#!/usr/bin/python3 # Creates DNS zone files for all of the domains of all of the mail users # and mail aliases and restarts nsd. ######################################################################## import os, os.path, urllib.parse, datetime, re, hashlib, base64 import ipaddress import rtyaml import dns.resolver from mailconfig import get_mail_domains from utils import shell, load_env_vars_from_file, safe_domain_name, sort_domains def get_dns_domains(env): # Add all domain names in use by email users and mail aliases and ensure # PRIMARY_HOSTNAME is in the list. domains = set() domains |= get_mail_domains(env) domains.add(env['PRIMARY_HOSTNAME']) return domains def get_dns_zones(env): # What domains should we create DNS zones for? Never create a zone for # a domain & a subdomain of that domain. domains = get_dns_domains(env) # Exclude domains that are subdomains of other domains we know. Proceed # by looking at shorter domains first. zone_domains = set() for domain in sorted(domains, key=lambda d : len(d)): for d in zone_domains: if domain.endswith("." + d): # We found a parent domain already in the list. break else: # 'break' did not occur: there is no parent domain. zone_domains.add(domain) # Make a nice and safe filename for each domain. zonefiles = [] for domain in zone_domains: zonefiles.append([domain, safe_domain_name(domain) + ".txt"]) # Sort the list so that the order is nice and so that nsd.conf has a # stable order so we don't rewrite the file & restart the service # meaninglessly. zone_order = sort_domains([ zone[0] for zone in zonefiles ], env) zonefiles.sort(key = lambda zone : zone_order.index(zone[0]) ) return zonefiles def get_custom_dns_config(env): try: return rtyaml.load(open(os.path.join(env['STORAGE_ROOT'], 'dns/custom.yaml'))) except: return { } def write_custom_dns_config(config, env): config_yaml = rtyaml.dump(config) with open(os.path.join(env['STORAGE_ROOT'], 'dns/custom.yaml'), "w") as f: f.write(config_yaml) def do_dns_update(env, force=False): # What domains (and their zone filenames) should we build? domains = get_dns_domains(env) zonefiles = get_dns_zones(env) # Custom records to add to zones. additional_records = get_custom_dns_config(env) # Write zone files. os.makedirs('/etc/nsd/zones', exist_ok=True) updated_domains = [] for i, (domain, zonefile) in enumerate(zonefiles): # Build the records to put in the zone. records = build_zone(domain, domains, additional_records, env) # See if the zone has changed, and if so update the serial number # and write the zone file. if not write_nsd_zone(domain, "/etc/nsd/zones/" + zonefile, records, env, force): # Zone was not updated. There were no changes. continue # If this is a .justtesting.email domain, then post the update. try: justtestingdotemail(domain, records) except: # Hmm. Might be a network issue. If we stop now, will we end # up in an inconsistent state? Let's just continue. pass # Mark that we just updated this domain. updated_domains.append(domain) # Sign the zone. # # Every time we sign the zone we get a new result, which means # we can't sign a zone without bumping the zone's serial number. # Thus we only sign a zone if write_nsd_zone returned True # indicating the zone changed, and thus it got a new serial number. # write_nsd_zone is smart enough to check if a zone's signature # is nearing expiration and if so it'll bump the serial number # and return True so we get a chance to re-sign it. sign_zone(domain, zonefile, env) # Now that all zones are signed (some might not have changed and so didn't # just get signed now, but were before) update the zone filename so nsd.conf # uses the signed file. for i in range(len(zonefiles)): zonefiles[i][1] += ".signed" # Write the main nsd.conf file. if write_nsd_conf(zonefiles, additional_records, env): # Make sure updated_domains contains *something* if we wrote an updated # nsd.conf so that we know to restart nsd. if len(updated_domains) == 0: updated_domains.append("DNS