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Add: RF tests to the advanced test scenario's

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* Modified test cases as per TR-398 Issue-2

Signed-off-by: jitendracandela <jitendra.kushavah@candelatech.com>

* Added advance testbed radio config file

Signed-off-by: jitendracandela <jitendra.kushavah@candelatech.com>

* Added maximum connection test case as per TR-398 Issue-2

Signed-off-by: jitendracandela <jitendra.kushavah@candelatech.com>

* Added maximum throughput test case as per TR-398 Issue-2

Signed-off-by: jitendracandela <jitendra.kushavah@candelatech.com>

* Removed older nat mode rvr test cases

Signed-off-by: jitendracandela <jitendra.kushavah@candelatech.com>

* Removed older nat and vlan mode advance rf test cases

Signed-off-by: jitendracandela <jitendra.kushavah@candelatech.com>

* Added Test Description in advance suit

Signed-off-by: jitendracandela <jitendra.kushavah@candelatech.com>

* Removed older rate_vs_orientation test plan

Signed-off-by: jitendracandela <jitendra.kushavah@candelatech.com>

* Added advance marker

Signed-off-by: jitendracandela <jitendra.kushavah@candelatech.com>

* Divided advance suit into advance AC and advance AX

Signed-off-by: jitendracandela <jitendra.kushavah@candelatech.com>

* Modified RSSI values for advanced-2

Signed-off-by: jitendracandela <jitendra.kushavah@candelatech.com>

---------

Signed-off-by: jitendracandela <jitendra.kushavah@candelatech.com>
This commit is contained in:
Jitendrakumar Kushavah
2024-03-12 16:22:08 +05:30
committed by GitHub
parent ce64d64343
commit 1610412512
25 changed files with 757 additions and 4305 deletions
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146
tests/e2e/advanced/advanced-config.json Normal file
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@@ -0,0 +1,146 @@
{
"TESTBEDS": {
"advanced-3": {
"Virtual Sta Radio Settings": {
"Group: 0": {"5Ghz": "1.3.2 wiphy0",
"2.4Ghz": "1.3.3 wiphy1",
"2.4Ghz RSSI 0 Atten": [-19, -19, -19, -19],
"5Gh RSSI 0 Atten": [-42, -42, -42, -42],
"Attenuator Modules": ["1.1.3312.0", "1.1.3312.1", "1.1.3312.2", "1.1.3312.3"]
},
"Group: 1": {"5Ghz": "1.3.4 wiphy2",
"2.4Ghz": "1.3.5 wiphy3",
"2.4Ghz RSSI 0 Atten": [-22, -22, -22, -22],
"5Gh RSSI 0 Atten": [-36, -36, -36, -36],
"Attenuator Modules": ["1.1.3313.0", "1.1.3313.1", "1.1.3313.2", "1.1.3313.3"]
},
"Group: 2": {"5Ghz": "1.3.6 wiphy4",
"2.4Ghz": "1.3.7 wiphy5",
"2.4Ghz RSSI 0 Atten": [-20, -20, -20, -20],
"5Gh RSSI 0 Atten": [-32, -32, -32, -32],
"Attenuator Modules": ["1.1.3314.0", "1.1.3314.1", "1.1.3314.2", "1.1.3314.3"]
}
},
"802.11AX Settings": {
"Group: 0": {"Radios": ["1.1.5 wiphy1", "1.1.4 wiphy0", "1.1.8 wiphy2", "1.1.9 wiphy3"],
"2.4Ghz RSSI 0 Atten": [-25, -25, -25, -25],
"5Ghz RSSI 0 Atten": [-30, -30, -30, -30],
"Attenuator Modules": ["1.1.3315.0", "1.1.3315.1", "", ""]
},
"Group: 1": {"Radios": ["1.1.10 wiphy4", "1.1.11 wiphy5", "1.1.12 wiphy6", "1.1.13 wiphy7"],
"2.4Ghz RSSI 0 Atten": [-25, -25, -25, -25],
"5Ghz RSSI 0 Atten": [-30, -30, -30, -30],
"Attenuator Modules": ["1.1.3315.2", "1.1.3315.3", "", ""]
},
"Group: 2": {"Radios": ["1.1.14 wiphy8", "1.1.15 wiphy9", "1.1.6 wiphy10", "1.1.7 wiphy11"],
"2.4Ghz RSSI 0 Atten": [-23, -23, -23, -23],
"5Ghz RSSI 0 Atten": [-40, -40, -40, -40],
"Attenuator Modules": ["1.1.3319.0", "1.1.3319.1", "", ""]
},
"Group: 3": {"Radios": ["1.2.2 wiphy0", "1.2.14 wiphy2", "1.2.3 wiphy1", "1.2.19 wiphy3"],
"2.4Ghz RSSI 0 Atten": [-25, -25],
"5Ghz RSSI 0 Atten": [-30, -30],
"Attenuator Modules": ["1.1.3319.0", "1.1.3319.1"]
},
"Group: 4": {"Radios": ["1.2.20 wiphy4", "1.2.22 wiphy6", "1.2.21 wiphy5", "1.2.23 wiphy7"],
"2.4Ghz RSSI 0 Atten": [-25, -25],
"5Ghz RSSI 0 Atten": [-30, -30],
"Attenuator Modules": ["1.1.3319.0", "1.1.3319.1"]
},
"Group: 5": {"Radios": ["1.2.24 wiphy8", "1.2.4 wiphy10", "1.2.25 wiphy9", "1.2.5 wiphy11"],
"2.4Ghz RSSI 0 Atten": [-25, -25],
"5Ghz RSSI 0 Atten": [-30, -30],
"Attenuator Modules": ["1.1.3319.0", "1.1.3319.1"]
},
"Group: 6": {"Radios": ["1.2.6 wiphy12", "1.2.8 wiphy14", "1.2.7 wiphy13", "1.2.9 wiphy15"],
"2.4Ghz RSSI 0 Atten": [-25, -25],
"5Ghz RSSI 0 Atten": [-30, -30],
"Attenuator Modules": ["1.1.3319.0", "1.1.3319.1"]
},
"Group: 7": {"Radios": ["1.2.10 wiphy16", "1.2.12 wiphy18", "1.2.11 wiphy17", "1.2.13 wiphy19"],
"2.4Ghz RSSI 0 Atten": [-25, -25],
"5Ghz RSSI 0 Atten": [-30, -30],
"Attenuator Modules": ["1.1.3319.0", "1.1.3319.1"]
}
}
},
"advanced-1": {
"Virtual Sta Radio Settings": {
"Group: 0": {"5Ghz": "1.2.2 wiphy0",
"2.4Ghz": "1.2.3 wiphy1",
"2.4Ghz RSSI 0 Atten": [-17, -17, -17, -17],
"5Gh RSSI 0 Atten": [-35, -35, -35, -35],
"Attenuator Modules": ["1.1.3253.0", "1.1.3253.1", "1.1.3253.2", "1.1.3253.3"]
},
"Group: 1": {"5Ghz": "1.2.4 wiphy2",
"2.4Ghz": "1.2.5 wiphy3",
"2.4Ghz RSSI 0 Atten": [-16, -16, -16, -16],
"5Gh RSSI 0 Atten": [-37, -37, -37, -37],
"Attenuator Modules": ["1.1.3257.0", "1.1.3257.1", "1.1.3257.2", "1.1.3257.3"]
},
"Group: 2": {"5Ghz": "1.2.6 wiphy4",
"2.4Ghz": "1.2.7 wiphy5",
"2.4Ghz RSSI 0 Atten": [-19, -19, -19, -19],
"5Gh RSSI 0 Atten": [-40, -40, -40, -40],
"Attenuator Modules": ["1.1.3264.0", "1.1.3264.1", "1.1.3264.2", "1.1.3264.3"]
}
},
"802.11AX Settings": {
"Group: 0": {"Radios": ["1.1.4 wiphy0", "1.1.5 wiphy1", "1.1.8 wiphy2", "1.1.9 wiphy3"],
"2.4Ghz RSSI 0 Atten": [-16, -16, -16, -16],
"5Ghz RSSI 0 Atten": [-26, -26, -26, -26],
"Attenuator Modules": ["1.1.3266.0", "1.1.3266.1", "", ""]
},
"Group: 1": {"Radios": ["1.1.10 wiphy4", "1.1.11 wiphy5", "1.1.12 wiphy6", "1.1.13 wiphy7"],
"2.4Ghz RSSI 0 Atten": [-17, -17, -17, -17],
"5Ghz RSSI 0 Atten": [-25, -25, -25, -25],
"Attenuator Modules": ["1.1.3266.2", "1.1.3266.3", "", ""]
},
"Group: 2": {"Radios": ["1.1.14 wiphy8", "1.1.15 wiphy9", "1.1.6 wiphy10", "1.1.7 wiphy11"],
"2.4Ghz RSSI 0 Atten": [-12, -12, -12, -12],
"5Ghz RSSI 0 Atten": [-24, -24, -24, -24],
"Attenuator Modules": ["1.1.3269.0", "1.1.3269.1", "", ""]
}
}
},
"advanced-2": {
"Virtual Sta Radio Settings": {
"Group: 0": {"5Ghz": "1.2.4 wiphy0",
"2.4Ghz": "1.2.14 wiphy1",
"2.4Ghz RSSI 0 Atten": [-18, -18, -18, -18],
"5Gh RSSI 0 Atten": [-35, -35, -35, -35],
"Attenuator Modules": ["1.1.3325.0", "1.1.3325.1", "1.1.3325.2", "1.1.3325.3"]
},
"Group: 1": {"5Ghz": "1.2.15 wiphy2",
"2.4Ghz": "1.2.16 wiphy3",
"2.4Ghz RSSI 0 Atten": [-18, -18, -18, -18],
"5Gh RSSI 0 Atten": [-38, -38, -38, -38],
"Attenuator Modules": ["1.1.3248.0", "1.1.3248.1", "1.1.3248.2", "1.1.3248.3"]
},
"Group: 2": {"5Ghz": "1.2.17 wiphy4",
"2.4Ghz": "1.2.18 wiphy5",
"2.4Ghz RSSI 0 Atten": [-16, -16, -16, -16],
"5Gh RSSI 0 Atten": [-32, -32, -32, -32],
"Attenuator Modules": ["1.1.3326.0", "1.1.3326.1", "1.1.3326.2", "1.1.3326.3"]
}
},
"802.11AX Settings": {
"Group: 0": {"Radios": ["1.1.4 wiphy0", "1.1.5 wiphy1", "1.1.8 wiphy2", "1.1.9 wiphy3"],
"2.4Ghz RSSI 0 Atten": [-36, -36, -36, -36],
"5Ghz RSSI 0 Atten": [-59, -59, -59, -59],
"Attenuator Modules": ["1.1.3327.0", "1.1.3327.1", "", ""]
},
"Group: 1": {"Radios": ["1.1.10 wiphy4", "1.1.11 wiphy5", "1.1.12 wiphy6", "1.1.13 wiphy7"],
"2.4Ghz RSSI 0 Atten": [-28, -28, -28, -28],
"5Ghz RSSI 0 Atten": [-38, -38, -38, -38],
"Attenuator Modules": ["1.1.3327.2", "1.1.3327.3", "", ""]
},
"Group: 2": {"Radios": ["1.1.14 wiphy8", "1.1.15 wiphy9", "1.1.6 wiphy10", "1.1.7 wiphy11"],
"2.4Ghz RSSI 0 Atten": [-35, -35, -35, -35],
"5Ghz RSSI 0 Atten": [-48, -48, -48, -48],
"Attenuator Modules": ["1.1.3328.0", "1.1.3328.1", "", ""]
}
}
}
}
}

113
tests/e2e/advanced/air_time_fairness_test/wpa2_personal/test_bridge_air_time_fairness.py
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@@ -1,7 +1,7 @@
"""
Airtime Fairness Tests: BRIDGE Mode
pytest -m "airtime_fairness_tests and wpa2_personal and bridge"
pytest -m "atf and wpa2_personal and bridge"
"""
@@ -11,7 +11,7 @@ import os
import time
import logging
pytestmark = [pytest.mark.advance, pytest.mark.airtime_fairness_tests, pytest.mark.wpa2_personal, pytest.mark.bridge]
pytestmark = [pytest.mark.advance, pytest.mark.atf, pytest.mark.wpa2_personal, pytest.mark.bridge]
setup_params_general = {
"mode": "BRIDGE",
@@ -21,68 +21,101 @@ setup_params_general = {
{"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
]
},
"rf": {},
"rf": {
"5G": {
'band': '5G',
"channel": 36,
"channel-width": 80
},
"2G": {
'band': '2G',
"channel": 6,
"channel-width": 20
}
},
"radius": False
}
@allure.feature("Airtime Fairness")
@allure.parent_suite("Airtime Fairness Test")
@allure.suite(suite_name="BRIDGE Mode")
@allure.sub_suite(sub_suite_name="WPA2 Personal")
@pytest.mark.parametrize(
'setup_configuration',
[setup_params_general],
indirect=True,
scope="class"
)
@allure.parent_suite("Airtime Fairness Tests")
@allure.suite("WPA2 Personal Security")
@allure.sub_suite("Bridge Mode")
@allure.feature("green field & medium distanced & legacy stations")
@pytest.mark.usefixtures("setup_configuration")
class TestAtfBridge(object):
"""
BRIDGE Mode Airtime Fairness Test with wpa2 personal encryption
pytest -m "airtime_fairness_tests and bridge and wpa2_personal"
"""
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-6394", name="WIFI-6394")
class Test_Atf_Bridge(object):
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.atf_2g
@allure.title("Test for Airtime fairness of 2.4G")
def test_atf_2g(self, get_test_library, setup_configuration, check_connectivity):
@pytest.mark.fiveg
@pytest.mark.advance_ac
@allure.title("Airtime Fairness Test for AC Clients in BRIDGE Mode")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-13341", name="WIFI-13341")
def test_atf_ac_bridge(self, get_test_library, setup_configuration, check_connectivity, selected_testbed):
"""
BRIDGE Mode Airtime Fairness Test with wpa2 personal encryption 2.4 GHz Band
pytest -m "airtime_fairness_tests and bridge and twog and wpa2_personal and atf_2g"
Test Description:
Airtime Fairness Test intends to verify the capability of Wi-Fi device to ensure the fairness of airtime usage.
This test uses two stations at a time, with one station running in optimum configuration. The second station
varies between optimum configuration, weaker signal, and legacy mode configurations. In each setting,
TCP traffic is used to determine maximum capacity of each station running by itself. Then, UDP traffic is
created on STA1 to run at 75% of the TCP throughput and UDP traffic is created on the second station at
50% of the TCP throughput for that station. This overdrives the AP and causes it to drop frames. The
pass/fail criteria is that each station gets at least 45% of the TCP throughput when both stations are
running the prescribed UDP traffic.
Marker:
advance_ac and atf and wpa2_personal and bridge
Note: Please refer to the PDF report for the Test Procedure, Pass/Fail Criteria, and Candela Score.
"""
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
security_key = profile_data["security_key"]
mode = "BRIDGE"
vlan = 1
band = 'twog'
result, description = get_test_library.air_time_fairness(ssid=ssid_name, passkey=security_key, security="wpa2",
mode=mode, band=band, vlan_id=vlan,atn=380,
pass_value=[80,80,48], dut_data=setup_configuration)
raw_line = [["skip_ac: 0"], ["skip_ax: 1"]]
result, description = get_test_library.tr398v2(mode=mode, vlan_id=vlan, test="atf3",
dut_data=setup_configuration, move_to_influx=False,
testbed=selected_testbed, extra_raw_lines=raw_line)
if result:
assert True
else:
assert False, description
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-6394", name="WIFI-6394")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.fiveg
@pytest.mark.atf_5g
@allure.title("Test for Airtime fairness of 5G")
def test_atf_5g(self, get_test_library, setup_configuration, check_connectivity):
@pytest.mark.advance_ax
@allure.title("Airtime Fairness Test for AX Clients in BRIDGE Mode")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-13341", name="WIFI-13341")
def test_atf_ax_bridge(self, get_test_library, setup_configuration, check_connectivity, selected_testbed):
"""
BRIDGE Mode Airtime Fairness Test with wpa2 personal encryption 5 GHz Band
pytest -m "airtime_fairness_tests and bridge and fiveg and wpa2_personal and atf_5g"
Test Description:
Airtime Fairness Test intends to verify the capability of Wi-Fi device to ensure the fairness of airtime usage.
This test uses two stations at a time, with one station running in optimum configuration. The second station
varies between optimum configuration, weaker signal, and legacy mode configurations. In each setting,
TCP traffic is used to determine maximum capacity of each station running by itself. Then, UDP traffic is
created on STA1 to run at 75% of the TCP throughput and UDP traffic is created on the second station at
50% of the TCP throughput for that station. This overdrives the AP and causes it to drop frames. The
pass/fail criteria is that each station gets at least 45% of the TCP throughput when both stations are
running the prescribed UDP traffic.
Marker:
advance_ax and atf and wpa2_personal and bridge
Note: Please refer to the PDF report for the Test Procedure, Pass/Fail Criteria, and Candela Score.
"""
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
security_key = profile_data["security_key"]
mode = "BRIDGE"
vlan = 1
band = 'fiveg'
result, description = get_test_library.air_time_fairness(ssid=ssid_name, passkey=security_key, security="wpa2",
mode=mode, band=band, vlan_id=vlan, atn=250,
pass_value=[500,470,260], dut_data=setup_configuration)
raw_line = [["skip_ac: 1"], ["skip_ax: 0"]]
result, description = get_test_library.tr398v2(mode=mode, vlan_id=vlan, test="atf3",
dut_data=setup_configuration, move_to_influx=False,
testbed=selected_testbed, extra_raw_lines=raw_line)
if result:
assert True
else:
assert False, description
assert False, description

0
tests/e2e/advanced/rate_vs_orientation/__init__.py → tests/e2e/advanced/maximum_connection/wpa2_personal/__init__.py
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109
tests/e2e/advanced/maximum_connection/wpa2_personal/test_bridge_maximum_connection.py Normal file
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@@ -0,0 +1,109 @@
"""
Test Maximum Connection : Bridge Mode
pytest -m "maximum_connection"
"""
import sys
import pytest
import allure
import json
import os
pytestmark = [pytest.mark.advance, pytest.mark.maximum_connection, pytest.mark.bridge]
setup_params_general = {
"mode": "BRIDGE",
"ssid_modes": {
"wpa2_personal": [
{"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"},
{"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
]
},
"rf": {
"5G": {
'band': '5G',
"channel": 36,
"channel-width": 80
},
"2G": {
'band': '2G',
"channel": 6,
"channel-width": 20
}
},
"radius": False
}
@allure.feature("Maximum Connection")
@allure.parent_suite("Maximum Connection Test")
@allure.suite(suite_name="BRIDGE Mode")
@allure.sub_suite(sub_suite_name="WPA2 Personal")
@pytest.mark.parametrize(
'setup_configuration',
[setup_params_general],
indirect=True,
scope="class"
)
@pytest.mark.usefixtures("setup_configuration")
class Test_MaxConnection_Bridge(object):
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.fiveg
@pytest.mark.advance_ac
@allure.title("Maximum Connection Test for AC Clients in BRIDGE Mode")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-13328", name="WIFI-13328")
def test_max_connection_ac_bridge(self, get_test_library, setup_configuration, check_connectivity, selected_testbed):
"""
Test Description:
The Maximum Connection test intends to verify that the Wi-Fi AP can support 32 STAs simultaneously
connected with minimal packet loss and no disassociations taking place.
Marker:
advance_ac and maximum_connection and wpa2_personal and bridge
Note: Please refer to the PDF report for the Test Procedure, Pass/Fail Criteria, and Candela Score.
"""
mode = "BRIDGE"
vlan = 1
raw_line = [["skip_ac: 0"], ["skip_ax: 1"]]
result, description = get_test_library.tr398v2(mode=mode, vlan_id=vlan, test="max_cx",
dut_data=setup_configuration, move_to_influx=False,
testbed=selected_testbed, extra_raw_lines=raw_line)
if result:
assert True
else:
assert False, description
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.fiveg
@pytest.mark.advance_ax
@allure.title("Maximum Connection Test for AX Clients in BRIDGE Mode")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-13328", name="WIFI-13328")
def test_max_connection_ax_bridge(self, get_test_library, setup_configuration, check_connectivity, selected_testbed):
"""
Test Description:
The Maximum Connection test intends to verify that the Wi-Fi AP can support 32 STAs simultaneously
connected with minimal packet loss and no disassociations taking place.
Marker:
advance_ax and maximum_connection and wpa2_personal and bridge
Note: Please refer to the PDF report for the Test Procedure, Pass/Fail Criteria, and Candela Score.
"""
mode = "BRIDGE"
vlan = 1
raw_line = [["skip_ac: 1"], ["skip_ax: 0"]]
result, description = get_test_library.tr398v2(mode=mode, vlan_id=vlan, test="max_cx",
dut_data=setup_configuration, move_to_influx=False,
testbed=selected_testbed, extra_raw_lines=raw_line)
if result:
assert True
else:
assert False, description

