bazarr/libs/dns/zone.py

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# Copyright (C) Dnspython Contributors, see LICENSE for text of ISC license
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# Copyright (C) 2003-2007, 2009-2011 Nominum, Inc.
#
# Permission to use, copy, modify, and distribute this software and its
# documentation for any purpose with or without fee is hereby granted,
# provided that the above copyright notice and this permission notice
# appear in all copies.
#
# THE SOFTWARE IS PROVIDED "AS IS" AND NOMINUM DISCLAIMS ALL WARRANTIES
# WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
# MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL NOMINUM BE LIABLE FOR
# ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
# WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
# ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT
# OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
"""DNS Zones."""
import contextlib
import hashlib
import io
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import os
import struct
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import dns.exception
import dns.immutable
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import dns.name
import dns.node
import dns.rdataclass
import dns.rdatatype
import dns.rdata
import dns.rdtypes.ANY.SOA
import dns.rdtypes.ANY.ZONEMD
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import dns.rrset
import dns.tokenizer
import dns.transaction
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import dns.ttl
import dns.grange
import dns.zonefile
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class BadZone(dns.exception.DNSException):
"""The DNS zone is malformed."""
class NoSOA(BadZone):
"""The DNS zone has no SOA RR at its origin."""
class NoNS(BadZone):
"""The DNS zone has no NS RRset at its origin."""
class UnknownOrigin(BadZone):
"""The DNS zone's origin is unknown."""
class UnsupportedDigestScheme(dns.exception.DNSException):
"""The zone digest's scheme is unsupported."""
class UnsupportedDigestHashAlgorithm(dns.exception.DNSException):
"""The zone digest's origin is unsupported."""
class NoDigest(dns.exception.DNSException):
"""The DNS zone has no ZONEMD RRset at its origin."""
class DigestVerificationFailure(dns.exception.DNSException):
"""The ZONEMD digest failed to verify."""
class DigestScheme(dns.enum.IntEnum):
"""ZONEMD Scheme"""
SIMPLE = 1
@classmethod
def _maximum(cls):
return 255
class DigestHashAlgorithm(dns.enum.IntEnum):
"""ZONEMD Hash Algorithm"""
SHA384 = 1
SHA512 = 2
@classmethod
def _maximum(cls):
return 255
_digest_hashers = {
DigestHashAlgorithm.SHA384: hashlib.sha384,
DigestHashAlgorithm.SHA512: hashlib.sha512,
}
class Zone(dns.transaction.TransactionManager):
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"""A DNS zone.
A ``Zone`` is a mapping from names to nodes. The zone object may be
treated like a Python dictionary, e.g. ``zone[name]`` will retrieve
the node associated with that name. The *name* may be a
``dns.name.Name object``, or it may be a string. In either case,
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if the name is relative it is treated as relative to the origin of
the zone.
"""
node_factory = dns.node.Node
__slots__ = ['rdclass', 'origin', 'nodes', 'relativize']
def __init__(self, origin, rdclass=dns.rdataclass.IN, relativize=True):
"""Initialize a zone object.
*origin* is the origin of the zone. It may be a ``dns.name.Name``,
a ``str``, or ``None``. If ``None``, then the zone's origin will
be set by the first ``$ORIGIN`` line in a zone file.
*rdclass*, an ``int``, the zone's rdata class; the default is class IN.
*relativize*, a ``bool``, determine's whether domain names are
relativized to the zone's origin. The default is ``True``.
"""
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if origin is not None:
if isinstance(origin, str):
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origin = dns.name.from_text(origin)
elif not isinstance(origin, dns.name.Name):
raise ValueError("origin parameter must be convertible to a "
"DNS name")
if not origin.is_absolute():
raise ValueError("origin parameter must be an absolute name")
self.origin = origin
self.rdclass = rdclass
self.nodes = {}
self.relativize = relativize
def __eq__(self, other):
"""Two zones are equal if they have the same origin, class, and
nodes.
Returns a ``bool``.
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"""
if not isinstance(other, Zone):
return False
if self.rdclass != other.rdclass or \
self.origin != other.origin or \
self.nodes != other.nodes:
return False
return True
def __ne__(self, other):
"""Are two zones not equal?
Returns a ``bool``.