configuration") # Kick nsd if anything changed. if len(updated_domains) > 0: shell('check_call', ["/usr/sbin/service", "nsd", "restart"]) # Write the OpenDKIM configuration tables. if write_opendkim_tables(domains, env): # Settings changed. Kick opendkim. shell('check_call', ["/usr/sbin/service", "opendkim", "restart"]) if len(updated_domains) == 0: # If this is the only thing that changed? updated_domains.append("OpenDKIM configuration") if len(updated_domains) == 0: # if nothing was updated (except maybe OpenDKIM's files), don't show any output return "" else: return "updated DNS: " + ",".join(updated_domains) + "\n" ######################################################################## def build_zone(domain, all_domains, additional_records, env, is_zone=True): records = [] # For top-level zones, define the authoritative name servers. # # Normally we are our own nameservers. Some TLDs require two distinct IP addresses, # so we allow the user to override the second nameserver definition so that # secondary DNS can be set up elsewhere. # # 'False' in the tuple indicates these records would not be used if the zone # is managed outside of the box. if is_zone: # Obligatory definition of ns1.PRIMARY_HOSTNAME. records.append((None, "NS", "ns1.%s." % env["PRIMARY_HOSTNAME"], False)) # Define ns2.PRIMARY_HOSTNAME or whatever the user overrides. secondary_ns = additional_records.get("_secondary_nameserver", "ns2." + env["PRIMARY_HOSTNAME"]) records.append((None, "NS", secondary_ns+'.', False)) # In PRIMARY_HOSTNAME... if domain == env["PRIMARY_HOSTNAME"]: # Define ns1 and ns2. # 'False' in the tuple indicates these records would not be used if the zone # is managed outside of the box. records.append(("ns1", "A", env["PUBLIC_IP"], False)) records.append(("ns2", "A", env["PUBLIC_IP"], False)) if env.get('PUBLIC_IPV6'): records.append(("ns1", "AAAA", env["PUBLIC_IPV6"], False)) records.append(("ns2", "AAAA", env["PUBLIC_IPV6"], False)) # Set the A/AAAA records. Do this early for the PRIMARY_HOSTNAME so that the user cannot override them # and we can provide different explanatory text. records.append((None, "A", env["PUBLIC_IP"], "Required. Sets the IP address of the box.")) if env.get("PUBLIC_IPV6"): records.append((None, "AAAA", env["PUBLIC_IPV6"], "Required. Sets the IPv6 address of the box.")) # Add a DANE TLSA record for SMTP. records.append(("_25._tcp", "TLSA", build_tlsa_record(env), "Recommended when DNSSEC is enabled. Advertises to mail servers connecting to the box that mandatory encryption should be used.")) # Add a SSHFP records to help SSH key validation. One per available SSH key on this system. for value in build_sshfp_records(): records.append((None, "SSHFP", value, "Optional. Provides an out-of-band method for verifying an SSH key before connecting. Use 'VerifyHostKeyDNS yes' (or 'VerifyHostKeyDNS ask') when connecting with ssh.")) # The MX record says where email for the domain should be delivered: Here! records.append((None, "MX", "10 %s." % env["PRIMARY_HOSTNAME"], "Required. Specifies the hostname (and priority) of the machine that handles @%s mail." % domain)) # SPF record: Permit the box ('mx', see above) to send mail on behalf of # the domain, and no one else. records.append((None, "TXT", 'v=spf1 mx -all', "Recommended. Specifies that only the box is permitted to send @%s mail." % domain)) # Add DNS records for any subdomains of this domain. We should not have a zone for # both a domain and one of its subdomains. subdomains = [d for d in all_domains if d.endswith("." + domain)] for subdomain in subdomains: subdomain_qname = subdomain[0:-len("." + domain)] subzone = build_zone(subdomain, [], additional_records, env, is_zone=False) for child_qname, child_rtype, child_value, child_explanation in subzone: if child_qname == None: child_qname = subdomain_qname else: child_qname += "." + subdomain_qname records.append((child_qname, child_rtype, child_value, child_explanation)) def