#!/usr/bin/env python3 # # Copyright (C) 2021 VyOS maintainers and contributors # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License version 2 or later as # published by the Free Software Foundation. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty 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, see . import argparse import ipaddress import os import sys import tabulate from cryptography import x509 from cryptography.x509.oid import ExtendedKeyUsageOID from vyos.configquery import ConfigTreeQuery from vyos.configdict import dict_merge from vyos.pki import encode_certificate, encode_public_key, encode_private_key, encode_dh_parameters from vyos.pki import create_certificate, create_certificate_request, create_certificate_revocation_list from vyos.pki import create_private_key from vyos.pki import create_dh_parameters from vyos.pki import load_certificate, load_certificate_request, load_private_key, load_crl from vyos.pki import verify_certificate from vyos.xml import defaults from vyos.util import ask_input, ask_yes_no from vyos.util import cmd CERT_REQ_END = '-----END CERTIFICATE REQUEST-----' auth_dir = '/config/auth' # Helper Functions conf = ConfigTreeQuery() def get_default_values(): # Fetch default x509 values base = ['pki', 'x509', 'default'] x509_defaults = conf.get_config_dict(base, key_mangling=('-', '_'), get_first_key=True, no_tag_node_value_mangle=True) default_values = defaults(base) x509_defaults = dict_merge(default_values, x509_defaults) return x509_defaults def get_config_ca_certificate(name=None): # Fetch ca certificates from config base = ['pki', 'ca'] if not conf.exists(base): return False if name: base = base + [name] if not conf.exists(base + ['private', 'key']) or not conf.exists(base + ['certificate']): return False return conf.get_config_dict(base, key_mangling=('-', '_'), get_first_key=True, no_tag_node_value_mangle=True) def get_config_certificate(name=None): # Get certificates from config base = ['pki', 'certificate'] if not conf.exists(base): return False if name: base = base + [name] if not conf.exists(base + ['private', 'key']) or not conf.exists(base + ['certificate']): return False return conf.get_config_dict(base, key_mangling=('-', '_'), get_first_key=True, no_tag_node_value_mangle=True) def get_certificate_ca(cert, ca_certs): # Find CA certificate for given certificate for ca_name, ca_dict in ca_certs.items(): if 'certificate' not in ca_dict: continue ca_cert = load_certificate(ca_dict['certificate']) if not ca_cert: continue if verify_certificate(cert, ca_cert): return ca_name return None def get_config_revoked_certificates(): # Fetch revoked certificates from config ca_base = ['pki', 'ca'] cert_base = ['pki', 'certificate'] certs = [] if conf.exists(ca_base): ca_certificates = conf.get_config_dict(ca_base, key_mangling=('-', '_'), get_first_key=True, no_tag_node_value_mangle=True) certs.extend(ca_certificates.values()) if conf.exists(cert_base): certificates = conf.get_config_dict(cert_base, key_mangling=('-', '_'), get_first_key=True, no_tag_node_value_mangle=True) certs.extend(certificates.values()) return [cert_dict for cert_dict in certs if 'revoke' in cert_dict] def get_revoked_by_serial_numbers(serial_numbers=[]): # Return serial numbers of revoked certificates certs_out = [] certs = get_config_certificate() ca_certs = get_config_ca_certificate() if certs: for cert_name, cert_dict in certs.items(): if 'certificate' not in cert_dict: continue cert = load_certificate(cert_dict['certificate']) if cert.serial_number in serial_numbers: certs_out.append(cert_name) if ca_certs: for cert_name, cert_dict in ca_certs.items(): if 'certificate' not in cert_dict: continue cert = load_certificate(cert_dict['certificate']) if cert.serial_number in serial_numbers: certs_out.append(cert_name) return certs_out def install_certificate(name, cert='', private_key=None, key_type=None, key_passphrase=None, is_ca=False): # Show conf commands for installing certificate prefix = 'ca' if is_ca else 'certificate' print('Configure mode commands to install:') base = f"set pki {prefix} {name}" if cert: cert_pem = "".join(encode_certificate(cert).strip().split("\n")[1:-1]) print(f"{base} certificate '{cert_pem}'") if private_key: key_pem = "".join(encode_private_key(private_key, passphrase=key_passphrase).strip().split("\n")[1:-1]) print(f"{base} private key '{key_pem}'") if key_passphrase: print(f"{base} private password-protected") def install_crl(ca_name, crl): # Show conf commands for installing crl print("Configure mode commands to install CRL:") crl_pem = "".join(encode_certificate(crl).strip().split("\n")[1:-1]) print(f"set pki ca {ca_name} crl '{crl_pem}'") def install_dh_parameters(name, params): # Show conf commands for installing dh params print("Configure mode commands to install DH parameters:") dh_pem = "".join(encode_dh_parameters(params).strip().split("\n")[1:-1]) print(f"set pki dh {name} parameters '{dh_pem}'") def install_ssh_key(name, public_key, private_key, passphrase=None): # Show conf commands for installing ssh key key_openssh = encode_public_key(public_key, encoding='OpenSSH', key_format='OpenSSH') username = os.getlogin() type_key_split = key_openssh.split(" ") base = f"set system login user {username} authentication public-keys {name}" print("Configure mode commands to install SSH key:") print(f"{base} key '{type_key_split[1]}'") print(f"{base} type '{type_key_split[0]}'", end="\n\n") print(encode_private_key(private_key, encoding='PEM', key_format='OpenSSH', passphrase=passphrase)) def install_keypair(name, key_type, private_key=None, public_key=None, passphrase=None): # Show conf commands for installing key-pair print("Configure mode commands to install key pair:") if public_key: install_public_key = ask_yes_no('Do you want to install the public key?', default=True) public_key_pem = encode_public_key(public_key) if install_public_key: install_public_pem = "".join(public_key_pem.strip().split("\n")[1:-1]) print(f"set pki key-pair {name} public key '{install_public_pem}'") else: print("Public key:") print(public_key_pem) if private_key: install_private_key = ask_yes_no('Do you want to install the private key?', default=True) private_key_pem = encode_private_key(private_key, passphrase=passphrase) if install_private_key: install_private_pem = "".join(private_key_pem.strip().split("\n")[1:-1]) print("set pki key-pair %s private key '%s'" % (name, install_private_pem)) if passphrase: print("set pki key-pair %s private password-protected" % (name,)) else: print("Private key:") print(private_key_pem) def install_wireguard_key(name, private_key, public_key): # Show conf commands for installing wireguard key pairs is_interface = re.match(r'^wg[\d]+$', name) print("Configure mode commands to install key:") if is_interface: print("set interfaces wireguard %s private-key '%s'" % (name, private_key)) print("") print("Public key for use on peer configuration: " + public_key) else: print("set interfaces wireguard [INTERFACE] peer %s public-key '%s'" % (name, public_key)) print("") print("Private key for use on peer configuration: " + private_key) def install_wireguard_psk(name, psk): # Show conf commands for installing wireguard psk print("set interfaces wireguard [INTERFACE] peer %s preshared-key '%s'" % (name, psk)) def ask_passphrase(): passphrase = None print("Note: If you plan to use the generated key on this router, do not encrypt the private key.") if ask_yes_no('Do you want to encrypt the private key with a passphrase?'): passphrase = ask_input('Enter passphrase:') return passphrase def write_file(filename, contents): full_path = os.path.join(auth_dir, filename) directory = os.path.dirname(full_path) if not os.path.exists(directory): print('Failed to write file: directory does not exist') return False if os.path.exists(full_path) and not ask_yes_no('Do you want to overwrite the existing file?'): return False with open(full_path, 'w') as f: f.write(contents) print(f'File written to {full_path}') # Generation functions def generate_private_key(): key_type = ask_input('Enter private key type: [rsa, dsa, ec]', default='rsa', valid_responses=['rsa', 'dsa', 'ec']) size_valid = [] size_default = 0 if key_type in ['rsa', 'dsa']: size_default = 2048 size_valid = [512, 1024, 2048, 4096] elif key_type == 'ec': size_default = 256 size_valid = [224, 256, 384, 521] size = ask_input('Enter private key bits:', default=size_default, numeric_only=True, valid_responses=size_valid) return create_private_key(key_type, size), key_type def parse_san_string(san_string): if not san_string: return None output = [] san_split = san_string.strip().split(",") for pair_str in san_split: tag, value = pair_str.strip().split(":", 1) if tag == 'ipv4': output.append(ipaddress.IPv4Address(value)) elif tag == 