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"""
return not self.__eq__(other)
def _validate_name(self, name):
if isinstance(name, str):
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name = dns.name.from_text(name, None)
elif not isinstance(name, dns.name.Name):
raise KeyError("name parameter must be convertible to a DNS name")
if name.is_absolute():
if not name.is_subdomain(self.origin):
raise KeyError(
"name parameter must be a subdomain of the zone origin")
if self.relativize:
name = name.relativize(self.origin)
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elif not self.relativize:
# We have a relative name in a non-relative zone, so derelativize.
if self.origin is None:
raise KeyError('no zone origin is defined')
name = name.derelativize(self.origin)
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return name
def __getitem__(self, key):
key = self._validate_name(key)
return self.nodes[key]
def __setitem__(self, key, value):
key = self._validate_name(key)
self.nodes[key] = value
def __delitem__(self, key):
key = self._validate_name(key)
del self.nodes[key]
def __iter__(self):
return self.nodes.__iter__()
def keys(self):
return self.nodes.keys()
def values(self):
return self.nodes.values()
def items(self):
return self.nodes.items()
def get(self, key):
key = self._validate_name(key)
return self.nodes.get(key)
def __contains__(self, key):
key = self._validate_name(key)
return key in self.nodes
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def find_node(self, name, create=False):
"""Find a node in the zone, possibly creating it.
*name*: the name of the node to find.
The value may be a ``dns.name.Name`` or a ``str``. If absolute, the
name must be a subdomain of the zone's origin. If ``zone.relativize``
is ``True``, then the name will be relativized.
*create*, a ``bool``. If true, the node will be created if it does
not exist.
Raises ``KeyError`` if the name is not known and create was
not specified, or if the name was not a subdomain of the origin.
Returns a ``dns.node.Node``.
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"""
name = self._validate_name(name)
node = self.nodes.get(name)
if node is None:
if not create:
raise KeyError
node = self.node_factory()
self.nodes[name] = node
return node
def get_node(self, name, create=False):
"""Get a node in the zone, possibly creating it.
This method is like ``find_node()``, except it returns None instead
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of raising an exception if the node does not exist and creation
has not been requested.
*name*: the name of the node to find.
The value may be a ``dns.name.Name`` or a ``str``. If absolute, the
name must be a subdomain of the zone's origin. If ``zone.relativize``
is ``True``, then the name will be relativized.
*create*, a ``bool``. If true, the node will be created if it does
not exist.
Raises ``KeyError`` if the name is not known and create was
not specified, or if the name was not a subdomain of the origin.
Returns a ``dns.node.Node`` or ``None``.
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"""
try:
node = self.find_node(name, create)
except KeyError:
node = None
return node
def delete_node(self, name):
"""Delete the specified node if it exists.
*name*: the name of the node to find.
The value may be a ``dns.name.Name`` or a ``str``. If absolute, the
name must be a subdomain of the zone's origin. If ``zone.relativize``
is ``True``, then the name will be relativized.
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It is not an error if the node does not exist.
"""
name = self._validate_name(name)
if name in self.nodes:
del self.nodes[name]
def find_rdataset(self, name, rdtype, covers=dns.rdatatype.NONE,
create=False):
"""Look for an rdataset with the specified name and type in the zone,
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and return an rdataset encapsulating it.
The rdataset returned is not a copy; changes to it will change
the zone.
KeyError is raised if the name or type are not found.
*name*: the name of the node to find.
The value may be a ``dns.name.Name`` or a ``str``. If absolute, the
name must be a subdomain of the zone's origin. If ``zone.relativize``
is ``True``, then the name will be relativized.
*rdtype*, an ``int`` or ``str``, the rdata type desired.
*covers*, an ``int`` or ``str`` or ``None``, the covered type.
Usually this value is ``dns.rdatatype.NONE``, but if the
rdtype is ``dns.rdatatype.SIG`` or ``dns.rdatatype.RRSIG``,
then the covers value will be the rdata type the SIG/RRSIG
covers. The library treats the SIG and RRSIG types as if they
were a family of types, e.g. RRSIG(A), RRSIG(NS), RRSIG(SOA).
This makes RRSIGs much easier to work with than if RRSIGs
covering different rdata types were aggregated into a single
RRSIG rdataset.
*create*, a ``bool``. If true, the node will be created if it does
not exist.
Raises ``KeyError`` if the name is not known and create was
not specified, or if the name was not a subdomain of the origin.
Returns a ``dns.rdataset.Rdataset``.
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"""
name = self._validate_name(name)
rdtype = dns.rdatatype.RdataType.make(rdtype)
if covers is not None:
covers = dns.rdatatype.RdataType.make(covers)
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node = self.find_node(name, create)
return node.find_rdataset(self.rdclass, rdtype, covers, create)
def get_rdataset(self, name, rdtype, covers=dns.rdatatype.NONE,
create=False):
"""Look for an rdataset with the specified name and type in the zone.
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This method is like ``find_rdataset()``, except it returns None instead
of raising an exception if the rdataset does not exist and creation
has not been requested.
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The rdataset returned is not a copy; changes to it will change
the zone.
*name*: the name of the node to find.
The value may be a ``dns.name.Name`` or a ``str``. If absolute, the
name must be a subdomain of the zone's origin. If ``zone.relativize``
is ``True``, then the name will be relativized.
*rdtype*, an ``int`` or ``str``, the rdata type desired.
