openmedialibrary_platform/Linux/lib/python2.7/site-packages/twisted/names/dns.py

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2013-10-11 17:28:32 +00:00
# -*- test-case-name: twisted.names.test.test_dns -*-
# Copyright (c) Twisted Matrix Laboratories.
# See LICENSE for details.
"""
DNS protocol implementation.
Future Plans:
- Get rid of some toplevels, maybe.
"""
from __future__ import division, absolute_import
__all__ = [
'IEncodable', 'IRecord',
'A', 'A6', 'AAAA', 'AFSDB', 'CNAME', 'DNAME', 'HINFO',
'MAILA', 'MAILB', 'MB', 'MD', 'MF', 'MG', 'MINFO', 'MR', 'MX',
'NAPTR', 'NS', 'NULL', 'OPT', 'PTR', 'RP', 'SOA', 'SPF', 'SRV', 'TXT',
'WKS',
'ANY', 'CH', 'CS', 'HS', 'IN',
'ALL_RECORDS', 'AXFR', 'IXFR',
'EFORMAT', 'ENAME', 'ENOTIMP', 'EREFUSED', 'ESERVER', 'EBADVERSION',
'Record_A', 'Record_A6', 'Record_AAAA', 'Record_AFSDB', 'Record_CNAME',
'Record_DNAME', 'Record_HINFO', 'Record_MB', 'Record_MD', 'Record_MF',
'Record_MG', 'Record_MINFO', 'Record_MR', 'Record_MX', 'Record_NAPTR',
'Record_NS', 'Record_NULL', 'Record_PTR', 'Record_RP', 'Record_SOA',
'Record_SPF', 'Record_SRV', 'Record_TXT', 'Record_WKS', 'UnknownRecord',
'QUERY_CLASSES', 'QUERY_TYPES', 'REV_CLASSES', 'REV_TYPES', 'EXT_QUERIES',
'Charstr', 'Message', 'Name', 'Query', 'RRHeader', 'SimpleRecord',
'DNSDatagramProtocol', 'DNSMixin', 'DNSProtocol',
'OK', 'OP_INVERSE', 'OP_NOTIFY', 'OP_QUERY', 'OP_STATUS', 'OP_UPDATE',
'PORT',
'AuthoritativeDomainError', 'DNSQueryTimeoutError', 'DomainError',
]
# System imports
import inspect, struct, random, socket
from itertools import chain
from io import BytesIO
AF_INET6 = socket.AF_INET6
from zope.interface import implementer, Interface, Attribute
# Twisted imports
from twisted.internet import protocol, defer
from twisted.internet.error import CannotListenError
from twisted.python import log, failure
from twisted.python import util as tputil
from twisted.python import randbytes
from twisted.python.compat import _PY3, unicode, comparable, cmp, nativeString
if _PY3:
def _ord2bytes(ordinal):
"""
Construct a bytes object representing a single byte with the given
ordinal value.
@type ordinal: C{int}
@rtype: C{bytes}
"""
return bytes([ordinal])
def _nicebytes(bytes):
"""
Represent a mostly textful bytes object in a way suitable for presentation
to an end user.
@param bytes: The bytes to represent.
@rtype: C{str}
"""
return repr(bytes)[1:]
def _nicebyteslist(list):
"""
Represent a list of mostly textful bytes objects in a way suitable for
presentation to an end user.
@param list: The list of bytes to represent.
@rtype: C{str}
"""
return '[%s]' % (
', '.join([_nicebytes(b) for b in list]),)
else:
_ord2bytes = chr
_nicebytes = _nicebyteslist = repr
def randomSource():
"""
Wrapper around L{randbytes.secureRandom} to return 2 random chars.
"""
return struct.unpack('H', randbytes.secureRandom(2, fallback=True))[0]
PORT = 53
(A, NS, MD, MF, CNAME, SOA, MB, MG, MR, NULL, WKS, PTR, HINFO, MINFO, MX, TXT,
RP, AFSDB) = range(1, 19)
AAAA = 28
SRV = 33
NAPTR = 35
A6 = 38
DNAME = 39
OPT = 41
SPF = 99
QUERY_TYPES = {
A: 'A',
NS: 'NS',
MD: 'MD',
MF: 'MF',
CNAME: 'CNAME',
SOA: 'SOA',
MB: 'MB',
MG: 'MG',
MR: 'MR',
NULL: 'NULL',
WKS: 'WKS',
PTR: 'PTR',
HINFO: 'HINFO',
MINFO: 'MINFO',
MX: 'MX',
TXT: 'TXT',
RP: 'RP',
AFSDB: 'AFSDB',
# 19 through 27? Eh, I'll get to 'em.
AAAA: 'AAAA',
SRV: 'SRV',
NAPTR: 'NAPTR',
A6: 'A6',
DNAME: 'DNAME',
OPT: 'OPT',
SPF: 'SPF'
}
IXFR, AXFR, MAILB, MAILA, ALL_RECORDS = range(251, 256)
# "Extended" queries (Hey, half of these are deprecated, good job)
EXT_QUERIES = {
IXFR: 'IXFR',
AXFR: 'AXFR',
MAILB: 'MAILB',
MAILA: 'MAILA',
ALL_RECORDS: 'ALL_RECORDS'
}
REV_TYPES = dict([
(v, k) for (k, v) in chain(QUERY_TYPES.items(), EXT_QUERIES.items())
])
IN, CS, CH, HS = range(1, 5)
ANY = 255
QUERY_CLASSES = {
IN: 'IN',
CS: 'CS',
CH: 'CH',
HS: 'HS',
ANY: 'ANY'
}
REV_CLASSES = dict([
(v, k) for (k, v) in QUERY_CLASSES.items()
])
# Opcodes
OP_QUERY, OP_INVERSE, OP_STATUS = range(3)
OP_NOTIFY = 4 # RFC 1996
OP_UPDATE = 5 # RFC 2136
# Response Codes
OK, EFORMAT, ESERVER, ENAME, ENOTIMP, EREFUSED = range(6)
# https://tools.ietf.org/html/rfc6891#section-9
EBADVERSION = 16
class IRecord(Interface):
"""
An single entry in a zone of authority.
"""
TYPE = Attribute("An indicator of what kind of record this is.")
# Backwards compatibility aliases - these should be deprecated or something I
# suppose. -exarkun
from twisted.names.error import DomainError, AuthoritativeDomainError
from twisted.names.error import DNSQueryTimeoutError
def _nameToLabels(name):
"""
Split a domain name into its constituent labels.
@type name: C{str}
@param name: A fully qualified domain name (with or without a
trailing dot).
@return: A L{list} of labels ending with an empty label
representing the DNS root zone.
"""
if name in (b'', b'.'):
return [b'']
labels = name.split(b'.')
if labels[-1] != b'':
labels.append(b'')
return labels
def _isSubdomainOf(descendantName, ancestorName):
"""
Test whether C{descendantName} is equal to or is a I{subdomain} of
C{ancestorName}.
The names are compared case-insensitively.
The names are treated as byte strings containing one or more
DNS labels separated by B{.}.
C{descendantName} is considered equal if its sequence of labels
exactly matches the labels of C{ancestorName}.
C{descendantName} is considered a I{subdomain} if its sequence of
labels ends with the labels of C{ancestorName}.
@type descendantName: C{bytes}
@param descendantName: The DNS subdomain name.
@type ancestorName: C{bytes}
@param ancestorName: The DNS parent or ancestor domain name.
@return: C{True} if C{descendantName} is equal to or if it is a
subdomain of C{ancestorName}. Otherwise returns C{False}.
"""
descendantLabels = _nameToLabels(descendantName.lower())
ancestorLabels = _nameToLabels(ancestorName.lower())
return descendantLabels[-len(ancestorLabels):] == ancestorLabels
def str2time(s):
"""
Parse a string description of an interval into an integer number of seconds.
@param s: An interval definition constructed as an interval duration
followed by an interval unit. An interval duration is a base ten
representation of an integer. An interval unit is one of the following
letters: S (seconds), M (minutes), H (hours), D (days), W (weeks), or Y
(years). For example: C{"3S"} indicates an interval of three seconds;
C{"5D"} indicates an interval of five days. Alternatively, C{s} may be
any non-string and it will be returned unmodified.
@type s: text string (C{str}) for parsing; anything else for passthrough.
@return: an C{int} giving the interval represented by the string C{s}, or
whatever C{s} is if it is not a string.
"""
suffixes = (
('S', 1), ('M', 60), ('H', 60 * 60), ('D', 60 * 60 * 24),
('W', 60 * 60 * 24 * 7), ('Y', 60 * 60 * 24 * 365)
)
if isinstance(s, str):
s = s.upper().strip()
for (suff, mult) in suffixes:
if s.endswith(suff):
return int(float(s[:-1]) * mult)
try:
s = int(s)
except ValueError:
raise ValueError("Invalid time interval specifier: " + s)
return s
def readPrecisely(file, l):
buff = file.read(l)
if len(buff) < l:
raise EOFError
return buff
class IEncodable(Interface):
"""
Interface for something which can be encoded to and decoded
from a file object.
"""
def encode(strio, compDict = None):
"""
Write a representation of this object to the given
file object.
@type strio: File-like object
@param strio: The stream to which to write bytes
@type compDict: C{dict} or C{None}
@param compDict: A dictionary of backreference addresses that have
have already been written to this stream and that may be used for
compression.
"""
def decode(strio, length = None):
"""
Reconstruct an object from data read from the given
file object.
@type strio: File-like object
@param strio: The stream from which bytes may be read
@type length: C{int} or C{None}
@param length: The number of bytes in this RDATA field. Most
implementations can ignore this value. Only in the case of
records similar to TXT where the total length is in no way
encoded in the data is it necessary.