0
tests/e2e/advanced/maximum_throughput_test/__init__.py Normal file
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0
tests/e2e/advanced/maximum_throughput_test/wpa2_personal/__init__.py Normal file
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116
tests/e2e/advanced/maximum_throughput_test/wpa2_personal/test_bridge_max_throughput.py Normal file
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@@ -0,0 +1,116 @@
"""
Maximum Throughput Test : Bridge Mode
pytest -m "maximum_throughput"
"""
import sys
import pytest
import allure
import json
import os
pytestmark = [pytest.mark.advance, pytest.mark.maximum_throughput, pytest.mark.bridge]
setup_params_general = {
"mode": "BRIDGE",
"ssid_modes": {
"wpa2_personal": [
{"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"},
{"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
]
},
"rf": {
"5G": {
'band': '5G',
"channel": 36,
"channel-width": 80
},
"2G": {
'band': '2G',
"channel": 6,
"channel-width": 20
}
},
"radius": False
}
@allure.feature("Maximum Throughput")
@allure.parent_suite("Maximum Throughput Test")
@allure.suite(suite_name="BRIDGE Mode")
@allure.sub_suite(sub_suite_name="WPA2 Personal")
@pytest.mark.parametrize(
'setup_configuration',
[setup_params_general],
indirect=True,
scope="class"
)
@pytest.mark.usefixtures("setup_configuration")
class Test_MaxThroughput_Bridge(object):
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.fiveg
@pytest.mark.advance_ac
@allure.title("Maximum Throughput Test for AC Clients in BRIDGE Mode")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-13330", name="WIFI-13330")
def test_maximum_throughput_ac_bridge(self, get_test_library, setup_configuration, check_connectivity,
selected_testbed):
"""
Test Description:
The Maximum throughput test intends to measure the maximum throughput performance of the DUT with
a single station active. The test uses TCP connections and the attenuation is adjusted to emulate a
distance of 2 meters. The 2.4Ghz station is configured for 20Mhz bandwidth and the 5Ghz station is
configured for 80Mhz bandwidth. In 6Ghz, the station is configured for 160Mhz bandwidth. In both cases
the station is configured for a maximum of two spatial streams.
Marker:
advance_ac and maximum_throughput and wpa2_personal and bridge
Note: Please refer to the PDF report for the Test Procedure, Pass/Fail Criteria, and Candela Score.
"""
mode = "BRIDGE"
vlan = 1
raw_line = [["skip_ac: 0"], ["skip_ax: 1"]]
result, description = get_test_library.tr398v2(mode=mode, vlan_id=vlan, test="max_tput",
dut_data=setup_configuration, move_to_influx=False,
testbed=selected_testbed, extra_raw_lines=raw_line)
if result:
assert True
else:
assert False, description
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.fiveg
@pytest.mark.advance_ax
@allure.title("Maximum Throughput Test for AX Clients in BRIDGE Mode")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-13330", name="WIFI-13330")
def test_maximum_throughput_ax_bridge(self, get_test_library, setup_configuration, check_connectivity,
selected_testbed):
"""
Test Description:
The Maximum throughput test intends to measure the maximum throughput performance of the DUT with
a single station active. The test uses TCP connections and the attenuation is adjusted to emulate a
distance of 2 meters. The 2.4Ghz station is configured for 20Mhz bandwidth and the 5Ghz station is
configured for 80Mhz bandwidth. In 6Ghz, the station is configured for 160Mhz bandwidth. In both cases
the station is configured for a maximum of two spatial streams.
Marker:
advance_ax and maximum_throughput and wpa2_personal and bridge
Note: Please refer to the PDF report for the Test Procedure, Pass/Fail Criteria, and Candela Score.
"""
mode = "BRIDGE"
vlan = 1
raw_line = [["skip_ac: 1"], ["skip_ax: 0"]]
result, description = get_test_library.tr398v2(mode=mode, vlan_id=vlan, test="max_tput",
dut_data=setup_configuration, move_to_influx=False,
testbed=selected_testbed, extra_raw_lines=raw_line)
if result:
assert True
else:
assert False, description

122
tests/e2e/advanced/multi_association_disassociation/wpa2_personal/test_bridge_association_disassociation.py
View File

@@ -8,7 +8,7 @@
import pytest
import allure
pytestmark = [pytest.mark.advance, pytest.mark.multi_assoc_disassoc_tests, pytest.mark.bridge, pytest.mark.wpa2_personal]
pytestmark = [pytest.mark.advance, pytest.mark.multi_assoc_disassoc_tests, pytest.mark.bridge]
setup_params_general = {
"mode": "BRIDGE",
@@ -18,93 +18,91 @@ setup_params_general = {
{"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
]
},
"rf": {},
"rf": {
"5G": {
'band': '5G',
"channel": 36,
"channel-width": 80
},
"2G": {
'band': '2G',
"channel": 6,
"channel-width": 20
}
},
"radius": False
}
@allure.feature("Multi Association and Disassociation")
@allure.parent_suite("Multi Association and Disassociation Test")
@allure.suite(suite_name="BRIDGE Mode")
@allure.sub_suite(sub_suite_name="WPA2 Personal")
@pytest.mark.parametrize(
'setup_configuration',
[setup_params_general],
indirect=True,
scope="class"
)
@allure.parent_suite("Multi Association and Disassociation Tests")
@allure.suite("WPA2 Personal Security")
@allure.sub_suite("Bridge Mode")
@allure.feature("UDP upload")
@pytest.mark.usefixtures("setup_configuration")
class TestMultiAssoDisassoBridge(object):
class Test_MultiAssoc_Bridge(object):
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5691", name="WIFI-5691")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.udp_upload_2g
@allure.title("Test for Multi Association and Disassociation for UDP (NSS-2) upload 2.4G")
def test_multi_asso_disasso_udp_upload_nss2_2g(self, get_test_library, setup_configuration, check_connectivity):
@pytest.mark.fiveg
@pytest.mark.advance_ac
@allure.title("Multi Association and Disassociation Test for AC Clients in BRIDGE Mode")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-13339", name="WIFI-13339")
def test_multi_assoc_disassoc_ac_bridge(self, get_test_library, setup_configuration, check_connectivity,
selected_testbed):
"""
pytest -m "multi_assoc_disassoc_tests and wpa2_personal and bridge and twog and udp_upload_2g"
Test Description:
Multiple association / disassociation stability test intends to measure stability of Wi-Fi device under a
dynamic environment with frequent change of connection status.
Marker:
advance_ac and multi_assoc_disassoc_tests and wpa2_personal and bridge
Note: Please refer to the PDF report for the Test Procedure, Pass/Fail Criteria, and Candela Score.
"""
mode = "BRIDGE"
vlan = 1
result, discription = get_test_library.multi_asso_disasso(band="2G", num_stations=16, dut_data=setup_configuration,
mode = mode, vlan=vlan, instance_name="udp_upload_2g",
traffic_direction="upload", traffic_rate="4Mbps")
raw_line = [["skip_ac: 0"], ["skip_ax: 1"]]
result, description = get_test_library.tr398v2(mode=mode, vlan_id=vlan, test="reset",
dut_data=setup_configuration, move_to_influx=False,
testbed=selected_testbed, extra_raw_lines=raw_line)
if result:
assert True
else:
assert False, discription
assert False, description
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5692", name="WIFI-5692")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.udp_download_2g
@allure.title("Test for Multi Association and Disassociation for UDP (NSS-2) download 2.4G")
def test_multi_asso_disasso_udp_download_nss2_2g(self, get_test_library, setup_configuration, check_connectivity):
"""
pytest -m "multi_assoc_disassoc_tests and wpa2_personal and bridge and twog and udp_download_2g"
"""
mode = "BRIDGE"
vlan = 1
result, discription = get_test_library.multi_asso_disasso(band="2G", num_stations=16,
dut_data=setup_configuration,
mode=mode, vlan=vlan, instance_name="udp_download_2g",
traffic_direction="download", traffic_rate="4Mbps")
if result:
assert True
else:
assert False, discription
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5693", name="WIFI-5693")
@pytest.mark.fiveg
@pytest.mark.udp_upload_5g
@allure.title("Test for Multi Association and Disassociation for UDP (NSS-2) upload 5G")
def test_multi_asso_disasso_udp_upload_nss2_5g(self, get_test_library, setup_configuration, check_connectivity):
@pytest.mark.advance_ax
@allure.title("Multi Association and Disassociation Test for AX Clients in BRIDGE Mode")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-13339", name="WIFI-13339")
def test_multi_assoc_disassoc_ax_bridge(self, get_test_library, setup_configuration, check_connectivity,
selected_testbed):
"""
pytest -m "multi_assoc_disassoc_tests and wpa2_personal and bridge and fiveg and udp_upload_5g"
"""
mode = "BRIDGE"
vlan = 1
result, discription = get_test_library.multi_asso_disasso(band="5G", num_stations=16,
dut_data=setup_configuration,
mode=mode, vlan=vlan, instance_name="udp_upload_5g",
traffic_direction="upload", traffic_rate="8Mbps")
if result:
assert True
else:
assert False, discription
Test Description:
Multiple association / disassociation stability test intends to measure stability of Wi-Fi device under a
dynamic environment with frequent change of connection status.
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5694", name="WIFI-5694")
@pytest.mark.fiveg
@pytest.mark.udp_download_5g
@allure.title("Test for Multi Association and Disassociation for UDP (NSS-2) download 5G")
def test_multi_asso_disasso_udp_download_nss2_5g(self, get_test_library, setup_configuration,check_connectivity):
"""
pytest -m "multi_assoc_disassoc_tests and wpa2_personal and bridge and fiveg and udp_download_5g"
Marker:
advance_ax and multi_assoc_disassoc_tests and wpa2_personal and bridge
Note: Please refer to the PDF report for the Test Procedure, Pass/Fail Criteria, and Candela Score.
"""
mode = "BRIDGE"
vlan = 1
result, discription = get_test_library.multi_asso_disasso(band="5G", num_stations=16,
dut_data=setup_configuration,
mode=mode, vlan=vlan, instance_name="udp_download_5g",
traffic_direction="download", traffic_rate="8Mbps")
raw_line = [["skip_ac: 1"], ["skip_ax: 0"]]
result, description = get_test_library.tr398v2(mode=mode, vlan_id=vlan, test="reset",
dut_data=setup_configuration, move_to_influx=False,
testbed=selected_testbed, extra_raw_lines=raw_line)
if result:
assert True
else:
assert False, discription
assert False, description

112
tests/e2e/advanced/multi_association_disassociation/wpa2_personal/test_nat_association_disassociation.py
View File

@@ -1,112 +0,0 @@
"""
Multi Association and Disassociation: NAT Mode
pytest -m "multi_assoc_disassoc_tests and wpa2_personal and nat"
"""
import pytest
import allure
pytestmark = [pytest.mark.advance, pytest.mark.multi_assoc_disassoc_tests, pytest.mark.nat, pytest.mark.wpa2_personal]
setup_params_general = {
"mode": "NAT",
"ssid_modes": {
"wpa2_personal": [
{"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"},
{"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
]
},
"rf": {},
"radius": False
}
@pytest.mark.parametrize(
'setup_configuration',
[setup_params_general],
indirect=True,
scope="class"
)
@allure.parent_suite("Multi Association and Disassociation Tests")
@allure.suite("WPA2 Personal Security")
@allure.sub_suite("Nat Mode")
@allure.feature("UDP upload")
@pytest.mark.usefixtures("setup_configuration")
class TestMultiAssoDisassoNat(object):
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5848", name="WIFI-5848")
@pytest.mark.twog
@pytest.mark.udp_upload_2g
@allure.title("Test for Multi Association and Disassociation for UDP (NSS-2) upload 2.4G")
def test_multi_asso_disasso_NAT_udp_upload_nss2_2g(self, get_test_library, setup_configuration, check_connectivity):
"""
pytest -m "multi_assoc_disassoc_tests and wpa2_personal and nat and twog and udp_upload_2g"
"""
mode = "NAT-WAN"
vlan = 1
result, discription = get_test_library.multi_asso_disasso(band="2G", num_stations=16, dut_data=setup_configuration,
mode = mode, vlan=vlan, instance_name="udp_upload_2g",
traffic_direction="upload", traffic_rate="4Mbps")
if result:
assert True
else:
assert False, discription
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5870", name="WIFI-5870")
@pytest.mark.twog
@pytest.mark.udp_download_2g
@allure.title("Test for Multi Association and Disassociation for UDP (NSS-2) download 2.4G")
def test_multi_asso_disasso_NAT_udp_download_nss2_2g(self, get_test_library, setup_configuration):
"""
pytest -m "multi_assoc_disassoc_tests and wpa2_personal and nat and twog and udp_download_2g"
"""
mode = "NAT-WAN"
vlan = 1
result, discription = get_test_library.multi_asso_disasso(band="2G", num_stations=16,
dut_data=setup_configuration,
mode=mode, vlan=vlan, instance_name="udp_download_2g",
traffic_direction="download", traffic_rate="4Mbps")
if result:
assert True
else:
assert False, discription
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5871", name="WIFI-5871")
@pytest.mark.fiveg
@pytest.mark.udp_upload_5g
@allure.title("Test for Multi Association and Disassociation for UDP (NSS-2) upload 5G")
def test_multi_asso_disasso_NAT_udp_upload_nss2_5g(self, get_test_library, setup_configuration):
"""
pytest -m "multi_assoc_disassoc_tests and wpa2_personal and nat and fiveg and udp_upload_5g"
"""
mode = "NAT-WAN"
vlan = 1
result, discription = get_test_library.multi_asso_disasso(band="5G", num_stations=16,
dut_data=setup_configuration,
mode=mode, vlan=vlan, instance_name="udp_upload_5g",
traffic_direction="upload", traffic_rate="8Mbps")
if result:
assert True
else:
assert False, discription
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5872", name="WIFI-5872")
@pytest.mark.fiveg
@pytest.mark.udp_download_5g
@allure.title("Test for Multi Association and Disassociation for UDP (NSS-2) download 5G")
def test_multi_asso_disasso_NAT_udp_download_nss2_5g(self, get_test_library, setup_configuration):
"""
pytest -m "multi_assoc_disassoc_tests and wpa2_personal and nat and fiveg and udp_download_5g"
"""
mode = "NAT-WAN"
vlan = 1
result, discription = get_test_library.multi_asso_disasso(band="5G", num_stations=16,
dut_data=setup_configuration,
mode=mode, vlan=vlan, instance_name="udp_download_5g",
traffic_direction="download", traffic_rate="8Mbps")
if result:
assert True
else:
assert False, discription

110
tests/e2e/advanced/multi_association_disassociation/wpa2_personal/test_vlan_association_disassociation.py
View File

@@ -1,110 +0,0 @@
"""
Multi Association and Disassociation: BRIDGE Mode
pytest -m "multi_assoc_disassoc_tests and wpa2_personal and vlan"
"""
import pytest
import allure
pytestmark = [pytest.mark.advance, pytest.mark.multi_assoc_disassoc_tests, pytest.mark.vlan, pytest.mark.wpa2_personal]
setup_params_general = {
"mode": "VLAN",
"ssid_modes": {
"wpa2_personal": [
{"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something", "vlan":100},
{"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something", "vlan":100}
]
},
"rf": {},
"radius": False
}
@pytest.mark.parametrize(
'setup_configuration',
[setup_params_general],
indirect=True,
scope="class"
)
@allure.parent_suite("Multi Association and Disassociation Tests")
@allure.suite("WPA2 Personal Security")
@allure.sub_suite("Vlan Mode")
@allure.feature("UDP upload")
@pytest.mark.usefixtures("setup_configuration")
class TestMultiAssoDisassoVlan(object):
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5873", name="WIFI-5873")
@pytest.mark.twog
@pytest.mark.udp_upload_2g
@allure.title("Test for Multi Association and Disassociation for UDP (NSS-2) upload 2.4G")
def test_multi_asso_disasso_VLAN_udp_upload_nss2_2g(self, get_test_library, setup_configuration, check_connectivity):
"""
pytest -m "multi_assoc_disassoc_tests and wpa2_personal and vlan and twog and udp_upload_2g"
"""
mode = "VLAN"
vlan = [100]
result, discription = get_test_library.multi_asso_disasso(band="2G", num_stations=16, dut_data=setup_configuration,
mode=mode, vlan=vlan, instance_name="udp_upload_2g",
traffic_direction="upload", traffic_rate="4Mbps")
if result:
assert True
else:
assert False, discription
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5874", name="WIFI-5874")
@pytest.mark.twog
@pytest.mark.udp_download_2g
@allure.title("Test for Multi Association and Disassociation for UDP (NSS-2) download 2.4G")
def test_multi_asso_disasso_VLAN_udp_download_nss2_2g(self, get_test_library, setup_configuration, check_connectivity):
"""
pytest -m "multi_assoc_disassoc_tests and wpa2_personal and vlan and twog and udp_download_2g"
"""
mode = "VLAN"
vlan = [100]
result, discription = get_test_library.multi_asso_disasso(band="2G", num_stations=16,
dut_data=setup_configuration,
mode=mode, vlan=vlan, instance_name="udp_download_2g",
traffic_direction="download", traffic_rate="4Mbps")
if result:
assert True
else:
assert False, discription
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5875", name="WIFI-5875")
@pytest.mark.fiveg
@pytest.mark.udp_upload_5g
@allure.title("Test for Multi Association and Disassociation for UDP (NSS-2) upload 5G")
def test_multi_asso_disasso_VLAN_udp_upload_nss2_5g(self, get_test_library, setup_configuration, check_connectivity):
"""
pytest -m "multi_assoc_disassoc_tests and wpa2_personal and vlan and fiveg and udp_upload_5g"
"""
mode = "VLAN"
vlan = [100]
result, discription = get_test_library.multi_asso_disasso(band="5G", num_stations=16,
dut_data=setup_configuration,
mode=mode, vlan=vlan, instance_name="udp_upload_5g",
traffic_direction="upload", traffic_rate="8Mbps")
if result:
assert True
else:
assert False, discription
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5876", name="WIFI-5876")
@pytest.mark.fiveg
@pytest.mark.udp_download_5g
@allure.title("Test for Multi Association and Disassociation for UDP (NSS-2) download 5G")
def test_multi_asso_disasso_VLAN_udp_download_nss2_5g(self, get_test_library, setup_configuration, check_connectivity):
"""
pytest -m "multi_assoc_disassoc_tests and wpa2_personal and vlan and fiveg and udp_download_5g"
"""
mode = "VLAN"
vlan = [100]
result, discription = get_test_library.multi_asso_disasso(band="5G", num_stations=16,
dut_data=setup_configuration,
mode=mode, vlan=vlan, instance_name="udp_download_5g",
traffic_direction="download", traffic_rate="8Mbps")
if result:
assert True
else:
assert False, discription