'ipv6': output.append(ipaddress.IPv6Address(value)) elif tag == 'dns': output.append(value) return output def generate_certificate_request(private_key=None, key_type=None, return_request=False, name=None, install=False, file=False, ask_san=True): if not private_key: private_key, key_type = generate_private_key() default_values = get_default_values() subject = {} subject['country'] = ask_input('Enter country code:', default=default_values['country']) subject['state'] = ask_input('Enter state:', default=default_values['state']) subject['locality'] = ask_input('Enter locality:', default=default_values['locality']) subject['organization'] = ask_input('Enter organization name:', default=default_values['organization']) subject['common_name'] = ask_input('Enter common name:', default='vyos.io') subject_alt_names = None if ask_san and ask_yes_no('Do you want to configure Subject Alternative Names?'): print("Enter alternative names in a comma separate list, example: ipv4:1.1.1.1,ipv6:fe80::1,dns:vyos.net") san_string = ask_input('Enter Subject Alternative Names:') subject_alt_names = parse_san_string(san_string) cert_req = create_certificate_request(subject, private_key, subject_alt_names) if return_request: return cert_req passphrase = ask_passphrase() if not install and not file: print(encode_certificate(cert_req)) print(encode_private_key(private_key, passphrase=passphrase)) return None if install: print("Certificate request:") print(encode_certificate(cert_req) + "\n") install_certificate(name, private_key=private_key, key_type=key_type, key_passphrase=passphrase, is_ca=False) if file: write_file(f'{name}.csr', encode_certificate(cert_req)) write_file(f'{name}.key', encode_private_key(private_key, passphrase=passphrase)) def generate_certificate(cert_req, ca_cert, ca_private_key, is_ca=False, is_sub_ca=False): valid_days = ask_input('Enter how many days certificate will be valid:', default='365' if not is_ca else '1825', numeric_only=True) cert_type = None if not is_ca: cert_type = ask_input('Enter certificate type: (client, server)', default='server', valid_responses=['client', 'server']) return create_certificate(cert_req, ca_cert, ca_private_key, valid_days, cert_type, is_ca, is_sub_ca) def generate_ca_certificate(name, install=False, file=False): private_key, key_type = generate_private_key() cert_req = generate_certificate_request(private_key, key_type, return_request=True, ask_san=False) cert = generate_certificate(cert_req, cert_req, private_key, is_ca=True) passphrase = ask_passphrase() if not install and not file: print(encode_certificate(cert)) print(encode_private_key(private_key, passphrase=passphrase)) return None if install: install_certificate(name, cert, private_key, key_type, key_passphrase=passphrase, is_ca=True) if file: write_file(f'{name}.pem', encode_certificate(cert)) write_file(f'{name}.key', encode_private_key(private_key, passphrase=passphrase)) def generate_ca_certificate_sign(name, ca_name, install=False, file=False): ca_dict = get_config_ca_certificate(ca_name) if not ca_dict: print(f"CA certificate or private key for '{ca_name}' not found") return None ca_cert = load_certificate(ca_dict['certificate']) if not ca_cert: print("Failed to load signing CA certificate, aborting") return None ca_private = ca_dict['private'] ca_private_passphrase = None if 'password_protected' in ca_private: ca_private_passphrase = ask_input('Enter signing CA private key passphrase:') ca_private_key = load_private_key(ca_private['key'], passphrase=ca_private_passphrase) if not ca_private_key: print("Failed to load signing CA private key, aborting") return None private_key = None key_type = None cert_req = None if not ask_yes_no('Do you already have a certificate request?'): private_key, key_type = generate_private_key() cert_req = generate_certificate_request(private_key, key_type, return_request=True, ask_san=False) else: print("Paste certificate request and press enter:") lines = [] curr_line = '' while True: curr_line = input().strip() if not curr_line or curr_line == CERT_REQ_END: break lines.append(curr_line) if not lines: print("Aborted") return None wrap = lines[0].find('-----') < 0 # Only base64 pasted, add the CSR tags for parsing cert_req = load_certificate_request("\n".join(lines), wrap) if not cert_req: print("Invalid certificate request") return None cert = generate_certificate(cert_req, ca_cert, ca_private_key, is_ca=True, is_sub_ca=True) passphrase = ask_passphrase() if not install and not file: print(encode_certificate(cert)) print(encode_private_key(private_key, passphrase=passphrase)) return None if install: install_certificate(name, cert, private_key, key_type, key_passphrase=passphrase, is_ca=True) if file: write_file(f'{name}.pem', encode_certificate(cert)) write_file(f'{name}.key', encode_private_key(private_key, passphrase=passphrase)) def generate_certificate_sign(name, ca_name, install=False, file=False): ca_dict = get_config_ca_certificate(ca_name) if not ca_dict: print(f"CA certificate or private key for '{ca_name}' not found") return None ca_cert = load_certificate(ca_dict['certificate']) if not ca_cert: print("Failed to load CA certificate, aborting") return None ca_private = ca_dict['private'] ca_private_passphrase = None if 'password_protected' in ca_private: ca_private_passphrase = ask_input('Enter CA private key passphrase:') ca_private_key = load_private_key(ca_private['key'], passphrase=ca_private_passphrase) if not ca_private_key: print("Failed to load CA private key, aborting") return None private_key = None key_type = None cert_req = None if not ask_yes_no('Do you already have a certificate request?'): private_key, key_type = generate_private_key() cert_req = generate_certificate_request(private_key, key_type, return_request=True) else: print("Paste certificate request and press enter:") lines = [] curr_line = '' while True: curr_line = input().strip() if not curr_line or curr_line == CERT_REQ_END: break lines.append(curr_line) if not lines: print("Aborted") return None wrap = lines[0].find('-----') < 0 # Only base64 pasted, add the CSR tags for parsing cert_req = load_certificate_request("\n".join(lines), wrap) if not cert_req: print("Invalid certificate request") return None cert = generate_certificate(cert_req, ca_cert, ca_private_key, is_ca=False) passphrase = ask_passphrase() if not install and not file: print(encode_certificate(cert)) print(encode_private_key(private_key, passphrase=passphrase)) return None if install: install_certificate(name, cert, private_key, key_type, key_passphrase=passphrase, is_ca=False) if file: write_file(f'{name}.pem', encode_certificate(cert)) write_file(f'{name}.key', encode_private_key(private_key, passphrase=passphrase)) def generate_certificate_selfsign(name, install=False, file=False): private_key, key_type = generate_private_key() cert_req = generate_certificate_request(private_key, key_type, return_request=True) cert = generate_certificate(cert_req, cert_req, private_key, is_ca=False) passphrase = ask_passphrase() if not install and not file: print(encode_certificate(cert)) print(encode_private_key(private_key, passphrase=passphrase)) return None if install: install_certificate(name, cert, private_key=private_key, key_type=key_type, key_passphrase=passphrase, is_ca=False) if file: write_file(f'{name}.pem', encode_certificate(cert)) write_file(f'{name}.key', encode_private_key(private_key, passphrase=passphrase)) def generate_certificate_revocation_list(ca_name, install=False, file=False): ca_dict = get_config_ca_certificate(ca_name) if not ca_dict: print(f"CA certificate or private key for '{ca_name}' not found") return None ca_cert = load_certificate(ca_dict['certificate']) if not ca_cert: print("Failed to load CA certificate, aborting") return None ca_private = ca_dict['private'] ca_private_passphrase = None if 'password_protected' in ca_private: ca_private_passphrase = ask_input('Enter CA private key passphrase:') ca_private_key = load_private_key(ca_private['key'], passphrase=ca_private_passphrase) if not ca_private_key: print("Failed to load CA private key, aborting") return None revoked_certs = get_config_revoked_certificates() to_revoke = [] for cert_dict in revoked_certs: if 'certificate' not in cert_dict: continue cert_data = cert_dict['certificate'] try: cert = load_certificate(cert_data) if cert.issuer == ca_cert.subject: to_revoke.append(cert.serial_number) except ValueError: continue if not to_revoke: print("No revoked certificates to add to the CRL") return None crl = create_certificate_revocation_list(ca_cert, ca_private_key, to_revoke) if not crl: print("Failed to create CRL") return None if not install and not file: print(encode_certificate(crl)) return None if install: install_crl(ca_name, crl) if file: write_file(f'{name}.crl', encode_certificate(crl)) def