"""
@implementer(IEncodable)
class Charstr(object):
def __init__(self, string=b''):
if not isinstance(string, bytes):
raise ValueError("%r is not a byte string" % (string,))
self.string = string
def encode(self, strio, compDict=None):
"""
Encode this Character string into the appropriate byte format.
@type strio: file
@param strio: The byte representation of this Charstr will be written
to this file.
"""
string = self.string
ind = len(string)
strio.write(_ord2bytes(ind))
strio.write(string)
def decode(self, strio, length=None):
"""
Decode a byte string into this Charstr.
@type strio: file
@param strio: Bytes will be read from this file until the full string
is decoded.
@raise EOFError: Raised when there are not enough bytes available from
C{strio}.
"""
self.string = b''
l = ord(readPrecisely(strio, 1))
self.string = readPrecisely(strio, l)
def __eq__(self, other):
if isinstance(other, Charstr):
return self.string == other.string
return NotImplemented
def __ne__(self, other):
if isinstance(other, Charstr):
return self.string != other.string
return NotImplemented
def __hash__(self):
return hash(self.string)
def __str__(self):
"""
Represent this L{Charstr} instance by its string value.
"""
return nativeString(self.string)
@implementer(IEncodable)
class Name:
"""
A name in the domain name system, made up of multiple labels. For example,
I{twistedmatrix.com}.
@ivar name: A byte string giving the name.
@type name: C{bytes}
"""
def __init__(self, name=b''):
if isinstance(name, unicode):
name = name.encode('idna')
if not isinstance(name, bytes):
raise TypeError("%r is not a byte string" % (name,))
self.name = name
def encode(self, strio, compDict=None):
"""
Encode this Name into the appropriate byte format.
@type strio: file
@param strio: The byte representation of this Name will be written to
this file.
@type compDict: dict
@param compDict: dictionary of Names that have already been encoded
and whose addresses may be backreferenced by this Name (for the purpose
of reducing the message size).
"""
name = self.name
while name:
if compDict is not None:
if name in compDict:
strio.write(
struct.pack("!H", 0xc000 | compDict[name]))
return
else:
compDict[name] = strio.tell() + Message.headerSize
ind = name.find(b'.')
if ind > 0:
label, name = name[:ind], name[ind + 1:]
else:
# This is the last label, end the loop after handling it.
label = name
name = None
ind = len(label)
strio.write(_ord2bytes(ind))
strio.write(label)
strio.write(b'\x00')
def decode(self, strio, length=None):
"""
Decode a byte string into this Name.
@type strio: file
@param strio: Bytes will be read from this file until the full Name
is decoded.
@raise EOFError: Raised when there are not enough bytes available
from C{strio}.
@raise ValueError: Raised when the name cannot be decoded (for example,
because it contains a loop).
"""
visited = set()
self.name = b''
off = 0
while 1:
l = ord(readPrecisely(strio, 1))
if l == 0:
if off > 0:
strio.seek(off)
return
if (l >> 6) == 3:
new_off = ((l&63) << 8
| ord(readPrecisely(strio, 1)))
if new_off in visited:
raise ValueError("Compression loop in encoded name")
visited.add(new_off)
if off == 0:
off = strio.tell()
strio.seek(new_off)
continue
label = readPrecisely(strio, l)
if self.name == b'':
self.name = label
else:
self.name = self.name + b'.' + label
def __eq__(self, other):
if isinstance(other, Name):
return self.name == other.name
return NotImplemented
def __ne__(self, other):
if isinstance(other, Name):
return self.name != other.name
return NotImplemented
def __hash__(self):
return hash(self.name)
def __str__(self):
"""
Represent this L{Name} instance by its string name.
"""
return nativeString(self.name)
@comparable
@implementer(IEncodable)
class Query:
"""
Represent a single DNS query.
@ivar name: The name about which this query is requesting information.
@ivar type: The query type.
@ivar cls: The query class.
"""
name = None
type = None
cls = None
def __init__(self, name=b'', type=A, cls=IN):
"""
@type name: C{bytes}
@param name: The name about which to request information.
@type type: C{int}
@param type: The query type.
@type cls: C{int}
@param cls: The query class.
"""
self.name = Name(name)
self.type = type
self.cls = cls
def encode(self, strio, compDict=None):
self.name.encode(strio, compDict)
strio.write(struct.pack("!HH", self.type, self.cls))
def decode(self, strio, length = None):
self.name.decode(strio)
buff = readPrecisely(strio, 4)
self.type, self.cls = struct.unpack("!HH", buff)
def __hash__(self):
return hash((str(self.name).lower(), self.type, self.cls))
def __cmp__(self, other):
if isinstance(other, Query):
return cmp(
(str(self.name).lower(), self.type, self.cls),
(str(other.name).lower(), other.type, other.cls))
return NotImplemented
def __str__(self):
t = QUERY_TYPES.get(self.type, EXT_QUERIES.get(self.type, 'UNKNOWN (%d)' % self.type))
c = QUERY_CLASSES.get(self.cls, 'UNKNOWN (%d)' % self.cls)
return '<Query %s %s %s>' % (self.name, t, c)
def __repr__(self):
return 'Query(%r, %r, %r)' % (str(self.name), self.type, self.cls)
@implementer(IEncodable)
class _OPTHeader(tputil.FancyStrMixin, tputil.FancyEqMixin, object):
"""
An OPT record header.
@ivar name: The DNS name associated with this record. Since this
is a pseudo record, the name is always an L{Name} instance
with value b'', which represents the DNS root zone. This
attribute is a readonly property.
@ivar type: The DNS record type. This is a fixed value of 41
(C{dns.OPT} for OPT Record. This attribute is a readonly
property.
@see: L{_OPTHeader.__init__} for documentation of other public
instance attributes.
@see: L{https://tools.ietf.org/html/rfc6891#section-6.1.2}
@since: 13.2
"""
showAttributes = (
('name', lambda n: nativeString(n.name)), 'type', 'udpPayloadSize',
'extendedRCODE', 'version', 'dnssecOK', 'options')
compareAttributes = (
'name', 'type', 'udpPayloadSize', 'extendedRCODE', 'version',
'dnssecOK', 'options')
def __init__(self, udpPayloadSize=4096, extendedRCODE=0, version=0,
dnssecOK=False, options=None):
"""
@type udpPayloadSize: L{int}
@param payload: The number of octets of the largest UDP
payload that can be reassembled and delivered in the
requestor's network stack.
@type extendedRCODE: L{int}
@param extendedRCODE: Forms the upper 8 bits of extended
12-bit RCODE (together with the 4 bits defined in
[RFC1035]. Note that EXTENDED-RCODE value 0 indicates
that an unextended RCODE is in use (values 0 through 15).
@type version: L{int}
@param version: Indicates the implementation level of the
setter. Full conformance with this specification is
indicated by version C{0}.
@type dnssecOK: L{bool}
@param dnssecOK: DNSSEC OK bit as defined by [RFC3225].
@type options: L{list}
@param options: A L{list} of 0 or more L{_OPTVariableOption}
instances.
"""
self.udpPayloadSize = udpPayloadSize
self.extendedRCODE = extendedRCODE
self.version = version
self.dnssecOK = dnssecOK
if options is None:
options = []
self.options = options
@property
def name(self):
"""
A readonly property for accessing the C{name} attribute of
this record.
@return: The DNS name associated with this record. Since this
is a pseudo record, the name is always an L{Name} instance
with value b'', which represents the DNS root zone.
"""
return Name(b'')
@property
def type(self):
"""
A readonly property for accessing the C{type} attribute of
this record.
@return: The DNS record type. This is a fixed value of 41
(C{dns.OPT} for OPT Record.
"""
return OPT
def encode(self, strio, compDict=None):
"""
Encode this L{_OPTHeader} instance to bytes.
@type strio: L{file}
@param strio: the byte representation of this L{_OPTHeader}
will be written to this file.
@type compDict: L{dict} or L{None}
@param compDict: A dictionary of backreference addresses that
have have already been written to this stream and that may
be used for DNS name compression.
"""
b = BytesIO()
for o in self.options:
o.encode(b)
optionBytes = b.getvalue()
RRHeader(
name=self.name.name,
type=self.type,
cls=self.udpPayloadSize,
ttl=(
self.extendedRCODE << 24
| self.version << 16
| self.dnssecOK << 15),
payload=UnknownRecord(optionBytes)
).encode(strio, compDict)
def decode(self, strio, length=None):
"""
Decode bytes into an L{_OPTHeader} instance.
@type strio: L{file}
@param strio: Bytes will be read from this file until the full
L{_OPTHeader} is decoded.
@type length: L{int} or L{None}
@param length: Not used.
"""
h = RRHeader()
h.decode(strio, length)
h.payload = UnknownRecord(readPrecisely(strio, h.rdlength))
newOptHeader = self.fromRRHeader(h)
for attrName in self.compareAttributes:
if attrName not in ('name', 'type'):
setattr(self, attrName, getattr(newOptHeader, attrName))
@classmethod
def fromRRHeader(cls, rrHeader):
"""
A classmethod for constructing a new L{_OPTHeader} from the
attributes and payload of an existing L{RRHeader} instance.
@type rrHeader: L{RRHeader}
@param rrHeader: An L{RRHeader} instance containing an
L{UnknownRecord} payload.
@return: An instance of L{_OPTHeader}.
