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Thomas Farstrike
718 lines
24 KiB
Python
718 lines
24 KiB
Python
import unittest
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import sys
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# Add tests directory to path for network_test_helper
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sys.path.insert(0, '../tests')
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# Import network test helpers
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from network_test_helper import MockNetwork, MockTime
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# Mock config classes
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class MockSharedPreferences:
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"""Mock SharedPreferences for testing."""
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_all_data = {} # Class-level storage
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def __init__(self, app_id):
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self.app_id = app_id
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if app_id not in MockSharedPreferences._all_data:
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MockSharedPreferences._all_data[app_id] = {}
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def get_dict(self, key):
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return MockSharedPreferences._all_data.get(self.app_id, {}).get(key, {})
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def edit(self):
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return MockEditor(self)
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@classmethod
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def reset_all(cls):
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cls._all_data = {}
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class MockEditor:
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"""Mock editor for SharedPreferences."""
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def __init__(self, prefs):
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self.prefs = prefs
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self.pending = {}
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def put_dict(self, key, value):
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self.pending[key] = value
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def commit(self):
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if self.prefs.app_id not in MockSharedPreferences._all_data:
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MockSharedPreferences._all_data[self.prefs.app_id] = {}
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MockSharedPreferences._all_data[self.prefs.app_id].update(self.pending)
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# Create mock mpos module
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class MockMpos:
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"""Mock mpos module with config and time."""
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class config:
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@staticmethod
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def SharedPreferences(app_id):
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return MockSharedPreferences(app_id)
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class time:
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@staticmethod
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def sync_time():
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pass # No-op for testing
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# Inject mocks before importing WifiService
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sys.modules['mpos'] = MockMpos
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sys.modules['mpos.config'] = MockMpos.config
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sys.modules['mpos.time'] = MockMpos.time
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# Add path to wifi_service.py
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sys.path.append('lib/mpos/net')
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# Import WifiService
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from wifi_service import WifiService
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class TestWifiServiceConnect(unittest.TestCase):
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"""Test WifiService.connect() method."""
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def setUp(self):
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"""Set up test fixtures."""
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MockSharedPreferences.reset_all()
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WifiService.access_points = {}
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WifiService.wifi_busy = False
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def tearDown(self):
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"""Clean up after test."""
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WifiService.access_points = {}
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WifiService.wifi_busy = False
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def test_connect_to_saved_network(self):
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"""Test connecting to a saved network."""
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mock_network = MockNetwork(connected=False)
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WifiService.access_points = {
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"TestNetwork": {"password": "testpass123"}
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}
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# Configure mock scan results
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mock_wlan = mock_network.WLAN(mock_network.STA_IF)
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mock_wlan._scan_results = [(b"TestNetwork", -50, 1, 3, b"", 0)]
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# Mock connect to succeed immediately
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def mock_connect(ssid, password):
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mock_wlan._connected = True
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mock_wlan.connect = mock_connect
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result = WifiService.connect(network_module=mock_network, time_module=MockTime())
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self.assertTrue(result)
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def test_connect_with_no_saved_networks(self):
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"""Test connecting when no networks are saved."""
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mock_network = MockNetwork(connected=False)
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WifiService.access_points = {}
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mock_wlan = mock_network.WLAN(mock_network.STA_IF)
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mock_wlan._scan_results = [(b"UnsavedNetwork", -50, 1, 3, b"", 0)]
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result = WifiService.connect(network_module=mock_network, time_module=MockTime())
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self.assertFalse(result)
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def test_connect_when_no_saved_networks_available(self):
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"""Test connecting when saved networks aren't in range."""
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mock_network = MockNetwork(connected=False)
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WifiService.access_points = {
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"SavedNetwork": {"password": "password123"}
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}
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mock_wlan = mock_network.WLAN(mock_network.STA_IF)
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mock_wlan._scan_results = [(b"DifferentNetwork", -50, 1, 3, b"", 0)]
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result = WifiService.connect(network_module=mock_network, time_module=MockTime())
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self.assertFalse(result)
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class TestWifiServiceAttemptConnecting(unittest.TestCase):
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"""Test WifiService.attempt_connecting() method."""
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def test_successful_connection(self):
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"""Test successful WiFi connection."""
