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openmedialibrary_platform/Shared/lib/python3.4/site-packages/zeroconf.py

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install zeroconf
2016-03-14 13:40:39 +00:00
from __future__ import absolute_import, division, print_function, unicode_literals
""" Multicast DNS Service Discovery for Python, v0.14-wmcbrine
Copyright 2003 Paul Scott-Murphy, 2014 William McBrine
This module provides a framework for the use of DNS Service Discovery
using IP multicast.
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301
USA
"""
import enum
import errno
import logging
import select
import socket
import struct
import threading
import time
from functools import reduce
import netifaces
from six import binary_type, indexbytes, int2byte, iteritems, text_type
from six.moves import xrange
__author__ = 'Paul Scott-Murphy, William McBrine'
__maintainer__ = 'Jakub Stasiak <jakub@stasiak.at>'
__version__ = '0.17.4'
__license__ = 'LGPL'
try:
NullHandler = logging.NullHandler
except AttributeError:
# Python 2.6 fallback
class NullHandler(logging.Handler):
def emit(self, record):
pass
__all__ = [
"__version__",
"Zeroconf", "ServiceInfo", "ServiceBrowser",
"Error", "InterfaceChoice", "ServiceStateChange",
]
log = logging.getLogger(__name__)
log.addHandler(NullHandler())
if log.level == logging.NOTSET:
log.setLevel(logging.WARN)
# hook for threads
_GLOBAL_DONE = False
# Some timing constants
_UNREGISTER_TIME = 125
_CHECK_TIME = 175
_REGISTER_TIME = 225
_LISTENER_TIME = 200
_BROWSER_TIME = 500
# Some DNS constants
_MDNS_ADDR = '224.0.0.251'
_MDNS_PORT = 5353
_DNS_PORT = 53
_DNS_TTL = 60 * 60 # one hour default TTL
_MAX_MSG_TYPICAL = 1460 # unused
_MAX_MSG_ABSOLUTE = 8972
_FLAGS_QR_MASK = 0x8000 # query response mask
_FLAGS_QR_QUERY = 0x0000 # query
_FLAGS_QR_RESPONSE = 0x8000 # response
_FLAGS_AA = 0x0400 # Authorative answer
_FLAGS_TC = 0x0200 # Truncated
_FLAGS_RD = 0x0100 # Recursion desired
_FLAGS_RA = 0x8000 # Recursion available
_FLAGS_Z = 0x0040 # Zero
_FLAGS_AD = 0x0020 # Authentic data
_FLAGS_CD = 0x0010 # Checking disabled
_CLASS_IN = 1
_CLASS_CS = 2
_CLASS_CH = 3
_CLASS_HS = 4
_CLASS_NONE = 254
_CLASS_ANY = 255
_CLASS_MASK = 0x7FFF
_CLASS_UNIQUE = 0x8000
_TYPE_A = 1
_TYPE_NS = 2
_TYPE_MD = 3
_TYPE_MF = 4
_TYPE_CNAME = 5
_TYPE_SOA = 6
_TYPE_MB = 7
_TYPE_MG = 8
_TYPE_MR = 9
_TYPE_NULL = 10
_TYPE_WKS = 11
_TYPE_PTR = 12
_TYPE_HINFO = 13
_TYPE_MINFO = 14
_TYPE_MX = 15
_TYPE_TXT = 16
_TYPE_AAAA = 28
_TYPE_SRV = 33
_TYPE_ANY = 255
# Mapping constants to names
_CLASSES = {_CLASS_IN: "in",
_CLASS_CS: "cs",
_CLASS_CH: "ch",
_CLASS_HS: "hs",
_CLASS_NONE: "none",
_CLASS_ANY: "any"}
_TYPES = {_TYPE_A: "a",
_TYPE_NS: "ns",
_TYPE_MD: "md",
_TYPE_MF: "mf",
_TYPE_CNAME: "cname",
_TYPE_SOA: "soa",
_TYPE_MB: "mb",
_TYPE_MG: "mg",
_TYPE_MR: "mr",
_TYPE_NULL: "null",
_TYPE_WKS: "wks",
_TYPE_PTR: "ptr",
_TYPE_HINFO: "hinfo",
_TYPE_MINFO: "minfo",
_TYPE_MX: "mx",
_TYPE_TXT: "txt",
_TYPE_AAAA: "quada",
_TYPE_SRV: "srv",
_TYPE_ANY: "any"}
# utility functions
def current_time_millis():
"""Current system time in milliseconds"""
return time.time() * 1000
# Exceptions
class Error(Exception):
pass
class NonLocalNameException(Exception):
pass
class NonUniqueNameException(Exception):
pass
class NamePartTooLongException(Exception):
pass
class AbstractMethodException(Exception):
pass
class BadTypeInNameException(Exception):
pass
# implementation classes
class DNSEntry(object):
"""A DNS entry"""
def __init__(self, name, type, class_):
self.key = name.lower()
self.name = name
self.type = type
self.class_ = class_ & _CLASS_MASK
self.unique = (class_ & _CLASS_UNIQUE) != 0
def __eq__(self, other):
"""Equality test on name, type, and class"""
return (isinstance(other, DNSEntry) and
self.name == other.name and
self.type == other.type and
self.class_ == other.class_)
def __ne__(self, other):
"""Non-equality test"""
return not self.__eq__(other)
def get_class_(self, class_):
"""Class accessor"""
return _CLASSES.get(class_, "?(%s)" % class_)
def get_type(self, t):
"""Type accessor"""
return _TYPES.get(t, "?(%s)" % t)
def to_string(self, hdr, other):
"""String representation with additional information"""
result = "%s[%s,%s" % (hdr, self.get_type(self.type),
self.get_class_(self.class_))
if self.unique:
result += "-unique,"
else:
result += ","
result += self.name
if other is not None:
result += ",%s]" % (other)
else:
result += "]"
return result
class DNSQuestion(DNSEntry):
"""A DNS question entry"""
def __init__(self, name, type, class_):
# if not name.endswith(".local."):
# raise NonLocalNameException
DNSEntry.__init__(self, name, type, class_)
def answered_by(self, rec):
"""Returns true if the question is answered by the record"""
return (self.class_ == rec.class_ and
(self.type == rec.type or self.type == _TYPE_ANY) and
self.name == rec.name)
def __repr__(self):
"""String representation"""
return DNSEntry.to_string(self, "question", None)
class DNSRecord(DNSEntry):
"""A DNS record - like a DNS entry, but has a TTL"""
def __init__(self, name, type, class_, ttl):
DNSEntry.__init__(self, name, type, class_)
self.ttl = ttl
self.created = current_time_millis()
def __eq__(self, other):
"""Tests equality as per DNSRecord"""
return isinstance(other, DNSRecord) and DNSEntry.__eq__(self, other)
def suppressed_by(self, msg):
"""Returns true if any answer in a message can suffice for the
information held in this record."""
