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November 8, 2015 06:24
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This file contains hidden or bidirectional Unicode text that may be interpreted or compiled differently than what appears below. To review, open the file in an editor that reveals hidden Unicode characters. Learn more about bidirectional Unicode charactersOriginal file line number Diff line number Diff line change @@ -0,0 +1,171 @@ import os import socket from OpenSSL import crypto, SSL # OpenVPN is fairly simple since it works on OpenSSL. The OpenVPN server contains # a root certificate authority that can sign sub-certificates. The certificates # have very little or no information on who they belong to besides a filename # and any required information. Everything else is omitted or blank. # The client certificate and private key are inserted into the .ovpn file # which contains some settins as well and the entire thing is then ready for # the user. # EasyRSA generates a standard unsigned certificate, certificate request, and private key. # It then signs the certificate against the CA then dumps the certificate request in the trash. # The now signed certificate and private key are returned. # Create a new keypair of specified algorithm and number of bits. def make_keypair(algorithm=crypto.TYPE_RSA, numbits=2048): pkey = crypto.PKey() pkey.generate_key(algorithm, numbits) return pkey # Creates a certificate signing request (CSR) given the specified subject attributes. def make_csr(pkey, CN, C=None, ST=None, L=None, O=None, OU=None, emailAddress=None, hashalgorithm='sha256WithRSAEncryption'): req = crypto.X509Req() req.get_subject() subj = req.get_subject() if C: subj.C = C if ST: subj.ST = ST if L: subj.L = L if O: subj.O = O if OU: subj.OU = OU if CN: subj.CN = CN if emailAddress: subj.emailAddress = emailAddress req.set_pubkey(pkey) req.sign(pkey, hashalgorithm) return req # Create a certificate authority (if we need one) def create_ca(CN, C="", ST="", L="", O="", OU="", emailAddress="", hashalgorithm='sha256WithRSAEncryption'): cakey = make_keypair() careq = make_csr(cakey, cn=CN) cacert = crypto.X509() cacert.set_serial_number(0) cacert.gmtime_adj_notBefore(0) cacert.gmtime_adj_notAfter(60*60*24*365*10) # 10 yrs - hard to beat this kind of cert! cacert.set_issuer(careq.get_subject()) cacert.set_subject(careq.get_subject()) cacert.set_pubkey(careq.get_pubkey()) cacert.set_version(2) # Set the extensions in two passes cacert.add_extensions([ crypto.X509Extension('basicConstraints', True,'CA:TRUE'), crypto.X509Extension('subjectKeyIdentifier' , True , 'hash', subject=cacert) ]) # ... now we can set the authority key since it depends on the subject key cacert.add_extensions([ crypto.X509Extension('authorityKeyIdentifier' , False, 'issuer:always, keyid:always', issuer=cacert, subject=cacert) ]) cacert.sign(cakey, hashalgorithm) return (cacert, cakey) # Create a new slave cert. def create_slave_certificate(csr, cakey, cacert, serial): cert = crypto.X509() cert.set_serial_number(serial) cert.gmtime_adj_notBefore(0) cert.gmtime_adj_notAfter(60*60*24*365*10) # 10 yrs - hard to beat this kind of cert! cert.set_issuer(cacert.get_subject()) cert.set_subject(csr.get_subject()) cert.set_pubkey(csr.get_pubkey()) cert.set_version(2) extensions = [] extensions.append(crypto.X509Extension('basicConstraints', False ,'CA:FALSE')) extensions.append(crypto.X509Extension('subjectKeyIdentifier' , False , 'hash', subject=cert)) extensions.append(crypto.X509Extension('authorityKeyIdentifier' , False, 'keyid:always,issuer:always', subject=cacert, issuer=cacert)) cert.add_extensions(extensions) cert.sign(cakey, 'sha256WithRSAEncryption') return cert # Dumps content to a string def dump_file_in_mem(material, format=crypto.FILETYPE_PEM): dump_func = None if isinstance(material, crypto.X509): dump_func = crypto.dump_certificate elif isinstance(material, crypto.PKey): dump_func = crypto.dump_privatekey elif isinstance(material, crypto.X509Req): dump_func = crypto.dump_certificate_request else: raise Exception("Don't know how to dump content type to file: %s (%r)" % (type(material), material)) return dump_func(format, material) # Loads the file into the appropriate openssl object type. def load_from_file(materialfile, objtype, format=crypto.FILETYPE_PEM): if objtype is crypto.X509: load_func = crypto.load_certificate elif objtype is crypto.X509Req: load_func = crypto.load_certificate_request elif objtype is crypto.PKey: load_func = crypto.load_privatekey else: raise Exception("Unsupported material type: %s" % (objtype,)) with open(materialfile, 'r') as fp: buf = fp.read() material = load_func(format, buf) return material def retrieve_key_from_file(keyfile): return load_from_file(keyfile, crypto.PKey) def retrieve_csr_from_file(csrfile): return load_from_file(csrfile, crypto.X509Req) def retrieve_cert_from_file(certfile): return load_from_file(certfile, crypto.X509) def make_new_ovpn_file(ca_cert, ca_key, clientname, serial, commonoptspath, filepath): # Read our common options file first f = open(commonoptspath, 'r') common = f.read() f.close() cacert = retrieve_cert_from_file(ca_cert) cakey = retrieve_key_from_file(ca_key) # Generate a new private key pair for a new certificate. key = make_keypair() # Generate a certificate request csr = make_csr(key, clientname) # Sign the certificate with the new csr crt = create_slave_certificate(csr, cakey, cacert, serial) # Now we have a successfully signed certificate. We must now # create a .ovpn file and then dump it somewhere. clientkey = dump_file_in_mem(key) clientcert = dump_file_in_mem(crt) cacertdump = dump_file_in_mem(cacert) ovpn = "%s<ca>\n%s</ca>\n<cert>\n%s</cert>\n<key>\n%s</key>\n" % (common, cacertdump, clientcert, clientkey) # Write our file. f = open(filepath, 'w') f.write(ovpn) f.close() if __name__ == "__main__": make_new_ovpn_file("ca.crt", "ca.key", "justasictest", 0x0C, "common.txt", "justastictest.ovpn") print("Done")
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