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mock_network = MockNetwork(connected=False)
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mock_time = MockTime()
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mock_wlan = mock_network.WLAN(mock_network.STA_IF)
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# Mock connect to succeed immediately
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call_count = [0]
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def mock_connect(ssid, password):
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pass # Don't set connected yet
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def mock_isconnected():
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call_count[0] += 1
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if call_count[0] >= 1:
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return True
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return False
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mock_wlan.connect = mock_connect
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mock_wlan.isconnected = mock_isconnected
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result = WifiService.attempt_connecting(
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"TestSSID",
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"testpass",
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network_module=mock_network,
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time_module=mock_time
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)
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self.assertTrue(result)
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# Should not sleep once connected immediately
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self.assertEqual(len(mock_time.get_sleep_calls()), 0)
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def test_connection_timeout(self):
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"""Test connection timeout after 10 attempts."""
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mock_network = MockNetwork(connected=False)
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mock_time = MockTime()
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mock_wlan = mock_network.WLAN(mock_network.STA_IF)
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# Connection never succeeds
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def mock_isconnected():
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return False
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mock_wlan.isconnected = mock_isconnected
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result = WifiService.attempt_connecting(
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"TestSSID",
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"testpass",
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network_module=mock_network,
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time_module=mock_time
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)
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self.assertFalse(result)
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# Should have slept 10 times
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self.assertEqual(len(mock_time.get_sleep_calls()), 10)
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def test_connection_aborted_when_wifi_disabled(self):
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"""Test connection aborts if WiFi is disabled during attempt."""
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mock_network = MockNetwork(connected=False)
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mock_time = MockTime()
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mock_wlan = mock_network.WLAN(mock_network.STA_IF)
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# Never connected
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def mock_isconnected():
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return False
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# WiFi becomes inactive on 3rd check
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check_count = [0]
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def mock_active(state=None):
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if state is not None:
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mock_wlan._active = state
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return None
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check_count[0] += 1
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if check_count[0] >= 3:
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return False
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return True
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mock_wlan.isconnected = mock_isconnected
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mock_wlan.active = mock_active
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result = WifiService.attempt_connecting(
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"TestSSID",
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"testpass",
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network_module=mock_network,
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time_module=mock_time
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)
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self.assertFalse(result)
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# Should have checked less than 10 times (aborted early)
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self.assertTrue(check_count[0] < 10)
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# Should have slept only until abort
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self.assertEqual(len(mock_time.get_sleep_calls()), 2)
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def test_connection_error_handling(self):
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"""Test handling of connection errors."""
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mock_network = MockNetwork(connected=False)
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mock_time = MockTime()
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mock_wlan = mock_network.WLAN(mock_network.STA_IF)
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def raise_error(ssid, password):
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raise Exception("Connection failed")
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mock_wlan.connect = raise_error
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result = WifiService.attempt_connecting(
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"TestSSID",
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"testpass",
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network_module=mock_network,
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time_module=mock_time
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)
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self.assertFalse(result)
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class TestWifiServiceAutoConnect(unittest.TestCase):
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"""Test WifiService.auto_connect() method."""
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def setUp(self):
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"""Set up test fixtures."""
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MockSharedPreferences.reset_all()
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WifiService.access_points = {}
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WifiService.wifi_busy = False
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def tearDown(self):
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"""Clean up after test."""
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WifiService.access_points = {}
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WifiService.wifi_busy = False
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MockSharedPreferences.reset_all()
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def test_auto_connect_with_no_saved_networks(self):
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"""Test auto_connect when no networks are saved."""
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WifiService.auto_connect()
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# Should exit early
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self.assertEqual(len(WifiService.access_points), 0)
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def test_auto_connect_when_wifi_busy(self):
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"""Test auto_connect aborts when WiFi is busy."""
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# Save a network
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prefs = MockSharedPreferences("com.micropythonos.system.wifiservice")
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editor = prefs.edit()
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editor.put_dict("access_points", {"TestNet": {"password": "pass"}})
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editor.commit()
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# Set WiFi as busy
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WifiService.wifi_busy = True
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WifiService.auto_connect()
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# Should still be busy (not changed)
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self.assertTrue(WifiService.wifi_busy)
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def test_auto_connect_desktop_mode(self):
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"""Test auto_connect in desktop mode (no network module)."""