has_rec(qname, rtype, prefix=None): for rec in records: if rec[0] == qname and rec[1] == rtype and (prefix is None or rec[2].startswith(prefix)): return True return False # The user may set other records that don't conflict with our settings. for qname, rtype, value in get_custom_records(domain, additional_records, env): if has_rec(qname, rtype): continue records.append((qname, rtype, value, "(Set by user.)")) # Add defaults if not overridden by the user's custom settings (and not otherwise configured). # Any "CNAME" record on the qname overrides A and AAAA. defaults = [ (None, "A", env["PUBLIC_IP"], "Required. May have a different value. Sets the IP address that %s resolves to for web hosting and other services besides mail. The A record must be present but its value does not affect mail delivery." % domain), ("www", "A", env["PUBLIC_IP"], "Optional. Sets the IP address that www.%s resolves to, e.g. for web hosting." % domain), (None, "AAAA", env.get('PUBLIC_IPV6'), "Optional. Sets the IPv6 address that %s resolves to, e.g. for web hosting. (It is not necessary for receiving mail on this domain.)" % domain), ("www", "AAAA", env.get('PUBLIC_IPV6'), "Optional. Sets the IPv6 address that www.%s resolves to, e.g. for web hosting." % domain), ] for qname, rtype, value, explanation in defaults: if value is None or value.strip() == "": continue # skip IPV6 if not set if not is_zone and qname == "www": continue # don't create any default 'www' subdomains on what are themselves subdomains # Set the default record, but not if: # (1) there is not a user-set record of the same type already # (2) there is not a CNAME record already, since you can't set both and who knows what takes precedence # (2) there is not an A record already (if this is an A record this is a dup of (1), and if this is an AAAA record then don't set a default AAAA record if the user sets a custom A record, since the default wouldn't make sense and it should not resolve if the user doesn't provide a new AAAA record) if not has_rec(qname, rtype) and not has_rec(qname, "CNAME") and not has_rec(qname, "A"): records.append((qname, rtype, value, explanation)) # Append the DKIM TXT record to the zone as generated by OpenDKIM. opendkim_record_file = os.path.join(env['STORAGE_ROOT'], 'mail/dkim/mail.txt') with open(opendkim_record_file) as orf: m = re.match(r'(\S+)\s+IN\s+TXT\s+\( "([^"]+)"\s+"([^"]+)"\s*\)', orf.read(), re.S) val = m.group(2) + m.group(3) records.append((m.group(1), "TXT", val, "Recommended. Provides a way for recipients to verify that this machine sent @%s mail." % domain)) # Append a DMARC record. records.append(("_dmarc", "TXT", 'v=DMARC1; p=quarantine', "Optional. Specifies that mail that does not originate from the box but claims to be from @%s is suspect and should be quarantined by the recipient's mail system." % domain)) # For any subdomain with an A record but no SPF or DMARC record, add strict policy records. all_resolvable_qnames = set(r[0] for r in records if r[1] in ("A", "AAAA")) for qname in all_resolvable_qnames: if not has_rec(qname, "TXT", prefix="v=spf1 "): records.append((qname, "TXT", 'v=spf1 a mx -all', "Prevents unauthorized use of this domain name for outbound mail by requiring outbound mail to originate from the indicated host(s).")) dmarc_qname = "_dmarc" + ("" if qname is None else "." + qname) if not has_rec(dmarc_qname, "TXT", prefix="v=DMARC1; "): records.append((dmarc_qname, "TXT", 'v=DMARC1; p=reject', "Prevents unauthorized use of this domain name for outbound mail by requiring a valid DKIM signature.")) # Sort the records. The None records *must* go first in the nsd zone file. Otherwise it doesn't matter. records.sort(key = lambda rec : list(reversed(rec[0].split(".")) if rec[0] is not None else "")) return records ######################################################################## def get_custom_records(domain, additional_records, env): for qname, value in additional_records.items(): # Is this record