810
tests/e2e/advanced/multi_station_performance/wpa2_personal/test_bridge_multi_sta_performance.py
View File

@@ -17,16 +17,24 @@ setup_params_general = {
},
"rf": {
"5G": {
"channel-width": 80},
'band': '5G',
"channel": 36,
"channel-width": 80
},
"2G": {
"channel-width": 20}
'band': '2G',
"channel": 6,
"channel-width": 20
}
},
"radius": False
}
@allure.feature("MULTI-STATION PERFORMANCE")
@allure.parent_suite("Multi Station Performance Test")
@allure.feature("Multi-Station Performance")
@allure.parent_suite("Multi-Station Performance Test")
@allure.suite(suite_name="BRIDGE Mode")
@allure.sub_suite(sub_suite_name="WPA2 Personal")
@pytest.mark.parametrize(
@@ -36,774 +44,62 @@ setup_params_general = {
scope="class"
)
@pytest.mark.usefixtures("setup_configuration")
class TestMultiStaPerfBridge(object):
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title("BRIDGE Mode Multi Station Performance Test with 10dB(NSS-1) distance UDP-upload 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5733", name="WIFI-5733")
@pytest.mark.bridge_tsm
class Test_MultiStaPerf_Bridge(object):
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.tps
@pytest.mark.udp_upload_10dB_dis_nss1_2g
def test_multi_station_udp_upload_10dB_dis_nss1_2g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case,
check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
@pytest.mark.fiveg
@pytest.mark.advance_ac
@allure.title("Multi-Station Performance Test for AC Clients in BRIDGE Mode")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-13338", name="WIFI-13338")
def test_multistaperf_ac_bridge(self, get_test_library, setup_configuration, check_connectivity, selected_testbed):
"""
Test Description:
Multiple STAs performance test intends to measure the performance of Wi-Fi device connected with multiple
STAs at different distances simultaneously. There are three sets of 3 stations, with each group at a
different emulated distance.
Marker:
advance_ac and multistaperf and wpa2_personal and bridge
Note: Please refer to the PDF report for the Test Procedure, Pass/Fail Criteria, and Candela Score.
"""
mode = "BRIDGE"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="twog", antenna=1,
instance_name="udp_upload_10dB_dis_nss1_2g",
set_att_db="10db", download_rate="0Gbps",
upload_rate="1Gbps", batch_size="3",
protocol="UDP-IPv4", duration="120000",
expected_throughput=35,
traffic_type="udp_upload"
, dut_data=setup_configuration,
sniff_radio=True)
raw_line = [["skip_ac: 0"], ["skip_ax: 1"]]
result, description = get_test_library.tr398v2(mode=mode, vlan_id=vlan, test="multi_sta",
dut_data=setup_configuration, move_to_influx=False,
testbed=selected_testbed, extra_raw_lines=raw_line)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title("BRIDGE Mode Multi Station Performance Test with 10dB,38dB(NSS-1) distance UDP-upload 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5844", name="WIFI-5844")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.tpsm
@pytest.mark.udp_upload_10dB_38dB_dis_nss1_2g
def test_multi_station_udp_upload_10dB_38dB_dis_nss1_2g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case,
check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "BRIDGE"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="twog", antenna=1,
instance_name="udp_upload_10dB_38dB_dis_nss1_2g",
set_att_db="10db,38db", download_rate="0Gbps",
upload_rate="1Gbps", batch_size="3,6",
protocol="UDP-IPv4", duration="120000",
expected_throughput=30,
traffic_type="udp_upload"
, dut_data=setup_configuration,
sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title(
"BRIDGE Mode Multi Station Performance Test with 10dB,38dB,48dB(NSS-1) distance UDP-upload 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5877", name="WIFI-5877")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.tpsml
@pytest.mark.udp_upload_10dB_38dB_48dB_dis_nss1_2g
def test_multi_station_udp_upload_10dB_38dB_48dB_dis_nss1_2g(self, setup_configuration, get_test_library,
num_stations,
get_test_device_logs, get_dut_logs_per_test_case,
check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "BRIDGE"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="twog", antenna=1,
instance_name="udp_upload_10dB_38dB_48dB_dis_nss1_2g",
set_att_db="10db,38db,48db",
download_rate="0Gbps",
upload_rate="1Gbps", batch_size="3,6,9",
protocol="UDP-IPv4", duration="120000",
expected_throughput=25,
traffic_type="udp_upload"
, dut_data=setup_configuration,
sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title("BRIDGE Mode Multi Station Performance Test with 10dB(NSS-1) distance UDP-download 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5881", name="WIFI-5881")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.tps
@pytest.mark.udp_download_10dB_dis_nss1_2g
def test_multi_station_udp_download_10dB_dis_nss1_2g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case,
check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "BRIDGE"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="twog", antenna=1,
instance_name="udp_download_10dB_dis_nss1_2g",
set_att_db="10db", download_rate="1Gbps",
upload_rate="9.6Kbps", batch_size="3",
protocol="UDP-IPv4", duration="120000",
expected_throughput=35,
traffic_type="udp_download"
, dut_data=setup_configuration,
sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title("BRIDGE Mode Multi Station Performance Test with 10dB,38dB(NSS-1) distance UDP-download 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5882", name="WIFI-5882")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.tpsm
@pytest.mark.udp_download_10dB_38dB_dis_nss1_2g
def test_multi_station_udp_download_10dB_38dB_dis_nss1_2g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case,
check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "BRIDGE"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="twog", antenna=1,
instance_name="udp_download_10dB_38dB_dis_nss1_2g",
set_att_db="10db,38db", download_rate="1Gbps",
upload_rate="9.6Kbps", batch_size="3,6",
protocol="UDP-IPv4", duration="120000",
expected_throughput=30,
traffic_type="udp_download"
, dut_data=setup_configuration,
sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title(
"BRIDGE Mode Multi Station Performance Test with 10dB,38dB,48dB(NSS-1) distance UDP-download 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-6083", name="WIFI-6083")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.tpsml
@pytest.mark.udp_download_10dB_38dB_48dB_dis_nss1_2g
def test_multi_station_udp_download_10dB_38dB_48dB_dis_nss1_2g(self, setup_configuration, get_test_library,
num_stations,
get_test_device_logs, get_dut_logs_per_test_case,
check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "BRIDGE"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="twog", antenna=1,
instance_name="udp_download_10dB_38dB_48dB_dis_nss1_2g",
set_att_db="10db,38db,48db",
download_rate="1Gbps",
upload_rate="9.6Kbps", batch_size="3,6,9",
protocol="UDP-IPv4", duration="120000",
expected_throughput=25,
traffic_type="udp_download"
, dut_data=setup_configuration,
sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title("BRIDGE Mode Multi Station Performance Test with 10dB(NSS-1) distance UDP-upload 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-6086", name="WIFI-6086")
@pytest.mark.bridge_tsm
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@pytest.mark.tps
@pytest.mark.udp_upload_10dB_dis_nss1_5g
def test_multi_station_udp_upload_10dB_dis_nss1_5g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case,
check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
@pytest.mark.advance_ax
@allure.title("Multi-Station Performance Test for AX Clients in BRIDGE Mode")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-13338", name="WIFI-13338")
def test_multistaperf_ax_bridge(self, get_test_library, setup_configuration, check_connectivity, selected_testbed):
"""
Test Description:
Multiple STAs performance test intends to measure the performance of Wi-Fi device connected with multiple
STAs at different distances simultaneously. There are three sets of 3 stations, with each group at a
different emulated distance.
Marker:
advance_ax and multistaperf and wpa2_personal and bridge
Note: Please refer to the PDF report for the Test Procedure, Pass/Fail Criteria, and Candela Score.
"""
mode = "BRIDGE"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="fiveg", antenna=1,
instance_name="udp_upload_10dB_dis_nss1_5g",
set_att_db="10db", download_rate="0Gbps",
upload_rate="1Gbps", batch_size="3",
protocol="UDP-IPv4", duration="120000",
expected_throughput=250,
traffic_type="udp_upload"
, dut_data=setup_configuration,
sniff_radio=True)
raw_line = [["skip_ac: 1"], ["skip_ax: 0"]]
result, description = get_test_library.tr398v2(mode=mode, vlan_id=vlan, test="multi_sta",
dut_data=setup_configuration, move_to_influx=False,
testbed=selected_testbed, extra_raw_lines=raw_line)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title("BRIDGE Mode Multi Station Performance Test with 10dB,25dB(NSS-1) distance UDP-upload 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-6087", name="WIFI-6087")
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@pytest.mark.tpsm
@pytest.mark.udp_upload_10dB_25dB_dis_nss1_5g
def test_multi_station_udp_upload_10dB_25dB_dis_nss1_5g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case,
check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "BRIDGE"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="fiveg", antenna=1,
instance_name="udp_upload_10dB_25dB_dis_nss1_5g",
set_att_db="10db,25db", download_rate="0Gbps",
upload_rate="1Gbps", batch_size="3,6",
protocol="UDP-IPv4", duration="120000",
expected_throughput=250,
traffic_type="udp_upload"
, dut_data=setup_configuration,
sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title(
"BRIDGE Mode Multi Station Performance Test with 10dB,25dB,35dB(NSS-1) distance UDP-upload 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-6088", name="WIFI-6088")
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@pytest.mark.tpsml
@pytest.mark.udp_upload_10dB_25dB_35dB_dis_nss1_5g
def test_multi_station_udp_upload_10dB_25dB_35dB_dis_nss1_5g(self, setup_configuration, get_test_library,
num_stations,
get_test_device_logs, get_dut_logs_per_test_case,
check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "BRIDGE"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="fiveg", antenna=1,
instance_name="udp_upload_10dB_25dB_35dB_dis_nss1_5g",
set_att_db="10db,25db,35db",
download_rate="0Gbps",
upload_rate="1Gbps", batch_size="3,6,9",
protocol="UDP-IPv4", duration="120000",
expected_throughput=200,
traffic_type="udp_upload"
, dut_data=setup_configuration,
sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title("BRIDGE Mode Multi Station Performance Test with 10dB(NSS-1) distance UDP-download 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5878", name="WIFI-5878")
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@pytest.mark.tps
@pytest.mark.udp_download_10dB_dis_nss1_5g
def test_multi_station_udp_download_10dB_dis_nss1_5g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case,
check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "BRIDGE"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="fiveg", antenna=1,
instance_name="udp_download_10dB_dis_nss1_5g",
set_att_db="10db", download_rate="1Gbps",
upload_rate="9.6Kbps", batch_size="3",
protocol="UDP-IPv4", duration="120000",
expected_throughput=250,
traffic_type="udp_download"
, dut_data=setup_configuration,
sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title("BRIDGE Mode Multi Station Performance Test with 10dB,25dB(NSS-1) distance UDP-download 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5879", name="WIFI-5879")
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@pytest.mark.tpsm
@pytest.mark.udp_download_10dB_25dB_dis_nss1_5g
def test_multi_station_udp_download_10dB_25dB_dis_nss1_5g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case,
check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "BRIDGE"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="fiveg", antenna=1,
instance_name="udp_download_10dB_25dB_dis_nss1_5g",
set_att_db="10db,25db", download_rate="1Gbps",
upload_rate="9.6Kbps", batch_size="3,6",
protocol="UDP-IPv4", duration="120000",
expected_throughput=250,
traffic_type="udp_download"
, dut_data=setup_configuration,
sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title(
"BRIDGE Mode Multi Station Performance Test with 10dB,25dB,35dB(NSS-1) distance UDP-download 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5880", name="WIFI-5880")
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@pytest.mark.tpsml
@pytest.mark.udp_download_10dB_25dB_35dB_dis_nss1_5g
def test_multi_station_udp_download_10dB_25dB_35dB_dis_nss1_5g(self, setup_configuration, get_test_library,
num_stations,
get_test_device_logs, get_dut_logs_per_test_case,
check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "BRIDGE"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="fiveg", antenna=1,
instance_name="udp_download_10dB_25dB_35dB_dis_nss1_5g",
set_att_db="10db,25db,35db",
download_rate="1Gbps",
upload_rate="9.6Kbps", batch_size="3,6,9",
protocol="UDP-IPv4", duration="120000",
expected_throughput=200,
traffic_type="udp_download"
, dut_data=setup_configuration,
sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title("BRIDGE Mode Multi Station Performance Test with 10dB(NSS-2) distance UDP-upload 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5883", name="WIFI-5883")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.tps
@pytest.mark.udp_upload_10dB_dis_nss2_2g
def test_multi_station_udp_upload_10dB_dis_nss2_2g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case,
check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "BRIDGE"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="twog", antenna=4,
instance_name="udp_upload_10dB_dis_nss2_2g",
set_att_db="10db", download_rate="0Gbps",
upload_rate="1Gbps", batch_size="3",
protocol="UDP-IPv4", duration="120000",
expected_throughput=70,
traffic_type="udp_upload"
, dut_data=setup_configuration,
sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title("BRIDGE Mode Multi Station Performance Test with 10dB,38dB(NSS-2) distance UDP-upload 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5887", name="WIFI-5887")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.tpsm
@pytest.mark.udp_upload_10dB_38dB_dis_nss2_2g
def test_multi_station_udp_upload_10dB_38dB_dis_nss2_2g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case,
check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "BRIDGE"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="twog", antenna=4,
instance_name="udp_upload_10dB_38dB_dis_nss2_2g",
set_att_db="10db,38db", download_rate="0Gbps",
upload_rate="1Gbps", batch_size="3,6",
protocol="UDP-IPv4", duration="120000",
expected_throughput=60,
traffic_type="udp_upload"
, dut_data=setup_configuration,
sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title(
"BRIDGE Mode Multi Station Performance Test with 10dB,38dB,48dB(NSS-2) distance UDP-upload 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5886", name="WIFI-5886")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.tpsml
@pytest.mark.udp_upload_10dB_38dB_48dB_dis_nss2_2g
def test_multi_station_udp_upload_10dB_38dB_48dB_dis_nss2_2g(self, setup_configuration, get_test_library,
num_stations,
get_test_device_logs, get_dut_logs_per_test_case,
check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "BRIDGE"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="twog", antenna=4,
instance_name="udp_upload_10dB_38dB_48dB_dis_nss2_2g",
set_att_db="10db,38db,48db",
download_rate="0Gbps",
upload_rate="1Gbps", batch_size="3,6,9",
protocol="UDP-IPv4", duration="120000",
expected_throughput=50,
traffic_type="udp_upload"
, dut_data=setup_configuration,
sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title("BRIDGE Mode Multi Station Performance Test with 10dB(NSS-2) distance UDP-download 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5890", name="WIFI-5890")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.tps
@pytest.mark.udp_download_10dB_dis_nss2_2g
def test_multi_station_udp_download_10dB_dis_nss2_2g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case,
check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "BRIDGE"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="twog", antenna=4,
instance_name="udp_download_10dB_dis_nss2_2g",
set_att_db="10db", download_rate="1Gbps",
upload_rate="9.6Kbps", batch_size="3",
protocol="UDP-IPv4", duration="120000",
expected_throughput=70,
traffic_type="udp_download"
, dut_data=setup_configuration,
sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title("BRIDGE Mode Multi Station Performance Test with 10dB,38dB(NSS-2) distance UDP-download 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5889", name="WIFI-5889")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.tpsm
@pytest.mark.udp_download_10dB_38dB_dis_nss2_2g
def test_multi_station_udp_download_10dB_38dB_dis_nss2_2g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case,
check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "BRIDGE"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="twog", antenna=4,
instance_name="udp_download_10dB_38dB_dis_nss2_2g",
set_att_db="10db,38db", download_rate="1Gbps",
upload_rate="9.6Kbps", batch_size="3,6",
protocol="UDP-IPv4", duration="120000",
expected_throughput=60,
traffic_type="udp_download"
, dut_data=setup_configuration,
sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title(
"BRIDGE Mode Multi Station Performance Test with 10dB,38dB,48dB(NSS-2) distance UDP-download 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5888", name="WIFI-5888")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.tpsml
@pytest.mark.udp_download_10dB_38dB_48dB_dis_nss2_2g
def test_multi_station_udp_download_10dB_38dB_48dB_dis_nss2_2g(self, setup_configuration, get_test_library,
num_stations,
get_test_device_logs, get_dut_logs_per_test_case,
check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "BRIDGE"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="twog", antenna=4,
instance_name="udp_download_10dB_38dB_48dB_dis_nss2_2g",
set_att_db="10db,38db,48db",
download_rate="1Gbps",
upload_rate="9.6Kbps", batch_size="3,6,9",
protocol="UDP-IPv4", duration="120000",
expected_throughput=50,
traffic_type="udp_download"
, dut_data=setup_configuration,
sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title("BRIDGE Mode Multi Station Performance Test with 10dB(NSS-2) distance UDP-upload 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5884", name="WIFI-5884")
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@pytest.mark.tps
@pytest.mark.udp_upload_10dB_dis_nss2_5g
def test_multi_station_udp_upload_10dB_dis_nss2_5g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case,
check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "BRIDGE"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="fiveg", antenna=4,
instance_name="udp_upload_10dB_dis_nss2_5g",
set_att_db="10db", download_rate="0Gbps",
upload_rate="1Gbps", batch_size="3",
protocol="UDP-IPv4", duration="120000",
expected_throughput=500,
traffic_type="udp_upload"
, dut_data=setup_configuration,
sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title("BRIDGE Mode Multi Station Performance Test with 10dB,25dB(NSS-2) distance UDP-upload 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5885", name="WIFI-5885")
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@pytest.mark.tpsm
@pytest.mark.udp_upload_10dB_25dB_dis_nss2_5g
def test_multi_station_udp_upload_10dB_25dB_dis_nss2_5g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case,
check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "BRIDGE"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="fiveg", antenna=4,
instance_name="udp_upload_10dB_25dB_dis_nss2_5g",
set_att_db="10db,25db", download_rate="0Gbps",
upload_rate="1Gbps", batch_size="3,6",
protocol="UDP-IPv4", duration="120000",
expected_throughput=500,
traffic_type="udp_upload"
, dut_data=setup_configuration,
sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title(
"BRIDGE Mode Multi Station Performance Test with 10dB,25dB,35dB(NSS-2) distance UDP-upload 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5896", name="WIFI-5896")
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@pytest.mark.tpsml
@pytest.mark.udp_upload_10dB_25dB_35dB_dis_nss2_5g
def test_multi_station_udp_upload_10dB_25dB_35dB_dis_nss2_5g(self, setup_configuration, get_test_library,
num_stations,
get_test_device_logs, get_dut_logs_per_test_case,
check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "BRIDGE"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="fiveg", antenna=4,
instance_name="udp_upload_10dB_25dB_35dB_dis_nss2_5g",
set_att_db="10db,25db,35db",
download_rate="0Gbps",
upload_rate="1Gbps", batch_size="3,6,9",
protocol="UDP-IPv4", duration="120000",
expected_throughput=400,
traffic_type="udp_upload"
, dut_data=setup_configuration,
sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title("BRIDGE Mode Multi Station Performance Test with 10dB(NSS-2) distance UDP-download 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5892", name="WIFI-5892")
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@pytest.mark.tps
@pytest.mark.udp_download_10dB_dis_nss2_5g
def test_multi_station_udp_download_10dB_dis_nss2_5g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case,
check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "BRIDGE"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="fiveg", antenna=4,
instance_name="udp_download_10dB_dis_nss2_5g",
set_att_db="10db", download_rate="1Gbps",
upload_rate="9.6Kbps", batch_size="3",
protocol="UDP-IPv4", duration="120000",
expected_throughput=500,
traffic_type="udp_download"
, dut_data=setup_configuration,
sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title("BRIDGE Mode Multi Station Performance Test with 10dB,25dB(NSS-2) distance UDP-download 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5891", name="WIFI-5891")
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@pytest.mark.tpsm
@pytest.mark.udp_download_10dB_25dB_dis_nss2_5g
def test_multi_station_udp_download_10dB_25dB_dis_nss2_5g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case,
check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "BRIDGE"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="fiveg", antenna=4,
instance_name="udp_download_10dB_25dB_dis_nss2_5g",
set_att_db="10db,25db", download_rate="1Gbps",
upload_rate="9.6Kbps", batch_size="3,6",
protocol="UDP-IPv4", duration="120000",
expected_throughput=500,
traffic_type="udp_download"
, dut_data=setup_configuration,
sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title(
"BRIDGE Mode Multi Station Performance Test with 10dB,25dB,35dB(NSS-2) distance UDP-download 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5895", name="WIFI-5895")
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@pytest.mark.tpsml
@pytest.mark.udp_download_10dB_25dB_35dB_dis_nss2_5g
def test_multi_station_udp_download_10dB_25dB_35dB_dis_nss2_5g(self, setup_configuration, get_test_library,
num_stations,
get_test_device_logs, get_dut_logs_per_test_case,
check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "BRIDGE"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="fiveg", antenna=4,
instance_name="udp_download_10dB_25dB_35dB_dis_nss2_5g",
set_att_db="10db,25db,35db",
download_rate="1Gbps",
upload_rate="9.6Kbps", batch_size="3,6,9",
protocol="UDP-IPv4", duration="120000",
expected_throughput=400,
traffic_type="udp_download"
, dut_data=setup_configuration,
sniff_radio=True)
if result:
assert True
else:
assert False, description