@rtype: L{_OPTHeader}
"""
options = None
if rrHeader.payload is not None:
options = []
optionsBytes = BytesIO(rrHeader.payload.data)
optionsBytesLength = len(rrHeader.payload.data)
while optionsBytes.tell() < optionsBytesLength:
o = _OPTVariableOption()
o.decode(optionsBytes)
options.append(o)
# Decode variable options if present
return cls(
udpPayloadSize=rrHeader.cls,
extendedRCODE=rrHeader.ttl >> 24,
version=rrHeader.ttl >> 16 & 0xff,
dnssecOK=(rrHeader.ttl & 0xffff) >> 15,
options=options
)
@implementer(IEncodable)
class _OPTVariableOption(tputil.FancyStrMixin, tputil.FancyEqMixin, object):
"""
A class to represent OPT record variable options.
@see: L{_OPTVariableOption.__init__} for documentation of public
instance attributes.
@see: L{https://tools.ietf.org/html/rfc6891#section-6.1.2}
@since: 13.2
"""
showAttributes = ('code', ('data', nativeString))
compareAttributes = ('code', 'data')
_fmt = '!HH'
def __init__(self, code=0, data=b''):
"""
@type code: L{int}
@param code: The option code
@type data: L{bytes}
@param data: The option data
"""
self.code = code
self.data = data
def encode(self, strio, compDict=None):
"""
Encode this L{_OPTVariableOption} to bytes.
@type strio: L{file}
@param strio: the byte representation of this
L{_OPTVariableOption} will be written to this file.
@type compDict: L{dict} or L{None}
@param compDict: A dictionary of backreference addresses that
have have already been written to this stream and that may
be used for DNS name compression.
"""
strio.write(
struct.pack(self._fmt, self.code, len(self.data)) + self.data)
def decode(self, strio, length=None):
"""
Decode bytes into an L{_OPTVariableOption} instance.
@type strio: L{file}
@param strio: Bytes will be read from this file until the full
L{_OPTVariableOption} is decoded.
@type length: L{int} or L{None}
@param length: Not used.
"""
l = struct.calcsize(self._fmt)
buff = readPrecisely(strio, l)
self.code, length = struct.unpack(self._fmt, buff)
self.data = readPrecisely(strio, length)
@implementer(IEncodable)
class RRHeader(tputil.FancyEqMixin):
"""
A resource record header.
@cvar fmt: C{str} specifying the byte format of an RR.
@ivar name: The name about which this reply contains information.
@ivar type: The query type of the original request.
@ivar cls: The query class of the original request.
@ivar ttl: The time-to-live for this record.
@ivar payload: An object that implements the IEncodable interface
@ivar auth: A C{bool} indicating whether this C{RRHeader} was parsed from an
authoritative message.
"""
compareAttributes = ('name', 'type', 'cls', 'ttl', 'payload', 'auth')
fmt = "!HHIH"
name = None
type = None
cls = None
ttl = None
payload = None
rdlength = None
cachedResponse = None
def __init__(self, name=b'', type=A, cls=IN, ttl=0, payload=None, auth=False):
"""
@type name: C{bytes}
@param name: The name about which this reply contains information.
@type type: C{int}
@param type: The query type.
@type cls: C{int}
@param cls: The query class.
@type ttl: C{int}
@param ttl: Time to live for this record.
@type payload: An object implementing C{IEncodable}
@param payload: A Query Type specific data object.
@raises ValueError: if the ttl is negative.
"""
assert (payload is None) or isinstance(payload, UnknownRecord) or (payload.TYPE == type)
if ttl < 0:
raise ValueError("TTL cannot be negative")
self.name = Name(name)
self.type = type
self.cls = cls
self.ttl = ttl
self.payload = payload
self.auth = auth
def encode(self, strio, compDict=None):
self.name.encode(strio, compDict)
strio.write(struct.pack(self.fmt, self.type, self.cls, self.ttl, 0))
if self.payload:
prefix = strio.tell()
self.payload.encode(strio, compDict)
aft = strio.tell()
strio.seek(prefix - 2, 0)
strio.write(struct.pack('!H', aft - prefix))
strio.seek(aft, 0)
def decode(self, strio, length = None):
self.name.decode(strio)
l = struct.calcsize(self.fmt)
buff = readPrecisely(strio, l)
r = struct.unpack(self.fmt, buff)
self.type, self.cls, self.ttl, self.rdlength = r
def isAuthoritative(self):
return self.auth
def __str__(self):
t = QUERY_TYPES.get(self.type, EXT_QUERIES.get(self.type, 'UNKNOWN (%d)' % self.type))
c = QUERY_CLASSES.get(self.cls, 'UNKNOWN (%d)' % self.cls)
return '<RR name=%s type=%s class=%s ttl=%ds auth=%s>' % (self.name, t, c, self.ttl, self.auth and 'True' or 'False')
__repr__ = __str__
@implementer(IEncodable, IRecord)
class SimpleRecord(tputil.FancyStrMixin, tputil.FancyEqMixin):
"""
A Resource Record which consists of a single RFC 1035 domain-name.
@type name: L{Name}
@ivar name: The name associated with this record.
@type ttl: C{int}
@ivar ttl: The maximum number of seconds which this record should be
cached.
"""
showAttributes = (('name', 'name', '%s'), 'ttl')
compareAttributes = ('name', 'ttl')
TYPE = None
name = None
def __init__(self, name=b'', ttl=None):
self.name = Name(name)
self.ttl = str2time(ttl)
def encode(self, strio, compDict = None):
self.name.encode(strio, compDict)
def decode(self, strio, length = None):
self.name = Name()
self.name.decode(strio)
def __hash__(self):
return hash(self.name)
# Kinds of RRs - oh my!
class Record_NS(SimpleRecord):
"""
An authoritative nameserver.
"""
TYPE = NS
fancybasename = 'NS'
class Record_MD(SimpleRecord):
"""
A mail destination.
This record type is obsolete.
@see: L{Record_MX}
"""
TYPE = MD
fancybasename = 'MD'
class Record_MF(SimpleRecord):
"""
A mail forwarder.
This record type is obsolete.
@see: L{Record_MX}
"""
TYPE = MF
fancybasename = 'MF'
class Record_CNAME(SimpleRecord):
"""
The canonical name for an alias.
"""
TYPE = CNAME
fancybasename = 'CNAME'
class Record_MB(SimpleRecord):
"""
A mailbox domain name.
This is an experimental record type.
"""
TYPE = MB
fancybasename = 'MB'
class Record_MG(SimpleRecord):
"""
A mail group member.
This is an experimental record type.
"""
TYPE = MG
fancybasename = 'MG'
class Record_MR(SimpleRecord):
"""
A mail rename domain name.
This is an experimental record type.
"""
TYPE = MR
fancybasename = 'MR'
class Record_PTR(SimpleRecord):
"""
A domain name pointer.
"""
TYPE = PTR
fancybasename = 'PTR'
class Record_DNAME(SimpleRecord):
"""
A non-terminal DNS name redirection.
This record type provides the capability to map an entire subtree of the
DNS name space to another domain. It differs from the CNAME record which
maps a single node of the name space.
@see: U{http://www.faqs.org/rfcs/rfc2672.html}
@see: U{http://www.faqs.org/rfcs/rfc3363.html}
"""
TYPE = DNAME
fancybasename = 'DNAME'
@implementer(IEncodable, IRecord)
class Record_A(tputil.FancyEqMixin):
"""
An IPv4 host address.
@type address: C{str}
@ivar address: The packed network-order representation of the IPv4 address
associated with this record.
@type ttl: C{int}
@ivar ttl: The maximum number of seconds which this record should be
cached.
"""
compareAttributes = ('address', 'ttl')
TYPE = A
address = None
def __init__(self, address='0.0.0.0', ttl=None):
address = socket.inet_aton(address)
self.address = address
self.ttl = str2time(ttl)
def encode(self, strio, compDict = None):
strio.write(self.address)
def decode(self, strio, length = None):
self.address = readPrecisely(strio, 4)
def __hash__(self):
return hash(self.address)
def __str__(self):
return '<A address=%s ttl=%s>' % (self.dottedQuad(), self.ttl)
__repr__ = __str__
def dottedQuad(self):
return socket.inet_ntoa(self.address)
@implementer(IEncodable, IRecord)
class Record_SOA(tputil.FancyEqMixin, tputil.FancyStrMixin):
"""
Marks the start of a zone of authority.
This record describes parameters which are shared by all records within a
particular zone.
@type mname: L{Name}
@ivar mname: The domain-name of the name server that was the original or
primary source of data for this zone.
@type rname: L{Name}
@ivar rname: A domain-name which specifies the mailbox of the person
responsible for this zone.
@type serial: C{int}
@ivar serial: The unsigned 32 bit version number of the original copy of
the zone. Zone transfers preserve this value. This value wraps and
should be compared using sequence space arithmetic.
@type refresh: C{int}
@ivar refresh: A 32 bit time interval before the zone should be refreshed.
@type minimum: C{int}
@ivar minimum: The unsigned 32 bit minimum TTL field that should be
exported with any RR from this zone.
@type expire: C{int}
@ivar expire: A 32 bit time value that specifies the upper limit on the
time interval that can elapse before the zone is no longer
authoritative.
@type retry: C{int}
@ivar retry: A 32 bit time interval that should elapse before a failed
refresh should be retried.
@type ttl: C{int}
@ivar ttl: The default TTL to use for records served from this zone.
