split locationd and liblocationd tests (#24977)

* laikad: use cython version of gnss kf * fix import error * test liblocationd separate * Revert "laikad: use cython version of gnss kf" This reverts commit bdd769b955.
3 years ago · b95e687782
parent 915b4928ff
commit b95e687782
3 changed files with 108 additions and 95 deletions
--- a/.github/workflows/selfdrive_tests.yaml
+++ b/.github/workflows/selfdrive_tests.yaml
@ -299,6 +299,7 @@ jobs:
                        $UNIT_TEST selfdrive/loggerd && \
                        $UNIT_TEST selfdrive/car && \
                        $UNIT_TEST selfdrive/locationd && \
                        selfdrive/locationd/test/_test_locationd_lib.py && \
                        $UNIT_TEST selfdrive/athena && \
                        $UNIT_TEST selfdrive/thermald && \
                        $UNIT_TEST selfdrive/hardware/tici && \
@ -364,7 +365,7 @@ jobs:
                        CI=1 AZURE_TOKEN='$AZURE_TOKEN' python selfdrive/test/process_replay/test_processes.py -j$(nproc) --upload-only"
    - name: "Upload coverage to Codecov"
      uses: codecov/codecov-action@v2
-  
+
  model_replay_onnx:
    name: model replay onnx
    runs-on: ubuntu-20.04
--- a/selfdrive/locationd/test/_test_locationd_lib.py
+++ b/selfdrive/locationd/test/_test_locationd_lib.py
@ -0,0 +1,106 @@
 #!/usr/bin/env python3
 """This test can't be run together with other locationd tests.
 cffi.dlopen breaks the list of registered filters."""
 import os
 import random
 import unittest
 from cffi import FFI
 import cereal.messaging as messaging
 from cereal import log
 SENSOR_DECIMATION = 1
 VISION_DECIMATION = 1
 LIBLOCATIOND_PATH = os.path.abspath(os.path.join(os.path.dirname(__file__), '../liblocationd.so'))
 class TestLocationdLib(unittest.TestCase):
  def setUp(self):
    header = '''typedef ...* Localizer_t;
 Localizer_t localizer_init();
 void localizer_get_message_bytes(Localizer_t localizer, bool inputsOK, bool sensorsOK, bool gpsOK, bool msgValid, char *buff, size_t buff_size);
 void localizer_handle_msg_bytes(Localizer_t localizer, const char *data, size_t size);'''
    self.ffi = FFI()
    self.ffi.cdef(header)
    self.lib = self.ffi.dlopen(LIBLOCATIOND_PATH)
    self.localizer = self.lib.localizer_init()
    self.buff_size = 2048
    self.msg_buff = self.ffi.new(f'char[{self.buff_size}]')
  def localizer_handle_msg(self, msg_builder):
    bytstr = msg_builder.to_bytes()
    self.lib.localizer_handle_msg_bytes(self.localizer, self.ffi.from_buffer(bytstr), len(bytstr))
  def localizer_get_msg(self, t=0, inputsOK=True, sensorsOK=True, gpsOK=True, msgValid=True):
    self.lib.localizer_get_message_bytes(self.localizer, inputsOK, sensorsOK, gpsOK, msgValid, self.ffi.addressof(self.msg_buff, 0), self.buff_size)
    return log.Event.from_bytes(self.ffi.buffer(self.msg_buff), nesting_limit=self.buff_size // 8)
  def test_liblocalizer(self):
    msg = messaging.new_message('liveCalibration')
    msg.liveCalibration.validBlocks = random.randint(1, 10)
    msg.liveCalibration.rpyCalib = [random.random() / 10 for _ in range(3)]
    self.localizer_handle_msg(msg)
    liveloc = self.localizer_get_msg()
