-import re
-from ipaddress import IPv4Address, IPv6Address
-from typing import List, Dict, Any, Iterator, Tuple, Sequence
+import re, datetime
+import typing
second = 1
day = 24*hour
week = 7*day
-TCP = 'tcp'
-UDP = 'udp'
+REGEX_label = r'[a-zA-Z90-9]([a-zA-Z90-9-]{0,61}[a-zA-Z90-9])?' # max. 63 characters; must not start or end with hyphen
+REGEX_ipv4 = r'^\d{1,3}(\.\d{1,3}){3}$'
+REGEX_ipv6 = r'^[a-fA-F0-9]{1,4}(:[a-fA-F0-9]{1,4}){7}$'
+
+def check_label(label: str) -> str:
+ pattern = r'^{0}$'.format(REGEX_label)
+ if re.match(pattern, label):
+ return label
+ raise Exception(label+" is not a valid label")
def check_hostname(name: str) -> str:
# check hostname for validity
- label = r'[a-zA-Z90-9]([a-zA-Z90-9-]{0,61}[a-zA-Z90-9])?' # must not start or end with hyphen
- pattern = r'^{0}(\.{0})*\.?'.format(label)
+ pattern = r'^{0}(\.{0})*\.?$'.format(REGEX_label)
if re.match(pattern, name):
return name
raise Exception(name+" is not a valid hostname")
+def check_hex(data: str) -> str:
+ if re.match('^[a-fA-F0-9]+$', data):
+ return data
+ raise Exception(data+" is not valid hex data")
+
+def check_ipv4(address: str) -> str:
+ if re.match(REGEX_ipv4, address):
+ return address
+ raise Exception(address+" is not a valid IPv4 address")
+
+def check_ipv6(address: str) -> str:
+ if re.match(REGEX_ipv6, address):
+ return address
+ raise Exception(address+" is not a valid IPv6 address")
+
def time(time: int) -> str:
if time == 0:
return "0"
else:
return str(time)
-def column_widths(datas: Sequence, widths: Sequence[int]):
+def column_widths(datas: 'Sequence', widths: 'Sequence[int]'):
assert len(datas) == len(widths)+1, "There must be as one more data points as widths"
result = ""
width_sum = 0
return result+str(datas[-1])
+## Enums
+class Protocol:
+ TCP = 'tcp'
+ UDP = 'udp'
+
+class Algorithm:
+ RSA_SHA256 = 8
+
+class Digest:
+ SHA1 = 1
+ SHA256 = 2
+
+
## Record types
class A:
def __init__(self, address: str) -> None:
- self._address = IPv4Address(address)
+ self._address = check_ipv4(address)
- def generate_rr(self, owner: str, zone: 'Zone') -> Any:
+ def generate_rr(self, owner: str, zone: 'Zone') -> 'Any':
return zone.RR(owner, 'A', self._address)
class AAAA:
def __init__(self, address: str) -> None:
- self._address = IPv6Address(address)
+ self._address = check_ipv6(address)
- def generate_rr(self, owner: str, zone: 'Zone') -> Any:
+ def generate_rr(self, owner: str, zone: 'Zone') -> 'Any':
return zone.RR(owner, 'AAAA', self._address)
self._priority = int(prio)
self._name = check_hostname(name)
- def generate_rr(self, owner: str, zone: 'Zone') -> Any:
+ def generate_rr(self, owner: str, zone: 'Zone') -> 'Any':
return zone.RR(owner, 'MX', '{0} {1}'.format(self._priority, zone.abs_hostname(self._name)))
class SRV:
def __init__(self, protocol: str, service: str, name: str, port: int, prio: int, weight: int) -> None:
- self._service = str(service)
- self._protocol = str(protocol)
+ self._service = check_label(service)
+ self._protocol = check_label(protocol)
self._priority = int(prio)
self._weight = int(weight)
self._port = int(port)
self._name = check_hostname(name)
- def generate_rr(self, owner: str, zone: 'Zone') -> Any:
+ def generate_rr(self, owner: str, zone: 'Zone') -> 'Any':
return zone.RR('_{0}._{1}.{2}'.format(self._service, self._protocol, owner), 'SRV',
'{0} {1} {2} {3}'.format(self._priority, self._weight, self._port, zone.abs_hostname(self._name)))
class TLSA:
- def __init__(self, protocol: str, port: int, key: str) -> None:
- # TODO: fix key stuff
+ class Usage:
+ CA = 0 # certificate must pass the usual CA check, with the CA specified by the TLSA record
+ EndEntity_PlusCAs = 1 # the certificate must match the TLSA record *and* pass the usual CA check
+ TrustAnchor = 2 # the certificate must pass a check with the TLSA record giving the (only) trust anchor
+ EndEntity = 3 # the certificate must match the TLSA record
+
+ class Selector:
+ Full = 0
+ SubjectPublicKeyInfo = 1
+
+ class MatchingType:
+ Exact = 0
+ SHA256 = 1
+ SHA512 = 2
+