"""
fancybasename = 'SOA'
compareAttributes = ('serial', 'mname', 'rname', 'refresh', 'expire', 'retry', 'minimum', 'ttl')
showAttributes = (('mname', 'mname', '%s'), ('rname', 'rname', '%s'), 'serial', 'refresh', 'retry', 'expire', 'minimum', 'ttl')
TYPE = SOA
def __init__(self, mname=b'', rname=b'', serial=0, refresh=0, retry=0,
expire=0, minimum=0, ttl=None):
self.mname, self.rname = Name(mname), Name(rname)
self.serial, self.refresh = str2time(serial), str2time(refresh)
self.minimum, self.expire = str2time(minimum), str2time(expire)
self.retry = str2time(retry)
self.ttl = str2time(ttl)
def encode(self, strio, compDict = None):
self.mname.encode(strio, compDict)
self.rname.encode(strio, compDict)
strio.write(
struct.pack(
'!LlllL',
self.serial, self.refresh, self.retry, self.expire,
self.minimum
)
)
def decode(self, strio, length = None):
self.mname, self.rname = Name(), Name()
self.mname.decode(strio)
self.rname.decode(strio)
r = struct.unpack('!LlllL', readPrecisely(strio, 20))
self.serial, self.refresh, self.retry, self.expire, self.minimum = r
def __hash__(self):
return hash((
self.serial, self.mname, self.rname,
self.refresh, self.expire, self.retry
))
@implementer(IEncodable, IRecord)
class Record_NULL(tputil.FancyStrMixin, tputil.FancyEqMixin):
"""
A null record.
This is an experimental record type.
@type ttl: C{int}
@ivar ttl: The maximum number of seconds which this record should be
cached.
"""
fancybasename = 'NULL'
showAttributes = (('payload', _nicebytes), 'ttl')
compareAttributes = ('payload', 'ttl')
TYPE = NULL
def __init__(self, payload=None, ttl=None):
self.payload = payload
self.ttl = str2time(ttl)
def encode(self, strio, compDict = None):
strio.write(self.payload)
def decode(self, strio, length = None):
self.payload = readPrecisely(strio, length)
def __hash__(self):
return hash(self.payload)
@implementer(IEncodable, IRecord)
class Record_WKS(tputil.FancyEqMixin, tputil.FancyStrMixin):
"""
A well known service description.
This record type is obsolete. See L{Record_SRV}.
@type address: C{str}
@ivar address: The packed network-order representation of the IPv4 address
associated with this record.
@type protocol: C{int}
@ivar protocol: The 8 bit IP protocol number for which this service map is
relevant.
@type map: C{str}
@ivar map: A bitvector indicating the services available at the specified
address.
@type ttl: C{int}
@ivar ttl: The maximum number of seconds which this record should be
cached.
"""
fancybasename = "WKS"
compareAttributes = ('address', 'protocol', 'map', 'ttl')
showAttributes = [('_address', 'address', '%s'), 'protocol', 'ttl']
TYPE = WKS
_address = property(lambda self: socket.inet_ntoa(self.address))
def __init__(self, address='0.0.0.0', protocol=0, map='', ttl=None):
self.address = socket.inet_aton(address)
self.protocol, self.map = protocol, map
self.ttl = str2time(ttl)
def encode(self, strio, compDict = None):
strio.write(self.address)
strio.write(struct.pack('!B', self.protocol))
strio.write(self.map)
def decode(self, strio, length = None):
self.address = readPrecisely(strio, 4)
self.protocol = struct.unpack('!B', readPrecisely(strio, 1))[0]
self.map = readPrecisely(strio, length - 5)
def __hash__(self):
return hash((self.address, self.protocol, self.map))
@implementer(IEncodable, IRecord)
class Record_AAAA(tputil.FancyEqMixin, tputil.FancyStrMixin):
"""
An IPv6 host address.
@type address: C{str}
@ivar address: The packed network-order representation of the IPv6 address
associated with this record.
@type ttl: C{int}
@ivar ttl: The maximum number of seconds which this record should be
cached.
@see: U{http://www.faqs.org/rfcs/rfc1886.html}
"""
TYPE = AAAA
fancybasename = 'AAAA'
showAttributes = (('_address', 'address', '%s'), 'ttl')
compareAttributes = ('address', 'ttl')
_address = property(lambda self: socket.inet_ntop(AF_INET6, self.address))
def __init__(self, address='::', ttl=None):
self.address = socket.inet_pton(AF_INET6, address)
self.ttl = str2time(ttl)
def encode(self, strio, compDict = None):
strio.write(self.address)
def decode(self, strio, length = None):
self.address = readPrecisely(strio, 16)
def __hash__(self):
return hash(self.address)
@implementer(IEncodable, IRecord)
class Record_A6(tputil.FancyStrMixin, tputil.FancyEqMixin):
"""
An IPv6 address.
This is an experimental record type.
@type prefixLen: C{int}
@ivar prefixLen: The length of the suffix.
@type suffix: C{str}
@ivar suffix: An IPv6 address suffix in network order.
@type prefix: L{Name}
@ivar prefix: If specified, a name which will be used as a prefix for other
A6 records.
@type bytes: C{int}
@ivar bytes: The length of the prefix.
@type ttl: C{int}
@ivar ttl: The maximum number of seconds which this record should be
cached.
@see: U{http://www.faqs.org/rfcs/rfc2874.html}
@see: U{http://www.faqs.org/rfcs/rfc3363.html}
@see: U{http://www.faqs.org/rfcs/rfc3364.html}
"""
TYPE = A6
fancybasename = 'A6'
showAttributes = (('_suffix', 'suffix', '%s'), ('prefix', 'prefix', '%s'), 'ttl')
compareAttributes = ('prefixLen', 'prefix', 'suffix', 'ttl')
_suffix = property(lambda self: socket.inet_ntop(AF_INET6, self.suffix))
def __init__(self, prefixLen=0, suffix='::', prefix=b'', ttl=None):
self.prefixLen = prefixLen
self.suffix = socket.inet_pton(AF_INET6, suffix)
self.prefix = Name(prefix)
self.bytes = int((128 - self.prefixLen) / 8.0)
self.ttl = str2time(ttl)
def encode(self, strio, compDict = None):
strio.write(struct.pack('!B', self.prefixLen))
if self.bytes:
strio.write(self.suffix[-self.bytes:])
if self.prefixLen:
# This may not be compressed
self.prefix.encode(strio, None)
def decode(self, strio, length = None):
self.prefixLen = struct.unpack('!B', readPrecisely(strio, 1))[0]
self.bytes = int((128 - self.prefixLen) / 8.0)
if self.bytes:
self.suffix = b'\x00' * (16 - self.bytes) + readPrecisely(strio, self.bytes)
if self.prefixLen:
self.prefix.decode(strio)
def __eq__(self, other):
if isinstance(other, Record_A6):
return (self.prefixLen == other.prefixLen and
self.suffix[-self.bytes:] == other.suffix[-self.bytes:] and
self.prefix == other.prefix and
self.ttl == other.ttl)
return NotImplemented
def __hash__(self):
return hash((self.prefixLen, self.suffix[-self.bytes:], self.prefix))
def __str__(self):
return '<A6 %s %s (%d) ttl=%s>' % (
self.prefix,
socket.inet_ntop(AF_INET6, self.suffix),
self.prefixLen, self.ttl
)
@implementer(IEncodable, IRecord)
class Record_SRV(tputil.FancyEqMixin, tputil.FancyStrMixin):
"""
The location of the server(s) for a specific protocol and domain.
This is an experimental record type.
@type priority: C{int}
@ivar priority: The priority of this target host. A client MUST attempt to
contact the target host with the lowest-numbered priority it can reach;
target hosts with the same priority SHOULD be tried in an order defined
by the weight field.
@type weight: C{int}
@ivar weight: Specifies a relative weight for entries with the same
priority. Larger weights SHOULD be given a proportionately higher
probability of being selected.
@type port: C{int}
@ivar port: The port on this target host of this service.
@type target: L{Name}
@ivar target: The domain name of the target host. There MUST be one or
more address records for this name, the name MUST NOT be an alias (in
the sense of RFC 1034 or RFC 2181). Implementors are urged, but not
required, to return the address record(s) in the Additional Data
section. Unless and until permitted by future standards action, name
compression is not to be used for this field.
@type ttl: C{int}
@ivar ttl: The maximum number of seconds which this record should be
cached.
@see: U{http://www.faqs.org/rfcs/rfc2782.html}
"""
TYPE = SRV
fancybasename = 'SRV'
compareAttributes = ('priority', 'weight', 'target', 'port', 'ttl')
showAttributes = ('priority', 'weight', ('target', 'target', '%s'), 'port', 'ttl')
def __init__(self, priority=0, weight=0, port=0, target=b'', ttl=None):
self.priority = int(priority)
self.weight = int(weight)
self.port = int(port)
self.target = Name(target)
self.ttl = str2time(ttl)
def encode(self, strio, compDict = None):
strio.write(struct.pack('!HHH', self.priority, self.weight, self.port))
# This can't be compressed
self.target.encode(strio, None)
def decode(self, strio, length = None):
r = struct.unpack('!HHH', readPrecisely(strio, struct.calcsize('!HHH')))
self.priority, self.weight, self.port = r
self.target = Name()
self.target.decode(strio)
def __hash__(self):
return hash((self.priority, self.weight, self.port, self.target))
@implementer(IEncodable, IRecord)
class Record_NAPTR(tputil.FancyEqMixin, tputil.FancyStrMixin):
"""
The location of the server(s) for a specific protocol and domain.
@type order: C{int}
@ivar order: An integer specifying the order in which the NAPTR records
MUST be processed to ensure the correct ordering of rules. Low numbers
are processed before high numbers.
@type preference: C{int}
@ivar preference: An integer that specifies the order in which NAPTR
records with equal "order" values SHOULD be processed, low numbers
being processed before high numbers.