for record in msg.answers:
if self.suppressed_by_answer(record):
return True
return False
def suppressed_by_answer(self, other):
"""Returns true if another record has same name, type and class,
and if its TTL is at least half of this record's."""
return self == other and other.ttl > (self.ttl / 2)
def get_expiration_time(self, percent):
"""Returns the time at which this record will have expired
by a certain percentage."""
return self.created + (percent * self.ttl * 10)
def get_remaining_ttl(self, now):
"""Returns the remaining TTL in seconds."""
return max(0, (self.get_expiration_time(100) - now) / 1000)
def is_expired(self, now):
"""Returns true if this record has expired."""
return self.get_expiration_time(100) <= now
def is_stale(self, now):
"""Returns true if this record is at least half way expired."""
return self.get_expiration_time(50) <= now
def reset_ttl(self, other):
"""Sets this record's TTL and created time to that of
another record."""
self.created = other.created
self.ttl = other.ttl
def write(self, out):
"""Abstract method"""
raise AbstractMethodException
def to_string(self, other):
"""String representation with addtional information"""
arg = "%s/%s,%s" % (self.ttl,
self.get_remaining_ttl(current_time_millis()), other)
return DNSEntry.to_string(self, "record", arg)
class DNSAddress(DNSRecord):
"""A DNS address record"""
def __init__(self, name, type, class_, ttl, address):
DNSRecord.__init__(self, name, type, class_, ttl)
self.address = address
def write(self, out):
"""Used in constructing an outgoing packet"""
out.write_string(self.address)
def __eq__(self, other):
"""Tests equality on address"""
return isinstance(other, DNSAddress) and self.address == other.address
def __repr__(self):
"""String representation"""
try:
return socket.inet_ntoa(self.address)
except Exception as e: # TODO stop catching all Exceptions
log.exception('Unknown error, possibly benign: %r', e)
return self.address
class DNSHinfo(DNSRecord):
"""A DNS host information record"""
def __init__(self, name, type, class_, ttl, cpu, os):
DNSRecord.__init__(self, name, type, class_, ttl)
self.cpu = cpu
self.os = os
def write(self, out):
"""Used in constructing an outgoing packet"""
out.write_string(self.cpu)
out.write_string(self.oso)
def __eq__(self, other):
"""Tests equality on cpu and os"""
return (isinstance(other, DNSHinfo) and
self.cpu == other.cpu and self.os == other.os)
def __repr__(self):
"""String representation"""
return self.cpu + " " + self.os
class DNSPointer(DNSRecord):
"""A DNS pointer record"""
def __init__(self, name, type, class_, ttl, alias):
DNSRecord.__init__(self, name, type, class_, ttl)
self.alias = alias
def write(self, out):
"""Used in constructing an outgoing packet"""
out.write_name(self.alias)
def __eq__(self, other):
"""Tests equality on alias"""
return isinstance(other, DNSPointer) and self.alias == other.alias
def __repr__(self):
"""String representation"""
return self.to_string(self.alias)
class DNSText(DNSRecord):
"""A DNS text record"""
def __init__(self, name, type_, class_, ttl, text):
assert isinstance(text, (bytes, type(None)))
DNSRecord.__init__(self, name, type_, class_, ttl)
self.text = text
def write(self, out):
"""Used in constructing an outgoing packet"""
out.write_string(self.text)
def __eq__(self, other):
"""Tests equality on text"""
return isinstance(other, DNSText) and self.text == other.text
def __repr__(self):
"""String representation"""
if len(self.text) > 10:
return self.to_string(self.text[:7]) + "..."