699
tests/e2e/advanced/multi_station_performance/wpa2_personal/test_nat_multi_sta_performance.py
View File

@@ -1,699 +0,0 @@
"""
Test Multi-Station Performance: Nat Mode
pytest -m multistaperf
"""
import pytest
import allure
pytestmark = [pytest.mark.advance, pytest.mark.multistaperf, pytest.mark.nat]
setup_params_general = {
"mode": "NAT",
"ssid_modes": {
"wpa2_personal": [
{"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"},
{"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
]
},
"rf": {
"5G":{
"channel-width": 80},
"2G":{
"channel-width": 20}
},
"radius": False
}
@allure.feature("MULTI-STATION PERFORMANCE")
@allure.parent_suite("Multi Station Performance Test")
@allure.suite(suite_name="NAT Mode")
@allure.sub_suite(sub_suite_name="WPA2 Personal")
@pytest.mark.parametrize(
'setup_configuration',
[setup_params_general],
indirect=True,
scope="class"
)
@pytest.mark.usefixtures("setup_configuration")
class TestMultiStaPerfNat(object):
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title("NAT Mode Multi Station Performance Test with 10dB(NSS-1) distance UDP-upload 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5897", name="WIFI-5897")
@pytest.mark.nat_tsm
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.udp_upload_10dB_dis_nss1_2g
def test_multi_station_NAT_udp_upload_10dB_dis_nss1_2g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "NAT-WAN"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="twog", antenna=1,
instance_name="udp_upload_10dB_dis_nss1_2g",
set_att_db="10db", download_rate="0Gbps",
upload_rate="1Gbps", batch_size="3",
protocol="UDP-IPv4", duration="120000",
expected_throughput=35, traffic_type="udp_upload"
,dut_data=setup_configuration,sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title("NAT Mode Multi Station Performance Test with 10dB,38dB(NSS-1) distance UDP-upload 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5898", name="WIFI-5898")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.udp_upload_10dB_38dB_dis_nss1_2g
def test_multi_station_NAT_udp_upload_10dB_38dB_dis_nss1_2g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "NAT-WAN"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="twog", antenna=1,
instance_name="udp_upload_10dB_38dB_dis_nss1_2g",
set_att_db="10db,38db", download_rate="0Gbps",
upload_rate="1Gbps", batch_size="3,6",
protocol="UDP-IPv4", duration="120000",
expected_throughput=30, traffic_type="udp_upload"
,dut_data=setup_configuration,sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title("NAT Mode Multi Station Performance Test with 10dB,38dB,48dB(NSS-1) distance UDP-upload 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5901", name="WIFI-5901")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.udp_upload_10dB_38dB_48dB_dis_nss1_2g
def test_multi_station_NAT_udp_upload_10dB_38dB_48dB_dis_nss1_2g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "NAT-WAN"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="twog", antenna=1,
instance_name="udp_upload_10dB_38dB_48dB_dis_nss1_2g",
set_att_db="10db,38db,48db",
download_rate="0Gbps",
upload_rate="1Gbps", batch_size="3,6,9",
protocol="UDP-IPv4", duration="120000",
expected_throughput=25,traffic_type="udp_upload"
,dut_data=setup_configuration,sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title("NAT Mode Multi Station Performance Test with 10dB(NSS-1) distance UDP-download 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5905", name="WIFI-5905")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.udp_download_10dB_dis_nss1_2g
def test_multi_station_NAT_udp_download_10dB_dis_nss1_2g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "NAT-WAN"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="twog", antenna=1,
instance_name="udp_download_10dB_dis_nss1_2g",
set_att_db="10db", download_rate="1Gbps",
upload_rate="9.6Kbps", batch_size="3",
protocol="UDP-IPv4", duration="120000",
expected_throughput=35,traffic_type="udp_download"
,dut_data=setup_configuration,sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title(
"NAT Mode Multi Station Performance Test with 10dB,38dB(NSS-1) distance UDP-download 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5906", name="WIFI-5906")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.udp_download_10dB_38dB_dis_nss1_2g
def test_multi_station_NAT_udp_download_10dB_38dB_dis_nss1_2g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "NAT-WAN"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="twog", antenna=1,
instance_name="udp_download_10dB_38dB_dis_nss1_2g",
set_att_db="10db,38db", download_rate="1Gbps",
upload_rate="9.6Kbps", batch_size="3,6",
protocol="UDP-IPv4", duration="120000",
expected_throughput=30,traffic_type="udp_download"
,dut_data=setup_configuration,sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title(
"NAT Mode Multi Station Performance Test with 10dB,38dB,48dB(NSS-1) distance UDP-download 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-6084", name="WIFI-6084")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.udp_download_10dB_38dB_48dB_dis_nss1_2g
def test_multi_station_NAT_udp_download_10dB_38dB_48dB_dis_nss1_2g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "NAT-WAN"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="twog", antenna=1,
instance_name="udp_download_10dB_38dB_48dB_dis_nss1_2g",
set_att_db="10db,38db,48db",
download_rate="1Gbps",
upload_rate="9.6Kbps", batch_size="3,6,9",
protocol="UDP-IPv4", duration="120000",
expected_throughput=25,traffic_type="udp_download"
,dut_data=setup_configuration,sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title("NAT Mode Multi Station Performance Test with 10dB(NSS-1) distance UDP-upload 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-6089", name="WIFI-6089")
@pytest.mark.nat_tsm
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@pytest.mark.udp_upload_10dB_dis_nss1_5g
def test_multi_station_NAT_udp_upload_10dB_dis_nss1_5g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "NAT-WAN"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="fiveg", antenna=1,
instance_name="udp_upload_10dB_dis_nss1_5g",
set_att_db="10db", download_rate="0Gbps",
upload_rate="1Gbps", batch_size="3",
protocol="UDP-IPv4", duration="120000",
expected_throughput=250,traffic_type="udp_upload"
,dut_data=setup_configuration,sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title("NAT Mode Multi Station Performance Test with 10dB,25dB(NSS-1) distance UDP-upload 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-6090", name="WIFI-6090")
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@pytest.mark.udp_upload_10dB_25dB_dis_nss1_5g
def test_multi_station_NAT_udp_upload_10dB_25dB_dis_nss1_5g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "NAT-WAN"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="fiveg", antenna=1,
instance_name="udp_upload_10dB_25dB_dis_nss1_5g",
set_att_db="10db,25db", download_rate="0Gbps",
upload_rate="1Gbps", batch_size="3,6",
protocol="UDP-IPv4", duration="120000",
expected_throughput=250,traffic_type="udp_upload"
,dut_data=setup_configuration,sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title("NAT Mode Multi Station Performance Test with 10dB,25dB,35dB(NSS-1) distance UDP-upload 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-6091", name="WIFI-6091")
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@pytest.mark.udp_upload_10dB_25dB_35dB_dis_nss1_5g
def test_multi_station_NAT_udp_upload_10dB_25dB_35dB_dis_nss1_5g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "NAT-WAN"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="fiveg", antenna=1,
instance_name="udp_upload_10dB_25dB_35dB_dis_nss1_5g",
set_att_db="10db,25db,35db",
download_rate="0Gbps",
upload_rate="1Gbps", batch_size="3,6,9",
protocol="UDP-IPv4", duration="120000",
expected_throughput=200,traffic_type="udp_upload"
,dut_data=setup_configuration,sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title("NAT Mode Multi Station Performance Test with 10dB(NSS-1) distance UDP-download 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5902", name="WIFI-5902")
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@pytest.mark.udp_download_10dB_dis_nss1_5g
def test_multi_station_NAT_udp_download_10dB_dis_nss1_5g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "NAT-WAN"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="fiveg", antenna=1,
instance_name="udp_download_10dB_dis_nss1_5g",
set_att_db="10db", download_rate="1Gbps",
upload_rate="9.6Kbps", batch_size="3",
protocol="UDP-IPv4", duration="120000",
expected_throughput=250,traffic_type="udp_download"
,dut_data=setup_configuration,sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title("NAT Mode Multi Station Performance Test with 10dB,25dB(NSS-1) distance UDP-download 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5903", name="WIFI-5903")
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@pytest.mark.udp_download_10dB_25dB_dis_nss1_5g
def test_multi_station_NAT_udp_download_10dB_25dB_dis_nss1_5g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "NAT-WAN"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="fiveg", antenna=1,
instance_name="udp_download_10dB_25dB_dis_nss1_5g",
set_att_db="10db,25db", download_rate="1Gbps",
upload_rate="9.6Kbps", batch_size="3,6",
protocol="UDP-IPv4", duration="120000",
expected_throughput=250,traffic_type="udp_download"
,dut_data=setup_configuration,sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title("NAT Mode Multi Station Performance Test with 10dB,25dB,35dB(NSS-1) distance UDP-download 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5904", name="WIFI-5904")
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@pytest.mark.udp_download_10dB_25dB_35dB_dis_nss1_5g
def test_multi_station_NAT_udp_download_10dB_25dB_35dB_dis_nss1_5g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "NAT-WAN"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="fiveg", antenna=1,
instance_name="udp_download_10dB_25dB_35dB_dis_nss1_5g",
set_att_db="10db,25db,35db",
download_rate="1Gbps",
upload_rate="9.6Kbps", batch_size="3,6,9",
protocol="UDP-IPv4", duration="120000",
expected_throughput=200,traffic_type="udp_download"
,dut_data=setup_configuration,sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title("NAT Mode Multi Station Performance Test with 10dB(NSS-2) distance UDP-upload 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5907", name="WIFI-5907")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.udp_upload_10dB_dis_nss2_2g
def test_multi_station_NAT_udp_upload_10dB_dis_nss2_2g(self, setup_configuration, get_test_library, num_stations, get_test_device_logs,
get_dut_logs_per_test_case, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "NAT-WAN"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="twog", antenna=4,
instance_name="udp_upload_10dB_dis_nss2_2g",
set_att_db="10db", download_rate="0Gbps",
upload_rate="1Gbps", batch_size="3",
protocol="UDP-IPv4", duration="120000",
expected_throughput=70,traffic_type="udp_upload"
,dut_data=setup_configuration,sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title("NAT Mode Multi Station Performance Test with 10dB,38dB(NSS-2) distance UDP-upload 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5911", name="WIFI-5911")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.udp_upload_10dB_38dB_dis_nss2_2g
def test_multi_station_NAT_udp_upload_10dB_38dB_dis_nss2_2g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "NAT-WAN"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="twog", antenna=4,
instance_name="udp_upload_10dB_38dB_dis_nss2_2g",
set_att_db="10db,38db", download_rate="0Gbps",
upload_rate="1Gbps", batch_size="3,6",
protocol="UDP-IPv4", duration="120000",
expected_throughput=60,traffic_type="udp_upload"
,dut_data=setup_configuration,sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title("NAT Mode Multi Station Performance Test with 10dB,38dB,48dB(NSS-2) distance UDP-upload 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5910", name="WIFI-5910")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.udp_upload_10dB_38dB_48dB_dis_nss2_2g
def test_multi_station_NAT_udp_upload_10dB_38dB_48dB_dis_nss2_2g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "NAT-WAN"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="twog", antenna=4,
instance_name="udp_upload_10dB_38dB_48dB_dis_nss2_2g",
set_att_db="10db,38db,48db",
download_rate="0Gbps",
upload_rate="1Gbps", batch_size="3,6,9",
protocol="UDP-IPv4", duration="120000",
expected_throughput=50, traffic_type="udp_upload"
,dut_data=setup_configuration,sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title("NAT Mode Multi Station Performance Test with 10dB(NSS-2) distance UDP-download 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5914", name="WIFI-5914")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.udp_download_10dB_dis_nss2_2g
def test_multi_station_NAT_udp_download_10dB_dis_nss2_2g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "NAT-WAN"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="twog", antenna=4,
instance_name="udp_download_10dB_dis_nss2_2g",
set_att_db="10db", download_rate="1Gbps",
upload_rate="9.6Kbps", batch_size="3",
protocol="UDP-IPv4", duration="120000",
expected_throughput=70,traffic_type="udp_download"
,dut_data=setup_configuration,sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title("NAT Mode Multi Station Performance Test with 10dB,38dB(NSS-2) distance UDP-download 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5913", name="WIFI-5913")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.udp_download_10dB_38dB_dis_nss2_2g
def test_multi_station_NAT_udp_download_10dB_38dB_dis_nss2_2g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "NAT-WAN"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="twog", antenna=4,
instance_name="udp_download_10dB_38dB_dis_nss2_2g",
set_att_db="10db,38db", download_rate="1Gbps",
upload_rate="9.6Kbps", batch_size="3,6",
protocol="UDP-IPv4", duration="120000",
expected_throughput=60,traffic_type="udp_download"
,dut_data=setup_configuration,sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title("NAT Mode Multi Station Performance Test with 10dB,38dB,48dB(NSS-2) distance UDP-download 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5912", name="WIFI-5912")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.udp_download_10dB_38dB_48dB_dis_nss2_2g
def test_multi_station_NAT_udp_download_10dB_38dB_48dB_dis_nss2_2g(self, setup_configuration, get_test_library,
num_stations, get_test_device_logs, get_dut_logs_per_test_case, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "NAT-WAN"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="twog", antenna=4,
instance_name="udp_download_10dB_38dB_48dB_dis_nss2_2g",
set_att_db="10db,38db,48db",
download_rate="1Gbps",
upload_rate="9.6Kbps", batch_size="3,6,9",
protocol="UDP-IPv4", duration="120000",
expected_throughput=50,traffic_type="udp_download"
,dut_data=setup_configuration,sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title("NAT Mode Multi Station Performance Test with 10dB(NSS-2) distance UDP-upload 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5908", name="WIFI-5908")
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@pytest.mark.udp_upload_10dB_dis_nss2_5g
def test_multi_station_NAT_udp_upload_10dB_dis_nss2_5g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "NAT-WAN"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="fiveg", antenna=4,
instance_name="udp_upload_10dB_dis_nss2_5g",
set_att_db="10db", download_rate="0Gbps",
upload_rate="1Gbps", batch_size="3",
protocol="UDP-IPv4", duration="120000",
expected_throughput=500,traffic_type="udp_upload"
,dut_data=setup_configuration,sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title("NAT Mode Multi Station Performance Test with 10dB,25dB(NSS-2) distance UDP-upload 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5909", name="WIFI-5909")
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@pytest.mark.udp_upload_10dB_25dB_dis_nss2_5g
def test_multi_station_NAT_udp_upload_10dB_25dB_dis_nss2_5g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "NAT-WAN"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="fiveg", antenna=4,
instance_name="udp_upload_10dB_25dB_dis_nss2_5g",
set_att_db="10db,25db", download_rate="0Gbps",
upload_rate="1Gbps", batch_size="3,6",
protocol="UDP-IPv4", duration="120000",
expected_throughput=500,traffic_type="udp_upload"
,dut_data=setup_configuration,sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title("NAT Mode Multi Station Performance Test with 10dB,25dB,35dB(NSS-2) distance UDP-upload 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5918", name="WIFI-5918")
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@pytest.mark.udp_upload_10dB_25dB_35dB_dis_nss2_5g
def test_multi_station_NAT_udp_upload_10dB_25dB_35dB_dis_nss2_5g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "NAT-WAN"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="fiveg", antenna=4,
instance_name="udp_upload_10dB_25dB_35dB_dis_nss2_5g",
set_att_db="10db,25db,35db",
download_rate="0Gbps",
upload_rate="1Gbps", batch_size="3,6,9",
protocol="UDP-IPv4", duration="120000",
expected_throughput=400,traffic_type="udp_upload"
,dut_data=setup_configuration,sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title("NAT Mode Multi Station Performance Test with 10dB(NSS-2) distance UDP-download 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5916", name="WIFI-5916")
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@pytest.mark.udp_download_10dB_dis_nss2_5g
def test_multi_station_NAT_udp_download_10dB_dis_nss2_5g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "NAT-WAN"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="fiveg", antenna=4,
instance_name="udp_download_10dB_dis_nss2_5g",
set_att_db="10db", download_rate="1Gbps",
upload_rate="9.6Kbps", batch_size="3",
protocol="UDP-IPv4", duration="120000",
expected_throughput=500,traffic_type="udp_download"
,dut_data=setup_configuration,sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title("NAT Mode Multi Station Performance Test with 10dB,25dB(NSS-2) distance UDP-download 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5915", name="WIFI-5915")
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@pytest.mark.udp_download_10dB_25dB_dis_nss2_5g
def test_multi_station_NAT_udp_download_10dB_25dB_dis_nss2_5g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "NAT-WAN"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="fiveg", antenna=4,
instance_name="udp_download_10dB_25dB_dis_nss2_5g",
set_att_db="10db,25db", download_rate="1Gbps",
upload_rate="9.6Kbps", batch_size="3,6",
protocol="UDP-IPv4", duration="120000",
expected_throughput=500,traffic_type="udp_download"
,dut_data=setup_configuration,sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title("NAT Mode Multi Station Performance Test with 10dB,25dB,35dB(NSS-2) distance UDP-upload 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5917", name="WIFI-5917")
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@pytest.mark.udp_download_10dB_25dB_35dB_dis_nss2_5g
def test_multi_station_NAT_udp_download_10dB_25dB_35dB_dis_nss2_5g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
mode = "NAT-WAN"
vlan = 1
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="fiveg", antenna=4,
instance_name="udp_download_10dB_25dB_35dB_dis_nss2_5g",
set_att_db="10db,25db,35db",
download_rate="1Gbps",
upload_rate="9.6Kbps", batch_size="3,6,9",
protocol="UDP-IPv4", duration="120000",
expected_throughput=400,traffic_type="udp_download"
,dut_data=setup_configuration,sniff_radio=True)
if result:
assert True
else:
assert False, description

792
tests/e2e/advanced/multi_station_performance/wpa2_personal/test_vlan_multi_sta_performance.py
View File

