def __init__(self):
super(GuiClient, self).__init__(ACTNODE_TOPICS)
self.nodedata = dict()
self.timer = None
self.ref_nodedata = nodeData()
self.discovery_timer = None
self.timer = QTimer()
self.timer.timeout.connect(self.receive)
self.timer.start(20)
self.subscribe(b'SIMINFO')
self.subscribe(b'PLOT' + self.client_id)
# Signals
self.actnodedata_changed = Signal()
def __init__(self, actnode_topics):
ctx = zmq.Context.instance()
self.event_io = ctx.socket(zmq.DEALER)
self.stream_in = ctx.socket(zmq.SUB)
self.poller = zmq.Poller()
self.host_id = b''
self.client_id = b'\x00' + os.urandom(4)
self.sender_id = b''
self.servers = dict()
self.act = b''
self.actroute = []
self.acttopics = actnode_topics
self.discovery = None
# Signals
self.nodes_changed = Signal()
self.server_discovered = Signal()
# Tell bluesky that this client will manage the network I/O
bluesky.net = self
def __init__(self, actnode_topics):
ctx = zmq.Context.instance()
self.event_io = ctx.socket(zmq.DEALER)
self.stream_in = ctx.socket(zmq.SUB)
self.poller = zmq.Poller()
self.host_id = b''
self.client_id = b'\x00' + os.urandom(4)
self.sender_id = b''
self.servers = dict()
self.act = b''
self.actroute = []
self.acttopics = actnode_topics
self.discovery = None
# Signals
self.nodes_changed = Signal()
self.server_discovered = Signal()
# Tell bluesky that this client will manage the network I/O
bluesky.net = self
def __init__(self):
super(GuiClient, self).__init__(ACTNODE_TOPICS)
self.nodedata = dict()
self.timer = None
self.ref_nodedata = nodeData()
self.discovery_timer = None
self.timer = QTimer()
self.timer.timeout.connect(self.receive)
self.timer.start(20)
self.subscribe(b'SIMINFO')
self.subscribe(b'PLOT' + self.client_id)
# Signals
self.actnodedata_changed = Signal()
class Client(object):
def __init__(self, actnode_topics=b''):
ctx = zmq.Context.instance()
self.event_io = ctx.socket(zmq.DEALER)
self.stream_in = ctx.socket(zmq.SUB)
self.poller = zmq.Poller()
self.host_id = b''
self.client_id = b'\x00' + os.urandom(4)
self.sender_id = b''
self.servers = dict()
self.act = b''
self.actroute = []
self.acttopics = actnode_topics
self.discovery = None
# Signals
self.nodes_changed = Signal()
self.server_discovered = Signal()
self.signal_quit = Signal()
self.event_received = Signal()
self.stream_received = Signal()
# Tell bluesky that this client will manage the network I/O
bluesky.net = self
def start_discovery(self):
if not self.discovery:
self.discovery = Discovery(self.client_id)
self.poller.register(self.discovery.handle, zmq.POLLIN)
self.discovery.send_request()
def stop_discovery(self):
if self.discovery:
self.poller.unregister(self.discovery.handle)
self.discovery = None
def get_hostid(self):
return self.host_id
def sender(self):
return self.sender_id
def event(self, name, data, sender_id):
''' Default event handler for Client. Override this function for added
functionality. '''
self.event_received.emit(name, data, sender_id)
def stream(self, name, data, sender_id):
''' Default stream handler for Client. Override this function for added
functionality. '''
self.stream_received.emit(name, data, sender_id)
def actnode_changed(self, newact):
''' Default actnode change handler for Client. Override or monkey-patch this function
to implement actual actnode change handling. '''
print('Client active node changed.')