else:
return self.to_string(self.text)
class DNSService(DNSRecord):
"""A DNS service record"""
def __init__(self, name, type, class_, ttl, priority, weight, port, server):
DNSRecord.__init__(self, name, type, class_, ttl)
self.priority = priority
self.weight = weight
self.port = port
self.server = server
def write(self, out):
"""Used in constructing an outgoing packet"""
out.write_short(self.priority)
out.write_short(self.weight)
out.write_short(self.port)
out.write_name(self.server)
def __eq__(self, other):
"""Tests equality on priority, weight, port and server"""
return (isinstance(other, DNSService) and
self.priority == other.priority and
self.weight == other.weight and
self.port == other.port and
self.server == other.server)
def __repr__(self):
"""String representation"""
return self.to_string("%s:%s" % (self.server, self.port))
class DNSIncoming(object):
"""Object representation of an incoming DNS packet"""
def __init__(self, data):
"""Constructor from string holding bytes of packet"""
self.offset = 0
self.data = data
self.questions = []
self.answers = []
self.num_questions = 0
self.num_answers = 0
self.num_authorities = 0
self.num_additionals = 0
self.read_header()
self.read_questions()
self.read_others()
def unpack(self, format):
length = struct.calcsize(format)
info = struct.unpack(format, self.data[self.offset:self.offset + length])
self.offset += length
return info
def read_header(self):
"""Reads header portion of packet"""
(self.id, self.flags, self.num_questions, self.num_answers,
self.num_quthorities, self.num_additionals) = self.unpack(b'!6H')
def read_questions(self):
"""Reads questions section of packet"""
for i in xrange(self.num_questions):
name = self.read_name()
type, class_ = self.unpack(b'!HH')
question = DNSQuestion(name, type, class_)
self.questions.append(question)
def read_int(self):
"""Reads an integer from the packet"""
return self.unpack(b'!I')[0]
def read_character_string(self):
"""Reads a character string from the packet"""
length = indexbytes(self.data, self.offset)
self.offset += 1
return self.read_string(length)
def read_string(self, length):
"""Reads a string of a given length from the packet"""
info = self.data[self.offset:self.offset + length]
self.offset += length
return info
def read_unsigned_short(self):
"""Reads an unsigned short from the packet"""
return self.unpack(b'!H')[0]
def read_others(self):
"""Reads the answers, authorities and additionals section of the
packet"""
n = self.num_answers + self.num_authorities + self.num_additionals
for i in xrange(n):
domain = self.read_name()
type, class_, ttl, length = self.unpack(b'!HHiH')
rec = None
if type == _TYPE_A:
rec = DNSAddress(domain, type, class_, ttl, self.read_string(4))
elif type == _TYPE_CNAME or type == _TYPE_PTR:
rec = DNSPointer(domain, type, class_, ttl, self.read_name())
elif type == _TYPE_TXT:
rec = DNSText(domain, type, class_, ttl, self.read_string(length))
elif type == _TYPE_SRV:
rec = DNSService(domain, type, class_, ttl,
self.read_unsigned_short(), self.read_unsigned_short(),
self.read_unsigned_short(), self.read_name())
elif type == _TYPE_HINFO:
rec = DNSHinfo(domain, type, class_, ttl,
self.read_character_string(), self.read_character_string())
elif type == _TYPE_AAAA:
rec = DNSAddress(domain, type, class_, ttl, self.read_string(16))
else:
# Try to ignore types we don't know about
# Skip the payload for the resource record so the next
# records can be parsed correctly
self.offset += length
if rec is not None:
self.answers.append(rec)
def is_query(self):
"""Returns true if this is a query"""
return (self.flags & _FLAGS_QR_MASK) == _FLAGS_QR_QUERY
def is_response(self):
"""Returns true if this is a response"""
return (self.flags & _FLAGS_QR_MASK) == _FLAGS_QR_RESPONSE
def read_utf(self, offset, length):
"""Reads a UTF-8 string of a given length from the packet"""
return text_type(self.data[offset:offset + length], 'utf-8', 'replace')
def read_name(self):
"""Reads a domain name from the packet"""
result = ''
off = self.offset
next = -1
first = off
while True:
length = indexbytes(self.data, off)
off += 1
if length == 0:
break
t = length & 0xC0
if t == 0x00:
result = ''.join((result, self.read_utf(off, length) + '.'))
off += length
elif t == 0xC0:
if next < 0:
next = off + 1
off = ((length & 0x3F) << 8) | indexbytes(self.data, off)
if off >= first:
# TODO raise more specific exception
raise Exception("Bad domain name (circular) at %s" % (off,))
first = off
else:
# TODO raise more specific exception
raise Exception("Bad domain name at %s" % (off,))
if next >= 0:
self.offset = next
else:
self.offset = off
return result
class DNSOutgoing(object):
"""Object representation of an outgoing packet"""
def __init__(self, flags, multicast=True):
self.finished = False
self.id = 0
self.multicast = multicast
self.flags = flags
self.names = {}
self.data = []
self.size = 12
self.questions = []
self.answers = []
self.authorities = []
self.additionals = []
def add_question(self, record):
"""Adds a question"""
self.questions.append(record)
def add_answer(self, inp, record):
"""Adds an answer"""
if not record.suppressed_by(inp):
self.add_answer_at_time(record, 0)
def add_answer_at_time(self, record, now):
"""Adds an answer if if does not expire by a certain time"""
if record is not None:
if now == 0 or not record.is_expired(now):
self.answers.append((record, now))
def add_authorative_answer(self, record):
"""Adds an authoritative answer"""
self.authorities.append(record)
def add_additional_answer(self, record):
"""Adds an additional answer"""
self.additionals.append(record)
def pack(self, format, value):
self.data.append(struct.pack(format, value))
self.size += struct.calcsize(format)
def write_byte(self, value):
"""Writes a single byte to the packet"""
self.pack(b'!c', int2byte(value))
def insert_short(self, index, value):
"""Inserts an unsigned short in a certain position in the packet"""
self.data.insert(index, struct.pack(b'!H', value))
self.size += 2
def write_short(self, value):
"""Writes an unsigned short to the packet"""
self.pack(b'!H', value)
def write_int(self, value):
"""Writes an unsigned integer to the packet"""
self.pack(b'!I', int(value))
def write_string(self, value):
"""Writes a string to the packet"""
assert isinstance(value, bytes)
self.data.append(value)
self.size += len(value)
def write_utf(self, s):
"""Writes a UTF-8 string of a given length to the packet"""
utfstr = s.encode('utf-8')
length = len(utfstr)
if length > 64:
raise NamePartTooLongException
self.write_byte(length)
self.write_string(utfstr)
def write_name(self, name):
"""Writes a domain name to the packet"""
if name in self.names:
# Find existing instance of this name in packet
#
index = self.names[name]
# An index was found, so write a pointer to it
#
self.write_byte((index >> 8) | 0xC0)
self.write_byte(index & 0xFF)
else:
# No record of this name already, so write it
# out as normal, recording the location of the name
# for future pointers to it.
#
self.names[name] = self.size
parts = name.split('.')