@@ -1,792 +0,0 @@
"""
Test Multi-Station Performance: Vlan Mode
pytest -m multistaperf
"""
import pytest
import allure
pytestmark = [pytest.mark.advance, pytest.mark.multistaperf, pytest.mark.vlan]
setup_params_general = {
"mode": "VLAN",
"ssid_modes": {
"wpa2_personal": [
{"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something", "vlan": 100},
{"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something", "vlan": 100}
]
},
"rf": {
"5G": {
"channel-width": 80},
"2G": {
"channel-width": 20}
},
"radius": False
}
@allure.feature("MULTI-STATION PERFORMANCE")
@allure.parent_suite("Multi Station Performance Test")
@allure.suite(suite_name="VLAN Mode")
@allure.sub_suite(sub_suite_name="WPA2 Personal")
@pytest.mark.parametrize(
'setup_configuration',
[setup_params_general],
indirect=True,
scope="class"
)
@pytest.mark.usefixtures("setup_configuration")
class TestMultiStaPerfVlan(object):
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title("VLAN Mode Multi Station Performance Test with 10dB(NSS-1) distance UDP-upload 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5942", name="WIFI-5942")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.udp_upload_10dB_dis_nss1_2g
def test_multi_station_VLAN_udp_upload_10dB_dis_nss1_2g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case,
check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something", "vlan": 100}
ssid_name = profile_data["ssid_name"]
mode = "VLAN"
vlan = 100
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="twog", antenna=1,
instance_name="udp_upload_10dB_dis_nss1_2g",
set_att_db="10db", download_rate="0Gbps",
upload_rate="1Gbps", batch_size="3",
protocol="UDP-IPv4", duration="120000",
expected_throughput=35,
traffic_type="udp_upload",
dut_data=setup_configuration
, sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title("VLAN Mode Multi Station Performance Test with 10dB,38dB(NSS-1) distance UDP-upload 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5944", name="WIFI-5944")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.udp_upload_10dB_38dB_dis_nss1_2g
def test_multi_station_VLAN_udp_upload_10dB_38dB_dis_nss1_2g(self, setup_configuration, get_test_library,
num_stations,
get_test_device_logs, get_dut_logs_per_test_case,
check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something", "vlan": 100}
ssid_name = profile_data["ssid_name"]
mode = "VLAN"
vlan = 100
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="twog", antenna=1,
instance_name="udp_upload_10dB_38dB_dis_nss1_2g",
set_att_db="10db,38db", download_rate="0Gbps",
upload_rate="1Gbps", batch_size="3,6",
protocol="UDP-IPv4", duration="120000",
expected_throughput=30,
traffic_type="udp_upload",
dut_data=setup_configuration
, sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title(
"VLAN Mode Multi Station Performance Test with 10dB,38dB,48DdB(NSS-1) distance UDP-upload 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5945", name="WIFI-5945")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.udp_upload_10dB_38dB_48dB_dis_nss1_2g
def test_multi_station_VLAN_udp_upload_10dB_38dB_48dB_dis_nss1_2g(self, setup_configuration, get_test_library,
num_stations,
get_test_device_logs, get_dut_logs_per_test_case,
check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something", "vlan": 100}
ssid_name = profile_data["ssid_name"]
mode = "VLAN"
vlan = 100
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="twog", antenna=1,
instance_name="udp_upload_10dB_38dB_48dB_dis_nss1_2g",
set_att_db="10db,38db,48db",
download_rate="0Gbps",
upload_rate="1Gbps", batch_size="3,6,9",
protocol="UDP-IPv4", duration="120000",
expected_throughput=25,
traffic_type="udp_upload",
dut_data=setup_configuration
, sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title(
"VLAN Mode Multi Station Performance Test with 10dB(NSS-1) distance UDP-download 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5949", name="WIFI-5949")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.udp_download_10dB_dis_nss1_2g
def test_multi_station_VLAN_udp_download_10dB_dis_nss1_2g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case,
check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something", "vlan": 100}
ssid_name = profile_data["ssid_name"]
mode = "VLAN"
vlan = 100
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="twog", antenna=1,
instance_name="udp_download_10dB_dis_nss1_2g",
set_att_db="10db", download_rate="1Gbps",
upload_rate="9.6Kbps", batch_size="3",
protocol="UDP-IPv4", duration="120000",
expected_throughput=35,
traffic_type="udp_download",
dut_data=setup_configuration
, sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title("VLAN Mode Multi Station Performance Test with 10dB,38dB(NSS-1) distance UDP-download 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5950", name="WIFI-5950")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.udp_download_10dB_38dB_dis_nss1_2g
def test_multi_station_VLAN_udp_download_10dB_38dB_dis_nss1_2g(self, setup_configuration, get_test_library,
num_stations,
get_test_device_logs, get_dut_logs_per_test_case,
check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something", "vlan": 100}
ssid_name = profile_data["ssid_name"]
mode = "VLAN"
vlan = 100
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="twog", antenna=1,
instance_name="udp_download_10dB_38dB_dis_nss1_2g",
set_att_db="10db,38db", download_rate="1Gbps",
upload_rate="9.6Kbps", batch_size="3,6",
protocol="UDP-IPv4", duration="120000",
expected_throughput=30,
traffic_type="udp_download",
dut_data=setup_configuration
, sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title(
"VLAN Mode Multi Station Performance Test with 10dB,38dB,48DdB(NSS-1) distance UDP-download 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-6085", name="WIFI-6085")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.udp_download_10dB_38dB_48dB_dis_nss1_2g
def test_multi_station_VLAN_udp_download_10dB_38dB_48dB_dis_nss1_2g(self, setup_configuration, get_test_library,
num_stations,
get_test_device_logs,
get_dut_logs_per_test_case, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something", "vlan": 100}
ssid_name = profile_data["ssid_name"]
mode = "VLAN"
vlan = 100
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="twog", antenna=1,
instance_name="udp_download_10dB_38dB_48dB_dis_nss1_2g",
set_att_db="10db,38db,48db",
download_rate="1Gbps",
upload_rate="9.6Kbps", batch_size="3,6,9",
protocol="UDP-IPv4", duration="120000",
expected_throughput=25,
traffic_type="udp_download",
dut_data=setup_configuration
, sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title("VLAN Mode Multi Station Performance Test with 10dB(NSS-1) distance UDP-upload 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-6092", name="WIFI-6092")
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@pytest.mark.udp_upload_10dB_dis_nss1_5g
def test_multi_station_VLAN_udp_upload_10dB_dis_nss1_5g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case,
check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something", "vlan": 100}
ssid_name = profile_data["ssid_name"]
mode = "VLAN"
vlan = 100
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="fiveg", antenna=1,
instance_name="udp_upload_10dB_dis_nss1_5g",
set_att_db="10db", download_rate="0Gbps",
upload_rate="1Gbps", batch_size="3",
protocol="UDP-IPv4", duration="120000",
expected_throughput=250,
traffic_type="udp_upload",
dut_data=setup_configuration
, sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title("VLAN Mode Multi Station Performance Test with 10dB,25dB(NSS-1) distance UDP-upload 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-6093", name="WIFI-6093")
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@pytest.mark.udp_upload_10dB_25dB_dis_nss1_5g
def test_multi_station_VLAN_udp_upload_10dB_25dB_dis_nss1_5g(self, setup_configuration, get_test_library,
num_stations,
get_test_device_logs, get_dut_logs_per_test_case,
check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something", "vlan": 100}
ssid_name = profile_data["ssid_name"]
mode = "VLAN"
vlan = 100
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="fiveg", antenna=1,
instance_name="udp_upload_10dB_25dB_dis_nss1_5g",
set_att_db="10db,25db", download_rate="0Gbps",
upload_rate="1Gbps", batch_size="3,6",
protocol="UDP-IPv4", duration="120000",
expected_throughput=250,
traffic_type="udp_upload",
dut_data=setup_configuration
, sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title(
"VLAN Mode Multi Station Performance Test with 10dB,25dB,35dB(NSS-1) distance UDP-upload 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-6094", name="WIFI-6094")
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@pytest.mark.udp_upload_10dB_25dB_35dB_dis_nss1_5g
def test_multi_station_VLAN_udp_upload_10dB_25dB_35dB_dis_nss1_5g(self, setup_configuration, get_test_library,
num_stations,
get_test_device_logs, get_dut_logs_per_test_case,
check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something", "vlan": 100}
ssid_name = profile_data["ssid_name"]
mode = "VLAN"
vlan = 100
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="fiveg", antenna=1,
instance_name="udp_upload_10dB_25dB_35dB_dis_nss1_5g",
set_att_db="10db,25db,35db",
download_rate="0Gbps",
upload_rate="1Gbps", batch_size="3,6,9",
protocol="UDP-IPv4", duration="120000",
expected_throughput=200,
traffic_type="udp_upload",
dut_data=setup_configuration
, sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title("VLAN Mode Multi Station Performance Test with 10dB(NSS-1) distance UDP-download 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5946", name="WIFI-5946")
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@pytest.mark.udp_download_10dB_dis_nss1_5g
def test_multi_station_VLAN_udp_download_10dB_dis_nss1_5g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case,
check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something", "vlan": 100}
ssid_name = profile_data["ssid_name"]
mode = "VLAN"
vlan = 100
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="fiveg", antenna=1,
instance_name="udp_download_10dB_dis_nss1_5g",
set_att_db="10db", download_rate="1Gbps",
upload_rate="9.6Kbps", batch_size="3",
protocol="UDP-IPv4", duration="120000",
expected_throughput=250,
traffic_type="udp_download",
dut_data=setup_configuration
, sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title("VLAN Mode Multi Station Performance Test with 10dB,25dB(NSS-1) distance UDP-download 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5947", name="WIFI-5947")
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@pytest.mark.udp_download_10dB_25dB_dis_nss1_5g
def test_multi_station_VLAN_udp_download_10dB_25dB_dis_nss1_5g(self, setup_configuration, get_test_library,
num_stations,
get_test_device_logs, get_dut_logs_per_test_case,
check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something", "vlan": 100}
ssid_name = profile_data["ssid_name"]
mode = "VLAN"
vlan = 100
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="fiveg", antenna=1,
instance_name="udp_download_10dB_25dB_dis_nss1_5g",
set_att_db="10db,25db", download_rate="1Gbps",
upload_rate="9.6Kbps", batch_size="3,6",
protocol="UDP-IPv4", duration="120000",
expected_throughput=250,
traffic_type="udp_download",
dut_data=setup_configuration
, sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title(
"VLAN Mode Multi Station Performance Test with 10dB,25dB,35dB(NSS-1) distance UDP-download 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5948", name="WIFI-5948")
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@pytest.mark.udp_download_10dB_25dB_35dB_dis_nss1_5g
def test_multi_station_VLAN_udp_download_10dB_25dB_35dB_dis_nss1_5g(self, setup_configuration, get_test_library,
num_stations,
get_test_device_logs,
get_dut_logs_per_test_case, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something", "vlan": 100}
ssid_name = profile_data["ssid_name"]
mode = "VLAN"
vlan = 100
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="fiveg", antenna=1,
instance_name="udp_download_10dB_25dB_35dB_dis_nss1_5g",
set_att_db="10db,25db,35db",
download_rate="1Gbps",
upload_rate="9.6Kbps", batch_size="3,6,9",
protocol="UDP-IPv4", duration="120000",
expected_throughput=200,
traffic_type="udp_download",
dut_data=setup_configuration
, sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title("VLAN Mode Multi Station Performance Test with 10dB(NSS-2) distance UDP-upload 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5951", name="WIFI-5951")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.udp_upload_10dB_dis_nss2_2g
def test_multi_station_VLAN_udp_upload_10dB_dis_nss2_2g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case,
check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something", "vlan": 100}
ssid_name = profile_data["ssid_name"]
mode = "VLAN"
vlan = 100
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="twog", antenna=4,
instance_name="udp_upload_10dB_dis_nss2_2g",
set_att_db="10db", download_rate="0Gbps",
upload_rate="1Gbps", batch_size="3",
protocol="UDP-IPv4", duration="120000",
expected_throughput=70,
traffic_type="udp_upload",
dut_data=setup_configuration
, sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title("VLAN Mode Multi Station Performance Test with 10dB,38dB(NSS-2) distance UDP-upload 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5966", name="WIFI-5966")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.udp_upload_10dB_38dB_dis_nss2_2g
def test_multi_station_VLAN_udp_upload_10dB_38dB_dis_nss2_2g(self, setup_configuration, get_test_library,
num_stations,
get_test_device_logs, get_dut_logs_per_test_case,
check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something", "vlan": 100}
ssid_name = profile_data["ssid_name"]
mode = "VLAN"
vlan = 100
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="twog", antenna=4,
instance_name="udp_upload_10dB_38dB_dis_nss2_2g",
set_att_db="10db,38db", download_rate="0Gbps",
upload_rate="1Gbps", batch_size="3,6",
protocol="UDP-IPv4", duration="120000",
expected_throughput=60,
traffic_type="udp_upload",
dut_data=setup_configuration
, sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title(
"VLAN Mode Multi Station Performance Test with 10dB,38dB,48dB(NSS-2) distance UDP-upload 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5954", name="WIFI-5954")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.udp_upload_10dB_38dB_48dB_dis_nss2_2g
def test_multi_station_VLAN_udp_upload_10dB_38dB_48dB_dis_nss2_2g(self, setup_configuration, get_test_library,
num_stations,
get_test_device_logs, get_dut_logs_per_test_case,
check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something", "vlan": 100}
ssid_name = profile_data["ssid_name"]
mode = "VLAN"
vlan = 100
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="twog", antenna=4,
instance_name="udp_upload_10dB_38dB_48dB_dis_nss2_2g",
set_att_db="10db,38db,48db",
download_rate="0Gbps",
upload_rate="1Gbps", batch_size="3,6,9",
protocol="UDP-IPv4", duration="120000",
expected_throughput=50,
traffic_type="udp_upload",
dut_data=setup_configuration
, sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title("VLAN Mode Multi Station Performance Test with 10dB(NSS-2) distance UDP-download 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5969", name="WIFI-5969")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.udp_download_10dB_dis_nss2_2g
def test_multi_station_VLAN_udp_download_10dB_dis_nss2_2g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case,
check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something", "vlan": 100}
ssid_name = profile_data["ssid_name"]
mode = "VLAN"
vlan = 100
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="twog", antenna=4,
instance_name="udp_download_10dB_dis_nss2_2g",
set_att_db="10db", download_rate="1Gbps",
upload_rate="9.6Kbps", batch_size="3",
protocol="UDP-IPv4", duration="120000",
expected_throughput=70,
traffic_type="udp_download",
dut_data=setup_configuration
, sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title("VLAN Mode Multi Station Performance Test with 10dB,38dB(NSS-2) distance UDP-download 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5968", name="WIFI-5968")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.udp_download_10dB_38dB_dis_nss2_2g
def test_multi_station_VLAN_udp_download_10dB_38dB_dis_nss2_2g(self, setup_configuration, get_test_library,
num_stations,
get_test_device_logs, get_dut_logs_per_test_case,
check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something", "vlan": 100}
ssid_name = profile_data["ssid_name"]
mode = "VLAN"
vlan = 100
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="twog", antenna=4,
instance_name="udp_download_10dB_38dB_dis_nss2_2g",
set_att_db="10db,38db", download_rate="1Gbps",
upload_rate="9.6Kbps", batch_size="3,6",
protocol="UDP-IPv4", duration="120000",
expected_throughput=60,
traffic_type="udp_download",
dut_data=setup_configuration
, sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title(
"VLAN Mode Multi Station Performance Test with 10dB,38dB,48dB(NSS-2) distance UDP-download 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5967", name="WIFI-5967")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.udp_download_10dB_38dB_48dB_dis_nss2_2g
def test_multi_station_VLAN_udp_download_10dB_38dB_48dB_dis_nss2_2g(self, setup_configuration, get_test_library,
num_stations,
get_test_device_logs,
get_dut_logs_per_test_case, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something", "vlan": 100}
ssid_name = profile_data["ssid_name"]
mode = "VLAN"
vlan = 100
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="twog", antenna=4,
instance_name="udp_download_10dB_38dB_48dB_dis_nss2_2g",
set_att_db="10db,38db,48db",
download_rate="1Gbps",
upload_rate="9.6Kbps", batch_size="3,6,9",
protocol="UDP-IPv4", duration="120000",
expected_throughput=50,
traffic_type="udp_download",
dut_data=setup_configuration
, sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title("VLAN Mode Multi Station Performance Test with 10dB(NSS-2) distance UDP-upload 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5952", name="WIFI-5952")
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@pytest.mark.udp_upload_10dB_dis_nss2_5g
def test_multi_station_VLAN_udp_upload_10dB_dis_nss2_5g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case,
check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something", "vlan": 100}
ssid_name = profile_data["ssid_name"]
mode = "VLAN"
vlan = 100
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="fiveg", antenna=4,
instance_name="udp_upload_10dB_dis_nss2_5g",
set_att_db="10db", download_rate="0Gbps",
upload_rate="1Gbps", batch_size="3",
protocol="UDP-IPv4", duration="120000",
expected_throughput=500,
traffic_type="udp_upload",
dut_data=setup_configuration
, sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title("VLAN Mode Multi Station Performance Test with 10dB,25dB(NSS-2) distance UDP-upload 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5953", name="WIFI-5953")
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@pytest.mark.udp_upload_10dB_25dB_dis_nss2_5g
def test_multi_station_VLAN_udp_upload_10dB_25dB_dis_nss2_5g(self, setup_configuration, get_test_library,
num_stations,
get_test_device_logs, get_dut_logs_per_test_case,
check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something", "vlan": 100}
ssid_name = profile_data["ssid_name"]
mode = "VLAN"
vlan = 100
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="fiveg", antenna=4,
instance_name="udp_upload_10dB_25dB_dis_nss2_5g",
set_att_db="10db,25db", download_rate="0Gbps",
upload_rate="1Gbps", batch_size="3,6",
protocol="UDP-IPv4", duration="120000",
expected_throughput=500,
traffic_type="udp_upload",
dut_data=setup_configuration
, sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title("VLAN Mode Multi Station Performance Test with 10dB,40dB,50dB(NSS-2) distance UDP-upload 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5973", name="WIFI-5973")
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@pytest.mark.udp_upload_10dB_25dB_35dB_dis_nss2_5g
def test_multi_station_VLAN_udp_upload_10dB_40dB_50dB_dis_nss2_5g(self, setup_configuration, get_test_library,
num_stations,
get_test_device_logs, get_dut_logs_per_test_case,
check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something", "vlan": 100}
ssid_name = profile_data["ssid_name"]
mode = "VLAN"
vlan = 100
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="fiveg", antenna=4,
instance_name="udp_upload_10dB_25dB_35dB_dis_nss2_5g",
set_att_db="10db,25db,35db",
download_rate="0Gbps",
upload_rate="1Gbps", batch_size="3,6,9",
protocol="UDP-IPv4", duration="120000",
expected_throughput=400,
traffic_type="udp_upload",
dut_data=setup_configuration
, sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title("VLAN Mode Multi Station Performance Test with 10dB(NSS-2) distance UDP-download 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5971", name="WIFI-5971")
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@pytest.mark.udp_download_10dB_dis_nss2_5g
def test_multi_station_VLAN_udp_download_10dB_dis_nss2_5g(self, setup_configuration, get_test_library, num_stations,
get_test_device_logs, get_dut_logs_per_test_case,
check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something", "vlan": 100}
ssid_name = profile_data["ssid_name"]
mode = "VLAN"
vlan = 100
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="fiveg", antenna=4,
instance_name="udp_download_10dB_dis_nss2_5g",
set_att_db="10db", download_rate="1Gbps",
upload_rate="9.6Kbps", batch_size="3",
protocol="UDP-IPv4", duration="120000",
expected_throughput=500,
traffic_type="udp_download",
dut_data=setup_configuration
, sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title("VLAN Mode Multi Station Performance Test with 10dB,25dB(NSS-2) distance UDP-download 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5970", name="WIFI-5970")
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@pytest.mark.udp_download_10dB_25dB_dis_nss2_5g
def test_multi_station_VLAN_udp_download_10dB_25dB_dis_nss2_5g(self, setup_configuration, get_test_library,
num_stations,
get_test_device_logs, get_dut_logs_per_test_case,
check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something", "vlan": 100}
ssid_name = profile_data["ssid_name"]
mode = "VLAN"
vlan = 100
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="fiveg", antenna=4,
instance_name="udp_download_10dB_25dB_dis_nss2_5g",
set_att_db="10db,25db", download_rate="1Gbps",
upload_rate="9.6Kbps", batch_size="3,6",
protocol="UDP-IPv4", duration="120000",
expected_throughput=500,
traffic_type="udp_download",
dut_data=setup_configuration
, sniff_radio=True)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title(
"VLAN Mode Multi Station Performance Test with 10dB,40dB,50dB(NSS-2) distance UDP-download 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5972", name="WIFI-5972")
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@pytest.mark.udp_download_10dB_40dB_50dB_dis_nss2_5g
def test_multi_station_VLAN_udp_download_10dB_40dB_50dB_dis_nss2_5g(self, setup_configuration, get_test_library,
num_stations,
get_test_device_logs,
get_dut_logs_per_test_case, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something", "vlan": 100}
ssid_name = profile_data["ssid_name"]
mode = "VLAN"
vlan = 100
result, description = get_test_library.multi_station_performance(ssid_name=ssid_name,
security_key=profile_data["security_key"],
mode=mode, vlan=vlan, band="fiveg", antenna=4,
instance_name="udp_download_10dB_25dB_35dB_dis_nss2_5g",
set_att_db="10db,25db,35db",
download_rate="1Gbps",
upload_rate="9.6Kbps", batch_size="3,6,9",
protocol="UDP-IPv4", duration="120000",
expected_throughput=400,
traffic_type="udp_download",
dut_data=setup_configuration
, sniff_radio=True)
if result:
assert True
else:
assert False, description

