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bazarr/libs/dns/versioned.py

274 lines
10 KiB
Python

# Copyright (C) Dnspython Contributors, see LICENSE for text of ISC license
"""DNS Versioned Zones."""
import collections
try:
import threading as _threading
except ImportError: # pragma: no cover
import dummy_threading as _threading # type: ignore
import dns.exception
import dns.immutable
import dns.name
import dns.rdataclass
import dns.rdatatype
import dns.rdtypes.ANY.SOA
import dns.zone
class UseTransaction(dns.exception.DNSException):
"""To alter a versioned zone, use a transaction."""
# Backwards compatibility
Node = dns.zone.VersionedNode
ImmutableNode = dns.zone.ImmutableVersionedNode
Version = dns.zone.Version
WritableVersion = dns.zone.WritableVersion
ImmutableVersion = dns.zone.ImmutableVersion
Transaction = dns.zone.Transaction
class Zone(dns.zone.Zone):
__slots__ = ['_versions', '_versions_lock', '_write_txn',
'_write_waiters', '_write_event', '_pruning_policy',
'_readers']
node_factory = Node
def __init__(self, origin, rdclass=dns.rdataclass.IN, relativize=True,
pruning_policy=None):
"""Initialize a versioned 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``.
*pruning policy*, a function taking a `Version` and returning
a `bool`, or `None`. Should the version be pruned? If `None`,
the default policy, which retains one version is used.
"""
super().__init__(origin, rdclass, relativize)
self._versions = collections.deque()
self._version_lock = _threading.Lock()
if pruning_policy is None:
self._pruning_policy = self._default_pruning_policy
else:
self._pruning_policy = pruning_policy
self._write_txn = None
self._write_event = None
self._write_waiters = collections.deque()
self._readers = set()
self._commit_version_unlocked(None,
WritableVersion(self, replacement=True),
origin)
def reader(self, id=None, serial=None): # pylint: disable=arguments-differ
if id is not None and serial is not None:
raise ValueError('cannot specify both id and serial')
with self._version_lock:
if id is not None:
version = None
for v in reversed(self._versions):
if v.id == id:
version = v
break
if version is None:
raise KeyError('version not found')
elif serial is not None:
if self.relativize:
oname = dns.name.empty
else:
oname = self.origin
version = None
for v in reversed(self._versions):
n = v.nodes.get(oname)
if n:
rds = n.get_rdataset(self.rdclass, dns.rdatatype.SOA)
if rds and rds[0].serial == serial:
version = v
break
if version is None:
raise KeyError('serial not found')
else:
version = self._versions[-1]
txn = Transaction(self, False, version)
self._readers.add(txn)
return txn
def writer(self, replacement=False):
event = None
while True:
with self._version_lock:
# Checking event == self._write_event ensures that either
# no one was waiting before we got lucky and found no write
# txn, or we were the one who was waiting and got woken up.
# This prevents "taking cuts" when creating a write txn.
if self._write_txn is None and event == self._write_event:
# Creating the transaction defers version setup
# (i.e. copying the nodes dictionary) until we
# give up the lock, so that we hold the lock as
# short a time as possible. This is why we call
# _setup_version() below.
self._write_txn = Transaction(self, replacement,
make_immutable=True)
# give up our exclusive right to make a Transaction
self._write_event = None
break
# Someone else is writing already, so we will have to
# wait, but we want to do the actual wait outside the
# lock.
event = _threading.Event()
self._write_waiters.append(event)
# wait (note we gave up the lock!)
#
# We only wake one sleeper at a time, so it's important
# that no event waiter can exit this method (e.g. via
# cancelation) without returning a transaction or waking
# someone else up.
#
# This is not a problem with Threading module threads as
# they cannot be canceled, but could be an issue with trio
# or curio tasks when we do the async version of writer().
# I.e. we'd need to do something like:
#
# try:
# event.wait()
# except trio.Cancelled:
# with self._version_lock:
# self._maybe_wakeup_one_waiter_unlocked()
# raise
#
event.wait()
# Do the deferred version setup.
self._write_txn._setup_version()
return self._write_txn
def _maybe_wakeup_one_waiter_unlocked(self):
if len(self._write_waiters) > 0:
self._write_event = self._write_waiters.popleft()
self._write_event.set()
# pylint: disable=unused-argument
def _default_pruning_policy(self, zone, version):
return True
# pylint: enable=unused-argument
def _prune_versions_unlocked(self):
assert len(self._versions) > 0
# Don't ever prune a version greater than or equal to one that
# a reader has open. This pins versions in memory while the
# reader is open, and importantly lets the reader open a txn on
# a successor version (e.g. if generating an IXFR).
#
# Note our definition of least_kept also ensures we do not try to
# delete the greatest version.
if len(self._readers) > 0:
least_kept = min(txn.version.id for txn in self._readers)
else:
least_kept = self._versions[-1].id
while self._versions[0].id < least_kept and \
self._pruning_policy(self, self._versions[0]):
self._versions.popleft()
def set_max_versions(self, max_versions):
"""Set a pruning policy that retains up to the specified number
of versions
"""
if max_versions is not None and max_versions < 1:
raise ValueError('max versions must be at least 1')
if max_versions is None:
def policy(*_):
return False
else:
def policy(zone, _):
return len(zone._versions) > max_versions
self.set_pruning_policy(policy)
def set_pruning_policy(self, policy):
"""Set the pruning policy for the zone.
The *policy* function takes a `Version` and returns `True` if
the version should be pruned, and `False` otherwise. `None`
may also be specified for policy, in which case the default policy
is used.
Pruning checking proceeds from the least version and the first
time the function returns `False`, the checking stops. I.e. the
retained versions are always a consecutive sequence.
"""
if policy is None:
policy = self._default_pruning_policy
with self._version_lock:
self._pruning_policy = policy
self._prune_versions_unlocked()
def _end_read(self, txn):
with self._version_lock:
self._readers.remove(txn)
self._prune_versions_unlocked()
def _end_write_unlocked(self, txn):
assert self._write_txn == txn
self._write_txn = None
self._maybe_wakeup_one_waiter_unlocked()
def _end_write(self, txn):
with self._version_lock:
self._end_write_unlocked(txn)
def _commit_version_unlocked(self, txn, version, origin):
self._versions.append(version)
self._prune_versions_unlocked()
self.nodes = version.nodes
if self.origin is None:
self.origin = origin
# txn can be None in __init__ when we make the empty version.
if txn is not None:
self._end_write_unlocked(txn)
def _commit_version(self, txn, version, origin):
with self._version_lock:
self._commit_version_unlocked(txn, version, origin)
def _get_next_version_id(self):
if len(self._versions) > 0:
id = self._versions[-1].id + 1
else:
id = 1
return id
def find_node(self, name, create=False):
if create:
raise UseTransaction
return super().find_node(name)
def delete_node(self, name):
raise UseTransaction
def find_rdataset(self, name, rdtype, covers=dns.rdatatype.NONE,
create=False):
if create:
raise UseTransaction
rdataset = super().find_rdataset(name, rdtype, covers)
return dns.rdataset.ImmutableRdataset(rdataset)
def get_rdataset(self, name, rdtype, covers=dns.rdatatype.NONE,
create=False):
if create:
raise UseTransaction
rdataset = super().get_rdataset(name, rdtype, covers)
return dns.rdataset.ImmutableRdataset(rdataset)
def delete_rdataset(self, name, rdtype, covers=dns.rdatatype.NONE):
raise UseTransaction
def replace_rdataset(self, name, replacement):
raise UseTransaction