*covers*, an ``int`` or ``str`` or ``None``, the covered type.
Usually this value is ``dns.rdatatype.NONE``, but if the
rdtype is ``dns.rdatatype.SIG`` or ``dns.rdatatype.RRSIG``,
then the covers value will be the rdata type the SIG/RRSIG
covers. The library treats the SIG and RRSIG types as if they
were a family of types, e.g. RRSIG(A), RRSIG(NS), RRSIG(SOA).
This makes RRSIGs much easier to work with than if RRSIGs
covering different rdata types were aggregated into a single
RRSIG rdataset.
*create*, a ``bool``. If true, the node will be created if it does
not exist.
Raises ``KeyError`` if the name is not known and create was
not specified, or if the name was not a subdomain of the origin.
Returns a ``dns.rdataset.Rdataset`` or ``None``.
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"""
try:
rdataset = self.find_rdataset(name, rdtype, covers, create)
except KeyError:
rdataset = None
return rdataset
def delete_rdataset(self, name, rdtype, covers=dns.rdatatype.NONE):
"""Delete the rdataset matching *rdtype* and *covers*, if it
exists at the node specified by *name*.
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It is not an error if the node does not exist, or if there is no
matching rdataset at the node.
If the node has no rdatasets after the deletion, it will itself
be deleted.
*name*: the name of the node to find.
The value may be a ``dns.name.Name`` or a ``str``. If absolute, the
name must be a subdomain of the zone's origin. If ``zone.relativize``
is ``True``, then the name will be relativized.
*rdtype*, an ``int`` or ``str``, the rdata type desired.
*covers*, an ``int`` or ``str`` or ``None``, the covered type.
Usually this value is ``dns.rdatatype.NONE``, but if the
rdtype is ``dns.rdatatype.SIG`` or ``dns.rdatatype.RRSIG``,
then the covers value will be the rdata type the SIG/RRSIG
covers. The library treats the SIG and RRSIG types as if they
were a family of types, e.g. RRSIG(A), RRSIG(NS), RRSIG(SOA).
This makes RRSIGs much easier to work with than if RRSIGs
covering different rdata types were aggregated into a single
RRSIG rdataset.
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"""
name = self._validate_name(name)
rdtype = dns.rdatatype.RdataType.make(rdtype)
if covers is not None:
covers = dns.rdatatype.RdataType.make(covers)
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node = self.get_node(name)
if node is not None:
node.delete_rdataset(self.rdclass, rdtype, covers)
if len(node) == 0:
self.delete_node(name)
def replace_rdataset(self, name, replacement):
"""Replace an rdataset at name.
It is not an error if there is no rdataset matching I{replacement}.
Ownership of the *replacement* object is transferred to the zone;
in other words, this method does not store a copy of *replacement*
at the node, it stores *replacement* itself.
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If the node does not exist, it is created.
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*name*: the name of the node to find.
The value may be a ``dns.name.Name`` or a ``str``. If absolute, the
name must be a subdomain of the zone's origin. If ``zone.relativize``
is ``True``, then the name will be relativized.
*replacement*, a ``dns.rdataset.Rdataset``, the replacement rdataset.
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"""
if replacement.rdclass != self.rdclass:
raise ValueError('replacement.rdclass != zone.rdclass')
node = self.find_node(name, True)
node.replace_rdataset(replacement)
def find_rrset(self, name, rdtype, covers=dns.rdatatype.NONE):
"""Look for an rdataset with the specified name and type in the zone,
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and return an RRset encapsulating it.
This method is less efficient than the similar
``find_rdataset()`` because it creates an RRset instead of
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returning the matching rdataset. It may be more convenient
for some uses since it returns an object which binds the owner
name to the rdataset.
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This method may not be used to create new nodes or rdatasets;
use ``find_rdataset`` instead.
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*name*: the name of the node to find.
The value may be a ``dns.name.Name`` or a ``str``. If absolute, the
name must be a subdomain of the zone's origin. If ``zone.relativize``
is ``True``, then the name will be relativized.
*rdtype*, an ``int`` or ``str``, the rdata type desired.
*covers*, an ``int`` or ``str`` or ``None``, the covered type.
Usually this value is ``dns.rdatatype.NONE``, but if the
rdtype is ``dns.rdatatype.SIG`` or ``dns.rdatatype.RRSIG``,
then the covers value will be the rdata type the SIG/RRSIG
covers. The library treats the SIG and RRSIG types as if they
were a family of types, e.g. RRSIG(A), RRSIG(NS), RRSIG(SOA).
This makes RRSIGs much easier to work with than if RRSIGs
covering different rdata types were aggregated into a single
RRSIG rdataset.
*create*, a ``bool``. If true, the node will be created if it does
not exist.
Raises ``KeyError`` if the name is not known and create was
not specified, or if the name was not a subdomain of the origin.