if parts[-1] == '':
parts = parts[:-1]
for part in parts:
self.write_utf(part)
self.write_byte(0)
def write_question(self, question):
"""Writes a question to the packet"""
self.write_name(question.name)
self.write_short(question.type)
self.write_short(question.class_)
def write_record(self, record, now):
"""Writes a record (answer, authoritative answer, additional) to
the packet"""
self.write_name(record.name)
self.write_short(record.type)
if record.unique and self.multicast:
self.write_short(record.class_ | _CLASS_UNIQUE)
else:
self.write_short(record.class_)
if now == 0:
self.write_int(record.ttl)
else:
self.write_int(record.get_remaining_ttl(now))
index = len(self.data)
# Adjust size for the short we will write before this record
#
self.size += 2
record.write(self)
self.size -= 2
length = len(b''.join(self.data[index:]))
self.insert_short(index, length) # Here is the short we adjusted for
def packet(self):
"""Returns a string containing the packet's bytes
No further parts should be added to the packet once this
is done."""
if not self.finished:
self.finished = True
for question in self.questions:
self.write_question(question)
for answer, time_ in self.answers:
self.write_record(answer, time_)
for authority in self.authorities:
self.write_record(authority, 0)
for additional in self.additionals:
self.write_record(additional, 0)
self.insert_short(0, len(self.additionals))
self.insert_short(0, len(self.authorities))
self.insert_short(0, len(self.answers))
self.insert_short(0, len(self.questions))
self.insert_short(0, self.flags)
if self.multicast:
self.insert_short(0, 0)
else:
self.insert_short(0, self.id)
return b''.join(self.data)
class DNSCache(object):
"""A cache of DNS entries"""
def __init__(self):
self.cache = {}
def add(self, entry):
"""Adds an entry"""
self.cache.setdefault(entry.key, []).append(entry)
def remove(self, entry):
"""Removes an entry"""
try:
list_ = self.cache[entry.key]
list_.remove(entry)
except (KeyError, ValueError):
pass
def get(self, entry):
"""Gets an entry by key. Will return None if there is no
matching entry."""
try:
list_ = self.cache[entry.key]
return list_[list_.index(entry)]
except (KeyError, ValueError):
return None
def get_by_details(self, name, type, class_):
"""Gets an entry by details. Will return None if there is
no matching entry."""
entry = DNSEntry(name, type, class_)
return self.get(entry)
def entries_with_name(self, name):
"""Returns a list of entries whose key matches the name."""
try:
return self.cache[name]
except KeyError:
return []
def entries(self):
"""Returns a list of all entries"""
if not self.cache:
return []
else:
return reduce(lambda a, b: a + b, self.cache.values())
class Engine(threading.Thread):
"""An engine wraps read access to sockets, allowing objects that
need to receive data from sockets to be called back when the
sockets are ready.
A reader needs a handle_read() method, which is called when the socket
it is interested in is ready for reading.
Writers are not implemented here, because we only send short
packets.
"""
def __init__(self, zc):
threading.Thread.__init__(self)
self.daemon = True
self.zc = zc
self.readers = {} # maps socket to reader
self.timeout = 5
self.condition = threading.Condition()
self.start()
def run(self):
while not _GLOBAL_DONE:
rs = self.get_readers()
if len(rs) == 0:
# No sockets to manage, but we wait for the timeout
# or addition of a socket
#
with self.condition:
self.condition.wait(self.timeout)
else:
try:
rr, wr, er = select.select(rs, [], [], self.timeout)
for socket_ in rr:
try:
self.readers[socket_].handle_read(socket_)
except Exception as e: # TODO stop catching all Exceptions
log.exception('Unknown error, possibly benign: %r', e)
except Exception as e: # TODO stop catching all Exceptions
log.exception('Unknown error, possibly benign: %r', e)
def get_readers(self):
result = []
with self.condition:
result = self.readers.keys()
return result
def add_reader(self, reader, socket):
with self.condition:
self.readers[socket] = reader
self.condition.notify()
def del_reader(self, socket):
with self.condition:
del self.readers[socket]
self.condition.notify()
def notify(self):
with self.condition:
self.condition.notify()
class Listener(object):
"""A Listener is used by this module to listen on the multicast
group to which DNS messages are sent, allowing the implementation
to cache information as it arrives.