@type flag: L{Charstr}
@ivar flag: A <character-string> containing flags to control aspects of the
rewriting and interpretation of the fields in the record. Flags
are single characters from the set [A-Z0-9]. The case of the alphabetic
characters is not significant.
At this time only four flags, "S", "A", "U", and "P", are defined.
@type service: L{Charstr}
@ivar service: Specifies the service(s) available down this rewrite path.
It may also specify the particular protocol that is used to talk with a
service. A protocol MUST be specified if the flags field states that
the NAPTR is terminal.
@type regexp: L{Charstr}
@ivar regexp: A STRING containing a substitution expression that is applied
to the original string held by the client in order to construct the
next domain name to lookup.
@type replacement: L{Name}
@ivar replacement: The next NAME to query for NAPTR, SRV, or address
records depending on the value of the flags field. This MUST be a
fully qualified domain-name.
@type ttl: C{int}
@ivar ttl: The maximum number of seconds which this record should be
cached.
@see: U{http://www.faqs.org/rfcs/rfc2915.html}
"""
TYPE = NAPTR
compareAttributes = ('order', 'preference', 'flags', 'service', 'regexp',
'replacement')
fancybasename = 'NAPTR'
showAttributes = ('order', 'preference', ('flags', 'flags', '%s'),
('service', 'service', '%s'), ('regexp', 'regexp', '%s'),
('replacement', 'replacement', '%s'), 'ttl')
def __init__(self, order=0, preference=0, flags=b'', service=b'', regexp=b'',
replacement=b'', ttl=None):
self.order = int(order)
self.preference = int(preference)
self.flags = Charstr(flags)
self.service = Charstr(service)
self.regexp = Charstr(regexp)
self.replacement = Name(replacement)
self.ttl = str2time(ttl)
def encode(self, strio, compDict=None):
strio.write(struct.pack('!HH', self.order, self.preference))
# This can't be compressed
self.flags.encode(strio, None)
self.service.encode(strio, None)
self.regexp.encode(strio, None)
self.replacement.encode(strio, None)
def decode(self, strio, length=None):
r = struct.unpack('!HH', readPrecisely(strio, struct.calcsize('!HH')))
self.order, self.preference = r
self.flags = Charstr()
self.service = Charstr()
self.regexp = Charstr()
self.replacement = Name()
self.flags.decode(strio)
self.service.decode(strio)
self.regexp.decode(strio)
self.replacement.decode(strio)
def __hash__(self):
return hash((
self.order, self.preference, self.flags,
self.service, self.regexp, self.replacement))
@implementer(IEncodable, IRecord)
class Record_AFSDB(tputil.FancyStrMixin, tputil.FancyEqMixin):
"""
Map from a domain name to the name of an AFS cell database server.
@type subtype: C{int}
@ivar subtype: In the case of subtype 1, the host has an AFS version 3.0
Volume Location Server for the named AFS cell. In the case of subtype
2, the host has an authenticated name server holding the cell-root
directory node for the named DCE/NCA cell.
@type hostname: L{Name}
@ivar hostname: The domain name of a host that has a server for the cell
named by this record.
@type ttl: C{int}
@ivar ttl: The maximum number of seconds which this record should be
cached.
@see: U{http://www.faqs.org/rfcs/rfc1183.html}
"""
TYPE = AFSDB
fancybasename = 'AFSDB'
compareAttributes = ('subtype', 'hostname', 'ttl')
showAttributes = ('subtype', ('hostname', 'hostname', '%s'), 'ttl')
def __init__(self, subtype=0, hostname=b'', ttl=None):
self.subtype = int(subtype)
self.hostname = Name(hostname)
self.ttl = str2time(ttl)
def encode(self, strio, compDict = None):
strio.write(struct.pack('!H', self.subtype))
self.hostname.encode(strio, compDict)
def decode(self, strio, length = None):
r = struct.unpack('!H', readPrecisely(strio, struct.calcsize('!H')))
self.subtype, = r
self.hostname.decode(strio)
def __hash__(self):
return hash((self.subtype, self.hostname))
@implementer(IEncodable, IRecord)
class Record_RP(tputil.FancyEqMixin, tputil.FancyStrMixin):
"""
The responsible person for a domain.
@type mbox: L{Name}
@ivar mbox: A domain name that specifies the mailbox for the responsible
person.
@type txt: L{Name}
@ivar txt: A domain name for which TXT RR's exist (indirection through
which allows information sharing about the contents of this RP record).
@type ttl: C{int}
@ivar ttl: The maximum number of seconds which this record should be
cached.
@see: U{http://www.faqs.org/rfcs/rfc1183.html}
"""
TYPE = RP
fancybasename = 'RP'
compareAttributes = ('mbox', 'txt', 'ttl')
showAttributes = (('mbox', 'mbox', '%s'), ('txt', 'txt', '%s'), 'ttl')
def __init__(self, mbox=b'', txt=b'', ttl=None):
self.mbox = Name(mbox)
self.txt = Name(txt)
self.ttl = str2time(ttl)
def encode(self, strio, compDict = None):
self.mbox.encode(strio, compDict)
self.txt.encode(strio, compDict)
def decode(self, strio, length = None):
self.mbox = Name()
self.txt = Name()
self.mbox.decode(strio)
self.txt.decode(strio)
def __hash__(self):
return hash((self.mbox, self.txt))
@implementer(IEncodable, IRecord)
class Record_HINFO(tputil.FancyStrMixin, tputil.FancyEqMixin):
"""
Host information.
@type cpu: C{str}
@ivar cpu: Specifies the CPU type.
@type os: C{str}
@ivar os: Specifies the OS.
@type ttl: C{int}
@ivar ttl: The maximum number of seconds which this record should be
cached.
"""
TYPE = HINFO
fancybasename = 'HINFO'
showAttributes = (('cpu', _nicebytes), ('os', _nicebytes), 'ttl')
compareAttributes = ('cpu', 'os', 'ttl')
def __init__(self, cpu='', os='', ttl=None):
self.cpu, self.os = cpu, os
self.ttl = str2time(ttl)
def encode(self, strio, compDict = None):
strio.write(struct.pack('!B', len(self.cpu)) + self.cpu)
strio.write(struct.pack('!B', len(self.os)) + self.os)
def decode(self, strio, length = None):
cpu = struct.unpack('!B', readPrecisely(strio, 1))[0]
self.cpu = readPrecisely(strio, cpu)
os = struct.unpack('!B', readPrecisely(strio, 1))[0]
self.os = readPrecisely(strio, os)
def __eq__(self, other):
if isinstance(other, Record_HINFO):
return (self.os.lower() == other.os.lower() and
self.cpu.lower() == other.cpu.lower() and
self.ttl == other.ttl)
return NotImplemented
def __hash__(self):
return hash((self.os.lower(), self.cpu.lower()))
@implementer(IEncodable, IRecord)
class Record_MINFO(tputil.FancyEqMixin, tputil.FancyStrMixin):
"""
Mailbox or mail list information.
This is an experimental record type.
@type rmailbx: L{Name}
@ivar rmailbx: A domain-name which specifies a mailbox which is responsible
for the mailing list or mailbox. If this domain name names the root,
the owner of the MINFO RR is responsible for itself.
@type emailbx: L{Name}
@ivar emailbx: A domain-name which specifies a mailbox which is to receive
error messages related to the mailing list or mailbox specified by the
owner of the MINFO record. If this domain name names the root, errors
should be returned to the sender of the message.
@type ttl: C{int}
@ivar ttl: The maximum number of seconds which this record should be
cached.
"""
TYPE = MINFO
rmailbx = None
emailbx = None
fancybasename = 'MINFO'
compareAttributes = ('rmailbx', 'emailbx', 'ttl')
showAttributes = (('rmailbx', 'responsibility', '%s'),
('emailbx', 'errors', '%s'),
'ttl')
def __init__(self, rmailbx=b'', emailbx=b'', ttl=None):
self.rmailbx, self.emailbx = Name(rmailbx), Name(emailbx)
self.ttl = str2time(ttl)
def encode(self, strio, compDict = None):
self.rmailbx.encode(strio, compDict)
self.emailbx.encode(strio, compDict)
def decode(self, strio, length = None):
self.rmailbx, self.emailbx = Name(), Name()
self.rmailbx.decode(strio)
self.emailbx.decode(strio)
def __hash__(self):
return hash((self.rmailbx, self.emailbx))
@implementer(IEncodable, IRecord)
class Record_MX(tputil.FancyStrMixin, tputil.FancyEqMixin):
"""
Mail exchange.
@type preference: C{int}
@ivar preference: Specifies the preference given to this RR among others at
the same owner. Lower values are preferred.
@type name: L{Name}
@ivar name: A domain-name which specifies a host willing to act as a mail
exchange.
@type ttl: C{int}
@ivar ttl: The maximum number of seconds which this record should be
cached.
"""
TYPE = MX
fancybasename = 'MX'
compareAttributes = ('preference', 'name', 'ttl')
showAttributes = ('preference', ('name', 'name', '%s'), 'ttl')
def __init__(self, preference=0, name=b'', ttl=None, **kwargs):
self.preference, self.name = int(preference), Name(kwargs.get('exchange', name))
self.ttl = str2time(ttl)
def encode(self, strio, compDict = None):
strio.write(struct.pack('!H', self.preference))
self.name.encode(strio, compDict)
def decode(self, strio, length = None):
self.preference = struct.unpack('!H', readPrecisely(strio, 2))[0]
self.name = Name()
self.name.decode(strio)
def __hash__(self):
return hash((self.preference, self.name))
@implementer(IEncodable, IRecord)
class Record_TXT(tputil.FancyEqMixin, tputil.FancyStrMixin):
"""
Freeform text.