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mock_time = MockTime()
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# Save a network
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prefs = MockSharedPreferences("com.micropythonos.system.wifiservice")
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editor = prefs.edit()
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editor.put_dict("access_points", {"TestNet": {"password": "pass"}})
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editor.commit()
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WifiService.auto_connect(network_module=None, time_module=mock_time)
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# Should have "slept" to simulate connection
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self.assertTrue(len(mock_time.get_sleep_calls()) > 0)
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# Should clear wifi_busy flag
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self.assertFalse(WifiService.wifi_busy)
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class TestWifiServiceIsConnected(unittest.TestCase):
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"""Test WifiService.is_connected() method."""
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def setUp(self):
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"""Set up test fixtures."""
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WifiService.wifi_busy = False
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def tearDown(self):
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"""Clean up after test."""
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WifiService.wifi_busy = False
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def test_is_connected_when_connected(self):
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"""Test is_connected returns True when WiFi is connected."""
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mock_network = MockNetwork(connected=True)
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result = WifiService.is_connected(network_module=mock_network)
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self.assertTrue(result)
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def test_is_connected_when_disconnected(self):
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"""Test is_connected returns False when WiFi is disconnected."""
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mock_network = MockNetwork(connected=False)
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result = WifiService.is_connected(network_module=mock_network)
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self.assertFalse(result)
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def test_is_connected_when_wifi_busy(self):
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"""Test is_connected returns False when WiFi is busy."""
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mock_network = MockNetwork(connected=True)
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WifiService.wifi_busy = True
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result = WifiService.is_connected(network_module=mock_network)
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# Should return False even though connected
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self.assertFalse(result)
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def test_is_connected_desktop_mode(self):
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"""Test is_connected in desktop mode."""
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result = WifiService.is_connected(network_module=None)
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# Desktop mode always returns True
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self.assertTrue(result)
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class TestWifiServiceNetworkManagement(unittest.TestCase):
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"""Test network save/forget functionality."""
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def setUp(self):
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"""Set up test fixtures."""
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MockSharedPreferences.reset_all()
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WifiService.access_points = {}
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def tearDown(self):
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"""Clean up after test."""
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WifiService.access_points = {}
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MockSharedPreferences.reset_all()
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def test_save_network(self):
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"""Test saving a network."""
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WifiService.save_network("MyNetwork", "mypassword123")
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# Should be in class-level cache
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self.assertTrue("MyNetwork" in WifiService.access_points)
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self.assertEqual(WifiService.access_points["MyNetwork"]["password"], "mypassword123")
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# Should be persisted
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prefs = MockSharedPreferences("com.micropythonos.system.wifiservice")
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saved = prefs.get_dict("access_points")
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self.assertTrue("MyNetwork" in saved)
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def test_save_network_updates_existing(self):
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"""Test updating an existing saved network."""
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WifiService.save_network("MyNetwork", "oldpassword")
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WifiService.save_network("MyNetwork", "newpassword")
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# Should have new password
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self.assertEqual(WifiService.access_points["MyNetwork"]["password"], "newpassword")
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def test_forget_network(self):
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"""Test forgetting a saved network."""
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WifiService.save_network("MyNetwork", "mypassword")
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result = WifiService.forget_network("MyNetwork")
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self.assertTrue(result)
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self.assertFalse("MyNetwork" in WifiService.access_points)
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def test_forget_nonexistent_network(self):
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"""Test forgetting a network that doesn't exist."""
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result = WifiService.forget_network("NonExistent")
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self.assertFalse(result)
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def test_get_saved_networks(self):
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"""Test getting list of saved networks."""
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WifiService.save_network("Network1", "pass1")
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WifiService.save_network("Network2", "pass2")
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WifiService.save_network("Network3", "pass3")
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saved = WifiService.get_saved_networks()
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self.assertEqual(len(saved), 3)
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self.assertTrue("Network1" in saved)
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self.assertTrue("Network2" in saved)
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self.assertTrue("Network3" in saved)
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def test_get_saved_networks_empty(self):
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"""Test getting saved networks when none exist."""
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saved = WifiService.get_saved_networks()
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self.assertEqual(len(saved), 0)
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class TestWifiServiceDisconnect(unittest.TestCase):
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"""Test WifiService.disconnect() method."""
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def test_disconnect(self):
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"""Test disconnecting from WiFi."""
