selfdrive/messaging.py

import zmq

from cereal import log
from common.realtime import sec_since_boot
from selfdrive.services import service_list

def new_message():
  dat = log.Event.new_message()
  dat.logMonoTime = int(sec_since_boot() * 1e9)
  dat.valid = True
  return dat

def pub_sock(port, addr="*"):
  context = zmq.Context.instance()
  sock = context.socket(zmq.PUB)
  sock.bind("tcp://%s:%d" % (addr, port))
  return sock

def sub_sock(port, poller=None, addr="127.0.0.1", conflate=False, timeout=None):
  context = zmq.Context.instance()
  sock = context.socket(zmq.SUB)
  if conflate:
    sock.setsockopt(zmq.CONFLATE, 1)
  sock.connect("tcp://%s:%d" % (addr, port))
  sock.setsockopt(zmq.SUBSCRIBE, b"")

  if timeout is not None:
    sock.RCVTIMEO = timeout

  if poller is not None:
    poller.register(sock, zmq.POLLIN)
  return sock

def drain_sock_raw(sock, wait_for_one=False):
  ret = []
  while 1:
    try:
      if wait_for_one and len(ret) == 0:
        dat = sock.recv()
      else:
        dat = sock.recv(zmq.NOBLOCK)
      ret.append(dat)
    except zmq.error.Again:
      break
  return ret

def drain_sock(sock, wait_for_one=False):
  ret = []
  while 1:
    try:
      if wait_for_one and len(ret) == 0:
        dat = sock.recv()
      else:
        dat = sock.recv(zmq.NOBLOCK)
      dat = log.Event.from_bytes(dat)
      ret.append(dat)
    except zmq.error.Again:
      break
  return ret


# TODO: print when we drop packets?
def recv_sock(sock, wait=False):
  dat = None
  while 1:
    try:
      if wait and dat is None:
        dat = sock.recv()
      else:
        dat = sock.recv(zmq.NOBLOCK)
    except zmq.error.Again:
      break
  if dat is not None:
    dat = log.Event.from_bytes(dat)
  return dat

def recv_one(sock):
  return log.Event.from_bytes(sock.recv())

def recv_one_or_none(sock):
  try:
    return log.Event.from_bytes(sock.recv(zmq.NOBLOCK))
  except zmq.error.Again:
    return None


class SubMaster():
  def __init__(self, services, addr="127.0.0.1"):
    self.poller = zmq.Poller()
    self.frame = -1
    self.updated = {s : False for s in services}
    self.rcv_time = {s : 0. for s in services}
    self.rcv_frame = {s : 0 for s in services}
    self.alive = {s : False for s in services}
    self.sock = {}
    self.freq = {}
    self.data = {}
    self.logMonoTime = {}
    self.valid = {}
    for s in services:
      # TODO: get address automatically from service_list
      if addr is not None:
        self.sock[s] = sub_sock(service_list[s].port, poller=self.poller, addr=addr, conflate=True)
      self.freq[s] = service_list[s].frequency
      data = new_message()
      data.init(s)
      self.data[s] = getattr(data, s)
      self.logMonoTime[s] = 0
      self.valid[s] = data.valid

  def __getitem__(self, s):
    return self.data[s]

  def update(self, timeout=-1):
    msgs = []
    for sock, _ in self.poller.poll(timeout):
      msgs.append(recv_one(sock))
    self.update_msgs(sec_since_boot(), msgs)

  def update_msgs(self, cur_time, msgs):
    # TODO: add optional input that specify the service to wait for
    self.frame += 1
    self.updated = dict.fromkeys(self.updated, False)
    for msg in msgs:
      s = msg.which()
      self.updated[s] = True
      self.rcv_time[s] = cur_time
      self.rcv_frame[s] = self.frame
      self.data[s] = getattr(msg, s)
      self.logMonoTime[s] = msg.logMonoTime
      self.valid[s] = msg.valid