for the domain or one of its subdomains? # If `domain` is None, return records for all domains. if domain is not None and qname != domain and not qname.endswith("." + domain): continue # Turn the fully qualified domain name in the YAML file into # our short form (None => domain, or a relative QNAME) if # domain is not None. if domain is not None: if qname == domain: qname = None else: qname = qname[0:len(qname)-len("." + domain)] # Short form. Mapping a domain name to a string is short-hand # for creating A records. if isinstance(value, str): values = [("A", value)] if value == "local" and env.get("PUBLIC_IPV6"): values.append( ("AAAA", value) ) # A mapping creates multiple records. elif isinstance(value, dict): values = value.items() # No other type of data is allowed. else: raise ValueError() for rtype, value2 in values: # The "local" keyword on A/AAAA records are short-hand for our own IP. # This also flags for web configuration that the user wants a website here. if rtype == "A" and value2 == "local": value2 = env["PUBLIC_IP"] if rtype == "AAAA" and value2 == "local": if "PUBLIC_IPV6" not in env: continue # no IPv6 address is available so don't set anything value2 = env["PUBLIC_IPV6"] yield (qname, rtype, value2) ######################################################################## def build_tlsa_record(env): # A DANE TLSA record in DNS specifies that connections on a port # must use TLS and the certificate must match a particular certificate. # # Thanks to http://blog.huque.com/2012/10/dnssec-and-certificates.html # for explaining all of this! # Get the hex SHA256 of the DER-encoded server certificate: certder = shell("check_output", [ "/usr/bin/openssl", "x509", "-in", os.path.join(env["STORAGE_ROOT"], "ssl", "ssl_certificate.pem"), "-outform", "DER" ], return_bytes=True) certhash = hashlib.sha256(certder).hexdigest() # Specify the TLSA parameters: # 3: This is the certificate that the client should trust. No CA is needed. # 0: The whole certificate is matched. # 1: The certificate is SHA256'd here. return "3 0 1 " + certhash def build_sshfp_records(): # The SSHFP record is a way for us to embed this server's SSH public # key fingerprint into the DNS so that remote hosts have an out-of-band # method to confirm the fingerprint. See RFC 4255 and RFC 6594. This # depends on DNSSEC. # # On the client side, set SSH's VerifyHostKeyDNS option to 'ask' to # include this info in the key verification prompt or 'yes' to trust # the SSHFP record. # # See https://github.com/xelerance/sshfp for inspiriation. algorithm_number = { "ssh-rsa": 1, "ssh-dss": 2, "ecdsa-sha2-nistp256": 3, } # Get our local fingerprints by running ssh-keyscan. The output looks # like the known_hosts file: hostname, keytype, fingerprint. The order # of the output is arbitrary, so sort it to prevent spurrious updates # to the zone file (that trigger bumping the serial number). keys = shell("check_output", ["ssh-keyscan", "localhost"]) for key in sorted(keys.split("\n")): if key.strip() == "" or key[0] == "#": continue try: host, keytype, pubkey = key.split(" ") yield "%d %d ( %s )" % ( algorithm_number[keytype], 2, # specifies we are using SHA-256 on next line hashlib.sha256(base64.b64decode(pubkey)).hexdigest().upper(), ) except: # Lots of things can go wrong. Don't let it disturb the DNS # zone. pass ######################################################################## def write_nsd_zone(domain, zonefile, records, env, force): # On the $ORIGIN line, there's typically a ';' comment at the end explaining # what the $ORIGIN line does. Any further data after the domain confuses # ldns-signzone, however. It used to say '; default zone domain'. # The SOA contact address for all of the domains on this system is hostmaster # @ the PRIMARY_HOSTNAME. Hopefully that's legit. # For the refresh through TTL fields, a good reference is: # http://www.peerwisdom.org/2013/05/15/dns-understanding-the-soa-record/ zone = """ $ORIGIN {domain}. $TTL 1800 ; default time to live @ IN SOA ns1.