+ def __init__(self, protocol: str, port: int, usage: int, selector: int, matching_type: int, data: str) -> None:
self._port = int(port)
self._protocol = str(protocol)
- self._key = str(key)
+ self._usage = int(usage)
+ self._selector = int(selector)
+ self._matching_type = int(matching_type)
+ self._data = check_hex(data)
- def generate_rr(self, owner: str, zone: 'Zone') -> Any:
- return zone.RR('_{0}._{1}.{2}'.format(self._port, self._protocol, owner), 'TLSA', self._key)
+ def generate_rr(self, owner: str, zone: 'Zone') -> 'Any':
+ return zone.RR('_{0}._{1}.{2}'.format(self._port, self._protocol, owner), 'TLSA', '{0} {1} {2} {3}'.format(self._usage, self._selector, self._matching_type, self._data))
class CNAME:
def __init__(self, name: str) -> None:
self._name = check_hostname(name)
- def generate_rr(self, owner: str, zone: 'Zone') -> Any:
+ def generate_rr(self, owner: str, zone: 'Zone') -> 'Any':
return zone.RR(owner, 'CNAME', zone.abs_hostname(self._name))
def __init__(self, name: str) -> None:
self._name = check_hostname(name)
- def generate_rr(self, owner: str, zone: 'Zone') -> Any:
+ def generate_rr(self, owner: str, zone: 'Zone') -> 'Any':
return zone.RR(owner, 'NS', zone.abs_hostname(self._name))
class DS:
- def __init__(self, key: str) -> None:
- # TODO: fix key stuff
- self._key = str(key)
+ def __init__(self, tag: int, alg: int, digest: int, key: str) -> None:
+ self._tag = int(tag)
+ self._key = check_hex(key)
+ self._alg = int(alg)
+ self._digest = int(digest)
- def generate_rr(self, owner: str, zone: 'Zone') -> Any:
- return zone.RR(owner, 'DS', self._key)
+ def generate_rr(self, owner: str, zone: 'Zone') -> 'Any':
+ return zone.RR(owner, 'DS', '{0} {1} {2} {3}'.format(self._tag, self._alg, self._digest, self._key))
## Higher-level classes
class Name:
- def __init__(self, *records: List[Any]) -> None:
+ def __init__(self, *records: 'List[Any]') -> None:
self._records = records
- def generate_rrs(self, owner: str, zone: 'Zone') -> Iterator:
+ def generate_rrs(self, owner: str, zone: 'Zone') -> 'Iterator':
for record in self._records:
# this could still be a list
if isinstance(record, list):
return Name(CNAME(name))
-def Delegation(name: str, key: str = None) -> Name:
- records = [NS(name)]
- if key is not None:
- records.append(DS(key))
- return Name(*records)
+def Delegation(name: str) -> Name:
+ return Name(NS(name))
+
+
+def SecureDelegation(name: str, tag: int, alg: int, digest: int, key: str) -> Name:
+ return Name(NS(name), DS(tag, alg, digest, key))
class Zone:
- def __init__(self, name: str, serialfile: str, dbfile: str, mail: str, NS: List[str],
+ def __init__(self, name: str, serialfile: str, mail: str, NS: 'List[str]',
secondary_refresh: int, secondary_retry: int, secondary_expire: int,
NX_TTL: int = None, A_TTL: int = None, other_TTL: int = None,
- domains: Dict[str, Any] = {}) -> None:
+ domains: 'Dict[str, Any]' = {}) -> None:
self._serialfile = serialfile
- self._dbfile = dbfile
if not name.endswith('.'): raise Exception("Expected an absolute hostname")
self._name = check_hostname(name)
# be done
return cur_serial
- def generate_rrs(self) -> Iterator:
+ def generate_rrs(self) -> 'Iterator':
# SOA record
serial = self.inc_serial()
yield self.RR(self._name, 'SOA',
- ('{NS} {mail} ({serial} {refresh} {retry} {expire} {NX_TTL}) ; '+
- '(serial refresh retry expire NX_TTL)').format(
+ ('{NS} {mail} {serial} {refresh} {retry} {expire} {NX_TTL}'+
+ ' ; primns mail serial refresh retry expire NX_TTL').format(
NS=self.abs_hostname(self._NS[0]), mail=self._mail, serial=serial,
refresh=time(self._refresh), retry=time(self._retry), expire=time(self._expire),
NX_TTL=time(self._NX_TTL))
yield rr
def write(self) -> None:
- with open(self._dbfile, 'w') as f:
- for rr in self.generate_rrs():
- f.write(rr+"\n")
- print(rr)
+ print(";; {0} zone file, generated by zonemaker <https://www.ralfj.de/projects/zonemaker> on {1}".format(self._name, datetime.datetime.now()))
+ for rr in self.generate_rrs():
+ print(rr)
projects / zonemaker.git / blobdiff