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https://git.kernel.org/pub/scm/network/wireless/iwd.git
synced 2024-11-02 18:19:23 +01:00
3a9c401f63
This test fails randomly, and it appears to be due to excessive scanning. Historically most autotests start a dbus scan right away. The problem is that most likely a periodic scan is already ongoing, meaning the dbus scan gets queued. If a Connect() call comes in (which it always does), the dbus scan gets delayed and will trigger once connected, at a time the test is not expecting. This can cause problems with any assumed timing as well as offchannel frames. This patch removes the explicit DBus scanning and instead uses scan_if_needed with get_ordered_networks. The 'all_blacklisted_test' was also modified to wait for scanning to complete after failing to connect to all BSS's. This lets all the networks fully come up (after being blocked by hwsim) and appear in scan results.
133 lines
3.8 KiB
Python
133 lines
3.8 KiB
Python
#!/usr/bin/python3
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import unittest
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import sys
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sys.path.append('../util')
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import iwd
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from iwd import IWD
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from iwd import PSKAgent
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from iwd import NetworkType
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from hostapd import HostapdCLI
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from hwsim import Hwsim
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class Test(unittest.TestCase):
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def test_connection_success(self):
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hwsim = Hwsim()
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bss_hostapd = [ HostapdCLI(config='ssid1.conf'),
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HostapdCLI(config='ssid2.conf'),
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HostapdCLI(config='ssid3.conf') ]
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bss_radio = [ hwsim.get_radio('rad0'),
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hwsim.get_radio('rad1'),
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hwsim.get_radio('rad2') ]
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rule0 = hwsim.rules.create()
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rule0.source = bss_radio[0].addresses[0]
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rule0.bidirectional = True
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rule0.signal = -8000
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rule1 = hwsim.rules.create()
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rule1.source = bss_radio[1].addresses[0]
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rule1.bidirectional = True
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rule1.signal = -2500
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rule2 = hwsim.rules.create()
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rule2.source = bss_radio[2].addresses[0]
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rule2.bidirectional = True
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rule2.signal = -2000
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wd = IWD(True)
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psk_agent = PSKAgent("secret123")
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wd.register_psk_agent(psk_agent)
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dev1, dev2 = wd.list_devices(2)
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ordered_network = dev1.get_ordered_network("TestBlacklist", scan_if_needed=True)
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self.assertEqual(ordered_network.type, NetworkType.psk)
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condition = 'not obj.connected'
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wd.wait_for_object_condition(ordered_network.network_object, condition)
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ordered_network.network_object.connect()
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condition = 'obj.state == DeviceState.connected'
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wd.wait_for_object_condition(dev1, condition)
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self.assertIn(dev1.address, bss_hostapd[2].list_sta())
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# dev1 now connected, this should max out the first AP, causing the next
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# connection to fail to this AP.
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condition = 'not obj.scanning'
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wd.wait_for_object_condition(dev2, condition)
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dev2.scan()
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condition = 'not obj.scanning'
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wd.wait_for_object_condition(dev2, condition)
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ordered_network = dev2.get_ordered_network("TestBlacklist")
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self.assertEqual(ordered_network.type, NetworkType.psk)
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condition = 'not obj.connected'
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wd.wait_for_object_condition(ordered_network.network_object, condition)
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ordered_network.network_object.connect()
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condition = 'obj.state == DeviceState.connected'
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wd.wait_for_object_condition(dev2, condition)
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# We should have temporarily blacklisted the first BSS, and connected
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# to this one.
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self.assertIn(dev2.address, bss_hostapd[1].list_sta())
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# Now check that the first BSS is still not blacklisted. We can
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# disconnect dev1, opening up the AP for more connections
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dev1.disconnect()
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dev2.disconnect()
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condition = 'not obj.scanning'
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wd.wait_for_object_condition(dev2, condition)
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dev2.scan()
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condition = 'not obj.scanning'
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wd.wait_for_object_condition(dev2, condition)
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ordered_network = dev2.get_ordered_network("TestBlacklist")
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self.assertEqual(ordered_network.type, NetworkType.psk)
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condition = 'not obj.connected'
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wd.wait_for_object_condition(ordered_network.network_object, condition)
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ordered_network.network_object.connect()
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condition = 'obj.state == DeviceState.connected'
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wd.wait_for_object_condition(dev2, condition)
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self.assertIn(dev2.address, bss_hostapd[2].list_sta())
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wd.unregister_psk_agent(psk_agent)
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rule0.remove()
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rule1.remove()
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rule2.remove()
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@classmethod
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def setUpClass(cls):
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IWD.copy_to_storage('main.conf')
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@classmethod
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def tearDownClass(cls):
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IWD.clear_storage()
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if __name__ == '__main__':
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unittest.main(exit=True)
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