179
tests/e2e/advanced/rate_vs_orientation/wpa2_personal/test_bridge_orientation.py
View File

@@ -1,179 +0,0 @@
"""
Test Rate v/s Orientation : Bridge Mode
pytest -m "rate_vs_orientation_tests"
"""
import logging
import os
import time
import pytest
import allure
import os.path
pytestmark = [pytest.mark.advance, pytest.mark.rate_vs_orientation_tests, pytest.mark.bridge, pytest.mark.wpa2_personal]
setup_params_general = {
"mode": "BRIDGE",
"ssid_modes": {
"wpa2_personal": [
{"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"},
{"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
]
},
"rf": {},
"radius": False
}
@allure.feature("BRIDGE MODE RATE VS ORIENTATION")
@allure.parent_suite("RATE VS ORIENTATION")
@allure.suite(suite_name="BRIDGE MODE")
@allure.sub_suite(sub_suite_name="WPA2_personal RATE VS ORIENTATION")
@pytest.mark.parametrize(
'setup_configuration',
[setup_params_general],
indirect=True,
scope="class"
)
@pytest.mark.usefixtures("setup_configuration")
class TestRateVsOrientationBridge(object):
"""
Bridge Mode : Test Rate v/s Orientation
pytest -m "rate_vs_orientation_tests and wpa2_personal and bridge"
"""
@pytest.mark.fiveg
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title("Bridge Mode Rate vs Orientation Test (NSS-2) 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5431", name="WIFI-5431")
def test_rvo_tcp_dl_nss2_wpa2_personal_5g(self, get_test_library, setup_configuration, check_connectivity):
"""
pytest -m "rate_vs_orientation_tests and wpa2_personal and bridge and fiveg"
"""
get_test_library.client_disconnect(clean_l3_traffic=True)
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
security_key = profile_data["security_key"]
security = "wpa2"
mode = "BRIDGE"
band = "fiveg"
vlan = 1
dut_name = list(setup_configuration.keys())[0]
radios = get_test_library.wave2_5g_radios
# station = {'1.1.ath10k_5g00': {'4way time (us)': 0, 'channel': '149', 'cx time (us)': 0, 'dhcp (ms)': 1540, 'ip': '172.16.230.16', 'signal': '-41 dBm'}}
station = get_test_library.client_connect(ssid=ssid_name, security=security, passkey=security_key, mode=mode,
band=band, num_sta=1, vlan_id=vlan, dut_data=setup_configuration)
ser_no = get_test_library.attenuator_serial_radio(ssid=ssid_name, passkey=security_key, security=security,
radio=radios[0], station_name=['sta0000'])
# ser_no = ['1.1.3022', '1.1.3025']
logging.info(f"Attenuators - {ser_no}")
val = [['modes: 802.11an-AC'], ['pkts: MTU'], ['directions: DUT Transmit'], ['traffic_types:TCP'],
['bandw_options: AUTO'], ['spatial_streams: 2'], ['attenuator: ' + str(ser_no[0])],
['attenuator2: ' + '0'], ['attenuations: 100'],
['chamber: DUT-Chamber'], ['tt_deg: 0..+30..359']] #210..+30..540 #0..+30..359
if station:
rvr_o, report_name = get_test_library.rate_vs_range_test(station_name=list(station.keys())[0], mode=mode,
instance_name="ORIENTATION_RVR_BRIDGE_11_AC", download_rate="100%",
vlan_id=vlan, dut_name=dut_name, raw_lines=val)
# report_name = rvr_o[0].report_name[0]['LAST']["response"].split(":::")[1].split("/")[-1]
entries = os.listdir("../reports/" + report_name + '/')
get_test_library.client_disconnect(clear_all_sta=True, clean_l3_traffic=True)
kpi = "kpi.csv"
pass_value = {"strong":500}
atn, deg = [10], [0,30,60,90,120,150,180,210,240,270,300,330] #
if kpi in entries:
kpi_val = get_test_library.read_kpi_file(column_name=["numeric-score"], dir_name=report_name)
logging.info(f"kpi-csv value- {kpi_val}")
# allure.attach.file(source="../reports/" + report_name + "/" + kpi, name="kpi.csv")
if str(kpi_val) == "empty":
assert False, "Throughput value from kpi.csv is empty, Test failed"
else:
start, thrpt_val, pass_fail = 0, {}, []
for i in pass_value:
count = 0
for j in range(start, len(kpi_val), len(atn)):
thrpt_val[f"{atn[start]}atn-{deg[count]}deg"] = kpi_val[j][0]
if kpi_val[j][0] >= pass_value[i]:
pass_fail.append("PASS")
else:
pass_fail.append("FAIL")
count += 1
logging.info(f"Throughtput-value - {thrpt_val}\nPass-fail - {pass_fail}")
get_test_library.allure_report_table_format(dict_data=thrpt_val, key="attenuation-orientation",
value="Throughput values", name="Test_results")
if "FAIL" in pass_fail:
assert False, "Test failed due to lesser value"
else:
assert True
else:
assert False, "CSV file does not exist"
else:
assert False, "Test failed due to no station ip"
@pytest.mark.twog
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title("Bridge Mode Rate vs Orientation Test (NSS-2) 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5431", name="WIFI-5431")
def test_client_tcp_dl_nss2_wpa2_personal_2g(self, get_test_library, setup_configuration, check_connectivity):
"""
pytest -m "rate_vs_orientation_tests and wpa2_personal and bridge and twog"
"""
get_test_library.client_disconnect(clean_l3_traffic=True, clear_all_sta=True)
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
security_key = profile_data["security_key"]
security = "wpa2"
mode = "BRIDGE"
band = "twog"
vlan = 1
dut_name = list(setup_configuration.keys())[0]
radios = get_test_library.wave2_2g_radios
station = get_test_library.client_connect(ssid=ssid_name, security=security, passkey=security_key, mode=mode,
band=band, num_sta=1, vlan_id=vlan, dut_data=setup_configuration)
ser_no = get_test_library.attenuator_serial_radio(ssid=ssid_name, passkey=security_key, security=security,
radio=radios[0], station_name=['sta0000'])
# ser_no = get_test_library.attenuator_serial()
logging.info(f"Attenuators - {ser_no}")
val = [['modes: 802.11bgn-AC'], ['pkts: MTU'], ['directions: DUT Transmit'], ['traffic_types:TCP'],
['bandw_options: AUTO'], ['spatial_streams: 2'], ['attenuator: ' + str(ser_no[0])],
['attenuator2: ' + '0'], ['attenuations: 100'],
['chamber: DUT-Chamber'], ['tt_deg: 0..+30..359']] # 210..+30..540 #0..+30..359
if station:
rvr_o, report_name = get_test_library.rate_vs_range_test(station_name=list(station.keys())[0], mode=mode,
instance_name="ORIENTATION_RVR_BRIDGE_11_AC", download_rate="100%",
vlan_id=vlan, dut_name=dut_name, raw_lines=val)
# report_name = rvr_o[0].report_name[0]['LAST']["response"].split(":::")[1].split("/")[-1]
entries = os.listdir("../reports/" + report_name + '/')
get_test_library.client_disconnect(clear_all_sta=True, clean_l3_traffic=True)
kpi = "kpi.csv"
pass_value = {"strong": 90}
atn, deg = [10], [0, 30, 60, 90, 120, 150, 180, 210, 240, 270, 300, 330] #
if kpi in entries:
kpi_val = get_test_library.read_kpi_file(column_name=["numeric-score"], dir_name=report_name)
logging.info(f"kpi-csv value- {kpi_val}")
# allure.attach.file(source="../reports/" + report_name + "/" + kpi, name="kpi.csv")
if str(kpi_val) == "empty":
assert False, "Throughput value from kpi.csv is empty, Test failed"
else:
start, thrpt_val, pass_fail = 0, {}, []
for i in pass_value:
count = 0
for j in range(start, len(kpi_val), len(atn)):
thrpt_val[f"{atn[start]}atn-{deg[count]}deg"] = kpi_val[j][0]
if kpi_val[j][0] >= pass_value[i]:
pass_fail.append("PASS")
else:
pass_fail.append("FAIL")
count += 1
logging.info(f"Throughtput-value - {thrpt_val}\nPass-fail - {pass_fail}")
get_test_library.allure_report_table_format(dict_data=thrpt_val, key="attenuation-orientation",
value="Throughput values", name="Test_results")
if "FAIL" in pass_fail:
assert False, "Test failed due to lesser value"
else:
assert True
else:
assert False, "CSV file does not exist"
else:
assert False, "Test failed due to no station ip"

180
tests/e2e/advanced/rate_vs_orientation/wpa2_personal/test_nat_orientation.py
View File

@@ -1,180 +0,0 @@
"""
Test Rate v/s Orientation : Nat Mode
pytest -m "rate_vs_orientation_tests"
"""
import logging
import os
import time
import pytest
import allure
import os.path
pytestmark = [pytest.mark.advance, pytest.mark.rate_vs_orientation_tests, pytest.mark.nat, pytest.mark.wpa2_personal]
setup_params_general = {
"mode": "NAT",
"ssid_modes": {
"wpa2_personal": [
{"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"},
{"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
]
},
"rf": {},
"radius": False
}
@allure.feature("NAT MODE RATE VS ORIENTATION")
@allure.parent_suite("RATE VS ORIENTATION")
@allure.suite(suite_name="NAT MODE")
@allure.sub_suite(sub_suite_name="WPA2_personal RATE VS ORIENTATION")
@pytest.mark.parametrize(
'setup_configuration',
[setup_params_general],
indirect=True,
scope="class"
)
@pytest.mark.usefixtures("setup_configuration")
class TestRateVsOrientationNat(object):
"""
Nat Mode : Test Rate v/s Orientation
pytest -m "rate_vs_orientation_tests and wpa2_personal and nat"
"""
@pytest.mark.fiveg
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title("Nat Mode Rate vs Orientation Test 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5431", name="WIFI-5431")
def test_rvo_tcp_dl_nss2_wpa2_personal_5g(self, get_test_library, setup_configuration, check_connectivity):
"""
pytest -m "rate_vs_orientation_tests and wpa2_personal and nat and fiveg"
"""
get_test_library.client_disconnect(clean_l3_traffic=True)
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
security_key = profile_data["security_key"]
security = "wpa2"
mode = "NAT-WAN"
band = "fiveg"
vlan = 1
chamber_view_obj, dut_name = get_test_library.chamber_view()
station = get_test_library.client_connect(ssid=ssid_name, security=security, passkey=security_key, mode=mode,
band=band, num_sta=1, vlan_id=vlan, dut_data=setup_configuration)
# station = {'1.1.ath10k_5g00': {'4way time (us)': 875, 'channel': '149', 'cx time (us)': 133934, 'dhcp (ms)': 7468, 'ip': '192.168.34.86', 'signal': '-41 dBm'}}
ser_no = get_test_library.attenuator_serial()
logging.info(f"Attenuators - {ser_no}")
val = [['modes: 802.11an-AC'], ['pkts: MTU'], ['directions: DUT Transmit'], ['traffic_types:TCP'],
['bandw_options: 80'], ['spatial_streams: 2'], ['attenuator: ' + str(ser_no[0])],
['attenuator2: ' + str(ser_no[1])], ['attenuations: 100'],
['attenuations2: 100'], ['chamber: DUT-Chamber'], ['tt_deg: 0..+30..359']] #210..+30..540 #0..+30..359
if station:
rvr_o, report_name = get_test_library.rate_vs_range_test(station_name=list(station.keys())[0], mode=mode,
instance_name="ORIENTATION_RVR_NAT_11_AC",
vlan_id=vlan, dut_name=dut_name, raw_lines=val)
# report_name = rvr_o.report_name[0]['LAST']["response"].split(":::")[1].split("/")[-1]
entries = os.listdir("../reports/" + report_name + '/')
# entries = ['canvil.ico', 'kpi.csv', 'chart-2-print.png', 'text-csv-3.csv', 'kpi-chart-3-print.png', 'text-tab-0.csv', 'report.css', 'chart-8.png', 'chart-5.png', 'chart-6.png', 'text-tab-2.csv', 'index.html', 'custom.css', 'index-print.html', 'chart-7.png', 'chart-7-print.png', 'chart-2.png', 'rate-vs-range-vs-orientation-report-2022-12-16-01-34-17.pdf', 'text-tab-3.csv', 'text-tab-1.csv', 'logo.png', 'chart-8-print.png', 'report_banner-1000x205.jpg', 'text-csv-0.csv', 'kpi-chart-0.png', 'chart-4.png', 'chart-1-print.png', 'chart-5-print.png', 'text-csv-1.csv', 'text-csv-2.csv', 'chart-1.png', 'csv-data', 'CenturyGothic.woff', 'kpi-chart-3.png', 'CandelaLogo2-90dpi-200x90-trans.png', 'chart-4-print.png', 'chart-6-print.png', 'kpi-chart-0-print.png', 'candela_swirl_small-72h.png']
get_test_library.client_disconnect(clear_all_sta=True, clean_l3_traffic=True)
kpi = "kpi.csv"
pass_value = {"strong":500}
atn, deg = [10], [0,30,60,90,120,150,180,210,240,270,300,330] #
if kpi in entries:
kpi_val = get_test_library.read_kpi_file(column_name=["numeric-score"], dir_name=report_name)
# kpi_val = [[93.856416], [92.763538], [93.591643], [93.601009], [93.510303], [92.895905], [93.438518], [93.060875], [93.697596], [92.740075], [93.005289], [93.113691]]
logging.info(f"kpi-csv value- {kpi_val}")
# allure.attach.file(source="../reports/" + report_name + "/" + kpi, name="kpi.csv")
if str(kpi_val) == "empty":
assert False, "Throughput value from kpi.csv is empty, Test failed"
else:
start, thrpt_val, pass_fail = 0, {}, []
for i in pass_value:
count = 0
for j in range(start, len(kpi_val), len(atn)):
thrpt_val[f"{atn[start]}atn-{deg[count]}deg"] = kpi_val[j][0]
if kpi_val[j][0] >= pass_value[i]:
pass_fail.append("PASS")
else:
pass_fail.append("FAIL")
count += 1
logging.info(f"Throughtput-value - {thrpt_val}\nPass-fail - {pass_fail}")
# thrpt_val = {'10atn-0deg': 93.856416, '10atn-30deg': 92.763538, '10atn-60deg': 93.591643, '10atn-90deg': 93.601009, '10atn-120deg': 93.510303, '10atn-150deg': 92.895905, '10atn-180deg': 93.438518, '10atn-210deg': 93.060875, '10atn-240deg': 93.697596, '10atn-270deg': 92.740075, '10atn-300deg': 93.005289, '10atn-330deg': 93.113691}
# pass_fail = ['FAIL', 'FAIL', 'FAIL', 'FAIL', 'FAIL', 'FAIL', 'FAIL', 'FAIL', 'FAIL', 'FAIL', 'FAIL', 'FAIL']
get_test_library.allure_report_table_format(dict_data=thrpt_val, key="attenuation-orientation",
value="Throughput values", name="Test_results")
if "FAIL" in pass_fail:
assert False, "Test failed due to lesser value"
else:
assert True
else:
assert False, "CSV file does not exist"
else:
assert False, "Test failed due to no station ip"
@pytest.mark.twog
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title("Nat Mode Rate vs Orientation Test 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5431", name="WIFI-5431")
def test_client_tcp_dl_nss2_wpa2_personal_2g(self, get_test_library, setup_configuration, check_connectivity):
"""
pytest -m "rate_vs_orientation_tests and wpa2_personal and nat and twog"
"""
get_test_library.client_disconnect(clean_l3_traffic=True)
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
security_key = profile_data["security_key"]
security = "wpa2"
mode = "NAT-WAN"
band = "twog"
vlan = 1
chamber_view_obj, dut_name = get_test_library.chamber_view()
station = get_test_library.client_connect(ssid=ssid_name, security=security, passkey=security_key, mode=mode,
band=band, num_sta=1, vlan_id=vlan, dut_data=setup_configuration)
ser_no = get_test_library.attenuator_serial()
val = [['modes: 802.11bgn-AC'], ['pkts: MTU'], ['directions: DUT Transmit'], ['traffic_types:TCP'],
['bandw_options: 80'], ['spatial_streams: 2'], ['attenuator: ' + str(ser_no[0])],
['attenuator2: ' + str(ser_no[1])], ['attenuations: 100'],
['attenuations2: 100'], ['chamber: DUT-Chamber'], ['tt_deg: 0..+30..359']] # 210..+30..540 #0..+30..359
if station:
rvr_o, report_name = get_test_library.rate_vs_range_test(station_name=list(station.keys())[0], mode=mode,
instance_name="ORIENTATION_RVR_NAT_11_AC",
vlan_id=vlan, dut_name=dut_name, raw_lines=val)
# report_name = rvr_o[0].report_name[0]['LAST']["response"].split(":::")[1].split("/")[-1]
entries = os.listdir("../reports/" + report_name + '/')
get_test_library.client_disconnect(clear_all_sta=True, clean_l3_traffic=True)
kpi = "kpi.csv"
pass_value = {"strong": 90}
atn, deg = [10], [0, 30, 60, 90, 120, 150, 180, 210, 240, 270, 300, 330] #
if kpi in entries:
kpi_val = get_test_library.read_kpi_file(column_name=["numeric-score"], dir_name=report_name)
logging.info(f"kpi-csv value- {kpi_val}")
# allure.attach.file(source="../reports/" + report_name + "/" + kpi, name="kpi.csv")
if str(kpi_val) == "empty":
print("Throughput value from kpi.csv is empty, Test failed")
allure.attach(name="CSV Data", body="Throughput value from kpi.csv is empty, Test failed")
assert False, "Throughput value from kpi.csv is empty, Test failed"
else:
start, thrpt_val, pass_fail = 0, {}, []
for i in pass_value:
count = 0
for j in range(start, len(kpi_val), len(atn)):
thrpt_val[f"{atn[start]}atn-{deg[count]}deg"] = kpi_val[j][0]
if kpi_val[j][0] >= pass_value[i]:
pass_fail.append("PASS")
else:
pass_fail.append("FAIL")
count += 1
logging.info(f"Throughtput-value - {thrpt_val}\nPass-fail - {pass_fail}")
get_test_library.allure_report_table_format(dict_data=thrpt_val, key="attenuation-orientation",
value="Throughput values", name="Test_results")
if "FAIL" in pass_fail:
assert False, "Test failed due to lesser value"
else:
assert True
else:
assert False, "CSV file does not exist"
else:
assert False, "Test failed due to no station ip"

