# # gpg-mailgate # # This file is part of the gpg-mailgate source code. # # gpg-mailgate is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # gpg-mailgate source code 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 gpg-mailgate source code. If not, see . # from email.mime.multipart import MIMEMultipart import copy import email import email.message import email.utils import GnuPG import os import smtplib import sys import time # imports for S/MIME from M2Crypto import BIO, SMIME, X509 import logging import lacre.text as text import lacre.config as conf LOG = logging.getLogger(__name__) def _gpg_encrypt(raw_message, recipients): if not conf.config_item_set('gpg', 'keyhome'): LOG.error("No valid entry for gpg keyhome. Encryption aborted.") return recipients keys = GnuPG.public_keys(conf.get_item('gpg', 'keyhome')) for fingerprint in keys: keys[fingerprint] = _sanitize_case_sense(keys[fingerprint]) # This list will be filled with pairs (M, N), where M is the destination # address we're going to deliver the message to and N is the identity we're # going to encrypt it for. gpg_to = list() ungpg_to = list() enc_keymap_only = conf.config_item_equals('default', 'enc_keymap_only', 'yes') for to in recipients: # Check if recipient is in keymap if conf.config_item_set('enc_keymap', to): LOG.info("Encrypt keymap has key '%s'" % conf.get_item('enc_keymap', to)) # Check we've got a matching key! if conf.get_item('enc_keymap', to) in keys: gpg_to.append((to, conf.get_item('enc_keymap', to))) continue else: LOG.info("Key '%s' in encrypt keymap not found in keyring for email address '%s'." % (conf.get_item('enc_keymap', to), to)) # Check if key in keychain is present if not enc_keymap_only: if to in keys.values(): gpg_to.append((to, to)) continue # If this is an address with a delimiter (i.e. "foo+bar@example.com"), # then strip whatever is found after the delimiter and try this address. (newto, topic) = text.parse_delimiter(to) if newto in keys.values(): gpg_to.append((to, newto)) # Check if there is a default key for the domain splitted_to = to.split('@') if len(splitted_to) > 1: domain = splitted_to[1] if conf.config_item_set('enc_domain_keymap', domain): LOG.info("Encrypt domain keymap has key '%s'" % conf.get_item('enc_domain_keymap', domain)) # Check we've got a matching key! if conf.get_item('enc_domain_keymap', domain) in keys: LOG.info("Using default domain key for recipient '%s'" % to) gpg_to.append((to, conf.get_item('enc_domain_keymap', domain))) continue else: LOG.info("Key '%s' in encrypt domain keymap not found in keyring for email address '%s'." % (conf.get_item('enc_domain_keymap', domain), to)) # At this point no key has been found LOG.debug("Recipient (%s) not in PGP domain list for encrypting." % to) ungpg_to.append(to) if gpg_to: LOG.info("Encrypting email to: %s" % ' '.join(x[0] for x in gpg_to)) # Getting PGP style for recipient gpg_to_smtp_mime = list() gpg_to_cmdline_mime = list() gpg_to_smtp_inline = list() gpg_to_cmdline_inline = list() for rcpt in gpg_to: # Checking pre defined styles in settings first if conf.config_item_equals('pgp_style', rcpt[0], 'mime'): gpg_to_smtp_mime.append(rcpt[0]) gpg_to_cmdline_mime.extend(rcpt[1].split(',')) elif conf.config_item_equals('pgp_style', rcpt[0], 'inline'): gpg_to_smtp_inline.append(rcpt[0]) gpg_to_cmdline_inline.extend(rcpt[1].split(',')) else: # Log message only if an unknown style is defined if conf.config_item_set('pgp_style', rcpt[0]): LOG.debug("Style %s for recipient %s is not known. Use default as fallback." % (conf.get_item("pgp_style", rcpt[0]), rcpt[0])) # If no style is in settings defined for recipient, use default from settings if conf.config_item_equals('default', 'mime_conversion', 'yes'): gpg_to_smtp_mime.append(rcpt[0]) gpg_to_cmdline_mime.extend(rcpt[1].split(',')) else: gpg_to_smtp_inline.append(rcpt[0]) gpg_to_cmdline_inline.extend(rcpt[1].split(',')) if gpg_to_smtp_mime: # Encrypt mail with PGP/MIME raw_message_mime = copy.deepcopy(raw_message) if conf.config_item_equals('default', 'add_header', 'yes'): raw_message_mime['X-GPG-Mailgate'] = 'Encrypted by GPG Mailgate' if 'Content-Transfer-Encoding' in raw_message_mime: raw_message_mime.replace_header('Content-Transfer-Encoding', '8BIT') else: raw_message_mime['Content-Transfer-Encoding'] = '8BIT' encrypted_payloads = _encrypt_all_payloads_mime(raw_message_mime, gpg_to_cmdline_mime) raw_message_mime.set_payload(encrypted_payloads) _send_msg(raw_message_mime.as_string(), gpg_to_smtp_mime) if gpg_to_smtp_inline: # Encrypt mail with PGP/INLINE raw_message_inline = copy.deepcopy(raw_message) if conf.config_item_equals('default', 'add_header', 'yes'): raw_message_inline['X-GPG-Mailgate'] = 'Encrypted by GPG Mailgate' if 