@type data: C{list} of C{bytes}
@ivar data: Freeform text which makes up this record.
@type ttl: C{int}
@ivar ttl: The maximum number of seconds which this record should be cached.
"""
TYPE = TXT
fancybasename = 'TXT'
showAttributes = (('data', _nicebyteslist), 'ttl')
compareAttributes = ('data', 'ttl')
def __init__(self, *data, **kw):
self.data = list(data)
# arg man python sucks so bad
self.ttl = str2time(kw.get('ttl', None))
def encode(self, strio, compDict=None):
for d in self.data:
strio.write(struct.pack('!B', len(d)) + d)
def decode(self, strio, length=None):
soFar = 0
self.data = []
while soFar < length:
L = struct.unpack('!B', readPrecisely(strio, 1))[0]
self.data.append(readPrecisely(strio, L))
soFar += L + 1
if soFar != length:
log.msg(
"Decoded %d bytes in %s record, but rdlength is %d" % (
soFar, self.fancybasename, length
)
)
def __hash__(self):
return hash(tuple(self.data))
@implementer(IEncodable, IRecord)
class UnknownRecord(tputil.FancyEqMixin, tputil.FancyStrMixin, object):
"""
Encapsulate the wire data for unknown record types so that they can
pass through the system unchanged.
@type data: C{bytes}
@ivar data: Wire data which makes up this record.
@type ttl: C{int}
@ivar ttl: The maximum number of seconds which this record should be cached.
@since: 11.1
"""
fancybasename = 'UNKNOWN'
compareAttributes = ('data', 'ttl')
showAttributes = (('data', _nicebytes), 'ttl')
def __init__(self, data=b'', ttl=None):
self.data = data
self.ttl = str2time(ttl)
def encode(self, strio, compDict=None):
"""
Write the raw bytes corresponding to this record's payload to the
stream.
"""
strio.write(self.data)
def decode(self, strio, length=None):
"""
Load the bytes which are part of this record from the stream and store
them unparsed and unmodified.
"""
if length is None:
raise Exception('must know length for unknown record types')
self.data = readPrecisely(strio, length)
def __hash__(self):
return hash((self.data, self.ttl))
class Record_SPF(Record_TXT):
"""
Structurally, freeform text. Semantically, a policy definition, formatted
as defined in U{rfc 4408<http://www.faqs.org/rfcs/rfc4408.html>}.
@type data: C{list} of C{str}
@ivar data: Freeform text which makes up this record.
@type ttl: C{int}
@ivar ttl: The maximum number of seconds which this record should be cached.
"""
TYPE = SPF
fancybasename = 'SPF'
def _responseFromMessage(responseConstructor, message, **kwargs):
"""
Generate a L{Message} like instance suitable for use as the response to
C{message}.
The C{queries}, C{id} attributes will be copied from C{message} and the
C{answer} flag will be set to L{True}.
@param responseConstructor: A response message constructor with an
initializer signature matching L{dns.Message.__init__}.
@type responseConstructor: C{callable}
@param message: A request message.
@type message: L{Message}
@param kwargs: Keyword arguments which will be passed to the initialiser
of the response message.
@type kwargs: L{dict}
@return: A L{Message} like response instance.
@rtype: C{responseConstructor}
"""
response = responseConstructor(id=message.id, answer=True, **kwargs)
response.queries = message.queries[:]
return response
def _compactRepr(obj, alwaysShow=None, flagNames=None, fieldNames=None,
sectionNames=None):
"""
Return a L{str} representation of C{obj} which only shows fields with
non-default values, flags which are True and sections which have been
explicitly set.
@param obj: The instance whose repr is being generated.
@param alwaysShow: A L{list} of field names which should always be shown.
@param flagNames: A L{list} of flag attribute names which should be shown if
they are L{True}.
@param fieldNames: A L{list} of field attribute names which should be shown
if they have non-default values.
@param sectionNames: A L{list} of section attribute names which should be
shown if they have been assigned a value.
@return: A L{str} representation of C{obj}.
"""
if alwaysShow is None:
alwaysShow = []
if flagNames is None:
flagNames = []
if fieldNames is None:
fieldNames = []
if sectionNames is None:
sectionNames = []
setFlags = []
for name in flagNames:
if name in alwaysShow or getattr(obj, name, False) == True:
setFlags.append(name)
out = ['<', obj.__class__.__name__]
# Get the argument names and values from the constructor.
argspec = inspect.getargspec(obj.__class__.__init__)
# Reverse the args and defaults to avoid mapping positional arguments
# which don't have a default.
defaults = dict(zip(reversed(argspec.args), reversed(argspec.defaults)))
for name in fieldNames:
defaultValue = defaults.get(name)
fieldValue = getattr(obj, name, defaultValue)
if (name in alwaysShow) or (fieldValue != defaultValue):
out.append(' %s=%r' % (name, fieldValue))
if setFlags:
out.append(' flags=%s' % (','.join(setFlags),))
for name in sectionNames:
section = getattr(obj, name, [])
if section:
out.append(' %s=%r' % (name, section))
out.append('>')
return ''.join(out)
class Message(tputil.FancyEqMixin):
"""
L{Message} contains all the information represented by a single
DNS request or response.
@ivar id: See L{__init__}
@ivar answer: See L{__init__}
@ivar opCode: See L{__init__}
@ivar recDes: See L{__init__}
@ivar recAv: See L{__init__}
@ivar auth: See L{__init__}
@ivar rCode: See L{__init__}
@ivar trunc: See L{__init__}
@ivar maxSize: See L{__init__}
@ivar authenticData: See L{__init__}
@ivar checkingDisabled: See L{__init__}
@ivar queries: The queries which are being asked of or answered by
DNS server.
@type queries: L{list} of L{Query}
@ivar answers: Records containing the answers to C{queries} if
this is a response message.
@type answers: L{list} of L{RRHeader}
@ivar authority: Records containing information about the
authoritative DNS servers for the names in C{queries}.
@type authority: L{list} of L{RRHeader}
@ivar additional: Records containing IP addresses of host names
in C{answers} and C{authority}.
@type additional: L{list} of L{RRHeader}
@ivar _flagNames: The names of attributes representing the flag header
fields.
@ivar _fieldNames: The names of attributes representing non-flag fixed
header fields.
@ivar _sectionNames: The names of attributes representing the record
sections of this message.
"""
compareAttributes = (
'id', 'answer', 'opCode', 'recDes', 'recAv',
'auth', 'rCode', 'trunc', 'maxSize',
'authenticData', 'checkingDisabled',
'queries', 'answers', 'authority', 'additional'
)
headerFmt = "!H2B4H"
headerSize = struct.calcsize(headerFmt)
# Question, answer, additional, and nameserver lists
queries = answers = add = ns = None
def __init__(self, id=0, answer=0, opCode=0, recDes=0, recAv=0,
auth=0, rCode=OK, trunc=0, maxSize=512,
authenticData=0, checkingDisabled=0):
"""
@param id: A 16 bit identifier assigned by the program that
generates any kind of query. This identifier is copied to
the corresponding reply and can be used by the requester
to match up replies to outstanding queries.
@type id: L{int}
@param answer: A one bit field that specifies whether this
message is a query (0), or a response (1).
@type answer: L{int}
@param opCode: A four bit field that specifies kind of query in
this message. This value is set by the originator of a query
and copied into the response.
@type opCode: L{int}
@param recDes: Recursion Desired - this bit may be set in a
query and is copied into the response. If RD is set, it
directs the name server to pursue the query recursively.
Recursive query support is optional.
@type recDes: L{int}
@param recAv: Recursion Available - this bit is set or cleared
in a response and denotes whether recursive query support
is available in the name server.
@type recAv: L{int}
@param auth: Authoritative Answer - this bit is valid in
responses and specifies that the responding name server
is an authority for the domain name in question section.
@type auth: L{int}
@ivar rCode: A response code, used to indicate success or failure in a
message which is a response from a server to a client request.
@type rCode: C{0 <= int < 16}
@param trunc: A flag indicating that this message was
truncated due to length greater than that permitted on the
transmission channel.
@type trunc: L{int}
@param maxSize: The requestor's UDP payload size is the number
of octets of the largest UDP payload that can be
reassembled and delivered in the requestor's network
stack.
@type maxSize: L{int}
@param authenticData: A flag indicating in a response that all
the data included in the answer and authority portion of
the response has been authenticated by the server
according to the policies of that server.
See U{RFC2535 section-6.1<https://tools.ietf.org/html/rfc2535#section-6.1>}.
@type authenticData: L{int}
@param checkingDisabled: A flag indicating in a query that
pending (non-authenticated) data is acceptable to the
resolver sending the query.
See U{RFC2535 section-6.1<https://tools.ietf.org/html/rfc2535#section-6.1>}.
@type authenticData: L{int}
"""
self.maxSize = maxSize
self.id = id
self.answer = answer
self.opCode = opCode
self.auth = auth
self.trunc = trunc
self.recDes = recDes
self.recAv = recAv
self.rCode = rCode
self.authenticData = authenticData
self.checkingDisabled = checkingDisabled
self.queries = []
self.answers = []
self.authority = []
self.additional = []
def __repr__(self):
"""
Generate a repr of this L{Message}.
Only includes the non-default fields and sections and only includes
flags which are set. The C{id} is always shown.
@return: The native string repr.
"""
return _compactRepr(
self,
flagNames=('answer', 'auth', 'trunc', 'recDes', 'recAv',
'authenticData', 'checkingDisabled'),
fieldNames=('id', 'opCode', 'rCode', 'maxSize'),
sectionNames=('queries', 'answers', 'authority', 'additional'),
alwaysShow=('id',)
)
def addQuery(self, name, type=ALL_RECORDS, cls=IN):
"""
Add another query to this Message.