It requires registration with an Engine object in order to have
the read() method called when a socket is availble for reading."""
def __init__(self, zc):
self.zc = zc
def handle_read(self, socket_):
try:
data, (addr, port) = socket_.recvfrom(_MAX_MSG_ABSOLUTE)
except socket.error as e:
# If the socket was closed by another thread -- which happens
# regularly on shutdown -- an EBADF exception is thrown here.
# Ignore it.
if e.errno == socket.EBADF:
return
else:
raise e
else:
log.debug('Received %r from %r:%r', data, addr, port)
self.data = data
msg = DNSIncoming(data)
if msg.is_query():
# Always multicast responses
#
if port == _MDNS_PORT:
self.zc.handle_query(msg, _MDNS_ADDR, _MDNS_PORT)
# If it's not a multicast query, reply via unicast
# and multicast
#
elif port == _DNS_PORT:
self.zc.handle_query(msg, addr, port)
self.zc.handle_query(msg, _MDNS_ADDR, _MDNS_PORT)
else:
self.zc.handle_response(msg)
class Reaper(threading.Thread):
"""A Reaper is used by this module to remove cache entries that
have expired."""
def __init__(self, zc):
threading.Thread.__init__(self)
self.daemon = True
self.zc = zc
self.start()
def run(self):
while True:
self.zc.wait(10 * 1000)
if _GLOBAL_DONE:
return
now = current_time_millis()
for record in self.zc.cache.entries():
if record.is_expired(now):
self.zc.update_record(now, record)
self.zc.cache.remove(record)
class Signal(object):
def __init__(self):
self._handlers = []
def fire(self, **kwargs):
for h in list(self._handlers):
h(**kwargs)
@property
def registration_interface(self):
return SignalRegistrationInterface(self._handlers)
class SignalRegistrationInterface(object):
def __init__(self, handlers):
self._handlers = handlers
def register_handler(self, handler):
self._handlers.append(handler)
return self
def unregister_handler(self, handler):
self._handlers.remove(handler)
return self
class ServiceBrowser(threading.Thread):
"""Used to browse for a service of a specific type.
The listener object will have its add_service() and
remove_service() methods called when this browser
discovers changes in the services availability."""
def __init__(self, zc, type_, handlers=None, listener=None):
"""Creates a browser for a specific type"""
assert handlers or listener, 'You need to specify at least one handler'
threading.Thread.__init__(self)
self.daemon = True
self.zc = zc
self.type = type_
self.services = {}
self.next_time = current_time_millis()
self.delay = _BROWSER_TIME
self._handlers_to_call = []
self.done = False
self.zc.add_listener(self, DNSQuestion(self.type, _TYPE_PTR, _CLASS_IN))
self.start()
self._service_state_changed = Signal()
if hasattr(handlers, 'add_service'):
listener = handlers
handlers = None
handlers = handlers or []
if listener:
def on_change(zeroconf, service_type, name, state_change):
args = (zeroconf, service_type, name)
if state_change is ServiceStateChange.Added:
listener.add_service(*args)
elif state_change is ServiceStateChange.Removed:
listener.remove_service(*args)
else:
raise NotImplementedError(state_change)
handlers.append(on_change)
for h in handlers:
self.service_state_changed.register_handler(h)
@property
def service_state_changed(self):
return self._service_state_changed.registration_interface
def update_record(self, zc, now, record):
"""Callback invoked by Zeroconf when new information arrives.
Updates information required by browser in the Zeroconf cache."""
def enqueue_callback(state_change, name):
self._handlers_to_call.append(
lambda zeroconf: self._service_state_changed.fire(
zeroconf=zeroconf,
service_type=self.type,
name=name,
state_change=state_change,
))
if record.type == _TYPE_PTR and record.name == self.type:
expired = record.is_expired(now)
service_key = record.alias.lower()
try:
old_record = self.services[service_key]
except KeyError:
if not expired:
self.services[service_key] = record
enqueue_callback(ServiceStateChange.Added, record.alias)
else:
if not expired:
old_record.reset_ttl(record)
else:
del self.services[service_key]
enqueue_callback(ServiceStateChange.Removed, record.alias)
return
expires = record.get_expiration_time(75)
if expires < self.next_time:
self.next_time = expires
def cancel(self):
self.done = True
self.zc.notify_all()
def run(self):
while True:
now = current_time_millis()
if len(self._handlers_to_call) == 0 and self.next_time > now:
self.zc.wait(self.next_time - now)
if _GLOBAL_DONE or self.done:
return
now = current_time_millis()
if self.next_time <= now:
out = DNSOutgoing(_FLAGS_QR_QUERY)
out.add_question(DNSQuestion(self.type, _TYPE_PTR, _CLASS_IN))
for record in self.services.values():
if not record.is_expired(now):
out.add_answer_at_time(record, now)
self.zc.send(out)
self.next_time = now + self.delay
self.delay = min(20 * 1000, self.delay * 2)
if len(self._handlers_to_call) > 0:
handler = self._handlers_to_call.pop(0)
handler(self.zc)
class ServiceInfo(object):
"""Service information"""
def __init__(self, type, name, address=None, port=None, weight=0,
priority=0, properties=None, server=None):
"""Create a service description.