'Content-Transfer-Encoding' in raw_message_inline: raw_message_inline.replace_header('Content-Transfer-Encoding', '8BIT') else: raw_message_inline['Content-Transfer-Encoding'] = '8BIT' encrypted_payloads = _encrypt_all_payloads_inline(raw_message_inline, gpg_to_cmdline_inline) raw_message_inline.set_payload(encrypted_payloads) _send_msg(raw_message_inline.as_string(), gpg_to_smtp_inline) return ungpg_to def _encrypt_all_payloads_inline(message, gpg_to_cmdline): # This breaks cascaded MIME messages. Blame PGP/INLINE. encrypted_payloads = list() if isinstance(message.get_payload(), str): return _encrypt_payload(message, gpg_to_cmdline).get_payload() for payload in message.get_payload(): if(isinstance(payload.get_payload(), list)): encrypted_payloads.extend(_encrypt_all_payloads_inline(payload, gpg_to_cmdline)) else: encrypted_payloads.append(_encrypt_payload(payload, gpg_to_cmdline)) return encrypted_payloads def _encrypt_all_payloads_mime(message, gpg_to_cmdline): # Convert a plain text email into PGP/MIME attachment style. Modeled after enigmail. pgp_ver_part = email.message.Message() pgp_ver_part.set_payload("Version: 1"+text.EOL) pgp_ver_part.set_type("application/pgp-encrypted") pgp_ver_part.set_param('PGP/MIME version identification', "", 'Content-Description') encrypted_part = email.message.Message() encrypted_part.set_type("application/octet-stream") encrypted_part.set_param('name', "encrypted.asc") encrypted_part.set_param('OpenPGP encrypted message', "", 'Content-Description') encrypted_part.set_param('inline', "", 'Content-Disposition') encrypted_part.set_param('filename', "encrypted.asc", 'Content-Disposition') if isinstance(message.get_payload(), str): # WTF! It seems to swallow the first line. Not sure why. Perhaps # it's skipping an imaginary blank line someplace. (ie skipping a header) # Workaround it here by prepending a blank line. # This happens only on text only messages. additionalSubHeader = "" encoding = sys.getdefaultencoding() if 'Content-Type' in message and not message['Content-Type'].startswith('multipart'): additionalSubHeader = "Content-Type: " + message['Content-Type'] + text.EOL (base, encoding) = text.parse_content_type(message['Content-Type']) LOG.debug(f"Identified encoding as {encoding}") encrypted_part.set_payload(additionalSubHeader+text.EOL + message.get_payload(decode=True).decode(encoding)) check_nested = True else: processed_payloads = _generate_message_from_payloads(message) encrypted_part.set_payload(processed_payloads.as_string()) check_nested = False message.preamble = "This is an OpenPGP/MIME encrypted message (RFC 2440 and 3156)" # Use this just to generate a MIME boundary string. junk_msg = MIMEMultipart() junk_str = junk_msg.as_string() # WTF! Without this, get_boundary() will return 'None'! boundary = junk_msg.get_boundary() # This also modifies the boundary in the body of the message, ie it gets parsed. if 'Content-Type' in message: message.replace_header('Content-Type', f"multipart/encrypted; protocol=\"application/pgp-encrypted\"; boundary=\"{boundary}\""+text.EOL) else: message['Content-Type'] = f"multipart/encrypted; protocol=\"application/pgp-encrypted\"; boundary=\"{boundary}\""+text.EOL return [pgp_ver_part, _encrypt_payload(encrypted_part, gpg_to_cmdline, check_nested)] def _encrypt_payload(payload, gpg_to_cmdline, check_nested=True): raw_payload = payload.get_payload(decode=True) if check_nested and text.is_pgp_inline(raw_payload): LOG.debug("Message is already pgp encrypted. No nested encryption needed.") return payload # No check is needed for conf.get_item('gpg', 'keyhome') as this is already done in method gpg_encrypt gpg = GnuPG.GPGEncryptor(conf.get_item('gpg', 'keyhome'), gpg_to_cmdline, payload.get_content_charset()) gpg.update(raw_payload) encrypted_data, returncode = gpg.encrypt() LOG.debug("Return code from encryption=%d (0 indicates success)." % returncode) if returncode != 0: LOG.info("Encrytion failed with return code %d. Encryption aborted." % returncode) return payload payload.set_payload(encrypted_data) isAttachment = payload.get_param('attachment', None, 'Content-Disposition') is not None if isAttachment: filename = payload.get_filename() if filename: pgpFilename = filename + ".pgp" if not (payload.get('Content-Disposition') is None): payload.set_param('filename', pgpFilename, 'Content-Disposition') if not (payload.get('Content-Type') is None) and not (payload.get_param('name') is None): payload.set_param('name', pgpFilename) if not (payload.get('Content-Transfer-Encoding') is None): payload.replace_header('Content-Transfer-Encoding', "7bit") return payload def _smime_encrypt(raw_message, recipients): global LOG global from_addr if not conf.config_item_set('smime', 'cert_path'): LOG.info("No