@type name: C{bytes}
@param name: The name to query.
@type type: C{int}
@param type: Query type
@type cls: C{int}
@param cls: Query class
"""
self.queries.append(Query(name, type, cls))
def encode(self, strio):
compDict = {}
body_tmp = BytesIO()
for q in self.queries:
q.encode(body_tmp, compDict)
for q in self.answers:
q.encode(body_tmp, compDict)
for q in self.authority:
q.encode(body_tmp, compDict)
for q in self.additional:
q.encode(body_tmp, compDict)
body = body_tmp.getvalue()
size = len(body) + self.headerSize
if self.maxSize and size > self.maxSize:
self.trunc = 1
body = body[:self.maxSize - self.headerSize]
byte3 = (( ( self.answer & 1 ) << 7 )
| ((self.opCode & 0xf ) << 3 )
| ((self.auth & 1 ) << 2 )
| ((self.trunc & 1 ) << 1 )
| ( self.recDes & 1 ) )
byte4 = ( ( (self.recAv & 1 ) << 7 )
| ((self.authenticData & 1) << 5)
| ((self.checkingDisabled & 1) << 4)
| (self.rCode & 0xf ) )
strio.write(struct.pack(self.headerFmt, self.id, byte3, byte4,
len(self.queries), len(self.answers),
len(self.authority), len(self.additional)))
strio.write(body)
def decode(self, strio, length=None):
self.maxSize = 0
header = readPrecisely(strio, self.headerSize)
r = struct.unpack(self.headerFmt, header)
self.id, byte3, byte4, nqueries, nans, nns, nadd = r
self.answer = ( byte3 >> 7 ) & 1
self.opCode = ( byte3 >> 3 ) & 0xf
self.auth = ( byte3 >> 2 ) & 1
self.trunc = ( byte3 >> 1 ) & 1
self.recDes = byte3 & 1
self.recAv = ( byte4 >> 7 ) & 1
self.authenticData = ( byte4 >> 5 ) & 1
self.checkingDisabled = ( byte4 >> 4 ) & 1
self.rCode = byte4 & 0xf
self.queries = []
for i in range(nqueries):
q = Query()
try:
q.decode(strio)
except EOFError:
return
self.queries.append(q)
items = (
(self.answers, nans),
(self.authority, nns),
(self.additional, nadd))
for (l, n) in items:
self.parseRecords(l, n, strio)
def parseRecords(self, list, num, strio):
for i in range(num):
header = RRHeader(auth=self.auth)
try:
header.decode(strio)
except EOFError:
return
t = self.lookupRecordType(header.type)
if not t:
continue
header.payload = t(ttl=header.ttl)
try:
header.payload.decode(strio, header.rdlength)
except EOFError:
return
list.append(header)
# Create a mapping from record types to their corresponding Record_*
# classes. This relies on the global state which has been created so
# far in initializing this module (so don't define Record classes after
# this).
_recordTypes = {}
for name in globals():
if name.startswith('Record_'):
_recordTypes[globals()[name].TYPE] = globals()[name]
# Clear the iteration variable out of the class namespace so it
# doesn't become an attribute.
del name
def lookupRecordType(self, type):
"""
Retrieve the L{IRecord} implementation for the given record type.
@param type: A record type, such as L{A} or L{NS}.
@type type: C{int}
@return: An object which implements L{IRecord} or C{None} if none
can be found for the given type.
@rtype: L{types.ClassType}
"""
return self._recordTypes.get(type, UnknownRecord)
def toStr(self):
"""
Encode this L{Message} into a byte string in the format described by RFC
1035.
@rtype: C{bytes}
"""
strio = BytesIO()
self.encode(strio)
return strio.getvalue()
def fromStr(self, str):
"""
Decode a byte string in the format described by RFC 1035 into this
L{Message}.
@param str: L{bytes}
"""
strio = BytesIO(str)
self.decode(strio)
class _EDNSMessage(tputil.FancyEqMixin, object):
"""
An I{EDNS} message.
Designed for compatibility with L{Message} but with a narrower public
interface.
Most importantly, L{_EDNSMessage.fromStr} will interpret and remove I{OPT}
records that are present in the additional records section.
The I{OPT} records are used to populate certain I{EDNS} specific attributes.
L{_EDNSMessage.toStr} will add suitable I{OPT} records to the additional
section to represent the extended EDNS information.
@see: U{https://tools.ietf.org/html/rfc6891}
@ivar id: See L{__init__}
@ivar answer: See L{__init__}
@ivar opCode: See L{__init__}
@ivar auth: See L{__init__}
@ivar trunc: See L{__init__}
@ivar recDes: See L{__init__}
@ivar recAv: See L{__init__}
@ivar rCode: See L{__init__}
@ivar ednsVersion: See L{__init__}
@ivar dnssecOK: See L{__init__}
@ivar authenticData: See L{__init__}
@ivar checkingDisabled: See L{__init__}
@ivar maxSize: See L{__init__}
@ivar queries: See L{__init__}
@ivar answers: See L{__init__}
@ivar authority: See L{__init__}
@ivar additional: See L{__init__}
@ivar _messageFactory: A constructor of L{Message} instances. Called by
C{_toMessage} and C{_fromMessage}.
"""
compareAttributes = (
'id', 'answer', 'opCode', 'auth', 'trunc',
'recDes', 'recAv', 'rCode', 'ednsVersion', 'dnssecOK',
'authenticData', 'checkingDisabled', 'maxSize',
'queries', 'answers', 'authority', 'additional')
_messageFactory = Message
def __init__(self, id=0, answer=False, opCode=OP_QUERY, auth=False,
trunc=False, recDes=False, recAv=False, rCode=0,
ednsVersion=0, dnssecOK=False, authenticData=False,
checkingDisabled=False, maxSize=512,
queries=None, answers=None, authority=None, additional=None):
"""
Construct a new L{_EDNSMessage}
@see U{RFC1035 section-4.1.1<https://tools.ietf.org/html/rfc1035#section-4.1.1>}
@see U{RFC2535 section-6.1<https://tools.ietf.org/html/rfc2535#section-6.1>}
@see U{RFC3225 section-3<https://tools.ietf.org/html/rfc3225#section-3>}
@see U{RFC6891 section-6.1.3<https://tools.ietf.org/html/rfc6891#section-6.1.3>}
@param id: A 16 bit identifier assigned by the program that generates
any kind of query. This identifier is copied the corresponding
reply and can be used by the requester to match up replies to
outstanding queries.
@type id: L{int}
@param answer: A one bit field that specifies whether this message is a
query (0), or a response (1).
@type answer: L{bool}
@param opCode: A four bit field that specifies kind of query in this
message. This value is set by the originator of a query and copied
into the response.
@type opCode: L{int}
@param auth: Authoritative Answer - this bit is valid in responses, and
specifies that the responding name server is an authority for the
domain name in question section.
@type auth: L{bool}
@param trunc: Truncation - specifies that this message was truncated due
to length greater than that permitted on the transmission channel.
@type trunc: L{bool}
@param recDes: Recursion Desired - this bit may be set in a query and is
copied into the response. If set, it directs the name server to
pursue the query recursively. Recursive query support is optional.
@type recDes: L{bool}
@param recAv: Recursion Available - this bit is set or cleared in a
response, and denotes whether recursive query support is available
in the name server.
@type recAv: L{bool}
@param rCode: Extended 12-bit RCODE. Derived from the 4 bits defined in
U{RFC1035 4.1.1<https://tools.ietf.org/html/rfc1035#section-4.1.1>}
and the upper 8bits defined in U{RFC6891
6.1.3<https://tools.ietf.org/html/rfc6891#section-6.1.3>}.
@type rCode: L{int}
@param ednsVersion: Indicates the EDNS implementation level. Set to
L{None} to prevent any EDNS attributes and options being added to
the encoded byte string.
@type ednsVersion: L{int} or L{None}
@param dnssecOK: DNSSEC OK bit as defined by
U{RFC3225 3<https://tools.ietf.org/html/rfc3225#section-3>}.
@type dnssecOK: C{bool}
@param authenticData: A flag indicating in a response that all the data
included in the answer and authority portion of the response has
been authenticated by the server according to the policies of that
server.
See U{RFC2535 section-6.1<https://tools.ietf.org/html/rfc2535#section-6.1>}.
@type authenticData: L{bool}
@param checkingDisabled: A flag indicating in a query that pending
(non-authenticated) data is acceptable to the resolver sending the
query.
See U{RFC2535 section-6.1<https://tools.ietf.org/html/rfc2535#section-6.1>}.
@type authenticData: L{bool}
@param maxSize: The requestor's UDP payload size is the number of octets
of the largest UDP payload that can be reassembled and delivered in
the requestor's network stack.
@type maxSize: L{int}
@param queries: The L{list} of L{Query} associated with this message.
@type queries: L{list} of L{Query}
@param answers: The L{list} of answers associated with this message.
@type answers: L{list} of L{RRHeader}
@param authority: The L{list} of authority records associated with this
message.
@type authority: L{list} of L{RRHeader}
@param additional: The L{list} of additional records associated with
this message.