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mock_network = MockNetwork(connected=True)
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mock_wlan = mock_network.WLAN(mock_network.STA_IF)
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# Track calls
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disconnect_called = [False]
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active_false_called = [False]
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def mock_disconnect():
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disconnect_called[0] = True
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def mock_active(state=None):
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if state is False:
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active_false_called[0] = True
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return True if state is None else None
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mock_wlan.disconnect = mock_disconnect
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mock_wlan.active = mock_active
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WifiService.disconnect(network_module=mock_network)
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# Should have called both
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self.assertTrue(disconnect_called[0])
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self.assertTrue(active_false_called[0])
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def test_disconnect_desktop_mode(self):
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"""Test disconnect in desktop mode."""
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# Should not raise an error
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WifiService.disconnect(network_module=None)
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class TestWifiServiceRSSISorting(unittest.TestCase):
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"""Test RSSI-based network prioritization."""
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def setUp(self):
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"""Set up test fixtures."""
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MockSharedPreferences.reset_all()
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WifiService.access_points = {}
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WifiService.wifi_busy = False
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def tearDown(self):
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"""Clean up after tests."""
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WifiService.access_points = {}
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WifiService.wifi_busy = False
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MockSharedPreferences.reset_all()
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def test_networks_sorted_by_rssi_strongest_first(self):
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"""Test that networks are sorted by RSSI with strongest first."""
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# Create mock networks with different RSSI values
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# Format: (ssid, bssid, channel, rssi, security, hidden)
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mock_network = MockNetwork(connected=False)
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mock_wlan = mock_network.WLAN(mock_network.STA_IF)
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# Unsorted networks (weak, strong, medium)
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mock_wlan._scan_results = [
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(b'WeakNetwork', b'\xaa\xbb\xcc\xdd\xee\xff', 6, -85, 3, False),
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(b'StrongNetwork', b'\x11\x22\x33\x44\x55\x66', 1, -45, 3, False),
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(b'MediumNetwork', b'\x77\x88\x99\xaa\xbb\xcc', 11, -65, 3, False),
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]
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# Configure all as saved networks
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WifiService.access_points = {
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'WeakNetwork': {'password': 'weak123'},
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'StrongNetwork': {'password': 'strong123'},
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'MediumNetwork': {'password': 'medium123'}
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}
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# Track connection attempts
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connection_attempts = []
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def mock_connect(ssid, password):
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connection_attempts.append(ssid)
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# Succeed on first attempt
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mock_wlan._connected = True
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mock_wlan.connect = mock_connect
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result = WifiService.connect(network_module=mock_network, time_module=MockTime())
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self.assertTrue(result)
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# Should try strongest first (-45 dBm)
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self.assertEqual(connection_attempts[0], 'StrongNetwork')
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# Should only try one (first succeeds)
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self.assertEqual(len(connection_attempts), 1)
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def test_multiple_networks_tried_in_rssi_order(self):
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"""Test that multiple networks are tried in RSSI order when first fails."""
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mock_network = MockNetwork(connected=False)
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mock_wlan = mock_network.WLAN(mock_network.STA_IF)
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# Three networks with different signal strengths
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mock_wlan._scan_results = [
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(b'BadNetwork1', b'\xaa\xbb\xcc\xdd\xee\xff', 1, -40, 3, False),
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(b'BadNetwork2', b'\x11\x22\x33\x44\x55\x66', 6, -50, 3, False),
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(b'GoodNetwork', b'\x77\x88\x99\xaa\xbb\xcc', 11, -60, 3, False),
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]
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WifiService.access_points = {
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'BadNetwork1': {'password': 'pass1'},
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'BadNetwork2': {'password': 'pass2'},
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'GoodNetwork': {'password': 'pass3'}
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}
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# Track attempts and make first two fail
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connection_attempts = []
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def mock_connect(ssid, password):
|
|
connection_attempts.append(ssid)
|
|
# Only succeed on third attempt
|
|
if len(connection_attempts) >= 3:
|
|
mock_wlan._connected = True
|
|
|
|
mock_wlan.connect = mock_connect
|
|
|
|
result = WifiService.connect(network_module=mock_network, time_module=MockTime())
|
|
|
|
self.assertTrue(result)
|
|
# Verify order: strongest to weakest
|
|
self.assertEqual(connection_attempts[0], 'BadNetwork1') # RSSI -40
|
|
self.assertEqual(connection_attempts[1], 'BadNetwork2') # RSSI -50
|
|
self.assertEqual(connection_attempts[2], 'GoodNetwork') # RSSI -60
|
|
self.assertEqual(len(connection_attempts), 3)
|
|
|
|
def test_duplicate_ssid_strongest_tried_first(self):
|
|
"""Test that with duplicate SSIDs, strongest signal is tried first."""