type: fully qualified service type name
name: fully qualified service name
address: IP address as unsigned short, network byte order
port: port that the service runs on
weight: weight of the service
priority: priority of the service
properties: dictionary of properties (or a string holding the
bytes for the text field)
server: fully qualified name for service host (defaults to name)"""
if not name.endswith(type):
raise BadTypeInNameException
self.type = type
self.name = name
self.address = address
self.port = port
self.weight = weight
self.priority = priority
if server:
self.server = server
else:
self.server = name
self._set_properties(properties)
@property
def properties(self):
return self._properties
def _set_properties(self, properties):
"""Sets properties and text of this info from a dictionary"""
if isinstance(properties, dict):
self._properties = properties
list = []
result = b''
for key, value in iteritems(properties):
if isinstance(key, text_type):
key = key.encode('utf-8')
if value is None:
suffix = b''
elif isinstance(value, text_type):
suffix = value.encode('utf-8')
elif isinstance(value, binary_type):
suffix = value
elif isinstance(value, int):
if value:
suffix = b'true'
else:
suffix = b'false'
else:
suffix = b''
list.append(b'='.join((key, suffix)))
for item in list:
result = b''.join((result, int2byte(len(item)), item))
self.text = result
else:
self.text = properties
def _set_text(self, text):
"""Sets properties and text given a text field"""
self.text = text
result = {}
end = len(text)
index = 0
strs = []
while index < end:
length = indexbytes(text, index)
index += 1
strs.append(text[index:index + length])
index += length
for s in strs:
parts = s.split(b'=', 1)
try:
key, value = parts
except ValueError:
# No equals sign at all
key = s
value = False
else:
if value == b'true':
value = True
elif value == b'false' or not value:
value = False
# Only update non-existent properties
if key and result.get(key) is None:
result[key] = value
self._properties = result
def get_name(self):
"""Name accessor"""
if self.type is not None and self.name.endswith("." + self.type):
return self.name[:len(self.name) - len(self.type) - 1]
return self.name
def update_record(self, zc, now, record):
"""Updates service information from a DNS record"""
if record is not None and not record.is_expired(now):
if record.type == _TYPE_A:
# if record.name == self.name:
if record.name == self.server:
self.address = record.address
elif record.type == _TYPE_SRV:
if record.name == self.name:
self.server = record.server
self.port = record.port
self.weight = record.weight
self.priority = record.priority
# self.address = None
self.update_record(zc, now,
zc.cache.get_by_details(self.server, _TYPE_A, _CLASS_IN))
elif record.type == _TYPE_TXT:
if record.name == self.name:
self._set_text(record.text)
def request(self, zc, timeout):
"""Returns true if the service could be discovered on the
network, and updates this object with details discovered.
"""
now = current_time_millis()
delay = _LISTENER_TIME
next = now + delay
last = now + timeout
result = False
try:
zc.add_listener(self, DNSQuestion(self.name, _TYPE_ANY, _CLASS_IN))
while (self.server is None or self.address is None or
self.text is None):
if last <= now:
return False
if next <= now:
out = DNSOutgoing(_FLAGS_QR_QUERY)
out.add_question(DNSQuestion(self.name, _TYPE_SRV,
_CLASS_IN))
out.add_answer_at_time(zc.cache.get_by_details(self.name,
_TYPE_SRV, _CLASS_IN), now)
out.add_question(DNSQuestion(self.name, _TYPE_TXT,
_CLASS_IN))
out.add_answer_at_time(zc.cache.get_by_details(self.name,
_TYPE_TXT, _CLASS_IN), now)
if self.server is not None:
out.add_question(DNSQuestion(self.server,
_TYPE_A, _CLASS_IN))
out.add_answer_at_time(zc.cache.get_by_details(self.server,
_TYPE_A, _CLASS_IN), now)
zc.send(out)
next = now + delay
delay = delay * 2
zc.wait(min(next, last) - now)
now = current_time_millis()
result = True
finally:
zc.remove_listener(self)
return result
def __eq__(self, other):
"""Tests equality of service name"""
if isinstance(other, ServiceInfo):
return other.name == self.name
return False
def __ne__(self, other):
"""Non-equality test"""
return not self.__eq__(other)
def __repr__(self):
"""String representation"""
return '%s(%s)' % (
type(self).__name__,
', '.join(
'%s=%r' % (name, getattr(self, name))
for name in (
'type', 'name', 'address', 'port', 'weight', 'priority',
'server', 'properties',
)
)
)
@enum.unique
class InterfaceChoice(enum.Enum):
Default = 1
All = 2
@enum.unique
class ServiceStateChange(enum.Enum):
Added = 1
Removed = 2
HOST_ONLY_NETWORK_MASK = '255.255.255.255'
def get_all_addresses(address_family):
return list(set(
addr['addr']
for iface in netifaces.interfaces()
for addr in netifaces.ifaddresses(iface).get(address_family, [])
if addr.get('netmask') != HOST_ONLY_NETWORK_MASK
))
def normalize_interface_choice(choice, address_family):
if choice is InterfaceChoice.Default:
choice = ['0.0.0.0']
elif choice is InterfaceChoice.All:
choice = get_all_addresses(address_family)
return choice
def new_socket():
s = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
s.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
# SO_REUSEADDR should be equivalent to SO_REUSEPORT for
# multicast UDP sockets (p 731, "TCP/IP Illustrated,
# Volume 2"), but some BSD-derived systems require
# SO_REUSEPORT to be specified explicity. Also, not all
# versions of Python have SO_REUSEPORT available.
# Catch OSError and socket.error for kernel versions <3.9 because lacking
# SO_REUSEPORT support.
try:
reuseport = socket.SO_REUSEPORT
except AttributeError:
pass
else:
try:
s.setsockopt(socket.SOL_SOCKET, reuseport, 1)
except (OSError, socket.error) as err: # OSError on python 3, socket.error on python 2
if not err.errno == errno.ENOPROTOOPT:
raise
s.setsockopt(socket.IPPROTO_IP, socket.IP_MULTICAST_TTL, 255)
s.setsockopt(socket.IPPROTO_IP, socket.IP_MULTICAST_LOOP, 1)
s.bind(('', _MDNS_PORT))
return s
def get_errno(e):
assert isinstance(e, socket.error)
return e.args[0]
class Zeroconf(object):
"""Implementation of Zeroconf Multicast DNS Service Discovery
Supports registration, unregistration, queries and browsing.
"""
def __init__(
self,
interfaces=InterfaceChoice.All,
):
"""Creates an instance of the Zeroconf class, establishing
multicast communications, listening and reaping threads.