def subscribe(self, streamname, node_id=b''):
''' Subscribe to a stream. '''
self.stream_in.setsockopt(zmq.SUBSCRIBE, streamname + node_id)
def unsubscribe(self, streamname, node_id=b''):
''' Unsubscribe from a stream. '''
self.stream_in.setsockopt(zmq.UNSUBSCRIBE, streamname + node_id)
def connect(self, hostname='localhost', event_port=0, stream_port=0, protocol='tcp'):
conbase = '{}://{}'.format(protocol, hostname)
econ = conbase + (':{}'.format(event_port) if event_port else '')
scon = conbase + (':{}'.format(stream_port) if stream_port else '')
self.event_io.setsockopt(zmq.IDENTITY, self.client_id)
self.event_io.connect(econ)
self.send_event(b'REGISTER')
self.host_id = self.event_io.recv_multipart()[0]
print('Client {} connected to host {}'.format(self.client_id, self.host_id))
self.stream_in.connect(scon)
self.poller.register(self.event_io, zmq.POLLIN)
self.poller.register(self.stream_in, zmq.POLLIN)
def receive(self, timeout=0):
''' Poll for incoming data from Server, and receive if available.
Arguments:
timeout: The polling timeout in milliseconds. '''
try:
socks = dict(self.poller.poll(timeout))
if socks.get(self.event_io) == zmq.POLLIN:
msg = self.event_io.recv_multipart()
# Remove send-to-all flag if present
if msg[0] == b'*':
msg.pop(0)
route, eventname, data = msg[:-2], msg[-2], msg[-1]
self.sender_id = route[0]
route.reverse()
pydata = msgpack.unpackb(data, object_hook=decode_ndarray, encoding='utf-8')
if eventname == b'NODESCHANGED':
self.servers.update(pydata)
self.nodes_changed.emit(pydata)
# If this is the first known node, select it as active node
nodes_myserver = next(iter(pydata.values())).get('nodes')
if not self.act and nodes_myserver:
self.actnode(nodes_myserver[0])
elif eventname == b'QUIT':
self.signal_quit.emit()
else:
self.event(eventname, pydata, self.sender_id)
if socks.get(self.stream_in) == zmq.POLLIN:
msg = self.stream_in.recv_multipart()
strmname = msg[0][:-5]
sender_id = msg[0][-5:]
pydata = msgpack.unpackb(msg[1], object_hook=decode_ndarray, encoding='utf-8')
self.stream(strmname, pydata, sender_id)
# If we are in discovery mode, parse this message
if self.discovery and socks.get(self.discovery.handle.fileno()):
dmsg = self.discovery.recv_reqreply()
if dmsg.conn_id != self.client_id and dmsg.is_server:
self.server_discovered.emit(dmsg.conn_ip, dmsg.ports)
except zmq.ZMQError:
return False
def _getroute(self, target):
for srv in self.servers.values():
if target in srv['nodes']:
return srv['route']
return None
def actnode(self, newact=None):
if newact:
route = self._getroute(newact)
if route is None:
print('Error selecting active node (unknown node)')
return None
# Unsubscribe from previous node, subscribe to new one.
if newact != self.act:
for topic in self.acttopics:
if self.act:
self.unsubscribe(topic, self.act)
self.subscribe(topic, newact)
self.actroute = route
self.act = newact
self.actnode_changed(newact)
return self.act
def addnodes(self, count=1):
self.send_event(b'ADDNODES', count)
def send_event(self, name, data=None, target=None):
pydata = msgpack.packb(data, default=encode_ndarray, use_bin_type=True)
if not target:
self.event_io.send_multipart(self.actroute + [self.act, name, pydata])
elif target == b'*':
self.event_io.send_multipart([target, name, pydata])
else:
self.event_io.send_multipart(self._getroute(target) + [target, name, pydata])
class GuiClient(Client):
def __init__(self):
super(GuiClient, self).__init__(ACTNODE_TOPICS)
self.nodedata = dict()
self.timer = None
self.ref_nodedata = nodeData()
self.discovery_timer = None
self.timer = QTimer()
self.timer.timeout.connect(self.receive)
self.timer.start(20)
self.subscribe(b'SIMINFO')