Returns a ``dns.rrset.RRset`` or ``None``.
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"""
name = self._validate_name(name)
rdtype = dns.rdatatype.RdataType.make(rdtype)
if covers is not None:
covers = dns.rdatatype.RdataType.make(covers)
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rdataset = self.nodes[name].find_rdataset(self.rdclass, rdtype, covers)
rrset = dns.rrset.RRset(name, self.rdclass, rdtype, covers)
rrset.update(rdataset)
return rrset
def get_rrset(self, name, rdtype, covers=dns.rdatatype.NONE):
"""Look for an rdataset with the specified name and type in the zone,
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and return an RRset encapsulating it.
This method is less efficient than the similar ``get_rdataset()``
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because it creates an RRset instead of returning the matching
rdataset. It may be more convenient for some uses since it
returns an object which binds the owner name to the rdataset.
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This method may not be used to create new nodes or rdatasets;
use ``get_rdataset()`` instead.
*name*: the name of the node to find.
The value may be a ``dns.name.Name`` or a ``str``. If absolute, the
name must be a subdomain of the zone's origin. If ``zone.relativize``
is ``True``, then the name will be relativized.
*rdtype*, an ``int`` or ``str``, the rdata type desired.
*covers*, an ``int`` or ``str`` or ``None``, the covered type.
Usually this value is ``dns.rdatatype.NONE``, but if the
rdtype is ``dns.rdatatype.SIG`` or ``dns.rdatatype.RRSIG``,
then the covers value will be the rdata type the SIG/RRSIG
covers. The library treats the SIG and RRSIG types as if they
were a family of types, e.g. RRSIG(A), RRSIG(NS), RRSIG(SOA).
This makes RRSIGs much easier to work with than if RRSIGs
covering different rdata types were aggregated into a single
RRSIG rdataset.
*create*, a ``bool``. If true, the node will be created if it does
not exist.
Raises ``KeyError`` if the name is not known and create was
not specified, or if the name was not a subdomain of the origin.
Returns a ``dns.rrset.RRset`` or ``None``.
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"""
try:
rrset = self.find_rrset(name, rdtype, covers)
except KeyError:
rrset = None
return rrset
def iterate_rdatasets(self, rdtype=dns.rdatatype.ANY,
covers=dns.rdatatype.NONE):
"""Return a generator which yields (name, rdataset) tuples for
all rdatasets in the zone which have the specified *rdtype*
and *covers*. If *rdtype* is ``dns.rdatatype.ANY``, the default,
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then all rdatasets will be matched.
*rdtype*, an ``int`` or ``str``, the rdata type desired.
*covers*, an ``int`` or ``str`` or ``None``, the covered type.
Usually this value is ``dns.rdatatype.NONE``, but if the
rdtype is ``dns.rdatatype.SIG`` or ``dns.rdatatype.RRSIG``,
then the covers value will be the rdata type the SIG/RRSIG
covers. The library treats the SIG and RRSIG types as if they
were a family of types, e.g. RRSIG(A), RRSIG(NS), RRSIG(SOA).
This makes RRSIGs much easier to work with than if RRSIGs
covering different rdata types were aggregated into a single
RRSIG rdataset.
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"""
rdtype = dns.rdatatype.RdataType.make(rdtype)
if covers is not None:
covers = dns.rdatatype.RdataType.make(covers)
for (name, node) in self.items():
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for rds in node:
if rdtype == dns.rdatatype.ANY or \
(rds.rdtype == rdtype and rds.covers == covers):
yield (name, rds)
def iterate_rdatas(self, rdtype=dns.rdatatype.ANY,
covers=dns.rdatatype.NONE):
"""Return a generator which yields (name, ttl, rdata) tuples for
all rdatas in the zone which have the specified *rdtype*
and *covers*. If *rdtype* is ``dns.rdatatype.ANY``, the default,
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then all rdatas will be matched.
*rdtype*, an ``int`` or ``str``, the rdata type desired.
*covers*, an ``int`` or ``str`` or ``None``, the covered type.
Usually this value is ``dns.rdatatype.NONE``, but if the
rdtype is ``dns.rdatatype.SIG`` or ``dns.rdatatype.RRSIG``,
then the covers value will be the rdata type the SIG/RRSIG
covers. The library treats the SIG and RRSIG types as if they
were a family of types, e.g. RRSIG(A), RRSIG(NS), RRSIG(SOA).
This makes RRSIGs much easier to work with than if RRSIGs
covering different rdata types were aggregated into a single
RRSIG rdataset.
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"""
rdtype = dns.rdatatype.RdataType.make(rdtype)
if covers is not None:
covers = dns.rdatatype.RdataType.make(covers)
for (name, node) in self.items():
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for rds in node:
if rdtype == dns.rdatatype.ANY or \
(rds.rdtype == rdtype and rds.covers == covers):
for rdata in rds:
yield (name, rds.ttl, rdata)
def to_file(self, f, sorted=True, relativize=True, nl=None,
want_comments=False, want_origin=False):
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"""Write a zone to a file.