    for s in self.data:
      # arbitrary small number to avoid float comparison. If freq is 0, we can skip the check
      if self.freq[s] > 1e-5:
        # alive if delay is within 10x the expected frequency
        self.alive[s] = (cur_time - self.rcv_time[s]) < (10. / self.freq[s])
      else:
        self.alive[s] = True

  def all_alive(self, service_list=None):
    if service_list is None:  # check all
      service_list = self.alive.keys()
    return all(self.alive[s] for s in service_list)

  def all_valid(self, service_list=None):
    if service_list is None:  # check all
      service_list = self.valid.keys()
    return all(self.valid[s] for s in service_list)

  def all_alive_and_valid(self, service_list=None):
    if service_list is None:  # check all
      service_list = self.alive.keys()
    return self.all_alive(service_list=service_list) and self.all_valid(service_list=service_list)
openpilot release 2016-11-29 18:34:21 -08:00			`import zmq`

			`from cereal import log`
openpilot v0.6 release 2019-06-28 21:11:30 +00:00			`from common.realtime import sec_since_boot`
			`from selfdrive.services import service_list`
openpilot release 2016-11-29 18:34:21 -08:00
			`def new_message():`
			`dat = log.Event.new_message()`
openpilot v0.6 release 2019-06-28 21:11:30 +00:00			`dat.logMonoTime = int(sec_since_boot() * 1e9)`
			`dat.valid = True`
openpilot release 2016-11-29 18:34:21 -08:00			`return dat`

openpilot v0.6 release 2019-06-28 21:11:30 +00:00			`def pub_sock(port, addr="*"):`
			`context = zmq.Context.instance()`
openpilot release 2016-11-29 18:34:21 -08:00			`sock = context.socket(zmq.PUB)`
			`sock.bind("tcp://%s:%d" % (addr, port))`
			`return sock`

openpilot v0.6.1 release 2019-07-22 19:17:47 +00:00			`def sub_sock(port, poller=None, addr="127.0.0.1", conflate=False, timeout=None):`
openpilot v0.6 release 2019-06-28 21:11:30 +00:00			`context = zmq.Context.instance()`
openpilot release 2016-11-29 18:34:21 -08:00			`sock = context.socket(zmq.SUB)`
openpilot v0.3.6 release 2017-08-09 17:32:45 -07:00			`if conflate:`
			`sock.setsockopt(zmq.CONFLATE, 1)`
openpilot release 2016-11-29 18:34:21 -08:00			`sock.connect("tcp://%s:%d" % (addr, port))`
openpilot v0.5 release 2018-07-12 18:52:06 -07:00			`sock.setsockopt(zmq.SUBSCRIBE, b"")`
openpilot v0.6.1 release 2019-07-22 19:17:47 +00:00
			`if timeout is not None:`
			`sock.RCVTIMEO = timeout`

openpilot release 2016-11-29 18:34:21 -08:00			`if poller is not None:`
			`poller.register(sock, zmq.POLLIN)`
			`return sock`

openpilot v0.6.1 release 2019-07-22 19:17:47 +00:00			`def drain_sock_raw(sock, wait_for_one=False):`
			`ret = []`
			`while 1:`
			`try:`
			`if wait_for_one and len(ret) == 0:`
			`dat = sock.recv()`
			`else:`
			`dat = sock.recv(zmq.NOBLOCK)`
			`ret.append(dat)`
			`except zmq.error.Again:`
			`break`
			`return ret`

openpilot release 2016-11-29 18:34:21 -08:00			`def drain_sock(sock, wait_for_one=False):`
			`ret = []`
			`while 1:`
			`try:`
			`if wait_for_one and len(ret) == 0:`
			`dat = sock.recv()`
			`else:`
			`dat = sock.recv(zmq.NOBLOCK)`
			`dat = log.Event.from_bytes(dat)`
			`ret.append(dat)`
			`except zmq.error.Again:`
			`break`
			`return ret`


