native(binascii.hexlify(ski)) ski = ':'.join([ski[i:i + 2] for i in range(0, len(ski), 2)]) result['subject_key_identifier'] = ski aki, aci, acsn = self._get_authority_key_identifier() if aki is not None: aki = to_native(binascii.hexlify(aki)) aki = ':'.join([aki[i:i + 2] for i in range(0, len(aki), 2)]) result['authority_key_identifier'] = aki result['authority_cert_issuer'] = aci result['authority_cert_serial_number'] = acsn result['serial_number'] = self._get_serial_number() result['extensions_by_oid'] = self._get_all_extensions() result['ocsp_uri'] = self._get_ocsp_uri() return result class CertificateInfoCryptography(CertificateInfo): """Validate the supplied cert, using the cryptography backend""" def __init__(self, module): super(CertificateInfoCryptography, self).__init__(module, 'cryptography') def _get_signature_algorithm(self): return crypto_utils.cryptography_oid_to_name(self.cert.signature_algorithm_oid) def _get_subject_ordered(self): result = [] for attribute in self.cert.subject: result.append([crypto_utils.cryptography_oid_to_name(attribute.oid), attribute.value]) return result def _get_issuer_ordered(self): result = [] for attribute in self.cert.issuer: result.append([crypto_utils.cryptography_oid_to_name(attribute.oid), attribute.value]) return result def _get_version(self): if self.cert.version == x509.Version.v1: return 1 if self.cert.version == x509.Version.v3: return 3 return "unknown" def _get_key_usage(self): try: current_key_ext = self.cert.extensions.get_extension_for_class(x509.KeyUsage) current_key_usage = current_key_ext.value key_usage = dict( digital_signature=current_key_usage.digital_signature, content_commitment=current_key_usage.content_commitment, key_encipherment=current_key_usage.key_encipherment, data_encipherment=current_key_usage.data_encipherment, key_agreement=current_key_usage.key_agreement, key_cert_sign=current_key_usage.key_cert_sign, crl_sign=current_key_usage.crl_sign, encipher_only=False, decipher_only=False, ) if key_usage['key_agreement']: key_usage.update(dict( encipher_only=current_key_usage.encipher_only, decipher_only=current_key_usage.decipher_only )) key_usage_names = dict( digital_signature='Digital Signature', content_commitment='Non Repudiation', key_encipherment='Key Encipherment', data_encipherment='Data Encipherment', key_agreement='Key Agreement', key_cert_sign='Certificate Sign', crl_sign='CRL Sign', encipher_only='Encipher Only', decipher_only='Decipher Only', ) return sorted([ key_usage_names[name] for name, value in key_usage.items() if value ]), current_key_ext.critical except cryptography.x509.ExtensionNotFound: return None, False def _get_extended_key_usage(self): try: ext_keyusage_ext = self.cert.extensions.get_extension_for_class(x509.ExtendedKeyUsage) return sorted([ crypto_utils.cryptography_oid_to_name(eku) for eku in ext_keyusage_ext.value ]), ext_keyusage_ext.critical except cryptography.x509.ExtensionNotFound: return None, False def _get_basic_constraints(self): try: ext_keyusage_ext = self.cert.extensions.get_extension_for_class(x509.BasicConstraints) result = [] result.append('CA:{0}'.format('TRUE' if ext_keyusage_ext.value.ca else 'FALSE')) if ext_keyusage_ext.value.path_length is not None: result.append('pathlen:{0}'.format(ext_keyusage_ext.value.path_length)) return sorted(result), ext_keyusage_ext.critical except cryptography.x509.ExtensionNotFound: return None, False def _get_ocsp_must_staple(self): try: try: # This only works with cryptography >= 2.1 tlsfeature_ext = self.cert.extensions.get_extension_for_class(x509.TLSFeature) value = cryptography.x509.TLSFeatureType.status_request in tlsfeature_ext.value except AttributeError as dummy: # Fallback for cryptography < 2.1 oid = x509.oid.ObjectIdentifier("1.3.6.1.5.5.7.1.24") tlsfeature_ext = self.cert.extensions.get_extension_for_oid(oid) value = tlsfeature_ext.value.value == b"\x30\x03\x02\x01\x05" return value, tlsfeature_ext.critical except cryptography.x509.ExtensionNotFound: return None, False def _get_subject_alt_name(self): try: san_ext = self.cert.extensions.get_extension_for_class(x509.SubjectAlternativeName) result = [crypto_utils.cryptography_decode_name(san) for san in san_ext.value] return result, san_ext.critical except cryptography.x509.ExtensionNotFound: return None, False def _get_not_before(self): return self.cert.not_valid_before def _get_not_after(self): return self.cert.not_valid_after def _get_public_key(self, binary): return self.cert.public_key().public_bytes( serialization.Encoding.DER if binary else serialization.Encoding.PEM, serialization.PublicFormat.SubjectPublicKeyInfo ) def _get_subject_key_identifier(self): try: ext = self.cert.extensions.get_extension_for_class(x509.SubjectKeyIdentifier) return ext.value.digest except cryptography.x509.ExtensionNotFound: return None def _get_authority_key_identifier(self): try: ext = self.cert.extensions.get_extension_for_class(x509.AuthorityKeyIdentifier) issuer = None if ext.value.authority_cert_issuer is not None: issuer = [crypto_utils.cryptography_decode_name(san) for san in ext.value.authority_cert_issuer] return ext.value.key_identifier, issuer, ext.value.authority_cert_serial_number except cryptography.x509.ExtensionNotFound: return None, None, None def _get_serial_number(self): return self.cert.serial_number def _get_all_extensions(self): return crypto_utils.cryptography_get_extensions_from_cert(self.cert) def _get_ocsp_uri(self): try: ext = self.cert.extensions.get_extension_for_class(x509.AuthorityInformationAccess) for desc in ext.value: if desc.access_method == x509.oid.AuthorityInformationAccessOID.OCSP: if isinstance(desc.access_location, x509.UniformResourceIdentifier): return desc.access_location.value except x509.ExtensionNotFound as dummy: pass return None class CertificateInfoPyOpenSSL(CertificateInfo): """validate the supplied certificate.""" def __init__(self, module): super(CertificateInfoPyOpenSSL, self).__init__(module, 'pyopenssl') def _get_signature_algorithm(self): return to_text(self.cert.get_signature_algorithm()) def __get_name(self, name): result = [] for sub in name.get_components(): result.append([crypto_utils.pyopenssl_normalize_name(sub[0]), to_text(sub[1])]) return result def _get_subject_ordered(self): return self.__get_name(self.cert.get_subject()) def _get_issuer_ordered(self): return self.__get_name(self.cert.get_issuer()) def _get_version(self): # Version numbers in certs are off by one: # v1: 0, v2: 1, v3: 2 ... return self.cert.get_version() + 1 def _get_extension(self, short_name): for extension_idx in range(0, self.cert.get_extension_count()): extension = self.cert.get_extension(extension_idx) if extension.get_short_name() == short_name: result = [ crypto_utils.pyopenssl_normalize_name(usage.strip()) for usage in to_text(extension, errors='surrogate_or_strict').split(',') ] return sorted(result), bool(extension.get_critical()) return None, False def _get_key_usage(self): return self._get_extension(b'keyUsage') def _get_extended_key_usage(self): return self._get_extension(b'extendedKeyUsage') def _get_basic_constraints(self): return self._get_extension(b'basicConstraints') def _get_ocsp_must_staple(self): extensions = [self.cert.get_extension(i) for i in range(0, self.cert.get_extension_count())] oms_ext = [ ext for ext in extensions if to_bytes(ext.get_short_name()) == OPENSSL_MUST_STAPLE_NAME and to_bytes(ext) == OPENSSL_MUST_STAPLE_VALUE ] if OpenSSL.SSL.OPENSSL_VERSION_NUMBER < 0x10100000: # Older versions of libssl don't know about OCSP Must Staple oms_ext.extend([ext for ext in extensions if ext.get_short_name() == b'UNDEF' and ext.get_data() == b'\x30\x03\x02\x01\x05']) if oms_ext: return True, bool(oms_ext[0].get_critical()) else: return None, False def _normalize_san(self, san): if san.startswith('IP Address:'): san = 'IP:' + san[len('IP Address:'):] if san.startswith('IP:'): ip = compat_ipaddress.ip_address(san[3:]) san = 'IP:{0}'.format(ip.compressed) return san def _get_subject_alt_name(self): for extension_idx in range(0, self.cert.get_extension_count()): extension = self.cert.get_extension(extension_idx) if extension.get_short_name() == b'subjectAltName': result = [self._normalize_san(altname.strip()) for altname in to_text(extension, errors='surrogate_or_strict').split(', ')] return result, bool(extension.get_critical()) return None, False def _get_not_before(self): time_string = to_native(self.cert.get_notBefore()) return datetime.datetime.strptime(time_string, "%Y%m%d%H%M%SZ") def _get_not_after(self): time_string = to_native(self.cert.get_notAfter()) return datetime.datetime.strptime(time_string, "%Y%m%d%H%M%SZ") def _get_public_key(self, binary): try: return crypto.dump_publickey( crypto.FILETYPE_ASN1 if binary else crypto.FILETYPE_PEM, self.cert.get_pubkey() ) except AttributeError: try: # pyOpenSSL < 16.0: bio = crypto._new_mem_buf() if binary: rc = crypto._lib.i2d_PUBKEY_bio(bio, self.cert.get_pubkey()._pkey) else: rc = crypto._lib.PEM_write_bio_PUBKEY(bio, self.cert.get_pubkey()._pkey) if rc != 1: crypto._raise_current_error() return crypto._bio_to_string(bio) except AttributeError: self.module.warn('Your pyOpenSSL version does not support dumping public keys. ' 'Please upgrade to version 16.0 or newer, or use the cryptography backend.') def _get_subject_key_identifier(self): # Won't be implemented return None def _get_authority_key_identifier(self): # Won't be implemented return None, None, None def _get_serial_number(self): return self.cert.get_serial_number() def _get_all_extensions(self): return crypto_utils.pyopenssl_get_extensions_from_cert(self.cert) def _get_ocsp_uri(self): for i in range(self.cert.get_extension_count()): ext = self.cert.get_extension(i) if ext.get_short_name() == b'authorityInfoAccess': v = str(ext) m = re.search('^OCSP - URI:(.*)$', v, flags=re.MULTILINE) if m: return m.group(1) return None def main(): module = AnsibleModule( argument_spec=dict( path=dict(type='path'), content=dict(type='str'), valid_at=dict(type='dict'), select_crypto_backend=dict(type='str', default='auto', choices=['auto', 'cryptography', 'pyopenssl']), ), required_one_of=( ['path', 'content'], ), mutually_exclusive=( ['path', 'content'], ), supports_check_mode=True, ) try: if module.params['path'] is not None: base_dir = os.path.dirname(module.params['path']) or '.' if not os.path.isdir(base_dir): module.fail_json( name=base_dir, msg='The directory %s does not exist or the file is not a directory' % base_dir ) backend = module.params['select_crypto_backend'] if backend == 'auto': # Detect what backend we can use can_use_cryptography = CRYPTOGRAPHY_FOUND and CRYPTOGRAPHY_VERSION >= LooseVersion(MINIMAL_CRYPTOGRAPHY_VERSION) can_use_pyopenssl = PYOPENSSL_FOUND and PYOPENSSL_VERSION >= LooseVersion(MINIMAL_PYOPENSSL_VERSION) # If cryptography is available we'll use it if can_use_cryptography: backend = 'cryptography' elif can_use_pyopenssl: backend = 'pyopenssl' # Fail if no backend has been found if backend == 'auto': module.fail_json(msg=("Can't detect any of the required Python libraries " "cryptography (>= {0}) or PyOpenSSL (>= {1})").format( MINIMAL_CRYPTOGRAPHY_VERSION, MINIMAL_PYOPENSSL_VERSION)) if backend == 'pyopenssl': if not PYOPENSSL_FOUND: module.fail_json(msg=missing_required_lib('pyOpenSSL >= {0}'.format(MINIMAL_PYOPENSSL_VERSION)), exception=PYOPENSSL_IMP_ERR) try: getattr(crypto.X509Req, 'get_extensions') except AttributeError: module.fail_json(msg='You need to have PyOpenSSL>=0.15') module.deprecate('The module is using the PyOpenSSL backend. This backend has been deprecated', version='2.13', collection_name='ansible.builtin') certificate = CertificateInfoPyOpenSSL(module) elif backend == 'cryptography': if not CRYPTOGRAPHY_FOUND: module.fail_json(msg=missing_required_lib('cryptography >= {0}'.format(MINIMAL_CRYPTOGRAPHY_VERSION)), exception=CRYPTOGRAPHY_IMP_ERR) certificate = CertificateInfoCryptography(module) result = certificate.get_info() module.exit_json(**result) except crypto_utils.OpenSSLObjectError as exc: module.fail_json(msg=to_native(exc)) if __name__ == "__main__": main()