:type interfaces: :class:`InterfaceChoice` or sequence of ip addresses
"""
global _GLOBAL_DONE
_GLOBAL_DONE = False
self._listen_socket = new_socket()
interfaces = normalize_interface_choice(interfaces, socket.AF_INET)
self._respond_sockets = []
for i in interfaces:
log.debug('Adding %r to multicast group', i)
try:
self._listen_socket.setsockopt(
socket.IPPROTO_IP, socket.IP_ADD_MEMBERSHIP,
socket.inet_aton(_MDNS_ADDR) + socket.inet_aton(i))
except socket.error as e:
if get_errno(e) == errno.EADDRINUSE:
log.info(
'Address in use when adding %s to multicast group, '
'it is expected to happen on some systems', i,
)
elif get_errno(e) == errno.EADDRNOTAVAIL:
log.info(
'Address not available when adding %s to multicast group, '
'it is expected to happen on some systems', i,
)
continue
else:
raise
respond_socket = new_socket()
respond_socket.setsockopt(
socket.IPPROTO_IP, socket.IP_MULTICAST_IF, socket.inet_aton(i))
self._respond_sockets.append(respond_socket)
self.listeners = []
self.browsers = []
self.services = {}
self.servicetypes = {}
self.cache = DNSCache()
self.condition = threading.Condition()
self.engine = Engine(self)
self.listener = Listener(self)
self.engine.add_reader(self.listener, self._listen_socket)
self.reaper = Reaper(self)
def wait(self, timeout):
"""Calling thread waits for a given number of milliseconds or
until notified."""
with self.condition:
self.condition.wait(timeout / 1000)
def notify_all(self):
"""Notifies all waiting threads"""
with self.condition:
self.condition.notify_all()
def get_service_info(self, type, name, timeout=3000):
"""Returns network's service information for a particular
name and type, or None if no service matches by the timeout,
which defaults to 3 seconds."""
info = ServiceInfo(type, name)
if info.request(self, timeout):
return info
return None
def add_service_listener(self, type, listener):
"""Adds a listener for a particular service type. This object
will then have its update_record method called when information
arrives for that type."""
self.remove_service_listener(listener)
self.browsers.append(ServiceBrowser(self, type, listener))
def remove_service_listener(self, listener):
"""Removes a listener from the set that is currently listening."""
for browser in self.browsers:
if browser.listener == listener:
browser.cancel()
del browser
def register_service(self, info, ttl=_DNS_TTL):
"""Registers service information to the network with a default TTL
of 60 seconds. Zeroconf will then respond to requests for
information for that service. The name of the service may be
changed if needed to make it unique on the network."""
self.check_service(info)
self.services[info.name.lower()] = info
if info.type in self.servicetypes:
self.servicetypes[info.type] += 1
else:
self.servicetypes[info.type] = 1
now = current_time_millis()
next_time = now
i = 0
while i < 3:
if now < next_time:
self.wait(next_time - now)
now = current_time_millis()
continue
out = DNSOutgoing(_FLAGS_QR_RESPONSE | _FLAGS_AA)
out.add_answer_at_time(DNSPointer(info.type, _TYPE_PTR,
_CLASS_IN, ttl, info.name), 0)
out.add_answer_at_time(DNSService(info.name, _TYPE_SRV,
_CLASS_IN, ttl, info.priority, info.weight, info.port,
info.server), 0)
out.add_answer_at_time(DNSText(info.name, _TYPE_TXT, _CLASS_IN,
ttl, info.text), 0)
if info.address:
out.add_answer_at_time(DNSAddress(info.server, _TYPE_A,
_CLASS_IN, ttl, info.address), 0)
self.send(out)
i += 1
next_time += _REGISTER_TIME
def unregister_service(self, info):
"""Unregister a service."""
try:
del self.services[info.name.lower()]
if self.servicetypes[info.type] > 1:
self.servicetypes[info.type] -= 1
else:
del self.servicetypes[info.type]
except Exception as e: # TODO stop catching all Exceptions
log.exception('Unknown error, possibly benign: %r', e)
now = current_time_millis()
next_time = now
i = 0
while i < 3:
if now < next_time:
self.wait(next_time - now)
now = current_time_millis()
continue
out = DNSOutgoing(_FLAGS_QR_RESPONSE | _FLAGS_AA)
out.add_answer_at_time(DNSPointer(info.type, _TYPE_PTR,
_CLASS_IN, 0, info.name), 0)
out.add_answer_at_time(DNSService(info.name, _TYPE_SRV,
_CLASS_IN, 0, info.priority, info.weight, info.port,
info.name), 0)
out.add_answer_at_time(DNSText(info.name, _TYPE_TXT, _CLASS_IN,
0, info.text), 0)
if info.address:
out.add_answer_at_time(DNSAddress(info.server, _TYPE_A,
_CLASS_IN, 0, info.address), 0)
self.send(out)
i += 1
next_time += _UNREGISTER_TIME
def unregister_all_services(self):
"""Unregister all registered services."""
if len(self.services) > 0:
now = current_time_millis()
next_time = now
i = 0
while i < 3:
if now < next_time:
self.wait(next_time - now)
now = current_time_millis()
continue
out = DNSOutgoing(_FLAGS_QR_RESPONSE | _FLAGS_AA)
for info in self.services.values():
out.add_answer_at_time(DNSPointer(info.type, _TYPE_PTR,
_CLASS_IN, 0, info.name), 0)
out.add_answer_at_time(DNSService(info.name, _TYPE_SRV,
_CLASS_IN, 0, info.priority, info.weight,
info.port, info.server), 0)
out.add_answer_at_time(DNSText(info.name, _TYPE_TXT,
_CLASS_IN, 0, info.text), 0)
if info.address:
out.add_answer_at_time(DNSAddress(info.server,
_TYPE_A, _CLASS_IN, 0, info.address), 0)
self.send(out)
i += 1
next_time += _UNREGISTER_TIME
def check_service(self, info):
"""Checks the network for a unique service name, modifying the
ServiceInfo passed in if it is not unique."""