			`# TODO: print when we drop packets?`
			`def recv_sock(sock, wait=False):`
			`dat = None`
			`while 1:`
			`try:`
			`if wait and dat is None:`
			`dat = sock.recv()`
			`else:`
			`dat = sock.recv(zmq.NOBLOCK)`
			`except zmq.error.Again:`
			`break`
			`if dat is not None:`
			`dat = log.Event.from_bytes(dat)`
			`return dat`
openpilot v0.3.6 release 2017-08-09 17:32:45 -07:00
			`def recv_one(sock):`
			`return log.Event.from_bytes(sock.recv())`

			`def recv_one_or_none(sock):`
			`try:`
			`return log.Event.from_bytes(sock.recv(zmq.NOBLOCK))`
			`except zmq.error.Again:`
			`return None`
openpilot v0.6 release 2019-06-28 21:11:30 +00:00

			`class SubMaster():`
			`def __init__(self, services, addr="127.0.0.1"):`
			`self.poller = zmq.Poller()`
			`self.frame = -1`
			`self.updated = {s : False for s in services}`
			`self.rcv_time = {s : 0. for s in services}`
			`self.rcv_frame = {s : 0 for s in services}`
			`self.alive = {s : False for s in services}`
			`self.sock = {}`
			`self.freq = {}`
			`self.data = {}`
			`self.logMonoTime = {}`
			`self.valid = {}`
			`for s in services:`
			`# TODO: get address automatically from service_list`
openpilot v0.6.1 release 2019-07-22 19:17:47 +00:00			`if addr is not None:`
			`self.sock[s] = sub_sock(service_list[s].port, poller=self.poller, addr=addr, conflate=True)`
openpilot v0.6 release 2019-06-28 21:11:30 +00:00			`self.freq[s] = service_list[s].frequency`
			`data = new_message()`
			`data.init(s)`
			`self.data[s] = getattr(data, s)`
openpilot v0.6.1 release 2019-07-22 19:17:47 +00:00			`self.logMonoTime[s] = 0`
openpilot v0.6 release 2019-06-28 21:11:30 +00:00			`self.valid[s] = data.valid`

			`def __getitem__(self, s):`
			`return self.data[s]`

			`def update(self, timeout=-1):`
openpilot v0.6.1 release 2019-07-22 19:17:47 +00:00			`msgs = []`
			`for sock, _ in self.poller.poll(timeout):`
			`msgs.append(recv_one(sock))`
			`self.update_msgs(sec_since_boot(), msgs)`

			`def update_msgs(self, cur_time, msgs):`
openpilot v0.6 release 2019-06-28 21:11:30 +00:00			`# TODO: add optional input that specify the service to wait for`
			`self.frame += 1`
			`self.updated = dict.fromkeys(self.updated, False)`
openpilot v0.6.1 release 2019-07-22 19:17:47 +00:00			`for msg in msgs:`
openpilot v0.6 release 2019-06-28 21:11:30 +00:00			`s = msg.which()`
			`self.updated[s] = True`
			`self.rcv_time[s] = cur_time`
			`self.rcv_frame[s] = self.frame`
			`self.data[s] = getattr(msg, s)`
			`self.logMonoTime[s] = msg.logMonoTime`
			`self.valid[s] = msg.valid`

			`for s in self.data:`
			`# arbitrary small number to avoid float comparison. If freq is 0, we can skip the check`
			`if self.freq[s] > 1e-5:`
			`# alive if delay is within 10x the expected frequency`
			`self.alive[s] = (cur_time - self.rcv_time[s]) < (10. / self.freq[s])`
			`else:`
			`self.alive[s] = True`

			`def all_alive(self, service_list=None):`
			`if service_list is None: # check all`
			`service_list = self.alive.keys()`
			`return all(self.alive[s] for s in service_list)`

			`def all_valid(self, service_list=None):`
			`if service_list is None: # check all`
			`service_list = self.valid.keys()`
			`return all(self.valid[s] for s in service_list)`

			`def all_alive_and_valid(self, service_list=None):`
			`if service_list is None: # check all`
			`service_list = self.alive.keys()`
			`return self.all_alive(service_list=service_list) and self.all_valid(service_list=service_list)`