generate_ssh_keypair(name, install=False, file=False): private_key, key_type = generate_private_key() public_key = private_key.public_key() passphrase = ask_passphrase() if not install and not file: print(encode_public_key(public_key, encoding='OpenSSH', key_format='OpenSSH')) print("") print(encode_private_key(private_key, encoding='PEM', key_format='OpenSSH', passphrase=passphrase)) return None if install: install_ssh_key(name, public_key, private_key, passphrase) if file: write_file(f'{name}.pem', encode_public_key(public_key, encoding='OpenSSH', key_format='OpenSSH')) write_file(f'{name}.key', encode_private_key(private_key, encoding='PEM', key_format='OpenSSH', passphrase=passphrase)) def generate_dh_parameters(name, install=False, file=False): bits = ask_input('Enter DH parameters key size:', default=2048, numeric_only=True) print("Generating parameters...") dh_params = create_dh_parameters(bits) if not dh_params: print("Failed to create DH parameters") return None if not install and not file: print("DH Parameters:") print(encode_dh_parameters(dh_params)) if install: install_dh_parameters(name, dh_params) if file: write_file(f'{name}.pem', encode_dh_parameters(dh_params)) def generate_keypair(name, install=False, file=False): private_key, key_type = generate_private_key() public_key = private_key.public_key() passphrase = ask_passphrase() if not install and not file: print(encode_public_key(public_key)) print("") print(encode_private_key(private_key, passphrase=passphrase)) return None if install: install_keypair(name, key_type, private_key, public_key, passphrase) if file: write_file(f'{name}.pem', encode_public_key(public_key)) write_file(f'{name}.key', encode_private_key(private_key, passphrase=passphrase)) def generate_openvpn_key(name, install=False, file=False): result = cmd('openvpn --genkey secret /dev/stdout | grep -o "^[^#]*"') if not result: print("Failed to generate OpenVPN key") return None if not install and not file: print(result) return None if install: key_lines = result.split("\n") key_data = "".join(key_lines[1:-1]) # Remove wrapper tags and line endings key_version = '1' version_search = re.search(r'BEGIN OpenVPN Static key V(\d+)', result) # Future-proofing (hopefully) if version_search: key_version = version_search[1] print("Configure mode commands to install OpenVPN key:") print("set pki openvpn shared-secret %s key '%s'" % (name, key_data)) print("set pki openvpn shared-secret %s version '%s'" % (name, key_version)) if file: write_file(f'{name}.key', result) def generate_wireguard_key(name, install=False, file=False): private_key = cmd('wg genkey') public_key = cmd('wg pubkey', input=private_key) if not install: print("Private key: " + private_key) print("Public key: " + public_key) if install: install_wireguard_key(name, private_key, public_key) if file: write_file(f'{name}_public.key', public_key) write_file(f'{name}_private.key', private_key) def generate_wireguard_psk(name, install=False, file=False): psk = cmd('wg genpsk') if not install and not file: print("Pre-shared key:") print(psk) return None if install: install_wireguard_psk(name, psk) if file: write_file(f'{name}.key', psk) # Show functions def show_certificate_authority(name=None): headers = ['Name', 'Subject', 'Issuer CN', 'Issued', 'Expiry', 'Private Key', 'Parent'] data = [] certs = get_config_ca_certificate() if certs: for cert_name, cert_dict in certs.items(): if name and name != cert_name: continue if 'certificate' not in cert_dict: continue cert = load_certificate(cert_dict['certificate']) parent_ca_name = get_certificate_ca(cert, certs) cert_issuer_cn = cert.issuer.rfc4514_string().split(",")[0] if not parent_ca_name or parent_ca_name == cert_name: parent_ca_name = 'N/A' if not cert: continue have_private = 'Yes' if 'private' in cert_dict and 'key' in cert_dict['private'] else 'No' data.append([cert_name, cert.subject.rfc4514_string(), cert_issuer_cn, cert.not_valid_before, cert.not_valid_after, have_private, parent_ca_name]) print("Certificate Authorities:") print(tabulate.tabulate(data, headers)) def show_certificate(name=None): headers = ['Name', 'Type', 'Subject CN', 'Issuer CN', 'Issued', 'Expiry', 'Revoked', 'Private Key', 'CA Present'] data = [] certs = get_config_certificate() if certs: ca_certs = get_config_ca_certificate() for cert_name, cert_dict in certs.items(): if name and name != cert_name: continue if 'certificate' not in cert_dict: continue cert = load_certificate(cert_dict['certificate']) if not cert: continue ca_name = get_certificate_ca(cert, ca_certs) cert_subject_cn = cert.subject.rfc4514_string().split(",")[0] cert_issuer_cn = cert.issuer.rfc4514_string().split(",")[0] cert_type = 'Unknown' ext = cert.extensions.get_extension_for_class(x509.ExtendedKeyUsage) if ext and ExtendedKeyUsageOID.SERVER_AUTH in ext.value: cert_type = 'Server' elif ext and ExtendedKeyUsageOID.CLIENT_AUTH in ext.value: cert_type = 'Client' revoked = 'Yes' if 'revoke' in cert_dict else 'No' have_private = 'Yes' if 'private' in cert_dict and 'key' in cert_dict['private'] else 'No' have_ca = f'Yes ({ca_name})' if ca_name else 'No' data.append([ cert_name, cert_type, cert_subject_cn, cert_issuer_cn, cert.not_valid_before, cert.not_valid_after, revoked, have_private, have_ca]) print("Certificates:") print(tabulate.tabulate(data, headers)) def show_crl(name=None): headers = ['CA Name', 'Updated', 'Revokes'] data = [] certs = get_config_ca_certificate() if certs: for cert_name, cert_dict in certs.items(): if name and name != cert_name: continue if 'crl' not in cert_dict: continue crls = cert_dict['crl'] if isinstance(crls, str): crls = [crls] for crl_data in cert_dict['crl']: crl = load_crl(crl_data) if not crl: continue certs = get_revoked_by_serial_numbers([revoked.serial_number for revoked in crl]) data.append([cert_name, crl.last_update, ", ".join(certs)]) print("Certificate Revocation Lists:") print(tabulate.tabulate(data, headers)) if __name__ == '__main__': parser = argparse.ArgumentParser() parser.add_argument('--action', help='PKI action', required=True) # X509 parser.add_argument('--ca', help='Certificate Authority', required=False) parser.add_argument('--certificate', help='Certificate', required=False) parser.add_argument('--crl', help='Certificate Revocation List', required=False) parser.add_argument('--sign', help='Sign certificate with specified CA', required=False) parser.add_argument('--self-sign', help='Self-sign the certificate', action='store_true') # SSH parser.add_argument('--ssh', help='SSH Key', required=False) # DH parser.add_argument('--dh', help='DH Parameters', required=False) # Key pair parser.add_argument('--keypair', help='Key pair', required=False) # OpenVPN parser.add_argument('--openvpn', help='OpenVPN TLS key', required=False) # Wireguard parser.add_argument('--wireguard', help='Wireguard', action='store_true') parser.add_argument('--key', help='Wireguard key pair', required=False) parser.add_argument('--psk', help='Wireguard pre shared key', required=False) # Global parser.add_argument('--file', help='Write generated keys into specified filename', action='store_true') parser.add_argument('--install', help='Install generated keys into running-config', action='store_true') args = parser.parse_args() try: if args.action == 'generate': if args.ca: if args.sign: generate_ca_certificate_sign(args.ca, args.sign, install=args.install, file=args.file) else: generate_ca_certificate(args.ca, install=args.install, file=args.file) elif args.certificate: if args.sign: generate_certificate_sign(args.certificate, args.sign, install=args.install, file=args.file) elif args.self_sign: generate_certificate_selfsign(args.certificate, install=args.install, file=args.file) else: generate_certificate_request(name=args.certificate, install=args.install, file=args.file) elif args.crl: generate_certificate_revocation_list(args.crl, install=args.install, file=args.file) elif args.ssh: generate_ssh_keypair(args.ssh, install=args.install, file=args.file) elif args.dh: generate_dh_parameters(args.dh, install=args.install, file=args.file) elif args.keypair: generate_keypair(args.keypair, install=args.install, file=args.file) elif args.openvpn: generate_openvpn_key(args.openvpn, install=args.install, file=args.file) elif args.wireguard: if args.key: generate_wireguard_key(args.key, install=args.install, file=args.file) elif args.psk: generate_wireguard_psk(args.psk, install=args.install, file=args.file) elif args.action == 'show': if args.ca: show_certificate_authority(None if args.ca == 'all' else args.ca) elif args.certificate: show_certificate(None if args.certificate == 'all' else args.certificate) elif args.crl: show_crl(None if args.crl == 'all' else args.crl) else: show_certificate_authority() show_certificate() show_crl() except KeyboardInterrupt: print("Aborted") sys.exit(0)