*f*, a file or `str`. If *f* is a string, it is treated
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as the name of a file to open.
*sorted*, a ``bool``. If True, the default, then the file
will be written with the names sorted in DNSSEC order from
least to greatest. Otherwise the names will be written in
whatever order they happen to have in the zone's dictionary.
*relativize*, a ``bool``. If True, the default, then domain
names in the output will be relativized to the zone's origin
if possible.
*nl*, a ``str`` or None. The end of line string. If not
``None``, the output will use the platform's native
end-of-line marker (i.e. LF on POSIX, CRLF on Windows).
*want_comments*, a ``bool``. If ``True``, emit end-of-line comments
as part of writing the file. If ``False``, the default, do not
emit them.
*want_origin*, a ``bool``. If ``True``, emit a $ORIGIN line at
the start of the file. If ``False``, the default, do not emit
one.
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"""
with contextlib.ExitStack() as stack:
if isinstance(f, str):
f = stack.enter_context(open(f, 'wb'))
# must be in this way, f.encoding may contain None, or even
# attribute may not be there
file_enc = getattr(f, 'encoding', None)
if file_enc is None:
file_enc = 'utf-8'
if nl is None:
# binary mode, '\n' is not enough
nl_b = os.linesep.encode(file_enc)
nl = '\n'
elif isinstance(nl, str):
nl_b = nl.encode(file_enc)
else:
nl_b = nl
nl = nl.decode()
if want_origin:
l = '$ORIGIN ' + self.origin.to_text()
l_b = l.encode(file_enc)
try:
f.write(l_b)
f.write(nl_b)
except TypeError: # textual mode
f.write(l)
f.write(nl)
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if sorted:
names = list(self.keys())
names.sort()
else:
names = self.keys()
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for n in names:
l = self[n].to_text(n, origin=self.origin,
relativize=relativize,
want_comments=want_comments)
l_b = l.encode(file_enc)
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try:
f.write(l_b)
f.write(nl_b)
except TypeError: # textual mode
f.write(l)
f.write(nl)
def to_text(self, sorted=True, relativize=True, nl=None,
want_comments=False, want_origin=False):
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"""Return a zone's text as though it were written to a file.
*sorted*, a ``bool``. If True, the default, then the file
will be written with the names sorted in DNSSEC order from
least to greatest. Otherwise the names will be written in
whatever order they happen to have in the zone's dictionary.
*relativize*, a ``bool``. If True, the default, then domain
names in the output will be relativized to the zone's origin
if possible.
*nl*, a ``str`` or None. The end of line string. If not
``None``, the output will use the platform's native
end-of-line marker (i.e. LF on POSIX, CRLF on Windows).
*want_comments*, a ``bool``. If ``True``, emit end-of-line comments
as part of writing the file. If ``False``, the default, do not
emit them.
*want_origin*, a ``bool``. If ``True``, emit a $ORIGIN line at
the start of the output. If ``False``, the default, do not emit
one.
Returns a ``str``.
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"""
temp_buffer = io.StringIO()
self.to_file(temp_buffer, sorted, relativize, nl, want_comments,
want_origin)
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return_value = temp_buffer.getvalue()
temp_buffer.close()
return return_value
def check_origin(self):
"""Do some simple checking of the zone's origin.
Raises ``dns.zone.NoSOA`` if there is no SOA RRset.
Raises ``dns.zone.NoNS`` if there is no NS RRset.
Raises ``KeyError`` if there is no origin node.
