def _createLoopbackBroker(self, tubref):
t1,t2 = broker.LoopbackTransport(), broker.LoopbackTransport()
t1.setPeer(t2); t2.setPeer(t1)
n = negotiate.Negotiation()
params = n.loopbackDecision()
b1,b2 = (self.brokerClass(tubref, params),
self.brokerClass(tubref, params))
# we treat b1 as "our" broker, and b2 as "theirs", and we pretend
# that b2 has just connected to us. We keep track of b1, and b2 keeps
# track of us.
b1.setTub(self)
b2.setTub(self)
t1.protocol = b1; t2.protocol = b2
b1.makeConnection(t1); b2.makeConnection(t2)
self.connectionAttached(b1)
self.connectionAttached(b2)
self.brokerAttached(tubref, b1, False)
return b1
def _createLoopbackBroker(self, tubref):
t1, t2 = broker.LoopbackTransport(), broker.LoopbackTransport()
t1.setPeer(t2)
t2.setPeer(t1)
n = negotiate.Negotiation()
params = n.loopbackDecision()
ci = info.ConnectionInfo()
b1 = self.brokerClass(tubref, params, connectionInfo=ci)
b2 = self.brokerClass(tubref, params)
# we treat b1 as "our" broker, and b2 as "theirs", and we pretend
# that b2 has just connected to us. We keep track of b1, and b2 keeps
# track of us.
b1.setTub(self)
b2.setTub(self)
t1.protocol = b1
t2.protocol = b2
b1.makeConnection(t1)
b2.makeConnection(t2)
ci._set_connected(True)
ci._set_winning_hint("loopback")
ci._set_connection_status("loopback", "connected")
ci._set_established_at(b1.creation_timestamp)
self.brokerAttached(tubref, b1, False)
return b1