|
|
mock_network = MockNetwork(connected=False)
|
|
mock_wlan = mock_network.WLAN(mock_network.STA_IF)
|
|
|
|
# Real-world scenario: Multiple APs with same SSID
|
|
mock_wlan._scan_results = [
|
|
(b'MyNetwork', b'\xaa\xbb\xcc\xdd\xee\xff', 1, -70, 3, False),
|
|
(b'MyNetwork', b'\x11\x22\x33\x44\x55\x66', 6, -50, 3, False), # Strongest
|
|
(b'MyNetwork', b'\x77\x88\x99\xaa\xbb\xcc', 11, -85, 3, False),
|
|
]
|
|
|
|
WifiService.access_points = {
|
|
'MyNetwork': {'password': 'mypass123'}
|
|
}
|
|
|
|
connection_attempts = []
|
|
|
|
def mock_connect(ssid, password):
|
|
connection_attempts.append(ssid)
|
|
# Succeed on first
|
|
mock_wlan._connected = True
|
|
|
|
mock_wlan.connect = mock_connect
|
|
|
|
result = WifiService.connect(network_module=mock_network, time_module=MockTime())
|
|
|
|
self.assertTrue(result)
|
|
# Should only try once (first is strongest and succeeds)
|
|
self.assertEqual(len(connection_attempts), 1)
|
|
self.assertEqual(connection_attempts[0], 'MyNetwork')
|
|
|
|
def test_rssi_order_with_real_scan_data(self):
|
|
"""Test with real scan data from actual ESP32 device."""
|
|
mock_network = MockNetwork(connected=False)
|
|
mock_wlan = mock_network.WLAN(mock_network.STA_IF)
|
|
|
|
# Real scan output from user's example
|
|
mock_wlan._scan_results = [
|
|
(b'Channel 8', b'\xde\xec^\x8f\x00A', 11, -47, 3, False),
|
|
(b'Baptistus', b'\xd8\xec^\x8f\x00A', 11, -48, 7, False),
|
|
(b'telenet-BD74DC9', b'TgQ>t\xe7', 11, -70, 3, False),
|
|
(b'Galaxy S10+64bf', b'b\x19\xdf\xef\xb0\x8f', 11, -83, 3, False),
|
|
(b'Najeeb\xe2\x80\x99s iPhone', b"F\x07'\xb8\x0b0", 6, -84, 7, False),
|
|
(b'DIRECT-83-HP OfficeJet Pro 7740', b'\x1a`$dk\x83', 1, -87, 3, False),
|
|
(b'Channel 8', b'\xde\xec^\xe1#w', 1, -91, 3, False),
|
|
(b'Baptistus', b'\xd8\xec^\xe1#w', 1, -91, 7, False),
|
|
(b'Proximus-Home-596457', b'\xf4\x05\x95\xf9A\xf1', 1, -93, 3, False),
|
|
(b'Proximus-Home-596457', b'\xcc\x00\xf1j}\x94', 1, -93, 3, False),
|
|
(b'BASE-9104320', b'4,\xc4\xe7\x01\xb7', 1, -94, 3, False),
|
|
]
|
|
|
|
# Save several networks
|
|
WifiService.access_points = {
|
|
'Channel 8': {'password': 'pass1'},
|
|
'Baptistus': {'password': 'pass2'},
|
|
'telenet-BD74DC9': {'password': 'pass3'},
|
|
'Galaxy S10+64bf': {'password': 'pass4'},
|
|
}
|
|
|
|
# Track attempts and fail first to see ordering
|
|
connection_attempts = []
|
|
|
|
def mock_connect(ssid, password):
|
|
connection_attempts.append(ssid)
|
|
# Succeed on second attempt
|
|
if len(connection_attempts) >= 2:
|
|
mock_wlan._connected = True
|
|
|
|
mock_wlan.connect = mock_connect
|
|
|
|
result = WifiService.connect(network_module=mock_network, time_module=MockTime())
|
|
|
|
self.assertTrue(result)
|
|
# Expected order: Channel 8 (-47), Baptistus (-48), telenet (-70), Galaxy (-83)
|
|
self.assertEqual(connection_attempts[0], 'Channel 8')
|
|
self.assertEqual(connection_attempts[1], 'Baptistus')
|
|
self.assertEqual(len(connection_attempts), 2)
|
|
|
|
def test_sorting_preserves_network_data_integrity(self):
|
|
"""Test that sorting doesn't corrupt or lose network data."""