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"""
if self.relativize:
name = dns.name.empty
else:
name = self.origin
if self.get_rdataset(name, dns.rdatatype.SOA) is None:
raise NoSOA
if self.get_rdataset(name, dns.rdatatype.NS) is None:
raise NoNS
def _compute_digest(self, hash_algorithm, scheme=DigestScheme.SIMPLE):
hashinfo = _digest_hashers.get(hash_algorithm)
if not hashinfo:
raise UnsupportedDigestHashAlgorithm
if scheme != DigestScheme.SIMPLE:
raise UnsupportedDigestScheme
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if self.relativize:
origin_name = dns.name.empty
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else:
origin_name = self.origin
hasher = hashinfo()
for (name, node) in sorted(self.items()):
rrnamebuf = name.to_digestable(self.origin)
for rdataset in sorted(node,
key=lambda rds: (rds.rdtype, rds.covers)):
if name == origin_name and \
dns.rdatatype.ZONEMD in (rdataset.rdtype, rdataset.covers):
continue
rrfixed = struct.pack('!HHI', rdataset.rdtype,
rdataset.rdclass, rdataset.ttl)
rdatas = [rdata.to_digestable(self.origin)
for rdata in rdataset]
for rdata in sorted(rdatas):
rrlen = struct.pack('!H', len(rdata))
hasher.update(rrnamebuf + rrfixed + rrlen + rdata)
return hasher.digest()
def compute_digest(self, hash_algorithm, scheme=DigestScheme.SIMPLE):
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if self.relativize:
origin_name = dns.name.empty
else:
origin_name = self.origin
serial = self.get_rdataset(origin_name, dns.rdatatype.SOA)[0].serial
digest = self._compute_digest(hash_algorithm, scheme)
return dns.rdtypes.ANY.ZONEMD.ZONEMD(self.rdclass,
dns.rdatatype.ZONEMD,
serial, scheme, hash_algorithm,
digest)
def verify_digest(self, zonemd=None):
if zonemd:
digests = [zonemd]
else:
digests = self.get_rdataset(self.origin, dns.rdatatype.ZONEMD)
if digests is None:
raise NoDigest
for digest in digests:
try:
computed = self._compute_digest(digest.hash_algorithm,
digest.scheme)
if computed == digest.digest:
return
except Exception:
pass
raise DigestVerificationFailure
# TransactionManager methods
def reader(self):
return Transaction(self, False,
Version(self, 1, self.nodes, self.origin))
def writer(self, replacement=False):
txn = Transaction(self, replacement)
txn._setup_version()
return txn
def origin_information(self):
if self.relativize:
effective = dns.name.empty
else:
effective = self.origin
return (self.origin, self.relativize, effective)
def get_class(self):
return self.rdclass
# Transaction methods
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def _end_read(self, txn):
pass
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def _end_write(self, txn):
pass
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def _commit_version(self, _, version, origin):
self.nodes = version.nodes
if self.origin is None:
self.origin = origin
def _get_next_version_id(self):
# Versions are ephemeral and all have id 1
return 1
# These classes used to be in dns.versioned, but have moved here so we can use
# the copy-on-write transaction mechanism for both kinds of zones. In a
# regular zone, the version only exists during the transaction, and the nodes
# are regular dns.node.Nodes.
# A node with a version id.
class VersionedNode(dns.node.Node):
__slots__ = ['id']
def __init__(self):
super().__init__()
# A proper id will get set by the Version
self.id = 0
@dns.immutable.immutable
class ImmutableVersionedNode(VersionedNode):
__slots__ = ['id']
def __init__(self, node):
super().__init__()
self.id = node.id
self.rdatasets = tuple(
[dns.rdataset.ImmutableRdataset(rds) for rds in node.rdatasets]
)
def find_rdataset(self, rdclass, rdtype, covers=dns.rdatatype.NONE,
create=False):
if create:
raise TypeError("immutable")
return super().find_rdataset(rdclass, rdtype, covers, False)
def get_rdataset(self, rdclass, rdtype, covers=dns.rdatatype.NONE,
create=False):
if create:
raise TypeError("immutable")
return super().get_rdataset(rdclass, rdtype, covers, False)
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def delete_rdataset(self, rdclass, rdtype, covers=dns.rdatatype.NONE):
raise TypeError("immutable")
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def replace_rdataset(self, replacement):
raise TypeError("immutable")
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def is_immutable(self):
return True
class Version:
def __init__(self, zone, id, nodes=None, origin=None):
self.zone = zone
self.id = id
if nodes is not None:
self.nodes = nodes
else:
self.nodes = {}
self.origin = origin
def _validate_name(self, name):
if name.is_absolute():
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if self.origin is None:
# This should probably never happen as other code (e.g.
# _rr_line) will notice the lack of an origin before us, but
# we check just in case!
raise KeyError('no zone origin is defined')
if not name.is_subdomain(self.origin):
raise KeyError("name is not a subdomain of the zone origin")
if self.zone.relativize:
name = name.relativize(self.origin)
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elif not self.zone.relativize:
# We have a relative name in a non-relative zone, so derelativize.
if self.origin is None:
raise KeyError('no zone origin is defined')
name = name.derelativize(self.origin)
return name
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def get_node(self, name):
name = self._validate_name(name)
return self.nodes.get(name)
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def get_rdataset(self, name, rdtype, covers):
node = self.get_node(name)
if node is None:
return None
return node.get_rdataset(self.zone.rdclass, rdtype, covers)
def items(self):
return self.nodes.items()
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class WritableVersion(Version):
def __init__(self, zone, replacement=False):
# The zone._versions_lock must be held by our caller in a versioned
# zone.
id = zone._get_next_version_id()
super().__init__(zone, id)
if not replacement:
# We copy the map, because that gives us a simple and thread-safe
# way of doing versions, and we have a garbage collector to help
# us. We only make new node objects if we actually change the
# node.
self.nodes.update(zone.nodes)
# We have to copy the zone origin as it may be None in the first
# version, and we don't want to mutate the zone until we commit.
self.origin = zone.origin
self.changed = set()
def _maybe_cow(self, name):
name = self._validate_name(name)
node = self.nodes.get(name)
if node is None or name not in self.changed:
new_node = self.zone.node_factory()
if hasattr(new_node, 'id'):