@type additional: L{list} of L{RRHeader}
"""
self.id = id
self.answer = answer
self.opCode = opCode
self.auth = auth
self.trunc = trunc
self.recDes = recDes
self.recAv = recAv
self.rCode = rCode
self.ednsVersion = ednsVersion
self.dnssecOK = dnssecOK
self.authenticData = authenticData
self.checkingDisabled = checkingDisabled
self.maxSize = maxSize
if queries is None:
queries = []
self.queries = queries
if answers is None:
answers = []
self.answers = answers
if authority is None:
authority = []
self.authority = authority
if additional is None:
additional = []
self.additional = additional
def __repr__(self):
return _compactRepr(
self,
flagNames=('answer', 'auth', 'trunc', 'recDes', 'recAv',
'authenticData', 'checkingDisabled', 'dnssecOK'),
fieldNames=('id', 'opCode', 'rCode', 'maxSize', 'ednsVersion'),
sectionNames=('queries', 'answers', 'authority', 'additional'),
alwaysShow=('id',)
)
def _toMessage(self):
"""
Convert to a standard L{dns.Message}.
If C{ednsVersion} is not None, an L{_OPTHeader} instance containing all
the I{EDNS} specific attributes and options will be appended to the list
of C{additional} records.
@return: A L{dns.Message}
@rtype: L{dns.Message}
"""
m = self._messageFactory(
id=self.id,
answer=self.answer,
opCode=self.opCode,
auth=self.auth,
trunc=self.trunc,
recDes=self.recDes,
recAv=self.recAv,
# Assign the lower 4 bits to the message
rCode=self.rCode & 0xf,
authenticData=self.authenticData,
checkingDisabled=self.checkingDisabled)
m.queries = self.queries[:]
m.answers = self.answers[:]
m.authority = self.authority[:]
m.additional = self.additional[:]
if self.ednsVersion is not None:
o = _OPTHeader(version=self.ednsVersion,
dnssecOK=self.dnssecOK,
udpPayloadSize=self.maxSize,
# Assign the upper 8 bits to the OPT record
extendedRCODE=self.rCode >> 4)
m.additional.append(o)
return m
def toStr(self):
"""
Encode to wire format by first converting to a standard L{dns.Message}.
@return: A L{bytes} string.
"""
return self._toMessage().toStr()
@classmethod
def _fromMessage(cls, message):
"""
Construct and return a new L(_EDNSMessage} whose attributes and records
are derived from the attributes and records of C{message} (a L{Message}
instance)
If present, an I{OPT} record will be extracted from the C{additional}
section and its attributes and options will be used to set the EDNS
specific attributes C{extendedRCODE}, c{ednsVersion}, c{dnssecOK},
c{ednsOptions}.
The C{extendedRCODE} will be combined with C{message.rCode} and assigned
to C{self.rCode}.
@param message: The source L{Message}.
@type message: L{Message}
@return: A new L{_EDNSMessage}
@rtype: L{_EDNSMessage}
"""
additional = []
optRecords = []
for r in message.additional:
if r.type == OPT:
optRecords.append(_OPTHeader.fromRRHeader(r))
else:
additional.append(r)
newMessage = cls(
id=message.id,
answer=message.answer,
opCode=message.opCode,
auth=message.auth,
trunc=message.trunc,
recDes=message.recDes,
recAv=message.recAv,
rCode=message.rCode,
authenticData=message.authenticData,
checkingDisabled=message.checkingDisabled,
# Default to None, it will be updated later when the OPT records are
# parsed.
ednsVersion=None,
dnssecOK=False,
queries=message.queries[:],
answers=message.answers[:],
authority=message.authority[:],
additional=additional,
)
if len(optRecords) == 1:
# XXX: If multiple OPT records are received, an EDNS server should
# respond with FORMERR. See ticket:5669#comment:1.
opt = optRecords[0]
newMessage.ednsVersion = opt.version
newMessage.dnssecOK = opt.dnssecOK
newMessage.maxSize = opt.udpPayloadSize
newMessage.rCode = opt.extendedRCODE << 4 | message.rCode
return newMessage
def fromStr(self, bytes):
"""
Decode from wire format, saving flags, values and records to this
L{_EDNSMessage} instance in place.
@param bytes: The full byte string to be decoded.
@type bytes: L{bytes}
"""
m = self._messageFactory()
m.fromStr(bytes)
ednsMessage = self._fromMessage(m)
for attrName in self.compareAttributes:
setattr(self, attrName, getattr(ednsMessage, attrName))
class DNSMixin(object):
"""
DNS protocol mixin shared by UDP and TCP implementations.
@ivar _reactor: A L{IReactorTime} and L{IReactorUDP} provider which will
be used to issue DNS queries and manage request timeouts.
"""
id = None
liveMessages = None
def __init__(self, controller, reactor=None):
self.controller = controller
self.id = random.randrange(2 ** 10, 2 ** 15)
if reactor is None:
from twisted.internet import reactor
self._reactor = reactor
def pickID(self):
"""
Return a unique ID for queries.
"""
while True:
id = randomSource()
if id not in self.liveMessages:
return id
def callLater(self, period, func, *args):
"""
Wrapper around reactor.callLater, mainly for test purpose.
"""
return self._reactor.callLater(period, func, *args)
def _query(self, queries, timeout, id, writeMessage):
"""
Send out a message with the given queries.
@type queries: C{list} of C{Query} instances
@param queries: The queries to transmit
@type timeout: C{int} or C{float}
@param timeout: How long to wait before giving up
@type id: C{int}
@param id: Unique key for this request
@type writeMessage: C{callable}
@param writeMessage: One-parameter callback which writes the message
@rtype: C{Deferred}
@return: a C{Deferred} which will be fired with the result of the
query, or errbacked with any errors that could happen (exceptions
during writing of the query, timeout errors, ...).
"""
m = Message(id, recDes=1)
m.queries = queries
try:
writeMessage(m)
except:
return defer.fail()
resultDeferred = defer.Deferred()
cancelCall = self.callLater(timeout, self._clearFailed, resultDeferred, id)
self.liveMessages[id] = (resultDeferred, cancelCall)
return resultDeferred
def _clearFailed(self, deferred, id):
"""
Clean the Deferred after a timeout.
"""
try:
del self.liveMessages[id]
except KeyError:
pass
deferred.errback(failure.Failure(DNSQueryTimeoutError(id)))
class DNSDatagramProtocol(DNSMixin, protocol.DatagramProtocol):
"""
DNS protocol over UDP.
"""
resends = None
def stopProtocol(self):
"""
Stop protocol: reset state variables.
"""
self.liveMessages = {}
self.resends = {}
self.transport = None
def startProtocol(self):
"""
Upon start, reset internal state.
"""
self.liveMessages = {}
self.resends = {}
def writeMessage(self, message, address):
"""
Send a message holding DNS queries.
@type message: L{Message}
"""
self.transport.write(message.toStr(), address)
def startListening(self):
self._reactor.listenUDP(0, self, maxPacketSize=512)
def datagramReceived(self, data, addr):
"""
Read a datagram, extract the message in it and trigger the associated
Deferred.
"""
m = Message()
try:
m.fromStr(data)
except EOFError:
log.msg("Truncated packet (%d bytes) from %s" % (len(data), addr))
return
except:
# Nothing should trigger this, but since we're potentially
# invoking a lot of different decoding methods, we might as well
# be extra cautious. Anything that triggers this is itself
# buggy.
log.err(failure.Failure(), "Unexpected decoding error")
return
if m.id in self.liveMessages:
d, canceller = self.liveMessages[m.id]
del self.liveMessages[m.id]
canceller.cancel()
# XXX we shouldn't need this hack of catching exception on callback()
try:
d.callback(m)
except:
log.err()
else:
if m.id not in self.resends:
self.controller.messageReceived(m, self, addr)
def removeResend(self, id):
"""
Mark message ID as no longer having duplication suppression.
"""
try:
del self.resends[id]
except KeyError:
pass
def query(self, address, queries, timeout=10, id=None):
"""
Send out a message with the given queries.
@type address: C{tuple} of C{str} and C{int}
@param address: The address to which to send the query
@type queries: C{list} of C{Query} instances
@param queries: The queries to transmit
@rtype: C{Deferred}
"""
if not self.transport:
# XXX transport might not get created automatically, use callLater?
try:
self.startListening()
except CannotListenError:
return defer.fail()
if id is None:
id = self.pickID()
else:
self.resends[id] = 1
def writeMessage(m):
self.writeMessage(m, address)
return self._query(queries, timeout, id, writeMessage)
class DNSProtocol(DNSMixin, protocol.Protocol):
"""
DNS protocol over TCP.
"""
length = None
buffer = b''
def writeMessage(self, message):
"""
Send a message holding DNS queries.
@type message: L{Message}
"""
s = message.toStr()
self.transport.write(struct.pack('!H', len(s)) + s)
def connectionMade(self):
"""
Connection is made: reset internal state, and notify the controller.
"""
self.liveMessages = {}
self.controller.connectionMade(self)
def connectionLost(self, reason):
"""
Notify the controller that this protocol is no longer
connected.
"""
self.controller.connectionLost(self)
def dataReceived(self, data):
self.buffer += data
while self.buffer:
if self.length is None and len(self.buffer) >= 2:
self.length = struct.unpack('!H', self.buffer[:2])[0]
self.buffer = self.buffer[2:]
if len(self.buffer) >= self.length:
myChunk = self.buffer[:self.length]
m = Message()
m.fromStr(myChunk)
try:
d, canceller = self.liveMessages[m.id]
except KeyError:
self.controller.messageReceived(m, self)
else:
del self.liveMessages[m.id]
canceller.cancel()
# XXX we shouldn't need this hack
try:
d.callback(m)
except:
log.err()
self.buffer = self.buffer[self.length:]
self.length = None
else:
break
def query(self, queries, timeout=60):
"""
Send out a message with the given queries.
@type queries: C{list} of C{Query} instances
@param queries: The queries to transmit
@rtype: C{Deferred}
"""
id = self.pickID()
return self._query(queries, timeout, id, self.writeMessage)