server/site_tests/network_WiFi_SSIDMultiSwitchBack/network_WiFi_SSIDMultiSwitchBack.py - platform/external/autotest - Git at Google

 # Copyright (c) 2013 The Chromium OS Authors. All rights reserved.
 # Use of this source code is governed by a BSD-style license that can be
 # found in the LICENSE file.

 import logging
 import time

 from autotest_lib.client.common_lib.cros.network import xmlrpc_datatypes
 from autotest_lib.server import site_attenuator
 from autotest_lib.server.cros.network import hostap_config
 from autotest_lib.server.cros.network import rvr_test_base

 class network_WiFi_SSIDMultiSwitchBack(rvr_test_base.RvRTestBase):
     """Tests roaming to an AP when the old one's signal is too weak.

     This test uses a dual-radio Stumpy as the AP and configures the radios to
     broadcast two BSS's with different frequencies on the same SSID.  The DUT
     connects to the first radio, the test attenuates that radio, and the DUT
     is supposed to roam to the second radio.

     This test requires a particular configuration of test equipment:

                                    +--------- StumpyCell/AP ----------+
                                    | chromeX.grover.hostY.router.cros |
                                    |                                  |
                                    |       [Radio 0]  [Radio 1]       |
                                    +--------A-----B----C-----D--------+
         +------ BeagleBone ------+          |     |    |     |
         | chromeX.grover.hostY.  |          |     X    |     X
         | attenuator.cros      [Port0]-[attenuator]    |
         |                      [Port1]----- | ----[attenuator]
         |                      [Port2]-X    |          |
         |                      [Port3]-X    +-----+    |
         |                        |                |    |
         +------------------------+                |    |
                                    +--------------E----F--------------+
                                    |             [Radio 0]            |
                                    |                                  |
                                    |    chromeX.grover.hostY.cros     |
                                    +-------------- DUT ---------------+

     Where antennas A, C, and E are the primary antennas for AP/radio0,
     AP/radio1, and DUT/radio0, respectively; and antennas B, D, and F are the
     auxilliary antennas for AP/radio0, AP/radio1, and DUT/radio0,
     respectively.  The BeagleBone controls 2 attenuators that are connected
     to the primary antennas of AP/radio0 and 1 which are fed into the primary
     and auxilliary antenna ports of DUT/radio 0.  Ports 2 and 3 of the
     BeagleBone as well as the auxillary antennae of AP/radio0 and 1 are
     terminated.

     This arrangement ensures that the attenuator port numbers are assigned to
     the primary radio, first, and the secondary radio, second.  If this happens,
     the ports will be numbered in the order in which the AP's channels are
     configured (port 0 is first, port 1 is second, etc.).

     This test is a de facto test that the ports are configured in that
     arrangement since swapping Port0 and Port1 would cause us to attenuate the
     secondary radio, providing no impetus for the DUT to switch radios and
     causing the test to fail to connect at radio 1's frequency.

     """

     version = 1

     FREQUENCY_0 = 2412
     FREQUENCY_1 = 2462
     PORT_0 = 0  # Port created first (FREQUENCY_0)
     PORT_1 = 1  # Port created second (FREQUENCY_1)


     def run_once(self):
         """Test body."""

         logging.info("- Configure first AP & connect")
         self.context.configure(hostap_config.HostapConfig(
                 frequency=network_WiFi_SSIDMultiSwitchBack.FREQUENCY_0,
                 mode=hostap_config.HostapConfig.MODE_11G))
         router_ssid = self.context.router.get_ssid()
         self.context.assert_connect_wifi(xmlrpc_datatypes.AssociationParameters(
                 ssid=router_ssid))
         self.context.assert_ping_from_dut()

         logging.info('- Configure second AP')
         self.context.configure(hostap_config.HostapConfig(
                 ssid=router_ssid,
                 frequency=network_WiFi_SSIDMultiSwitchBack.FREQUENCY_1,
                 mode=hostap_config.HostapConfig.MODE_11G),
                                multi_interface=True)

         logging.info('- Drop the power on the first AP')
         self.context.attenuator.set_variable_attenuation_on_port(
             network_WiFi_SSIDMultiSwitchBack.PORT_0,
             site_attenuator.Attenuator.MAX_VARIABLE_ATTENUATION)
         time.sleep(50)  # Give DUT time to scan and roam.

         logging.info("- Wait for a connection on the second AP")
         # Instead of explicitly connecting, just wait to see if the DUT
         # connects to the second AP by itself
         self.context.wait_for_connection(
                 ssid=router_ssid,
                 freq=network_WiFi_SSIDMultiSwitchBack.FREQUENCY_1,
                 ap_num=1)