# We keep doing this for backwards compatibility, as earlier
# code used new_node.id != self.id for the "do we need to CoW?"
# test. Now we use the changed set as this works with both
# regular zones and versioned zones.
new_node.id = self.id
if node is not None:
# moo! copy on write!
new_node.rdatasets.extend(node.rdatasets)
self.nodes[name] = new_node
self.changed.add(name)
return new_node
else:
return node
def delete_node(self, name):
name = self._validate_name(name)
if name in self.nodes:
del self.nodes[name]
self.changed.add(name)
def put_rdataset(self, name, rdataset):
node = self._maybe_cow(name)
node.replace_rdataset(rdataset)
def delete_rdataset(self, name, rdtype, covers):
node = self._maybe_cow(name)
node.delete_rdataset(self.zone.rdclass, rdtype, covers)
if len(node) == 0:
del self.nodes[name]
@dns.immutable.immutable
class ImmutableVersion(Version):
def __init__(self, version):
# We tell super() that it's a replacement as we don't want it
# to copy the nodes, as we're about to do that with an
# immutable Dict.
super().__init__(version.zone, True)
# set the right id!
self.id = version.id
# keep the origin
self.origin = version.origin
# Make changed nodes immutable
for name in version.changed:
node = version.nodes.get(name)
# it might not exist if we deleted it in the version
if node:
version.nodes[name] = ImmutableVersionedNode(node)
self.nodes = dns.immutable.Dict(version.nodes, True)
class Transaction(dns.transaction.Transaction):
def __init__(self, zone, replacement, version=None, make_immutable=False):
read_only = version is not None
super().__init__(zone, replacement, read_only)
self.version = version
self.make_immutable = make_immutable
@property
def zone(self):
return self.manager
def _setup_version(self):
assert self.version is None
self.version = WritableVersion(self.zone, self.replacement)
def _get_rdataset(self, name, rdtype, covers):
return self.version.get_rdataset(name, rdtype, covers)
def _put_rdataset(self, name, rdataset):
assert not self.read_only
self.version.put_rdataset(name, rdataset)
def _delete_name(self, name):
assert not self.read_only
self.version.delete_node(name)
def _delete_rdataset(self, name, rdtype, covers):
assert not self.read_only
self.version.delete_rdataset(name, rdtype, covers)
def _name_exists(self, name):
return self.version.get_node(name) is not None
def _changed(self):
if self.read_only:
return False
else:
return len(self.version.changed) > 0
def _end_transaction(self, commit):
if self.read_only:
self.zone._end_read(self)
elif commit and len(self.version.changed) > 0:
if self.make_immutable:
version = ImmutableVersion(self.version)
else:
version = self.version
self.zone._commit_version(self, version, self.version.origin)
else:
# rollback
self.zone._end_write(self)
def _set_origin(self, origin):
if self.version.origin is None:
self.version.origin = origin
def _iterate_rdatasets(self):
for (name, node) in self.version.items():
for rdataset in node:
yield (name, rdataset)
def _get_node(self, name):
return self.version.get_node(name)
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def _origin_information(self):
(absolute, relativize, effective) = self.manager.origin_information()
if absolute is None and self.version.origin is not None:
# No origin has been committed yet, but we've learned one as part of
# this txn. Use it.
absolute = self.version.origin
if relativize:
effective = dns.name.empty
else:
effective = absolute
return (absolute, relativize, effective)
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def from_text(text, origin=None, rdclass=dns.rdataclass.IN,
relativize=True, zone_factory=Zone, filename=None,
allow_include=False, check_origin=True, idna_codec=None):
"""Build a zone object from a zone file format string.
*text*, a ``str``, the zone file format input.
*origin*, a ``dns.name.Name``, a ``str``, or ``None``. The origin
of the zone; if not specified, the first ``$ORIGIN`` statement in the
zone file will determine the origin of the zone.
*rdclass*, an ``int``, the zone's rdata class; the default is class IN.
*relativize*, a ``bool``, determine's whether domain names are
relativized to the zone's origin. The default is ``True``.
*zone_factory*, the zone factory to use or ``None``. If ``None``, then
``dns.zone.Zone`` will be used. The value may be any class or callable
that returns a subclass of ``dns.zone.Zone``.
*filename*, a ``str`` or ``None``, the filename to emit when
describing where an error occurred; the default is ``'<string>'``.
*allow_include*, a ``bool``. If ``True``, the default, then ``$INCLUDE``
directives are permitted. If ``False``, then encoutering a ``$INCLUDE``
will raise a ``SyntaxError`` exception.