|
|
mock_network = MockNetwork(connected=False)
|
|
mock_wlan = mock_network.WLAN(mock_network.STA_IF)
|
|
|
|
# Networks with various attributes
|
|
mock_wlan._scan_results = [
|
|
(b'Net3', b'\xaa\xaa\xaa\xaa\xaa\xaa', 11, -90, 3, False),
|
|
(b'Net1', b'\xbb\xbb\xbb\xbb\xbb\xbb', 1, -40, 7, True), # Hidden
|
|
(b'Net2', b'\xcc\xcc\xcc\xcc\xcc\xcc', 6, -60, 2, False),
|
|
]
|
|
|
|
WifiService.access_points = {
|
|
'Net1': {'password': 'p1'},
|
|
'Net2': {'password': 'p2'},
|
|
'Net3': {'password': 'p3'}
|
|
}
|
|
|
|
# Track attempts to verify all are tried
|
|
connection_attempts = []
|
|
|
|
def mock_connect(ssid, password):
|
|
connection_attempts.append(ssid)
|
|
# Never succeed, try all
|
|
pass
|
|
|
|
mock_wlan.connect = mock_connect
|
|
|
|
result = WifiService.connect(network_module=mock_network, time_module=MockTime())
|
|
|
|
self.assertFalse(result) # No connection succeeded
|
|
# Verify all 3 were attempted in RSSI order
|
|
self.assertEqual(len(connection_attempts), 3)
|
|
self.assertEqual(connection_attempts[0], 'Net1') # RSSI -40
|
|
self.assertEqual(connection_attempts[1], 'Net2') # RSSI -60
|
|
self.assertEqual(connection_attempts[2], 'Net3') # RSSI -90
|
|
|
|
def test_no_saved_networks_in_scan(self):
|
|
"""Test behavior when scan finds no saved networks."""
|
|
mock_network = MockNetwork(connected=False)
|
|
mock_wlan = mock_network.WLAN(mock_network.STA_IF)
|
|
|
|
mock_wlan._scan_results = [
|
|
(b'UnknownNet1', b'\xaa\xbb\xcc\xdd\xee\xff', 1, -50, 3, False),
|
|
(b'UnknownNet2', b'\x11\x22\x33\x44\x55\x66', 6, -60, 3, False),
|
|
]
|
|
|
|
WifiService.access_points = {
|
|
'SavedNetwork': {'password': 'pass123'}
|
|
}
|
|
|
|
connection_attempts = []
|
|
|
|
def mock_connect(ssid, password):
|
|
connection_attempts.append(ssid)
|
|
|
|
mock_wlan.connect = mock_connect
|
|
|
|
result = WifiService.connect(network_module=mock_network, time_module=MockTime())
|
|
|
|
self.assertFalse(result)
|
|
# No attempts should be made
|
|
self.assertEqual(len(connection_attempts), 0)
|
|
|
|
def test_rssi_logging_shows_signal_strength(self):
|
|
"""Test that RSSI value is logged during scan (for debugging)."""
|
|
# This is more of a documentation test to verify the log format
|
|
mock_network = MockNetwork(connected=False)
|
|
mock_wlan = mock_network.WLAN(mock_network.STA_IF)
|
|
|
|
mock_wlan._scan_results = [
|
|
(b'TestNet', b'\xaa\xbb\xcc\xdd\xee\xff', 1, -55, 3, False),
|
|
]
|
|
|
|
WifiService.access_points = {
|
|
'TestNet': {'password': 'pass'}
|
|
}
|
|
|
|
# The connect method now logs "Found network 'TestNet' (RSSI: -55 dBm)"
|
|
# This test just verifies it doesn't crash
|
|
result = WifiService.connect(network_module=mock_network, time_module=MockTime())
|
|
# Since mock doesn't actually connect, this will likely be False
|
|
# but the important part is the code runs without error
|
|
|
|
|