self.subscribe(b'PLOT' + self.client_id)
# Signals
self.actnodedata_changed = Signal()
def start_discovery(self):
super(GuiClient, self).start_discovery()
self.discovery_timer = QTimer()
self.discovery_timer.timeout.connect(self.discovery.send_request)
self.discovery_timer.start(3000)
def stop_discovery(self):
self.discovery_timer.stop()
self.discovery_timer = None
super(GuiClient, self).stop_discovery()
def event(self, name, data, sender_id):
sender_data = self.get_nodedata(sender_id)
data_changed = []
if name == b'RESET':
sender_data.clear_scen_data()
data_changed = list(UPDATE_ALL)
elif name == b'SHAPE':
sender_data.update_poly_data(**data)
data_changed.append('SHAPE')
elif name == b'DEFWPT':
sender_data.defwpt(**data)
data_changed.append('CUSTWPT')
elif name == b'DISPLAYFLAG':
sender_data.setflag(**data)
elif name == b'ECHO':
sender_data.echo(**data)
data_changed.append('ECHOTEXT')
elif name == b'PANZOOM':
sender_data.panzoom(**data)
data_changed.append('PANZOOM')
elif name == b'SIMSTATE':
sender_data.siminit(**data)
data_changed = list(UPDATE_ALL)
else:
super(GuiClient, self).event(name, data, sender_id)
if sender_id == self.act and data_changed:
self.actnodedata_changed.emit(sender_id, sender_data, data_changed)
def actnode_changed(self, newact):
self.actnodedata_changed.emit(newact, self.get_nodedata(newact),
UPDATE_ALL)
def get_nodedata(self, nodeid=None):
nodeid = nodeid or self.act
if not nodeid:
return self.ref_nodedata
data = self.nodedata.get(nodeid)
if not data:
# If this is a node we haven't addressed yet: create dataset and
# request node settings
self.nodedata[nodeid] = data = nodeData()
self.send_event(b'GETSIMSTATE', target=nodeid)
return data
class GuiClient(Client):
def __init__(self):
super(GuiClient, self).__init__(ACTNODE_TOPICS)
self.nodedata = dict()
self.timer = None
self.ref_nodedata = nodeData()
self.discovery_timer = None
self.timer = QTimer()
self.timer.timeout.connect(self.receive)
self.timer.start(20)
self.subscribe(b'SIMINFO')
self.subscribe(b'PLOT' + self.client_id)
# Signals
self.actnodedata_changed = Signal()
def start_discovery(self):
super(GuiClient, self).start_discovery()
self.discovery_timer = QTimer()
self.discovery_timer.timeout.connect(self.discovery.send_request)
self.discovery_timer.start(3000)
def stop_discovery(self):
self.discovery_timer.stop()
self.discovery_timer = None
super(GuiClient, self).stop_discovery()
def event(self, name, data, sender_id):
sender_data = self.get_nodedata(sender_id)
data_changed = []
if name == b'RESET':
sender_data.clear_scen_data()
data_changed = list(UPDATE_ALL)
elif name == b'SHAPE':
sender_data.update_poly_data(**data)
data_changed.append('SHAPE')
elif name == b'DEFWPT':
sender_data.defwpt(**data)
data_changed.append('CUSTWPT')
elif name == b'DISPLAYFLAG':
sender_data.setflag(**data)
elif name == b'ECHO':
sender_data.echo(**data)
data_changed.append('ECHOTEXT')
elif name == b'PANZOOM':
sender_data.panzoom(**data)
data_changed.append('PANZOOM')
elif name == b'SIMSTATE':
sender_data.siminit(**data)
data_changed = list(UPDATE_ALL)
else:
super(GuiClient, self).event(name, data, sender_id)
if sender_id == self.act and data_changed:
self.actnodedata_changed.emit(sender_id, sender_data, data_changed)
def actnode_changed(self, newact):
self.actnodedata_changed.emit(newact, self.get_nodedata(newact), UPDATE_ALL)
def get_nodedata(self, nodeid=None):
nodeid = nodeid or self.act
if not nodeid:
return self.ref_nodedata
data = self.nodedata.get(nodeid)
if not data:
# If this is a node we haven't addressed yet: create dataset and
# request node settings
self.nodedata[nodeid] = data = nodeData()
self.send_event(b'GETSIMSTATE', target=nodeid)
return data