175
tests/e2e/advanced/rate_vs_orientation/wpa2_personal/test_vlan_orientation.py
View File

@@ -1,175 +0,0 @@
"""
Test Rate v/s Orientation : Vlan Mode
pytest -m "rate_vs_orientation_tests"
"""
import logging
import os
import time
import pytest
import allure
import os.path
pytestmark = [pytest.mark.advance, pytest.mark.rate_vs_orientation_tests, pytest.mark.vlan, pytest.mark.wpa2_personal]
setup_params_general = {
"mode": "VLAN",
"ssid_modes": {
"wpa2_personal": [
{"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something", "vlan":100},
{"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something", "vlan":100}
]
},
"rf": {},
"radius": False
}
@allure.feature("VLAN MODE RATE VS ORIENTATION")
@allure.parent_suite("RATE VS ORIENTATION")
@allure.suite(suite_name="VLAN MODE")
@allure.sub_suite(sub_suite_name="WPA2_personal RATE VS ORIENTATION")
@pytest.mark.parametrize(
'setup_configuration',
[setup_params_general],
indirect=True,
scope="class"
)
@pytest.mark.usefixtures("setup_configuration")
class TestRateVsOrientationVlan(object):
"""
Vlan Mode : Test Rate v/s Orientation
pytest -m "rate_vs_orientation_tests and wpa2_personal and vlan"
"""
@pytest.mark.fiveg
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title("Vlan Mode Rate vs Orientation Test 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5431", name="WIFI-5431")
def test_rvo_tcp_dl_nss2_wpa2_personal_5g(self, get_test_library, setup_configuration, check_connectivity):
"""
pytest -m "rate_vs_orientation_tests and wpa2_personal and vlan and fiveg"
"""
get_test_library.client_disconnect(clean_l3_traffic=True)
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
security_key = profile_data["security_key"]
security = "wpa2"
mode = "VLAN"
band = "fiveg"
vlan = [100]
chamber_view_obj, dut_name = get_test_library.chamber_view()
station = get_test_library.client_connect(ssid=ssid_name, security=security, passkey=security_key, mode=mode,
band=band, num_sta=1, vlan_id=vlan, dut_data=setup_configuration)
ser_no = get_test_library.attenuator_serial()
logging.info(f"Attenuators - {ser_no}")
val = [['modes: 802.11an-AC'], ['pkts: MTU'], ['directions: DUT Transmit'], ['traffic_types:TCP'],
['bandw_options: 80'], ['spatial_streams: 2'], ['attenuator: ' + str(ser_no[0])],
['attenuator2: ' + str(ser_no[1])], ['attenuations: 100'],
['attenuations2: 100'], ['chamber: DUT-Chamber'], ['tt_deg: 0..+30..359']] #210..+30..540 #0..+30..359
if station:
rvr_o, report_name = get_test_library.rate_vs_range_test(station_name=list(station.keys())[0], mode=mode,
instance_name="ORIENTATION_RVR_NAT_11_AC",
vlan_id=vlan, dut_name=dut_name, raw_lines=val)
# report_name = rvr_o.report_name[0]['LAST']["response"].split(":::")[1].split("/")[-1]
entries = os.listdir("../reports/" + report_name + '/')
get_test_library.client_disconnect(clear_all_sta=True, clean_l3_traffic=True)
kpi = "kpi.csv"
pass_value = {"strong":500}
atn, deg = [10], [0,30,60,90,120,150,180,210,240,270,300,330] #
if kpi in entries:
kpi_val = get_test_library.read_kpi_file(column_name=["numeric-score"], dir_name=report_name)
print(kpi_val)
# allure.attach.file(source="../reports/" + report_name + "/" + kpi, name="kpi.csv")
if str(kpi_val) == "empty":
assert False, "Throughput value from kpi.csv is empty, Test failed"
else:
start, thrpt_val, pass_fail = 0, {}, []
for i in pass_value:
count = 0
for j in range(start, len(kpi_val), len(atn)):
thrpt_val[f"{atn[start]}atn-{deg[count]}deg"] = kpi_val[j][0]
if kpi_val[j][0] >= pass_value[i]:
pass_fail.append("PASS")
else:
pass_fail.append("FAIL")
count += 1
logging.info(f"Throughtput-value - {thrpt_val}\nPass-fail - {pass_fail}")
get_test_library.allure_report_table_format(dict_data=thrpt_val, key="attenuation-orientation",
value="Throughput values", name="Test_results")
if "FAIL" in pass_fail:
assert False, "Test failed due to lesser value"
else:
assert True
else:
assert False, "CSV file does not exist"
else:
assert False, "Test failed due to no station ip"
@pytest.mark.twog
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title("Vlan Mode Rate vs Orientation Test 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5431", name="WIFI-5431")
def test_client_tcp_dl_nss2_wpa2_personal_2g(self, get_test_library, setup_configuration, check_connectivity):
"""
pytest -m "rate_vs_orientation_tests and wpa2_personal and vlan and twog"
"""
get_test_library.client_disconnect(clean_l3_traffic=True)
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
security_key = profile_data["security_key"]
security = "wpa2"
mode = "VLAN"
band = "twog"
vlan = [100]
chamber_view_obj, dut_name = get_test_library.chamber_view()
station = get_test_library.client_connect(ssid=ssid_name, security=security, passkey=security_key, mode=mode,
band=band, num_sta=1, vlan_id=vlan, dut_data=setup_configuration)
ser_no = get_test_library.attenuator_serial()
val = [['modes: 802.11bgn-AC'], ['pkts: MTU'], ['directions: DUT Transmit'], ['traffic_types:TCP'],
['bandw_options: 80'], ['spatial_streams: 2'], ['attenuator: ' + str(ser_no[0])],
['attenuator2: ' + str(ser_no[1])], ['attenuations: 100'],
['attenuations2: 100'], ['chamber: DUT-Chamber'], ['tt_deg: 0..+30..359']] # 210..+30..540 #0..+30..359
if station:
rvr_o, report_name = get_test_library.rate_vs_range_test(station_name=list(station.keys())[0], mode=mode,
instance_name="ORIENTATION_RVR_VLAN_11_AC",
vlan_id=vlan, dut_name=dut_name, raw_lines=val)
# report_name = rvr_o[0].report_name[0]['LAST']["response"].split(":::")[1].split("/")[-1]
entries = os.listdir("../reports/" + report_name + '/')
get_test_library.client_disconnect(clear_all_sta=True, clean_l3_traffic=True)
kpi = "kpi.csv"
pass_value = {"strong": 90}
atn, deg = [10], [0, 30, 60, 90, 120, 150, 180, 210, 240, 270, 300, 330] #
if kpi in entries:
kpi_val = get_test_library.read_kpi_file(column_name=["numeric-score"], dir_name=report_name)
logging.info(f"kpi-csv value- {kpi_val}")
# allure.attach.file(source="../reports/" + report_name + "/" + kpi, name="kpi.csv")
if str(kpi_val) == "empty":
print("Throughput value from kpi.csv is empty, Test failed")
allure.attach(name="CSV Data", body="Throughput value from kpi.csv is empty, Test failed")
assert False, "Throughput value from kpi.csv is empty, Test failed"
else:
start, thrpt_val, pass_fail = 0, {}, []
for i in pass_value:
count = 0
for j in range(start, len(kpi_val), len(atn)):
thrpt_val[f"{atn[start]}atn-{deg[count]}deg"] = kpi_val[j][0]
if kpi_val[j][0] >= pass_value[i]:
pass_fail.append("PASS")
else:
pass_fail.append("FAIL")
count += 1
logging.info(f"Throughtput-value - {thrpt_val}\nPass-fail - {pass_fail}")
get_test_library.allure_report_table_format(dict_data=thrpt_val, key="attenuation-orientation",
value="Throughput values", name="Test_results")
if "FAIL" in pass_fail:
assert False, "Test failed due to lesser value"
else:
assert True
else:
assert False, "CSV file does not exist"
else:
assert False, "Test failed due to no station ip"

161
tests/e2e/advanced/rate_vs_range/wpa2_personal/test_bridge_mode.py
View File

@@ -3,12 +3,15 @@
Test Rate v/s Range : Bridge Mode
pytest -m "rate_vs_range"
"""
import sys
import pytest
import allure
import json
import os
pytestmark = [pytest.mark.advance, pytest.mark.rate_vs_range, pytest.mark.bridge]
setup_params_general = {
"mode": "BRIDGE",
"ssid_modes": {
@@ -17,10 +20,24 @@ setup_params_general = {
{"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
]
},
"rf": {},
"rf": {
"5G": {
'band': '5G',
"channel": 36,
"channel-width": 80
},
"2G": {
'band': '2G',
"channel": 6,
"channel-width": 20
}
},
"radius": False
}
@allure.feature("RATE VS RANGE")
@allure.parent_suite("Rate vs Range Test")
@allure.suite(suite_name="BRIDGE Mode")
@@ -36,112 +53,60 @@ class Test_RatevsRange_Bridge(object):
@pytest.mark.wpa2_personal
@pytest.mark.twog
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title("Bridge Mode Rate vs Range Test Download 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-2495", name="WIFI-2495")
def test_rvr_bridge_dl_wpa2_personal_2g(self,get_test_library, setup_configuration, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
security_key = profile_data["security_key"]
security = "wpa2"
mode = "BRIDGE"
band = "twog"
vlan = 1
@pytest.mark.fiveg
@pytest.mark.advance_ac
@allure.title("Rate vs Range Test for AC Clients in BRIDGE Mode")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-13335", name="WIFI-13335")
def test_rvr_ac_bridge(self, get_test_library, setup_configuration, check_connectivity, selected_testbed):
"""
Test Description:
Range versus rate test intends to measure the rate-control,
baseband and RF chain performance of Wi-Fi device at different signal levels.
The attenuation of signals due to range increase is achieved by
adjusting the attenuator.
result, description = get_test_library.rate_vs_range(ssid_name=ssid_name, security_key=security_key,
security=security, mode=mode, band=band, vlan=vlan,
dut_data=setup_configuration, num_sta=1,
direction="DUT Transmit",
instance_name="BRIDGE_RVR_TWOG_DL",
pass_value={"strong": 100, "medium": 95, "weak": 14},
attenuations=[0, 10, 21, 24, 27, 30, 33, 36, 39, 42,
45, 48, 51, 54, 57, 60, 63])
Marker:
advance_ac and rate_vs_range and wpa2_personal and bridge
Note: Please refer to the PDF report for the Test Procedure, Pass/Fail Criteria, and Candela Score.
"""
mode = "BRIDGE"
vlan = 1
raw_line = [["skip_ac: 0"], ["skip_ax: 1"]]
result, description = get_test_library.tr398v2(mode=mode, vlan_id=vlan, test="rvr",
dut_data=setup_configuration, move_to_influx=False,
testbed=selected_testbed, extra_raw_lines=raw_line)
if result:
assert True
else:
assert False, description
@pytest.mark.wpa2_personal
@pytest.mark.twog
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title("Bridge Mode Rate vs Range Test Upload 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-2495", name="WIFI-2495")
def test_rvr_bridge_ul_wpa2_personal_2g(self, get_test_library, setup_configuration, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
security_key = profile_data["security_key"]
security = "wpa2"
mode = "BRIDGE"
band = "twog"
vlan = 1
@pytest.mark.fiveg
@pytest.mark.advance_ax
@allure.title("Rate vs Range Test for AX Clients in BRIDGE Mode")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-13335", name="WIFI-13335")
def test_rvr_ax_bridge(self, get_test_library, setup_configuration, check_connectivity, selected_testbed):
"""
Test Description:
Range versus rate test intends to measure the rate-control,
baseband and RF chain performance of Wi-Fi device at different signal levels.
The attenuation of signals due to range increase is achieved by
adjusting the attenuator.
result, description = get_test_library.rate_vs_range(ssid_name=ssid_name, security_key=security_key,
security=security, mode=mode, band=band, vlan=vlan,
dut_data=setup_configuration, num_sta=1,
direction="DUT Receive",
instance_name="BRIDGE_RVR_TWOG_UL",
pass_value={"strong": 100, "medium": 95, "weak": 14},
attenuations=[0, 10, 21, 24, 27, 30, 33, 36, 39, 42,
45, 48, 51, 54, 57, 60, 63])
Marker:
advance_ax and rate_vs_range and wpa2_personal and bridge
Note: Please refer to the PDF report for the Test Procedure, Pass/Fail Criteria, and Candela Score.
"""
mode = "BRIDGE"
vlan = 1
raw_line = [["skip_ac: 1"], ["skip_ax: 0"]]
result, description = get_test_library.tr398v2(mode=mode, vlan_id=vlan, test="rvr",
dut_data=setup_configuration, move_to_influx=False,
testbed=selected_testbed, extra_raw_lines=raw_line)
if result:
assert True
else:
assert False, description
@pytest.mark.performance_advanced
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title("Bridge Mode Rate vs Range Test Download 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-2499", name="WIFI-2499")
def test_rvr_bridge_dl_wpa2_personal_5g(self,get_test_library, setup_configuration, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
security_key = profile_data["security_key"]
security = "wpa2"
mode = "BRIDGE"
band = "fiveg"
vlan = 1
result, description = get_test_library.rate_vs_range(ssid_name=ssid_name, security_key=security_key,
security=security, mode=mode, band=band, vlan=vlan,
dut_data=setup_configuration, num_sta=1,
direction="DUT Transmit",
instance_name="BRIDGE_RVR_FIVEG_DL",
pass_value={"strong": 560, "medium": 220, "weak": 5},
attenuations=[0, 10, 21, 24, 27, 30, 33, 36, 39, 42,
45, 48, 51, 54])
if result:
assert True
else:
assert False, description
@pytest.mark.performance_advanced
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title("Bridge Mode Rate vs Range Test Upload 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-2499", name="WIFI-2499")
def test_rvr_bridge_ul_wpa2_personal_5g(self, get_test_library, setup_configuration, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
security_key = profile_data["security_key"]
security = "wpa2"
mode = "BRIDGE"
band = "fiveg"
vlan = 1
result, description = get_test_library.rate_vs_range(ssid_name=ssid_name, security_key=security_key,
security=security, mode=mode, band=band, vlan=vlan,
dut_data=setup_configuration, num_sta=1,
direction="DUT Receive",
instance_name="BRIDGE_RVR_FIVEG_UL",
pass_value={"strong": 560, "medium": 220, "weak": 5},
attenuations=[0, 10, 21, 24, 27, 30, 33, 36, 39, 42,
45, 48, 51, 54])
if result:
assert True
else:
assert False, description

149
tests/e2e/advanced/rate_vs_range/wpa2_personal/test_nat_mode.py
View File

@@ -1,149 +0,0 @@
"""
Test Rate v/s Range : Nat Mode
pytest -m "rate_vs_range"
"""
import pytest
import allure
pytestmark = [pytest.mark.advance, pytest.mark.rate_vs_range, pytest.mark.nat]
setup_params_general = {
"mode": "NAT",
"ssid_modes": {
"wpa2_personal": [
{"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"},
{"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
]
},
"rf": {},
"radius": False
}
@allure.feature("RATE VS RANGE")
@allure.parent_suite("Rate vs Range Test")
@allure.suite(suite_name="NAT Mode")
@allure.sub_suite(sub_suite_name="WPA2 Personal")
@pytest.mark.parametrize(
'setup_configuration',
[setup_params_general],
indirect=True,
scope="class"
)
@pytest.mark.usefixtures("setup_configuration")
class Test_RatevsRange_Nat(object):
@pytest.mark.wpa2_personal
@pytest.mark.twog
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title("NAT Mode Rate vs Range Test Download 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-2495", name="WIFI-2495")
def test_rvr_nat_dl_wpa2_personal_2g(self, get_test_library, setup_configuration, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
security_key = profile_data["security_key"]
security = "wpa2"
mode = "NAT-WAN"
band = "twog"
vlan = 1
result, description = get_test_library.rate_vs_range(ssid_name=ssid_name, security_key=security_key,
security=security, mode=mode, band=band, vlan=vlan,
dut_data=setup_configuration, num_sta=1,
direction="DUT Transmit",
instance_name="NAT_RVR_TWOG_DL",
pass_value={"strong": 100, "medium": 95, "weak": 14},
attenuations=[0, 10, 21, 24, 27, 30, 33, 36, 39, 42,
45, 48, 51, 54, 57, 60, 63])
if result:
assert True
else:
assert False, description
@pytest.mark.wpa2_personal
@pytest.mark.twog
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title("NAT Mode Rate vs Range Test Upload 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-2495", name="WIFI-2495")
def test_rvr_nat_ul_wpa2_personal_2g(self, get_test_library, setup_configuration, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
security_key = profile_data["security_key"]
security = "wpa2"
mode = "NAT-WAN"
band = "twog"
vlan = 1
result, description = get_test_library.rate_vs_range(ssid_name=ssid_name, security_key=security_key,
security=security, mode=mode, band=band, vlan=vlan,
dut_data=setup_configuration, num_sta=1,
direction="DUT Receive",
instance_name="NAT_RVR_TWOG_UL",
pass_value={"strong": 100, "medium": 95, "weak": 14},
attenuations=[0, 10, 21, 24, 27, 30, 33, 36, 39, 42,
45, 48, 51, 54, 57, 60, 63])
if result:
assert True
else:
assert False, description
@pytest.mark.performance_advanced
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title("NAT Mode Rate vs Range Test Download 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-2499", name="WIFI-2499")
def test_rvr_nat_dl_wpa2_personal_5g(self, get_test_library, setup_configuration, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
security_key = profile_data["security_key"]
security = "wpa2"
mode = "NAT-WAN"
band = "fiveg"
vlan = 1
result, description = get_test_library.rate_vs_range(ssid_name=ssid_name, security_key=security_key,
security=security, mode=mode, band=band, vlan=vlan,
dut_data=setup_configuration, num_sta=1,
direction="DUT Transmit",
instance_name="NAT_RVR_FIVEG_DL",
pass_value={"strong": 560, "medium": 220, "weak": 5},
attenuations=[0, 10, 21, 24, 27, 30, 33, 36, 39, 42,
45, 48, 51, 54])
if result:
assert True
else:
assert False, description
@pytest.mark.performance_advanced
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title("NAT Mode Rate vs Range Test Upload 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-2499", name="WIFI-2499")
def test_rvr_nat_ul_wpa2_personal_5g(self, get_test_library, setup_configuration, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
security_key = profile_data["security_key"]
security = "wpa2"
mode = "NAT-WAN"
band = "fiveg"
vlan = 1
result, description = get_test_library.rate_vs_range(ssid_name=ssid_name, security_key=security_key,
security=security, mode=mode, band=band, vlan=vlan,
dut_data=setup_configuration, num_sta=1,
direction="DUT Receive",
instance_name="NAT_RVR_FIVEG_UL",
pass_value={"strong": 560, "medium": 220, "weak": 5},
attenuations=[0, 10, 21, 24, 27, 30, 33, 36, 39, 42,
45, 48, 51, 54])
if result:
assert True
else:
assert False, description

