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import zmq
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from cereal import log
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from common.realtime import sec_since_boot
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from selfdrive.services import service_list
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def new_message():
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dat = log.Event.new_message()
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dat.logMonoTime = int(sec_since_boot() * 1e9)
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dat.valid = True
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return dat
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def pub_sock(port, addr="*"):
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context = zmq.Context.instance()
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sock = context.socket(zmq.PUB)
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sock.bind("tcp://%s:%d" % (addr, port))
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return sock
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def sub_sock(port, poller=None, addr="127.0.0.1", conflate=False):
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context = zmq.Context.instance()
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sock = context.socket(zmq.SUB)
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if conflate:
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sock.setsockopt(zmq.CONFLATE, 1)
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sock.connect("tcp://%s:%d" % (addr, port))
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sock.setsockopt(zmq.SUBSCRIBE, b"")
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if poller is not None:
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poller.register(sock, zmq.POLLIN)
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return sock
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def drain_sock(sock, wait_for_one=False):
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ret = []
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while 1:
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try:
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if wait_for_one and len(ret) == 0:
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dat = sock.recv()
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else:
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dat = sock.recv(zmq.NOBLOCK)
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dat = log.Event.from_bytes(dat)
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ret.append(dat)
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except zmq.error.Again:
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break
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return ret
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# TODO: print when we drop packets?
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def recv_sock(sock, wait=False):
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dat = None
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while 1:
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try:
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if wait and dat is None:
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dat = sock.recv()
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else:
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dat = sock.recv(zmq.NOBLOCK)
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except zmq.error.Again:
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break
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if dat is not None:
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dat = log.Event.from_bytes(dat)
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return dat
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def recv_one(sock):
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return log.Event.from_bytes(sock.recv())
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def recv_one_or_none(sock):
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try:
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return log.Event.from_bytes(sock.recv(zmq.NOBLOCK))
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except zmq.error.Again:
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return None
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class SubMaster():
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def __init__(self, services, addr="127.0.0.1"):
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self.poller = zmq.Poller()
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self.frame = -1
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self.updated = {s : False for s in services}
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self.rcv_time = {s : 0. for s in services}
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self.rcv_frame = {s : 0 for s in services}
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self.alive = {s : False for s in services}
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self.sock = {}
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self.freq = {}
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self.data = {}
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self.logMonoTime = {}
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self.valid = {}
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for s in services:
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# TODO: get address automatically from service_list
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self.sock[s] = sub_sock(service_list[s].port, poller=self.poller, addr=addr, conflate=True)
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self.freq[s] = service_list[s].frequency
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data = new_message()
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data.init(s)
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self.data[s] = getattr(data, s)
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self.logMonoTime[s] = data.logMonoTime
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self.valid[s] = data.valid
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def __getitem__(self, s):
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return self.data[s]
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def update(self, timeout=-1):
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# TODO: add optional input that specify the service to wait for
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self.frame += 1
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self.updated = dict.fromkeys(self.updated, False)
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cur_time = sec_since_boot()
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for sock, _ in self.poller.poll(timeout):
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msg = recv_one(sock)
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s = msg.which()
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self.updated[s] = True
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self.rcv_time[s] = cur_time
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self.rcv_frame[s] = self.frame
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self.data[s] = getattr(msg, s)
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self.logMonoTime[s] = msg.logMonoTime
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self.valid[s] = msg.valid
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for s in self.data:
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# arbitrary small number to avoid float comparison. If freq is 0, we can skip the check
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if self.freq[s] > 1e-5:
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# alive if delay is within 10x the expected frequency
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self.alive[s] = (cur_time - self.rcv_time[s]) < (10. / self.freq[s])
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else:
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self.alive[s] = True
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def all_alive(self, service_list=None):
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if service_list is None: # check all
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service_list = self.alive.keys()
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return all(self.alive[s] for s in service_list)
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def all_valid(self, service_list=None):
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if service_list is None: # check all
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service_list = self.valid.keys()
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return all(self.valid[s] for s in service_list)
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def all_alive_and_valid(self, service_list=None):
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if service_list is None: # check all
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service_list = self.alive.keys()
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return self.all_alive(service_list=service_list) and self.all_valid(service_list=service_list)
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