{primary_domain}. hostmaster.{primary_domain}. ( __SERIAL__ ; serial number 7200 ; Refresh (secondary nameserver update interval) 1800 ; Retry (when refresh fails, how often to try again) 1209600 ; Expire (when refresh fails, how long secondary nameserver will keep records around anyway) 1800 ; Negative TTL (how long negative responses are cached) ) """ # Replace replacement strings. zone = zone.format(domain=domain.encode("idna").decode("ascii"), primary_domain=env["PRIMARY_HOSTNAME"].encode("idna").decode("ascii")) # Add records. for subdomain, querytype, value, explanation in records: if subdomain: zone += subdomain.encode("idna").decode("ascii") zone += "\tIN\t" + querytype + "\t" if querytype == "TXT": # Quote and escape. value = value.replace('\\', '\\\\') # escape backslashes value = value.replace('"', '\\"') # escape quotes value = '"' + value + '"' # wrap in quotes elif querytype in ("NS", "CNAME"): # These records must be IDNA-encoded. value = value.encode("idna").decode("ascii") elif querytype == "MX": # Also IDNA-encoded, but must parse first. priority, host = value.split(" ", 1) host = host.encode("idna").decode("ascii") value = priority + " " + host zone += value + "\n" # DNSSEC requires re-signing a zone periodically. That requires # bumping the serial number even if no other records have changed. # We don't see the DNSSEC records yet, so we have to figure out # if a re-signing is necessary so we can prematurely bump the # serial number. force_bump = False if not os.path.exists(zonefile + ".signed"): # No signed file yet. Shouldn't normally happen unless a box # is going from not using DNSSEC to using DNSSEC. force_bump = True else: # We've signed the domain. Check if we are close to the expiration # time of the signature. If so, we'll force a bump of the serial # number so we can re-sign it. with open(zonefile + ".signed") as f: signed_zone = f.read() expiration_times = re.findall(r"\sRRSIG\s+SOA\s+\d+\s+\d+\s\d+\s+(\d{14})", signed_zone) if len(expiration_times) == 0: # weird force_bump = True else: # All of the times should be the same, but if not choose the soonest. expiration_time = min(expiration_times) expiration_time = datetime.datetime.strptime(expiration_time, "%Y%m%d%H%M%S") if expiration_time - datetime.datetime.now() < datetime.timedelta(days=3): # We're within three days of the expiration, so bump serial & resign. force_bump = True # Set the serial number. serial = datetime.datetime.now().strftime("%Y%m%d00") if os.path.exists(zonefile): # If the zone already exists, is different, and has a later serial number, # increment the number. with open(zonefile) as f: existing_zone = f.read() m = re.search(r"(\d+)\s*;\s*serial number", existing_zone) if m: # Clear out the serial number in the existing zone file for the # purposes of seeing if anything *else* in the zone has changed. existing_serial = m.group(1) existing_zone = existing_zone.replace(m.group(0), "__SERIAL__ ; serial number") # If the existing zone is the same as the new zone (modulo the serial number), # there is no need to update the file. Unless we're forcing a bump. if zone == existing_zone and not force_bump and not force: return False # If the existing serial is not less than a serial number # based on the current date plus 00, increment it. Otherwise, # the serial number is less than our desired new serial number # so we'll use the desired new number. if existing_serial >= serial: serial = str(int(existing_serial) + 1) zone = zone.replace("__SERIAL__", serial) # Write the zone file. with open(zonefile, "w") as f: f.write(zone) return True # file is updated ######################################################################## def write_nsd_conf(zonefiles, additional_records, env): # Basic header. nsdconf = """ server: hide-version: yes # identify the server (CH TXT ID.SERVER entry). identity: "" # The directory for zonefile: files. zonesdir: "/etc/nsd/zones" """ # Since we have bind9 listening on localhost for locally-generated # DNS queries that require a recursive nameserver, and the system # might have other network interfaces for e.g. tunnelling, we have # to be specific about the network interfaces that nsd binds to. for ipaddr in (env.get("PRIVATE_IP", "") + " " + env.get("PRIVATE_IPV6", "")).split(" "): if ipaddr == "": continue nsdconf += " ip-address: %s\n" % ipaddr # Append the zones. for domain, zonefile in zonefiles: nsdconf += """ zone: name: %s zonefile: %s """ % (domain.encode("idna").decode("ascii"), zonefile) # If a custom secondary nameserver has been set, allow zone transfers # and notifies to that nameserver. if additional_records.get("_secondary_nameserver"): # Get the IP address of the nameserver by resolving it. hostname = additional_records.get("_secondary_nameserver") resolver = dns.resolver.get_default_resolver() response = dns.resolver.query(hostname+'.', "A") ipaddr = str(response[0]) nsdconf += """\tnotify: %s NOKEY provide-xfr: %s NOKEY """ % (ipaddr, ipaddr) # Check if the nsd.conf is changing. If it isn't changing, # return False to flag that no change was made. with open("/etc/nsd/nsd.conf") as f: if f.read() == nsdconf: return False with open("/etc/nsd/nsd.conf", "w") as f: f.write(nsdconf) return True ######################################################################## def dnssec_choose_algo(domain, env): if '.' in domain and domain.rsplit('.')[-1] in \ ("email", "guide", "fund"): # At GoDaddy, RSASHA256 is the only algorithm supported # for .email and .guide. # A variety of algorithms are supported for .fund. This # is preferred. return "RSASHA256" # For any domain we were able to sign before, don't change the algorithm # on existing users. We'll probably want to migrate to SHA256 later. return "RSASHA1-NSEC3-SHA1" def sign_zone(domain, zonefile, env): algo = dnssec_choose_algo(domain, env) dnssec_keys = load_env_vars_from_file(os.path.join(env['STORAGE_ROOT'], 'dns/dnssec/%s.conf' % algo)) # From here, use the IDNA encoding of the domain name. domain = domain.encode("idna").decode("ascii") # In order to use the same keys for all domains, we have to generate # a new .key file with a DNSSEC record for the specific domain. We # can reuse the same key, but it won't validate without a DNSSEC # record specifically for the domain. # # Copy the .key and .private files to /tmp to patch them up. # # Use os.umask and open().write() to securely create a copy that only # we (root) can read. files_to_kill = [] for key in ("KSK", "ZSK"): if dnssec_keys.get(key, "").strip() == "": raise Exception("DNSSEC is not properly set up.") oldkeyfn = os.path.join(env['STORAGE_ROOT'], 'dns/dnssec/' + dnssec_keys[key]) newkeyfn = '/tmp/' + dnssec_keys[key].replace("_domain_", domain) dnssec_keys[key] = newkeyfn for ext in (".private", ".key"): if not os.path.exists(oldkeyfn + ext): raise Exception("DNSSEC is not properly set up.") with open(oldkeyfn + ext, "r") as fr: keydata = fr.read() keydata = keydata.replace("_domain_", domain) # trick ldns-signkey into letting our generic key be used by this zone fn = newkeyfn + ext prev_umask = os.umask(0o77) # ensure written file is not world-readable try: with open(fn, "w") as fw: fw.write(keydata) finally: os.umask(prev_umask) # other files we write should be world-readable files_to_kill.append(fn) # Do the signing. expiry_date = (datetime.datetime.now() + datetime.timedelta(days=30)).strftime("%Y%m%d") shell('check_call', ["/usr/bin/ldns-signzone", # expire the zone after 30 days "-e", expiry_date, # use NSEC3 "-n", # zonefile to sign "/etc/nsd/zones/" + zonefile, # keys to sign with (order doesn't matter -- it'll figure it out) dnssec_keys["KSK"], dnssec_keys["ZSK"], ]) # Create a DS record based on the patched-up key files. The DS record is specific to the # zone being signed, so we can't use the .ds files generated when we created the keys. # The DS record points to the KSK only. Write this