now = current_time_millis()
next_time = now
i = 0
while i < 3:
for record in self.cache.entries_with_name(info.type):
if (record.type == _TYPE_PTR and
not record.is_expired(now) and
record.alias == info.name):
if info.name.find('.') < 0:
info.name = '%s.[%s:%s].%s' % (info.name,
info.address, info.port, info.type)
self.check_service(info)
return
raise NonUniqueNameException
if now < next_time:
self.wait(next_time - now)
now = current_time_millis()
continue
out = DNSOutgoing(_FLAGS_QR_QUERY | _FLAGS_AA)
self.debug = out
out.add_question(DNSQuestion(info.type, _TYPE_PTR, _CLASS_IN))
out.add_authorative_answer(DNSPointer(info.type, _TYPE_PTR,
_CLASS_IN, _DNS_TTL, info.name))
self.send(out)
i += 1
next_time += _CHECK_TIME
def add_listener(self, listener, question):
"""Adds a listener for a given question. The listener will have
its update_record method called when information is available to
answer the question."""
now = current_time_millis()
self.listeners.append(listener)
if question is not None:
for record in self.cache.entries_with_name(question.name):
if question.answered_by(record) and not record.is_expired(now):
listener.update_record(self, now, record)
self.notify_all()
def remove_listener(self, listener):
"""Removes a listener."""
try:
self.listeners.remove(listener)
self.notify_all()
except Exception as e: # TODO stop catching all Exceptions
log.exception('Unknown error, possibly benign: %r', e)
def update_record(self, now, rec):
"""Used to notify listeners of new information that has updated
a record."""
for listener in self.listeners:
listener.update_record(self, now, rec)
self.notify_all()
def handle_response(self, msg):
"""Deal with incoming response packets. All answers
are held in the cache, and listeners are notified."""
now = current_time_millis()
for record in msg.answers:
expired = record.is_expired(now)
if record in self.cache.entries():
if expired:
self.cache.remove(record)
else:
entry = self.cache.get(record)
if entry is not None:
entry.reset_ttl(record)
record = entry
else:
self.cache.add(record)
self.update_record(now, record)
def handle_query(self, msg, addr, port):
"""Deal with incoming query packets. Provides a response if
possible."""
out = None
# Support unicast client responses
#
if port != _MDNS_PORT:
out = DNSOutgoing(_FLAGS_QR_RESPONSE | _FLAGS_AA, False)
for question in msg.questions:
out.add_question(question)
for question in msg.questions:
if question.type == _TYPE_PTR:
if question.name == "_services._dns-sd._udp.local.":
for stype in self.servicetypes.keys():
if out is None:
out = DNSOutgoing(_FLAGS_QR_RESPONSE | _FLAGS_AA)
out.add_answer(msg,
DNSPointer("_services._dns-sd._udp.local.",
_TYPE_PTR, _CLASS_IN, _DNS_TTL, stype))
for service in self.services.values():
if question.name == service.type:
if out is None:
out = DNSOutgoing(_FLAGS_QR_RESPONSE | _FLAGS_AA)
out.add_answer(msg,
DNSPointer(service.type, _TYPE_PTR,
_CLASS_IN, _DNS_TTL, service.name))
else:
try:
if out is None:
out = DNSOutgoing(_FLAGS_QR_RESPONSE | _FLAGS_AA)
# Answer A record queries for any service addresses we know
if question.type in (_TYPE_A, _TYPE_ANY):
for service in self.services.values():
if service.server == question.name.lower():
out.add_answer(msg, DNSAddress(question.name,
_TYPE_A, _CLASS_IN | _CLASS_UNIQUE,
_DNS_TTL, service.address))
service = self.services.get(question.name.lower(), None)
if not service:
continue
if question.type in (_TYPE_SRV, _TYPE_ANY):
out.add_answer(msg, DNSService(question.name,
_TYPE_SRV, _CLASS_IN | _CLASS_UNIQUE,
_DNS_TTL, service.priority, service.weight,
service.port, service.server))
if question.type in (_TYPE_TXT, _TYPE_ANY):
out.add_answer(msg, DNSText(question.name,
_TYPE_TXT, _CLASS_IN | _CLASS_UNIQUE,
_DNS_TTL, service.text))
if question.type == _TYPE_SRV:
out.add_additional_answer(DNSAddress(service.server,
_TYPE_A, _CLASS_IN | _CLASS_UNIQUE,
_DNS_TTL, service.address))
except Exception as e: # TODO stop catching all Exceptions
log.exception('Unknown error, possibly benign: %r', e)
if out is not None and out.answers:
out.id = msg.id
self.send(out, addr, port)
def send(self, out, addr=_MDNS_ADDR, port=_MDNS_PORT):
"""Sends an outgoing packet."""
packet = out.packet()
log.debug('Sending %r as %r...', out, packet)
for s in self._respond_sockets:
bytes_sent = s.sendto(packet, 0, (addr, port))
if bytes_sent != len(packet):
raise Error(
'Should not happen, sent %d out of %d bytes' % (
bytes_sent, len(packet)))
def close(self):
"""Ends the background threads, and prevent this instance from
servicing further queries."""
global _GLOBAL_DONE
if not _GLOBAL_DONE:
_GLOBAL_DONE = True
self.notify_all()
self.engine.notify()
self.unregister_all_services()
for s in [self._listen_socket] + self._respond_sockets:
s.close()
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