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Direktori : /proc/thread-self/root/usr/lib/python3/dist-packages/twisted/internet/ |
Current File : //proc/thread-self/root/usr/lib/python3/dist-packages/twisted/internet/_resolver.py |
# -*- test-case-name: twisted.internet.test.test_resolver -*- # Copyright (c) Twisted Matrix Laboratories. # See LICENSE for details. """ IPv6-aware hostname resolution. @see: L{IHostnameResolver} """ from socket import ( AF_INET, AF_INET6, AF_UNSPEC, SOCK_DGRAM, SOCK_STREAM, gaierror, getaddrinfo, ) from zope.interface import implementer from twisted.internet._idna import _idnaBytes from twisted.internet.address import IPv4Address, IPv6Address from twisted.internet.defer import Deferred from twisted.internet.error import DNSLookupError from twisted.internet.interfaces import ( IHostnameResolver, IHostResolution, IResolutionReceiver, IResolverSimple, ) from twisted.internet.threads import deferToThreadPool from twisted.logger import Logger from twisted.python.compat import nativeString @implementer(IHostResolution) class HostResolution: """ The in-progress resolution of a given hostname. """ def __init__(self, name): """ Create a L{HostResolution} with the given name. """ self.name = name def cancel(self): # IHostResolution.cancel raise NotImplementedError() _any = frozenset([IPv4Address, IPv6Address]) _typesToAF = { frozenset([IPv4Address]): AF_INET, frozenset([IPv6Address]): AF_INET6, _any: AF_UNSPEC, } _afToType = { AF_INET: IPv4Address, AF_INET6: IPv6Address, } _transportToSocket = { "TCP": SOCK_STREAM, "UDP": SOCK_DGRAM, } _socktypeToType = { SOCK_STREAM: "TCP", SOCK_DGRAM: "UDP", } @implementer(IHostnameResolver) class GAIResolver: """ L{IHostnameResolver} implementation that resolves hostnames by calling L{getaddrinfo} in a thread. """ def __init__(self, reactor, getThreadPool=None, getaddrinfo=getaddrinfo): """ Create a L{GAIResolver}. @param reactor: the reactor to schedule result-delivery on @type reactor: L{IReactorThreads} @param getThreadPool: a function to retrieve the thread pool to use for scheduling name resolutions. If not supplied, the use the given C{reactor}'s thread pool. @type getThreadPool: 0-argument callable returning a L{twisted.python.threadpool.ThreadPool} @param getaddrinfo: a reference to the L{getaddrinfo} to use - mainly parameterized for testing. @type getaddrinfo: callable with the same signature as L{getaddrinfo} """ self._reactor = reactor self._getThreadPool = ( reactor.getThreadPool if getThreadPool is None else getThreadPool ) self._getaddrinfo = getaddrinfo def resolveHostName( self, resolutionReceiver, hostName, portNumber=0, addressTypes=None, transportSemantics="TCP", ): """ See L{IHostnameResolver.resolveHostName} @param resolutionReceiver: see interface @param hostName: see interface @param portNumber: see interface @param addressTypes: see interface @param transportSemantics: see interface @return: see interface """ pool = self._getThreadPool() addressFamily = _typesToAF[ _any if addressTypes is None else frozenset(addressTypes) ] socketType = _transportToSocket[transportSemantics] def get(): try: return self._getaddrinfo( hostName, portNumber, addressFamily, socketType ) except gaierror: return [] d = deferToThreadPool(self._reactor, pool, get) resolution = HostResolution(hostName) resolutionReceiver.resolutionBegan(resolution) @d.addCallback def deliverResults(result): for family, socktype, proto, cannoname, sockaddr in result: addrType = _afToType[family] resolutionReceiver.addressResolved( addrType(_socktypeToType.get(socktype, "TCP"), *sockaddr) ) resolutionReceiver.resolutionComplete() return resolution @implementer(IHostnameResolver) class SimpleResolverComplexifier: """ A converter from L{IResolverSimple} to L{IHostnameResolver}. """ _log = Logger() def __init__(self, simpleResolver): """ Construct a L{SimpleResolverComplexifier} with an L{IResolverSimple}. """ self._simpleResolver = simpleResolver def resolveHostName( self, resolutionReceiver, hostName, portNumber=0, addressTypes=None, transportSemantics="TCP", ): """ See L{IHostnameResolver.resolveHostName} @param resolutionReceiver: see interface @param hostName: see interface @param portNumber: see interface @param addressTypes: see interface @param transportSemantics: see interface @return: see interface """ # If it's str, we need to make sure that it's just ASCII. try: hostName = hostName.encode("ascii") except UnicodeEncodeError: # If it's not just ASCII, IDNA it. We don't want to give a Unicode # string with non-ASCII in it to Python 3, as if anyone passes that # to a Python 3 stdlib function, it will probably use the wrong # IDNA version and break absolutely everything hostName = _idnaBytes(hostName) # Make sure it's passed down as a native str, to maintain the interface hostName = nativeString(hostName) resolution = HostResolution(hostName) resolutionReceiver.resolutionBegan(resolution) onAddress = self._simpleResolver.getHostByName(hostName) def addressReceived(address): resolutionReceiver.addressResolved(IPv4Address("TCP", address, portNumber)) def errorReceived(error): if not error.check(DNSLookupError): self._log.failure( "while looking up {name} with {resolver}", error, name=hostName, resolver=self._simpleResolver, ) onAddress.addCallbacks(addressReceived, errorReceived) def finish(result): resolutionReceiver.resolutionComplete() onAddress.addCallback(finish) return resolution @implementer(IResolutionReceiver) class FirstOneWins: """ An L{IResolutionReceiver} which fires a L{Deferred} with its first result. """ def __init__(self, deferred): """ @param deferred: The L{Deferred} to fire when the first resolution result arrives. """ self._deferred = deferred self._resolved = False def resolutionBegan(self, resolution): """ See L{IResolutionReceiver.resolutionBegan} @param resolution: See L{IResolutionReceiver.resolutionBegan} """ self._resolution = resolution def addressResolved(self, address): """ See L{IResolutionReceiver.addressResolved} @param address: See L{IResolutionReceiver.addressResolved} """ if self._resolved: return self._resolved = True self._deferred.callback(address.host) def resolutionComplete(self): """ See L{IResolutionReceiver.resolutionComplete} """ if self._resolved: return self._deferred.errback(DNSLookupError(self._resolution.name)) @implementer(IResolverSimple) class ComplexResolverSimplifier: """ A converter from L{IHostnameResolver} to L{IResolverSimple} """ def __init__(self, nameResolver): """ Create a L{ComplexResolverSimplifier} with an L{IHostnameResolver}. @param nameResolver: The L{IHostnameResolver} to use. """ self._nameResolver = nameResolver def getHostByName(self, name, timeouts=()): """ See L{IResolverSimple.getHostByName} @param name: see L{IResolverSimple.getHostByName} @param timeouts: see L{IResolverSimple.getHostByName} @return: see L{IResolverSimple.getHostByName} """ result = Deferred() self._nameResolver.resolveHostName(FirstOneWins(result), name, 0, [IPv4Address]) return result