    self.assertTrue(liveloc is not None)
  @unittest.skip("temporarily disabled due to false positives")
  def test_device_fell(self):
    msg = messaging.new_message('sensorEvents', 1)
    msg.sensorEvents[0].sensor = 1
    msg.sensorEvents[0].timestamp = msg.logMonoTime
    msg.sensorEvents[0].type = 1
    msg.sensorEvents[0].init('acceleration')
    msg.sensorEvents[0].acceleration.v = [10.0, 0.0, 0.0]  # zero with gravity
    self.localizer_handle_msg(msg)
    ret = self.localizer_get_msg()
    self.assertTrue(ret.liveLocationKalman.deviceStable)
    msg = messaging.new_message('sensorEvents', 1)
    msg.sensorEvents[0].sensor = 1
    msg.sensorEvents[0].timestamp = msg.logMonoTime
    msg.sensorEvents[0].type = 1
    msg.sensorEvents[0].init('acceleration')
    msg.sensorEvents[0].acceleration.v = [50.1, 0.0, 0.0]  # more than 40 m/s**2
    self.localizer_handle_msg(msg)
    ret = self.localizer_get_msg()
    self.assertFalse(ret.liveLocationKalman.deviceStable)
  def test_posenet_spike(self):
    for _ in range(SENSOR_DECIMATION):
      msg = messaging.new_message('carState')
      msg.carState.vEgo = 6.0  # more than 5 m/s
      self.localizer_handle_msg(msg)
    ret = self.localizer_get_msg()
    self.assertTrue(ret.liveLocationKalman.posenetOK)
    for _ in range(20 * VISION_DECIMATION):  # size of hist_old
      msg = messaging.new_message('cameraOdometry')
      msg.cameraOdometry.rot = [0.0, 0.0, 0.0]
      msg.cameraOdometry.rotStd = [0.1, 0.1, 0.1]
      msg.cameraOdometry.trans = [0.0, 0.0, 0.0]
      msg.cameraOdometry.transStd = [2.0, 0.1, 0.1]
      self.localizer_handle_msg(msg)
    for _ in range(20 * VISION_DECIMATION):  # size of hist_new
      msg = messaging.new_message('cameraOdometry')
      msg.cameraOdometry.rot = [0.0, 0.0, 0.0]
      msg.cameraOdometry.rotStd = [1.0, 1.0, 1.0]
      msg.cameraOdometry.trans = [0.0, 0.0, 0.0]
      msg.cameraOdometry.transStd = [10.1, 0.1, 0.1]  # more than 4 times larger
      self.localizer_handle_msg(msg)
    ret = self.localizer_get_msg()
    self.assertFalse(ret.liveLocationKalman.posenetOK)
 if __name__ == "__main__":
  unittest.main()
--- a/selfdrive/locationd/test/test_locationd.py
+++ b/selfdrive/locationd/test/test_locationd.py
@ -1,110 +1,16 @@
 #!/usr/bin/env python3
 import os
 import json
 import random
 import unittest
 import time
 import capnp
 from cffi import FFI
 from cereal import log
 import cereal.messaging as messaging
 from cereal.services import service_list
 from common.params import Params
 from selfdrive.manager.process_config import managed_processes
 SENSOR_DECIMATION = 1
 VISION_DECIMATION = 1
 LIBLOCATIOND_PATH = os.path.abspath(os.path.join(os.path.dirname(__file__), '../liblocationd.so'))
 class TestLocationdLib(unittest.TestCase):
  def setUp(self):
    header = '''typedef ...* Localizer_t;
 Localizer_t localizer_init();
 void localizer_get_message_bytes(Localizer_t localizer, bool inputsOK, bool sensorsOK, bool gpsOK, bool msgValid, char *buff, size_t buff_size);
 void localizer_handle_msg_bytes(Localizer_t localizer, const char *data, size_t size);'''
    self.ffi = FFI()
    self.ffi.cdef(header)