next to the zone file so we can # get it later to give to the user with instructions on what to do with it. # # We want to be able to validate DS records too, but multiple forms may be valid depending # on the digest type. So we'll write all (both) valid records. Only one DS record should # actually be deployed. Preferebly the first. with open("/etc/nsd/zones/" + zonefile + ".ds", "w") as f: for digest_type in ('2', '1'): rr_ds = shell('check_output', ["/usr/bin/ldns-key2ds", "-n", # output to stdout "-" + digest_type, # 1=SHA1, 2=SHA256 dnssec_keys["KSK"] + ".key" ]) f.write(rr_ds) # Remove our temporary file. for fn in files_to_kill: os.unlink(fn) ######################################################################## def write_opendkim_tables(domains, env): # Append a record to OpenDKIM's KeyTable and SigningTable for each domain # that we send mail from (zones and all subdomains). opendkim_key_file = os.path.join(env['STORAGE_ROOT'], 'mail/dkim/mail.private') if not os.path.exists(opendkim_key_file): # Looks like OpenDKIM is not installed. return False config = { # The SigningTable maps email addresses to a key in the KeyTable that # specifies signing information for matching email addresses. Here we # map each domain to a same-named key. # # Elsewhere we set the DMARC policy for each domain such that mail claiming # to be From: the domain must be signed with a DKIM key on the same domain. # So we must have a separate KeyTable entry for each domain. "SigningTable": "".join( "*@{domain} {domain}\n".format(domain=domain) for domain in domains ), # The KeyTable specifies the signing domain, the DKIM selector, and the # path to the private key to use for signing some mail. Per DMARC, the # signing domain must match the sender's From: domain. "KeyTable": "".join( "{domain} {domain}:mail:{key_file}\n".format(domain=domain, key_file=opendkim_key_file) for domain in domains ), } did_update = False for filename, content in config.items(): # Don't write the file if it doesn't need an update. if os.path.exists("/etc/opendkim/" + filename): with open("/etc/opendkim/" + filename) as f: if f.read() == content: continue # The contents needs to change. with open("/etc/opendkim/" + filename, "w") as f: f.write(content) did_update = True # Return whether the files changed. If they didn't change, there's # no need to kick the opendkim process. return did_update ######################################################################## def set_custom_dns_record(qname, rtype, value, env): # validate qname for zone, fn in get_dns_zones(env): # It must match a zone apex or be a subdomain of a zone # that we are otherwise hosting. if qname == zone or qname.endswith("."+zone): break else: # No match. raise ValueError("%s is not a domain name or a subdomain of a domain name managed by this box." % qname) # validate rtype rtype = rtype.upper() if value is not None: if rtype in ("A", "AAAA"): v = ipaddress.ip_address(value) if rtype == "A" and not isinstance(v, ipaddress.IPv4Address): raise ValueError("That's an IPv6 address.") if rtype == "AAAA" and not isinstance(v, ipaddress.IPv6Address): raise ValueError("That's an IPv4 address.") elif rtype in ("CNAME", "TXT", "SRV"): # anything goes pass else: raise ValueError("Unknown record type '%s'." % rtype) # load existing config config = get_custom_dns_config(env) # update if qname not in config: if value is None: # Is asking to delete a record that does not exist. return False elif rtype == "A": # Add this record using the short form 'qname: value'. config[qname] = value else: # Add this record. This is the qname's first record. config[qname] = { rtype: value } else: if isinstance(config[qname], str): # This is a short-form 'qname: value' implicit-A record. if value is None and rtype != "A": # Is asking to delete a record that doesn't exist. return False elif value is None and rtype == "A": # Delete record. del config[qname] elif rtype == "A": # Update, keeping short form. if