valid path for S/MIME certs found in config file. S/MIME encryption aborted.") return recipients cert_path = conf.get_item('smime', 'cert_path')+"/" s = SMIME.SMIME() sk = X509.X509_Stack() smime_to = list() unsmime_to = list() for addr in recipients: cert_and_email = _get_cert_for_email(addr, cert_path) if not (cert_and_email is None): (to_cert, normal_email) = cert_and_email LOG.debug("Found cert " + to_cert + " for " + addr + ": " + normal_email) smime_to.append(addr) x509 = X509.load_cert(to_cert, format=X509.FORMAT_PEM) sk.push(x509) else: unsmime_to.append(addr) if smime_to: s.set_x509_stack(sk) s.set_cipher(SMIME.Cipher('aes_192_cbc')) p7 = s.encrypt(BIO.MemoryBuffer(raw_message.as_string())) # Output p7 in mail-friendly format. out = BIO.MemoryBuffer() out.write('From: ' + from_addr + text.EOL) out.write('To: ' + raw_message['To'] + text.EOL) if raw_message['Cc']: out.write('Cc: ' + raw_message['Cc'] + text.EOL) if raw_message['Bcc']: out.write('Bcc: ' + raw_message['Bcc'] + text.EOL) if raw_message['Subject']: out.write('Subject: ' + raw_message['Subject'] + text.EOL) if conf.config_item_equals('default', 'add_header', 'yes'): out.write('X-GPG-Mailgate: Encrypted by GPG Mailgate' + text.EOL) s.write(out, p7) LOG.debug(f"Sending message from {from_addr} to {smime_to}") _send_msg(out.read(), smime_to) if unsmime_to: LOG.debug(f"Unable to find valid S/MIME certificates for {unsmime_to}") return unsmime_to def _get_cert_for_email(to_addr, cert_path): insensitive = conf.config_item_equals('default', 'mail_case_insensitive', 'yes') files_in_directory = os.listdir(cert_path) for filename in files_in_directory: file_path = os.path.join(cert_path, filename) if not os.path.isfile(file_path): continue if insensitive: if filename.casefold() == to_addr: return (file_path, to_addr) else: if filename == to_addr: return (file_path, to_addr) # support foo+ignore@bar.com -> foo@bar.com (fixed_up_email, topic) = text.parse_delimiter(to_addr) if topic is None: # delimiter not used return None else: LOG.debug(f"Looking up certificate for {fixed_up_email} after parsing {to_addr}") return _get_cert_for_email(fixed_up_email, cert_path) def _sanitize_case_sense(address): if conf.config_item_equals('default', 'mail_case_insensitive', 'yes'): address = address.lower() else: splitted_address = address.split('@') if len(splitted_address) > 1: address = splitted_address[0] + '@' + splitted_address[1].lower() return address def _generate_message_from_payloads(payloads, message=None): if message is None: message = email.mime.multipart.MIMEMultipart(payloads.get_content_subtype()) for payload in payloads.get_payload(): if(isinstance(payload.get_payload(), list)): message.attach(_generate_message_from_payloads(payload)) else: message.attach(payload) return message def _get_first_payload(payloads): if payloads.is_multipart(): return _get_first_payload(payloads.get_payload(0)) else: return payloads def _send_msg(message, recipients): global from_addr recipients = [_f for _f in recipients if _f] if recipients: LOG.info(f"Sending email to: {recipients!r}") relay = conf.relay_params() smtp = smtplib.SMTP(relay[0], relay[1]) if conf.config_item_equals('relay', 'starttls', 'yes'): smtp.starttls() smtp.sendmail(from_addr, recipients, message) else: LOG.info("No recipient found") def _is_encrypted(raw_message): if raw_message.get_content_type() == 'multipart/encrypted': return True first_part = _get_first_payload(raw_message) if first_part.get_content_type() == 'application/pkcs7-mime': return True first_payload = first_part.get_payload(decode=True) return text.is_pgp_inline(first_payload) def deliver_message(raw_message, from_address, to_addrs): """Send RAW_MESSAGE to all TO_ADDRS using the best encryption method available.""" global from_addr # Ugly workaround to keep the code working without too many changes. from_addr = from_address recipients_left = [_sanitize_case_sense(recipient) for recipient in to_addrs] # There is no need for nested encryption if _is_encrypted(raw_message): LOG.debug("Message is already encrypted. Encryption aborted.") _send_msg(raw_message.as_string(), recipients_left) return # Encrypt mails for recipients with known public PGP keys recipients_left = _gpg_encrypt(raw_message, recipients_left) if not recipients_left: return # Encrypt mails for recipients with known S/MIME certificate recipients_left = _smime_encrypt(raw_message, recipients_left) if not recipients_left: return # Send out mail to recipients which are left _send_msg(raw_message.as_string(), recipients_left) def exec_time_info(start_timestamp): """Calculate time since the given timestamp.""" elapsed_s = time.time() - start_timestamp process_t = time.process_time() return (elapsed_s, process_t)