    self.lib = self.ffi.dlopen(LIBLOCATIOND_PATH)
    self.localizer = self.lib.localizer_init()
    self.buff_size = 2048
    self.msg_buff = self.ffi.new(f'char[{self.buff_size}]')
  def localizer_handle_msg(self, msg_builder):
    bytstr = msg_builder.to_bytes()
    self.lib.localizer_handle_msg_bytes(self.localizer, self.ffi.from_buffer(bytstr), len(bytstr))
  def localizer_get_msg(self, t=0, inputsOK=True, sensorsOK=True, gpsOK=True, msgValid=True):
    self.lib.localizer_get_message_bytes(self.localizer, inputsOK, sensorsOK, gpsOK, msgValid, self.ffi.addressof(self.msg_buff, 0), self.buff_size)
    return log.Event.from_bytes(self.ffi.buffer(self.msg_buff), nesting_limit=self.buff_size // 8)
  def test_liblocalizer(self):
    msg = messaging.new_message('liveCalibration')
    msg.liveCalibration.validBlocks = random.randint(1, 10)
    msg.liveCalibration.rpyCalib = [random.random() / 10 for _ in range(3)]
    self.localizer_handle_msg(msg)
    liveloc = self.localizer_get_msg()
    self.assertTrue(liveloc is not None)
  @unittest.skip("temporarily disabled due to false positives")
  def test_device_fell(self):
    msg = messaging.new_message('sensorEvents', 1)
    msg.sensorEvents[0].sensor = 1
    msg.sensorEvents[0].timestamp = msg.logMonoTime
    msg.sensorEvents[0].type = 1
    msg.sensorEvents[0].init('acceleration')
    msg.sensorEvents[0].acceleration.v = [10.0, 0.0, 0.0]  # zero with gravity
    self.localizer_handle_msg(msg)
    ret = self.localizer_get_msg()
    self.assertTrue(ret.liveLocationKalman.deviceStable)
    msg = messaging.new_message('sensorEvents', 1)
    msg.sensorEvents[0].sensor = 1
    msg.sensorEvents[0].timestamp = msg.logMonoTime
    msg.sensorEvents[0].type = 1
    msg.sensorEvents[0].init('acceleration')
    msg.sensorEvents[0].acceleration.v = [50.1, 0.0, 0.0]  # more than 40 m/s**2
    self.localizer_handle_msg(msg)
    ret = self.localizer_get_msg()
    self.assertFalse(ret.liveLocationKalman.deviceStable)
  def test_posenet_spike(self):
    for _ in range(SENSOR_DECIMATION):
      msg = messaging.new_message('carState')
      msg.carState.vEgo = 6.0  # more than 5 m/s
      self.localizer_handle_msg(msg)
    ret = self.localizer_get_msg()
    self.assertTrue(ret.liveLocationKalman.posenetOK)
    for _ in range(20 * VISION_DECIMATION):  # size of hist_old
      msg = messaging.new_message('cameraOdometry')
      msg.cameraOdometry.rot = [0.0, 0.0, 0.0]
      msg.cameraOdometry.rotStd = [0.1, 0.1, 0.1]
      msg.cameraOdometry.trans = [0.0, 0.0, 0.0]
      msg.cameraOdometry.transStd = [2.0, 0.1, 0.1]
      self.localizer_handle_msg(msg)
    for _ in range(20 * VISION_DECIMATION):  # size of hist_new
      msg = messaging.new_message('cameraOdometry')
      msg.cameraOdometry.rot = [0.0, 0.0, 0.0]
      msg.cameraOdometry.rotStd = [1.0, 1.0, 1.0]
      msg.cameraOdometry.trans = [0.0, 0.0, 0.0]
      msg.cameraOdometry.transStd = [10.1, 0.1, 0.1]  # more than 4 times larger
      self.localizer_handle_msg(msg)
    ret = self.localizer_get_msg()
    self.assertFalse(ret.liveLocationKalman.posenetOK)
 class TestLocationdProc(unittest.TestCase):
  MAX_WAITS = 1000