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openpilot is an open source driver assistance system. openpilot performs the functions of Automated Lane Centering and Adaptive Cruise Control for over 200 supported car makes and models.
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openpilot_comma/system/loggerd/tests/test_encoder.py

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#!/usr/bin/env python3
import math
import os
import random
import shutil
import subprocess
import time
import unittest
from pathlib import Path
from parameterized import parameterized
from tqdm import trange
from openpilot.common.params import Params
from openpilot.common.timeout import Timeout
from openpilot.system.hardware import TICI
from openpilot.system.loggerd.config import ROOT
from openpilot.selfdrive.manager.process_config import managed_processes
from openpilot.tools.lib.logreader import LogReader
SEGMENT_LENGTH = 2
FULL_SIZE = 2507572
CAMERAS = [
("fcamera.hevc", 20, FULL_SIZE, "roadEncodeIdx"),
("dcamera.hevc", 20, FULL_SIZE, "driverEncodeIdx"),
("ecamera.hevc", 20, FULL_SIZE, "wideRoadEncodeIdx"),
("qcamera.ts", 20, 130000, None),
]
# we check frame count, so we don't have to be too strict on size
FILE_SIZE_TOLERANCE = 0.5
class TestEncoder(unittest.TestCase):
# TODO: all of loggerd should work on PC
@classmethod
def setUpClass(cls):
if not TICI:
raise unittest.SkipTest
def setUp(self):
self._clear_logs()
os.environ["LOGGERD_TEST"] = "1"
os.environ["LOGGERD_SEGMENT_LENGTH"] = str(SEGMENT_LENGTH)
def tearDown(self):
self._clear_logs()
def _clear_logs(self):
if os.path.exists(ROOT):
shutil.rmtree(ROOT)
def _get_latest_segment_path(self):
last_route = sorted(Path(ROOT).iterdir())[-1]
return os.path.join(ROOT, last_route)
# TODO: this should run faster than real time
@parameterized.expand([(True, ), (False, )])
def test_log_rotation(self, record_front):
Params().put_bool("RecordFront", record_front)
managed_processes['sensord'].start()
managed_processes['loggerd'].start()
managed_processes['encoderd'].start()
time.sleep(1.0)
managed_processes['camerad'].start()
num_segments = int(os.getenv("SEGMENTS", random.randint(10, 15)))
# wait for loggerd to make the dir for first segment
route_prefix_path = None
with Timeout(int(SEGMENT_LENGTH*3)):
while route_prefix_path is None:
try:
route_prefix_path = self._get_latest_segment_path().rsplit("--", 1)[0]
except Exception:
time.sleep(0.1)
def check_seg(i):
# check each camera file size
counts = []
first_frames = []
for camera, fps, size, encode_idx_name in CAMERAS:
if not record_front and "dcamera" in camera:
continue
file_path = f"{route_prefix_path}--{i}/{camera}"
# check file exists
self.assertTrue(os.path.exists(file_path), f"segment #{i}: '{file_path}' missing")
# TODO: this ffprobe call is really slow
# check frame count
cmd = f"ffprobe -v error -select_streams v:0 -count_packets -show_entries stream=nb_read_packets -of csv=p=0 {file_path}"
if TICI:
cmd = "LD_LIBRARY_PATH=/usr/local/lib " + cmd
expected_frames = fps * SEGMENT_LENGTH
probe = subprocess.check_output(cmd, shell=True, encoding='utf8')
frame_count = int(probe.split('\n')[0].strip())
counts.append(frame_count)
self.assertEqual(frame_count, expected_frames,
f"segment #{i}: {camera} failed frame count check: expected {expected_frames}, got {frame_count}")
# sanity check file size
file_size = os.path.getsize(file_path)
self.assertTrue(math.isclose(file_size, size, rel_tol=FILE_SIZE_TOLERANCE),
f"{file_path} size {file_size} isn't close to target size {size}")
# Check encodeIdx
if encode_idx_name is not None:
rlog_path = f"{route_prefix_path}--{i}/rlog"
msgs = [m for m in LogReader(rlog_path) if m.which() == encode_idx_name]
encode_msgs = [getattr(m, encode_idx_name) for m in msgs]
valid = [m.valid for m in msgs]
segment_idxs = [m.segmentId for m in encode_msgs]
encode_idxs = [m.encodeId for m in encode_msgs]
frame_idxs = [m.frameId for m in encode_msgs]
# Check frame count
self.assertEqual(frame_count, len(segment_idxs))
self.assertEqual(frame_count, len(encode_idxs))
# Check for duplicates or skips
self.assertEqual(0, segment_idxs[0])
self.assertEqual(len(set(segment_idxs)), len(segment_idxs))
self.assertTrue(all(valid))
self.assertEqual(expected_frames * i, encode_idxs[0])
first_frames.append(frame_idxs[0])
self.assertEqual(len(set(encode_idxs)), len(encode_idxs))
self.assertEqual(1, len(set(first_frames)))
if TICI:
expected_frames = fps * SEGMENT_LENGTH
self.assertEqual(min(counts), expected_frames)
shutil.rmtree(f"{route_prefix_path}--{i}")
try:
for i in trange(num_segments):
# poll for next segment
with Timeout(int(SEGMENT_LENGTH*10), error_msg=f"timed out waiting for segment {i}"):
while Path(f"{route_prefix_path}--{i+1}") not in Path(ROOT).iterdir():
time.sleep(0.1)
check_seg(i)
finally:
managed_processes['loggerd'].stop()
managed_processes['encoderd'].stop()
managed_processes['camerad'].stop()
managed_processes['sensord'].stop()
if __name__ == "__main__":
unittest.main()