mirror of
https://github.com/DJ2LS/FreeDATA
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243 lines
7.3 KiB
Python
243 lines
7.3 KiB
Python
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#!/usr/bin/env python3
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# -*- coding: utf-8 -*-
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"""
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Negative tests for datac0 frames.
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@author: kronenpj
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"""
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import contextlib
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import multiprocessing
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import os
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import sys
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import threading
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import time
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import zlib
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import helpers
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import log_handler
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import pytest
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import structlog
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try:
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import test.util_datac0_negative as util
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except ImportError:
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import util_datac0_negative as util
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STATIONS = ["AA2BB", "ZZ9YY"]
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PIPE_THREAD_RUNNING = True
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def parameters() -> dict:
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# Construct message to start beacon.
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beacon_data = {"type": "command", "command": "start_beacon", "parameter": "-5"}
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# Construct message to start ping.
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ping_data = {"type": "ping", "command": "ping", "dxcallsign": ""}
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connect_data = {"type": "arq", "command": "connect", "dxcallsign": ""}
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beacon_timeout = 1
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ping_timeout = 1
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connect_timeout = 1
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beacon_tx_check = '"status":"Failed"'
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ping_tx_check = '"ping","status":"Failed"'
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connect_tx_check = '"status":"Failed"'
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beacon_rx_check = '"beacon":"received"'
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ping_rx_check = '"ping":"received"'
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connect_rx_check = '"connect":"received"'
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beacon_final_tx_check = [beacon_tx_check]
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ping_final_tx_check = [ping_tx_check]
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connect_final_tx_check = [connect_tx_check]
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beacon_final_rx_check = [beacon_rx_check]
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ping_final_rx_check = [ping_rx_check]
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connect_final_rx_check = [connect_rx_check]
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return {
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"beacon": (
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beacon_data,
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beacon_timeout,
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beacon_tx_check,
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beacon_rx_check,
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beacon_final_tx_check,
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beacon_final_rx_check,
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),
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"connect": (
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connect_data,
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connect_timeout,
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connect_tx_check,
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connect_rx_check,
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connect_final_tx_check,
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connect_final_rx_check,
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),
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"ping": (
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ping_data,
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ping_timeout,
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ping_tx_check,
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ping_rx_check,
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ping_final_tx_check,
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ping_final_rx_check,
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),
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}
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def locate_data_with_crc(source_list: list, text: str, data: bytes, frametype: str):
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"""Try to locate data in source_list."""
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log = structlog.get_logger("locate_data_with_crc")
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if data in source_list:
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with contextlib.suppress():
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data = zlib.decompress(data[2:])
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log.info(f"analyze_results: {text} no CRC", _frametype=frametype, data=data)
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elif data + helpers.get_crc_8(data) in source_list:
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with contextlib.suppress(zlib.error):
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data = zlib.decompress(data[2:-1])
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log.info(f"analyze_results: {text} CRC 8", _frametype=frametype, data=data)
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elif data + helpers.get_crc_16(data) in source_list:
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with contextlib.suppress(zlib.error):
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data = zlib.decompress(data[2:-2])
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log.info(f"analyze_results: {text} CRC16", _frametype=frametype, data=data)
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elif data + helpers.get_crc_24(data) in source_list:
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with contextlib.suppress(zlib.error):
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data = zlib.decompress(data[2:-3])
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log.info(f"analyze_results: {text} CRC24", _frametype=frametype, data=data)
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elif data + helpers.get_crc_32(data) in source_list:
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with contextlib.suppress(zlib.error):
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data = zlib.decompress(data[2:-4])
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log.info(f"analyze_results: {text} CRC32", _frametype=frametype, data=data)
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else:
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log.info(
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f"analyze_results: {text} not received:",
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_frame=frametype,
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data=data,
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)
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def analyze_results(station1: list, station2: list, call_list: list):
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"""Examine the information retrieved from the sub-processes."""
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# Data in these lists is either a series of bytes of received data,
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# or a bytearray of transmitted data from the station.
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log = structlog.get_logger("analyze_results")
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# Check that each station's transmitted data was received by the other.
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for s1, s2, text in [
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(station1, station2, call_list[0]),
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(station2, station1, call_list[1]),
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]:
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for s1_item in s1:
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if not isinstance(s1_item, list):
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continue
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data = bytes(s1_item[0])
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frametypeno = int.from_bytes(data[:1], "big")
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# frametype = static.FRAME_TYPE(frametypeno).name
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frametype = str(frametypeno)
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s1_crc = helpers.decode_call(helpers.bytes_to_callsign(data[1:4]))
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s2_crc = helpers.decode_call(helpers.bytes_to_callsign(data[2:5]))
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log.info(
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"analyze_results: callsign CRCs:",
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tx_station=text,
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s1_crc=s1_crc,
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s2_crc=s2_crc,
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)
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locate_data_with_crc(s2, text, data, frametype)
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# @pytest.mark.parametrize("frame_type", ["beacon", "connect", "ping"])
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@pytest.mark.parametrize("frame_type", ["ping"])
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def test_datac0(frame_type: str, tmp_path):
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log_handler.setup_logging(filename=tmp_path / "test_datac0", level="DEBUG")
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log = structlog.get_logger("test_datac0")
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s1_data = []
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s2_data = []
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def recv_data(buffer: list, pipe):
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while PIPE_THREAD_RUNNING:
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if pipe.poll(0.1):
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buffer.append(pipe.recv())
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else:
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time.sleep(0.1)
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def recv_from_pipes(s1_rx, s1_pipe, s2_rx, s2_pipe) -> list:
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processes = [
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threading.Thread(target=recv_data, args=(s1_rx, s1_pipe)),
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threading.Thread(target=recv_data, args=(s2_rx, s2_pipe)),
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]
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for item in processes:
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item.start()
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return processes
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# This sufficiently separates the two halves of the test. This is needed
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# because both scripts change global state. They would conflict if running in
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# the same process.
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from_s1, s1_send = multiprocessing.Pipe()
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from_s2, s2_send = multiprocessing.Pipe()
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proc = [
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multiprocessing.Process(
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target=util.t_datac0_1,
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args=(
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s1_send,
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STATIONS[0],
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STATIONS[1],
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parameters()[frame_type],
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tmp_path,
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),
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daemon=True,
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),
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multiprocessing.Process(
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target=util.t_datac0_2,
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args=(
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s2_send,
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STATIONS[1],
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STATIONS[0],
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parameters()[frame_type],
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tmp_path,
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),
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daemon=True,
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),
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]
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pipe_receivers = recv_from_pipes(s1_data, from_s1, s2_data, from_s2)
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# log.debug("Creating ")
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# print("Starting threads.")
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for p_item in proc:
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p_item.start()
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# This relies on each process exiting when its job is complete!
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# print("Waiting for threads to exit.")
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for p_item in proc:
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p_item.join()
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global PIPE_THREAD_RUNNING # pylint: disable=global-statement
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PIPE_THREAD_RUNNING = False
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for pipe_recv in pipe_receivers:
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pipe_recv.join()
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for idx in range(2):
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try:
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os.unlink(tmp_path / f"hfchannel{idx+1}")
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except FileNotFoundError as fnfe:
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log.debug(f"Unlinking pipe: {fnfe}")
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for p_item in proc:
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assert p_item.exitcode == 0
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p_item.close()
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analyze_results(s1_data, s2_data, STATIONS)
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if __name__ == "__main__":
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# Run pytest with the current script as the filename.
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ecode = pytest.main(["-s", "-v", sys.argv[0]])
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if ecode == 0:
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print("errors: 0")
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else:
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print(ecode)
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