*check_origin*, a ``bool``. If ``True``, the default, then sanity
checks of the origin node will be made by calling the zone's
``check_origin()`` method.
*idna_codec*, a ``dns.name.IDNACodec``, specifies the IDNA
encoder/decoder. If ``None``, the default IDNA 2003 encoder/decoder
is used.
Raises ``dns.zone.NoSOA`` if there is no SOA RRset.
Raises ``dns.zone.NoNS`` if there is no NS RRset.
Raises ``KeyError`` if there is no origin node.
Returns a subclass of ``dns.zone.Zone``.
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"""
# 'text' can also be a file, but we don't publish that fact
# since it's an implementation detail. The official file
# interface is from_file().
if filename is None:
filename = '<string>'
zone = zone_factory(origin, rdclass, relativize=relativize)
with zone.writer(True) as txn:
tok = dns.tokenizer.Tokenizer(text, filename, idna_codec=idna_codec)
reader = dns.zonefile.Reader(tok, rdclass, txn,
allow_include=allow_include)
try:
reader.read()
except dns.zonefile.UnknownOrigin:
# for backwards compatibility
raise dns.zone.UnknownOrigin
# Now that we're done reading, do some basic checking of the zone.
if check_origin:
zone.check_origin()
return zone
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def from_file(f, origin=None, rdclass=dns.rdataclass.IN,
relativize=True, zone_factory=Zone, filename=None,
allow_include=True, check_origin=True):
"""Read a zone file and build a zone object.
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*f*, a file or ``str``. If *f* is a string, it is treated
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as the name of a file to open.
*origin*, a ``dns.name.Name``, a ``str``, or ``None``. The origin
of the zone; if not specified, the first ``$ORIGIN`` statement in the
zone file will determine the origin of the zone.
*rdclass*, an ``int``, the zone's rdata class; the default is class IN.
*relativize*, a ``bool``, determine's whether domain names are
relativized to the zone's origin. The default is ``True``.
*zone_factory*, the zone factory to use or ``None``. If ``None``, then
``dns.zone.Zone`` will be used. The value may be any class or callable
that returns a subclass of ``dns.zone.Zone``.
*filename*, a ``str`` or ``None``, the filename to emit when
describing where an error occurred; the default is ``'<string>'``.
*allow_include*, a ``bool``. If ``True``, the default, then ``$INCLUDE``
directives are permitted. If ``False``, then encoutering a ``$INCLUDE``
will raise a ``SyntaxError`` exception.
*check_origin*, a ``bool``. If ``True``, the default, then sanity
checks of the origin node will be made by calling the zone's
``check_origin()`` method.
*idna_codec*, a ``dns.name.IDNACodec``, specifies the IDNA
encoder/decoder. If ``None``, the default IDNA 2003 encoder/decoder
is used.
Raises ``dns.zone.NoSOA`` if there is no SOA RRset.
Raises ``dns.zone.NoNS`` if there is no NS RRset.
Raises ``KeyError`` if there is no origin node.
Returns a subclass of ``dns.zone.Zone``.
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"""
with contextlib.ExitStack() as stack:
if isinstance(f, str):
if filename is None:
filename = f
f = stack.enter_context(open(f))
return from_text(f, origin, rdclass, relativize, zone_factory,
filename, allow_include, check_origin)
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def from_xfr(xfr, zone_factory=Zone, relativize=True, check_origin=True):
"""Convert the output of a zone transfer generator into a zone object.
*xfr*, a generator of ``dns.message.Message`` objects, typically
``dns.query.xfr()``.
*relativize*, a ``bool``, determine's whether domain names are
relativized to the zone's origin. The default is ``True``.
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It is essential that the relativize setting matches the one specified
to the generator.
*check_origin*, a ``bool``. If ``True``, the default, then sanity
checks of the origin node will be made by calling the zone's
``check_origin()`` method.
Raises ``dns.zone.NoSOA`` if there is no SOA RRset.
Raises ``dns.zone.NoNS`` if there is no NS RRset.
Raises ``KeyError`` if there is no origin node.
Returns a subclass of ``dns.zone.Zone``.
2018-10-31 16:08:29 +00:00
"""
z = None
for r in xfr:
if z is None:
if relativize:
origin = r.origin
else:
origin = r.answer[0].name
rdclass = r.answer[0].rdclass
z = zone_factory(origin, rdclass, relativize=relativize)
for rrset in r.answer:
znode = z.nodes.get(rrset.name)
if not znode:
znode = z.node_factory()
z.nodes[rrset.name] = znode
zrds = znode.find_rdataset(rrset.rdclass, rrset.rdtype,
rrset.covers, True)
zrds.update_ttl(rrset.ttl)
for rd in rrset:
zrds.add(rd)
if check_origin:
z.check_origin()
return z