         # Clean up.
         self.context.router.deconfig()
	# Copyright (c) 2013 The Chromium OS Authors. All rights reserved.
	# Use of this source code is governed by a BSD-style license that can be
	# found in the LICENSE file.

	import logging
	import time

	from autotest_lib.client.common_lib.cros.network import xmlrpc_datatypes
	from autotest_lib.server import site_attenuator
	from autotest_lib.server.cros.network import hostap_config
	from autotest_lib.server.cros.network import rvr_test_base

	class network_WiFi_SSIDMultiSwitchBack(rvr_test_base.RvRTestBase):
	"""Tests roaming to an AP when the old one's signal is too weak.

	This test uses a dual-radio Stumpy as the AP and configures the radios to
	broadcast two BSS's with different frequencies on the same SSID. The DUT
	connects to the first radio, the test attenuates that radio, and the DUT
	is supposed to roam to the second radio.

	This test requires a particular configuration of test equipment:

	+--------- StumpyCell/AP ----------+
	\| chromeX.grover.hostY.router.cros \|
	\| \|
	\| [Radio 0] [Radio 1] \|
	+--------A-----B----C-----D--------+
	+------ BeagleBone ------+ \| \| \| \|
	\| chromeX.grover.hostY. \| \| X \| X
	\| attenuator.cros [Port0]-[attenuator] \|
	\| [Port1]----- \| ----[attenuator]
	\| [Port2]-X \| \|
	\| [Port3]-X +-----+ \|
	\| \| \| \|
	+------------------------+ \| \|
	+--------------E----F--------------+
	\| [Radio 0] \|
	\| \|
	\| chromeX.grover.hostY.cros \|
	+-------------- DUT ---------------+

	Where antennas A, C, and E are the primary antennas for AP/radio0,
	AP/radio1, and DUT/radio0, respectively; and antennas B, D, and F are the
	auxilliary antennas for AP/radio0, AP/radio1, and DUT/radio0,
	respectively. The BeagleBone controls 2 attenuators that are connected
	to the primary antennas of AP/radio0 and 1 which are fed into the primary
	and auxilliary antenna ports of DUT/radio 0. Ports 2 and 3 of the
	BeagleBone as well as the auxillary antennae of AP/radio0 and 1 are
	terminated.

	This arrangement ensures that the attenuator port numbers are assigned to
	the primary radio, first, and the secondary radio, second. If this happens,
	the ports will be numbered in the order in which the AP's channels are
	configured (port 0 is first, port 1 is second, etc.).

	This test is a de facto test that the ports are configured in that
	arrangement since swapping Port0 and Port1 would cause us to attenuate the
	secondary radio, providing no impetus for the DUT to switch radios and
	causing the test to fail to connect at radio 1's frequency.

	"""

	version = 1

	FREQUENCY_0 = 2412
	FREQUENCY_1 = 2462
	PORT_0 = 0 # Port created first (FREQUENCY_0)
	PORT_1 = 1 # Port created second (FREQUENCY_1)


	def run_once(self):
	"""Test body."""

	logging.info("- Configure first AP & connect")
	self.context.configure(hostap_config.HostapConfig(
	frequency=network_WiFi_SSIDMultiSwitchBack.FREQUENCY_0,
	mode=hostap_config.HostapConfig.MODE_11G))
	router_ssid = self.context.router.get_ssid()
	self.context.assert_connect_wifi(xmlrpc_datatypes.AssociationParameters(
	ssid=router_ssid))
	self.context.assert_ping_from_dut()

	logging.info('- Configure second AP')
	self.context.configure(hostap_config.HostapConfig(
	ssid=router_ssid,
	frequency=network_WiFi_SSIDMultiSwitchBack.FREQUENCY_1,
	mode=hostap_config.HostapConfig.MODE_11G),
	multi_interface=True)

	logging.info('- Drop the power on the first AP')
	self.context.attenuator.set_variable_attenuation_on_port(
	network_WiFi_SSIDMultiSwitchBack.PORT_0,
	site_attenuator.Attenuator.MAX_VARIABLE_ATTENUATION)
	time.sleep(50) # Give DUT time to scan and roam.

	logging.info("- Wait for a connection on the second AP")
	# Instead of explicitly connecting, just wait to see if the DUT
	# connects to the second AP by itself
	self.context.wait_for_connection(
	ssid=router_ssid,
	freq=network_WiFi_SSIDMultiSwitchBack.FREQUENCY_1,
	ap_num=1)

	# Clean up.
	self.context.router.deconfig()