config[qname] == "value": # No change. return False config[qname] = value else: # Expand short form so we can add a new record type. config[qname] = { "A": config[qname], rtype: value } else: # This is the qname: { ... } (dict) format. if value is None: if rtype not in config[qname]: # Is asking to delete a record that doesn't exist. return False else: # Delete the record. If it's the last record, delete the domain. del config[qname][rtype] if len(config[qname]) == 0: del config[qname] else: # Update the record. if config[qname].get(rtype) == "value": # No change. return False config[qname][rtype] = value # serialize & save write_custom_dns_config(config, env) return True ######################################################################## def set_secondary_dns(hostname, env): config = get_custom_dns_config(env) if hostname in (None, ""): # Clear. if "_secondary_nameserver" in config: del config["_secondary_nameserver"] else: # Validate. hostname = hostname.strip().lower() resolver = dns.resolver.get_default_resolver() try: response = dns.resolver.query(hostname, "A") except (dns.resolver.NoNameservers, dns.resolver.NXDOMAIN, dns.resolver.NoAnswer): raise ValueError("Could not resolve the IP address of %s." % hostname) # Set. config["_secondary_nameserver"] = hostname # Save and apply. write_custom_dns_config(config, env) return do_dns_update(env) ######################################################################## def justtestingdotemail(domain, records): # If the domain is a subdomain of justtesting.email, which we own, # automatically populate the zone where it is set up on dns4e.com. # Ideally if dns4e.com supported NS records we would just have it # delegate DNS to us, but instead we will populate the whole zone. import subprocess, json, urllib.parse if not domain.endswith(".justtesting.email"): return for subdomain, querytype, value, explanation in records: if querytype in ("NS",): continue if subdomain in ("www", "ns1", "ns2"): continue # don't do unnecessary things if subdomain == None: subdomain = domain else: subdomain = subdomain + "." + domain if querytype == "TXT": # nsd requires parentheses around txt records with multiple parts, # but DNS4E requires there be no parentheses; also it goes into # nsd with a newline and a tab, which we replace with a space here value = re.sub("^\s*\(\s*([\w\W]*)\)", r"\1", value) value = re.sub("\s+", " ", value) else: continue print("Updating DNS for %s/%s..." % (subdomain, querytype)) resp = json.loads(subprocess.check_output([ "curl", "-s", "https://api.dns4e.com/v7/%s/%s" % (urllib.parse.quote(subdomain), querytype.lower()), "--user", "2ddbd8e88ed1495fa0ec:A97TDJV26CVUJS6hqAs0CKnhj4HvjTM7MwAAg8xb", "--data", "record=%s" % urllib.parse.quote(value), ]).decode("utf8")) print("\t...", resp.get("message", "?")) ######################################################################## def build_recommended_dns(env): ret = [] domains = get_dns_domains(env) zonefiles = get_dns_zones(env) additional_records = get_custom_dns_config(env) for domain, zonefile in zonefiles: records = build_zone(domain, domains, additional_records, env) # remove records that we don't dislay records = [r for r in records if r[3] is not False] # put Required at the top, then Recommended, then everythiing else records.sort(key = lambda r : 0 if r[3].startswith("Required.") else (1 if r[3].startswith("Recommended.") else 2)) # expand qnames for i in range(len(records)): if records[i][0] == None: qname = domain else: qname = records[i][0] + "." + domain records[i] = { "qname": qname, "rtype": records[i][1], "value": records[i][2], "explanation": records[i][3], } # return ret.append((domain, records)) return ret if __name__ == "__main__": from utils import load_environment env = load_environment() for zone, records in build_recommended_dns(env): for record in records: print("; " + record['explanation']) print(record['qname'], record['rtype'], record['value'], sep="\t") print()