147
tests/e2e/advanced/rate_vs_range/wpa2_personal/test_vlan_mode.py
View File

@@ -1,147 +0,0 @@
"""
Test Rate v/s Range : Vlan Mode
pytest -m "rate_vs_range"
"""
import pytest
import allure
pytestmark = [pytest.mark.advance, pytest.mark.rate_vs_range, pytest.mark.vlan]
setup_params_general = {
"mode": "VLAN",
"ssid_modes": {
"wpa2_personal": [
{"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something", "vlan":100},
{"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something", "vlan":100}
]
},
"rf": {},
"radius": False
}
@allure.feature("RATE VS RANGE")
@allure.parent_suite("Rate vs Range Test")
@allure.suite(suite_name="VLAN Mode")
@allure.sub_suite(sub_suite_name="WPA2 Personal")
@pytest.mark.parametrize(
'setup_configuration',
[setup_params_general],
indirect=True,
scope="class"
)
@pytest.mark.usefixtures("setup_configuration")
class Test_RatevsRange_Vlan(object):
@pytest.mark.wpa2_personal
@pytest.mark.twog
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title("Vlan Mode Rate vs Range Test Download 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-2495", name="WIFI-2495")
def test_rvr_vlan_dl_wpa2_personal_2g(self, get_test_library, setup_configuration, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
security_key = profile_data["security_key"]
security = "wpa2"
mode = "VLAN"
band = "twog"
vlan = 100
result, description = get_test_library.rate_vs_range(ssid_name=ssid_name, security_key=security_key,
security=security, mode=mode, band=band, vlan=vlan,
dut_data=setup_configuration, num_sta=1,
direction="DUT Transmit",
instance_name="VLAN_RVR_TWOG_DL",
pass_value={"strong": 100, "medium": 95, "weak": 14},
attenuations=[0, 10, 21, 24, 27, 30, 33, 36, 39, 42,
45, 48, 51, 54, 57, 60, 63],create_vlan=False)
if result:
assert True
else:
assert False, description
@pytest.mark.wpa2_personal
@pytest.mark.twog
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title("Vlan Mode Rate vs Range Test Upload 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-2495", name="WIFI-2495")
def test_rvr_vlan_ul_wpa2_personal_2g(self, get_test_library, setup_configuration, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
security_key = profile_data["security_key"]
security = "wpa2"
mode = "VLAN"
band = "twog"
vlan = 100
result, description = get_test_library.rate_vs_range(ssid_name=ssid_name, security_key=security_key,
security=security, mode=mode, band=band, vlan=vlan,
dut_data=setup_configuration, num_sta=1,
direction="DUT Receive",
instance_name="VLAN_RVR_TWOG_DL",
pass_value={"strong": 100, "medium": 95, "weak": 14},
attenuations=[0, 10, 21, 24, 27, 30, 33, 36, 39, 42,
45, 48, 51, 54, 57, 60, 63],create_vlan=False)
if result:
assert True
else:
assert False, description
@pytest.mark.performance_advanced
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title("Vlan Mode Rate vs Range Test Download 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-2499", name="WIFI-2499")
def test_rvr_vlan_dl_wpa2_personal_5g(self, get_test_library, setup_configuration, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
security_key = profile_data["security_key"]
security = "wpa2"
mode = "VLAN"
band = "fiveg"
vlan = 100
result, description = get_test_library.rate_vs_range(ssid_name=ssid_name, security_key=security_key,
security=security, mode=mode, band=band, vlan=vlan,
dut_data=setup_configuration, num_sta=1,
direction="DUT Transmit",
instance_name="VLAN_RVR_FIVEG_DL",
pass_value={"strong": 560, "medium": 220, "weak": 5},
attenuations=[0, 10, 21, 24, 27, 30, 33, 36, 39, 42,
45, 48, 51, 54],create_vlan=False)
if result:
assert True
else:
assert False, description
@pytest.mark.performance_advanced
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title("Vlan Mode Rate vs Range Test Upload 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-2499", name="WIFI-2499")
def test_rvr_vlan_ul_wpa2_personal_5g(self, get_test_library, setup_configuration, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
security_key = profile_data["security_key"]
security = "wpa2"
mode = "VLAN"
band = "fiveg"
vlan = 100
result, description = get_test_library.rate_vs_range(ssid_name=ssid_name, security_key=security_key,
security=security, mode=mode, band=band, vlan=vlan,
dut_data=setup_configuration, num_sta=1,
direction="DUT Receive",
instance_name="VLAN_RVR_FIVEG_UL",
pass_value={"strong": 560, "medium": 220, "weak": 5},
attenuations=[0, 10, 21, 24, 27, 30, 33, 36, 39, 42,
45, 48, 51, 54],create_vlan=False)
if result:
assert True
else:
assert False, description

186
tests/e2e/advanced/receiver_sensitivity/test_rx_sens_bridge_mode.py
View File

@@ -8,144 +8,114 @@ import os
import pytest
import allure
pytestmark = [pytest.mark.rx_sensitivity_tests, pytest.mark.bridge, pytest.mark.wpa2_personal]
pytestmark = [pytest.mark.advance, pytest.mark.rx_sensitivity_tests, pytest.mark.bridge, pytest.mark.wpa2_personal]
setup_params_general = {
"mode": "BRIDGE",
"ssid_modes": {
"wpa2_personal": [
{"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"},
{"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
]},
"rf": {
"2G": {"channel-width": 20},
"5G": {"channel-width": 80},
{"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"},
{"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
]
},
"rf": {
"5G": {
'band': '5G',
"channel": 36,
"channel-width": 80
},
"radius": False,
"2G": {
'band': '2G',
"channel": 6,
"channel-width": 20
}
},
"radius": False
}
@allure.feature("Receiver Sensitivity")
@allure.parent_suite("Receiver Sensitivity Test")
@allure.suite(suite_name="BRIDGE Mode")
@allure.sub_suite(sub_suite_name="WPA2 Personal")
@pytest.mark.parametrize(
'setup_configuration',
[setup_params_general],
indirect=True,
scope="class"
)
@allure.parent_suite("Receiver Sensitivity Tests")
@allure.suite("WPA2 Personal Security")
@allure.sub_suite("Bridge Mode")
@allure.feature("TR-398 Issue 2")
@pytest.mark.usefixtures("setup_configuration")
class TestRxSensitivityBridge(object):
class Test_RxSensitivitytests_Bridge(object):
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-2446", name="WIFI-2446")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@allure.title("Test for Receiver Sensitivity for 2.4G band")
def test_client_wpa2_personal_bridge_2g(self, get_test_library, setup_configuration, check_connectivity):
"""Receiver Sensitivity Bridge Mode
pytest -m "rx_sensitivity_tests and bridge and wpa2_personal and twog"
@pytest.mark.fiveg
@pytest.mark.advance_ac
@allure.title("Receiver Sensitivity Test for AC Clients in BRIDGE Mode")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-13329", name="WIFI-13329")
def test_rx_sensitivity_tests_ac_bridge(self, get_test_library, setup_configuration, check_connectivity, selected_testbed):
"""
Test Description:
Receiver Sensitivity is a receiver's ability to receive and correctly demodulate weak signals.
This test provides a simplified measurement of the receiver's sensitivity, relative to the total
attenuation inserted between the DUT and the STA. As that attenuation is increased, the STA is
limited to a single coding scheme, eventually causing the connection to degrade.
The point at which the connection degrades represents the receiver's approximate sensitivity.
This is an approximate measurement only, where a detailed receiver sensitivity measurement would
typically be performed in a conducted test environment with calibrated transmitter power levels.
The test is repeated with multiple coding schemes, ensuring the DUT should smoothly
transition between coding schedules as the attenuation increases in normal operation.
Marker:
advance_ac and rx_sensitivity_tests and wpa2_personal and bridge
Note: Please refer to the PDF report for the Test Procedure, Pass/Fail Criteria, and Candela Score.
"""
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
security_key = profile_data["security_key"]
security = "wpa2"
mode = "BRIDGE"
band = "twog"
vlan = 1
dut_name = list(setup_configuration.keys())[0]
dut_5g, dut_2g = "", ""
radios_2g, radios_5g, radios_ax = [], [], []
data = get_test_library.json_get(_req_url="/port?fields=alias,port,mode")
data = data['interfaces']
port, port_data = "", []
for i in data:
for j in i:
if i[j]['mode'] != '':
port_data.append(i)
for item in range(len(port_data)):
for p in port_data[item]:
temp = port_data[item][p]['port'].split('.')
temp = list(map(int, temp))
temp = list(map(str, temp))
port = ".".join(temp)
if port_data[item][p]['mode'] == '802.11bgn-AC':
radios_2g.append(port + " " + port_data[item][p]['alias'])
if port_data[item][p]['mode'] == '802.11an-AC':
radios_5g.append(port + " " + port_data[item][p]['alias'])
if port_data[item][p]['mode'] == '802.11abgn-AX':
radios_ax.append(port + " " + port_data[item][p]['alias'])
for i in setup_configuration[dut_name]['ssid_data']:
get_test_library.dut_idx_mapping[str(i)] = list(setup_configuration[dut_name]['ssid_data'][i].values())
if get_test_library.dut_idx_mapping[str(i)][3] == "2G":
dut_2g = dut_name + ' ' + get_test_library.dut_idx_mapping[str(i)][0] + ' ' \
'' + get_test_library.dut_idx_mapping[str(i)][4] + f' (1)'
instance_name = "rx_sens_TR398"
result, description = get_test_library.tr398(radios_2g=radios_2g, radios_5g=radios_5g, radios_ax=radios_ax,dut_name=dut_name,
dut_5g=dut_5g, dut_2g=dut_2g, mode=mode, vlan_id=vlan, skip_2g=False,
skip_5g=True, instance_name=instance_name, test="rxsens", ssid_name=ssid_name,
security_key=security_key, security=security,
move_to_influx=False, dut_data=setup_configuration, tr398v2=True)
raw_line = [["skip_ac: 0"], ["skip_ax: 1"]]
result, description = get_test_library.tr398v2(mode=mode, vlan_id=vlan, test="rxsens",
dut_data=setup_configuration, move_to_influx=False,
testbed=selected_testbed, extra_raw_lines=raw_line)
if result:
assert True
else:
assert False, description
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-2446", name="WIFI-2446")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.fiveg
@allure.title("Test for Receiver Sensitivity for 5G band")
def test_client_wpa2_personal_bridge_5g(self, get_test_library, setup_configuration, check_connectivity):
"""Receiver Sensitivity Bridge Mode
pytest -m "rx_sensitivity_tests and bridge and wpa2_personal and fiveg"
@pytest.mark.advance_ax
@allure.title("Receiver Sensitivity Test for AX Clients in BRIDGE Mode")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-13329", name="WIFI-13329")
def test_rx_sensitivity_tests_ax_bridge(self, get_test_library, setup_configuration, check_connectivity,
selected_testbed):
"""
Test Description:
Receiver Sensitivity is a receiver's ability to receive and correctly demodulate weak signals.
This test provides a simplified measurement of the receiver's sensitivity, relative to the total
attenuation inserted between the DUT and the STA. As that attenuation is increased, the STA is
limited to a single coding scheme, eventually causing the connection to degrade.
The point at which the connection degrades represents the receiver's approximate sensitivity.
This is an approximate measurement only, where a detailed receiver sensitivity measurement would
typically be performed in a conducted test environment with calibrated transmitter power levels.
The test is repeated with multiple coding schemes, ensuring the DUT should smoothly
transition between coding schedules as the attenuation increases in normal operation.
Marker:
advance_ax and rx_sensitivity_tests and wpa2_personal and bridge
Note: Please refer to the PDF report for the Test Procedure, Pass/Fail Criteria, and Candela Score.
"""
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
security_key = profile_data["security_key"]
security = "wpa2"
mode = "BRIDGE"
band = "fiveg"
vlan = 1
dut_name = list(setup_configuration.keys())[0]
dut_5g, dut_2g = "", ""
radios_2g, radios_5g, radios_ax = [], [], []
data = get_test_library.json_get(_req_url="/port?fields=alias,port,mode")
data = data['interfaces']
port, port_data = "", []
for i in data:
for j in i:
if i[j]['mode'] != '':
port_data.append(i)
for item in range(len(port_data)):
for p in port_data[item]:
temp = port_data[item][p]['port'].split('.')
temp = list(map(int, temp))
temp = list(map(str, temp))
port = ".".join(temp)
if port_data[item][p]['mode'] == '802.11bgn-AC':
radios_2g.append(port + " " + port_data[item][p]['alias'])
if port_data[item][p]['mode'] == '802.11an-AC':
radios_5g.append(port + " " + port_data[item][p]['alias'])
if port_data[item][p]['mode'] == '802.11abgn-AX':
radios_ax.append(port + " " + port_data[item][p]['alias'])
for i in setup_configuration[dut_name]['ssid_data']:
get_test_library.dut_idx_mapping[str(i)] = list(setup_configuration[dut_name]['ssid_data'][i].values())
if get_test_library.dut_idx_mapping[str(i)][3] == "5G":
dut_5g = dut_name + ' ' + get_test_library.dut_idx_mapping[str(i)][0] + ' ' \
'' + \
get_test_library.dut_idx_mapping[str(i)][4] + f' (1)'
instance_name = "rx_sens_TR398"
result, description = get_test_library.tr398(radios_2g=radios_2g, radios_5g=radios_5g, radios_ax=radios_ax,
dut_name=dut_name, dut_5g=dut_5g, dut_2g=dut_2g, mode=mode,
vlan_id=vlan, skip_2g=True, skip_5g=False, instance_name=instance_name,
test="rxsens", ssid_name=ssid_name, security_key=security_key,
security=security, move_to_influx=False, dut_data=setup_configuration,
tr398v2=True)
raw_line = [["skip_ac: 1"], ["skip_ax: 0"]]
result, description = get_test_library.tr398v2(mode=mode, vlan_id=vlan, test="rxsens",
dut_data=setup_configuration, move_to_influx=False,
testbed=selected_testbed, extra_raw_lines=raw_line)
if result:
assert True
else:
assert False, description
assert False, description

151
tests/e2e/advanced/receiver_sensitivity/test_rx_sens_nat_mode.py
View File

@@ -1,151 +0,0 @@
"""
Performance Test: Receiver Sensitivity Test: nat Mode
pytest -m "rx_sensitivity_tests and wpa2_personal and nat"
"""
import os
import pytest
import allure
pytestmark = [pytest.mark.rx_sensitivity_tests, pytest.mark.nat, pytest.mark.wpa2_personal]
setup_params_general = {
"mode": "BRIDGE",
"ssid_modes": {
"wpa2_personal": [
{"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"},
{"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
]},
"rf": {
"2G": {"channel-width": 20},
"5G": {"channel-width": 80},
},
"radius": False,
}
@pytest.mark.parametrize(
'setup_configuration',
[setup_params_general],
indirect=True,
scope="class"
)
@allure.parent_suite("Receiver Sensitivity Tests")
@allure.suite("WPA2 Personal Security")
@allure.sub_suite("NatMode")
@allure.feature("TR-398 Issue 2")
@pytest.mark.usefixtures("setup_configuration")
class TestRxSensitivityNAT2G(object):
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-2446", name="WIFI-2446")
@pytest.mark.twog
@allure.title("Test for Receiver Sensitivity for 2.4G band")
def test_client_wpa2_personal_nat_2g(self, get_test_library, setup_configuration, check_connectivity):
"""Receiver Sensitivity Nat Mode
pytest -m "rx_sensitivity_tests and nat and wpa2_personal and twog"
"""
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
security_key = profile_data["security_key"]
security = "wpa2"
mode = "NAT-WAN"
band = "twog"
vlan = 1
dut_name = list(setup_configuration.keys())[0]
dut_5g, dut_2g = "", ""
radios_2g, radios_5g, radios_ax = [], [], []
data = get_test_library.json_get(_req_url="/port?fields=alias,port,mode")
data = data['interfaces']
port, port_data = "", []
for i in data:
for j in i:
if i[j]['mode'] != '':
port_data.append(i)
for item in range(len(port_data)):
for p in port_data[item]:
temp = port_data[item][p]['port'].split('.')
temp = list(map(int, temp))
temp = list(map(str, temp))
port = ".".join(temp)
if port_data[item][p]['mode'] == '802.11bgn-AC':
radios_2g.append(port + " " + port_data[item][p]['alias'])
if port_data[item][p]['mode'] == '802.11an-AC':
radios_5g.append(port + " " + port_data[item][p]['alias'])
if port_data[item][p]['mode'] == '802.11abgn-AX':
radios_ax.append(port + " " + port_data[item][p]['alias'])
for i in setup_configuration[dut_name]['ssid_data']:
get_test_library.dut_idx_mapping[str(i)] = list(setup_configuration[dut_name]['ssid_data'][i].values())
if get_test_library.dut_idx_mapping[str(i)][3] == "2G":
dut_2g = dut_name + ' ' + get_test_library.dut_idx_mapping[str(i)][0] + ' ' \
'' + get_test_library.dut_idx_mapping[str(i)][4] + f' (1)'
instance_name = "rx_sens_TR398"
result, description = get_test_library.tr398(radios_2g=radios_2g, radios_5g=radios_5g, radios_ax=radios_ax,dut_name=dut_name,
dut_5g=dut_5g, dut_2g=dut_2g, mode=mode, vlan_id=vlan, skip_2g=False,
skip_5g=True, instance_name=instance_name, test="rxsens", ssid_name=ssid_name,
security_key=security_key, security=security,
move_to_influx=False, dut_data=setup_configuration, tr398v2=True)
if result:
assert True
else:
assert False, description
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-2446", name="WIFI-2446")
@pytest.mark.fiveg
@allure.title("Test for Receiver Sensitivity for 5G band")
def test_client_wpa2_personal_nat_5g(self, get_test_library, setup_configuration, check_connectivity):
"""Receiver Sensitivity Nat Mode
pytest -m "rx_sensitivity_tests and nat and wpa2_personal and fiveg"
"""
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
security_key = profile_data["security_key"]
security = "wpa2"
mode = "NAT-WAN"
band = "fiveg"
vlan = 1
dut_name = list(setup_configuration.keys())[0]
dut_5g, dut_2g = "", ""
radios_2g, radios_5g, radios_ax = [], [], []
data = get_test_library.json_get(_req_url="/port?fields=alias,port,mode")
data = data['interfaces']
port, port_data = "", []
for i in data:
for j in i:
if i[j]['mode'] != '':
port_data.append(i)
for item in range(len(port_data)):
for p in port_data[item]:
temp = port_data[item][p]['port'].split('.')
temp = list(map(int, temp))
temp = list(map(str, temp))
port = ".".join(temp)
if port_data[item][p]['mode'] == '802.11bgn-AC':
radios_2g.append(port + " " + port_data[item][p]['alias'])
if port_data[item][p]['mode'] == '802.11an-AC':
radios_5g.append(port + " " + port_data[item][p]['alias'])
if port_data[item][p]['mode'] == '802.11abgn-AX':
radios_ax.append(port + " " + port_data[item][p]['alias'])
for i in setup_configuration[dut_name]['ssid_data']:
get_test_library.dut_idx_mapping[str(i)] = list(setup_configuration[dut_name]['ssid_data'][i].values())
if get_test_library.dut_idx_mapping[str(i)][3] == "5G":
dut_5g = dut_name + ' ' + get_test_library.dut_idx_mapping[str(i)][0] + ' ' \
'' + \
get_test_library.dut_idx_mapping[str(i)][4] + f' (1)'
instance_name = "rx_sens_TR398"
result, description = get_test_library.tr398(radios_2g=radios_2g, radios_5g=radios_5g, radios_ax=radios_ax,
dut_name=dut_name, dut_5g=dut_5g, dut_2g=dut_2g, mode=mode,
vlan_id=vlan, skip_2g=True, skip_5g=False, instance_name=instance_name,
test="rxsens", ssid_name=ssid_name, security_key=security_key,
security=security, move_to_influx=False, dut_data=setup_configuration,
tr398v2=True)
if result:
assert True
else:
assert False, description

151
tests/e2e/advanced/receiver_sensitivity/test_rx_sens_vlan_mode.py
View File

@@ -1,151 +0,0 @@
"""
Performance Test: Receiver Sensitivity Test: vlan Mode
pytest -m "rx_sensitivity_tests and wpa2_personal and vlan"
"""
import os
import pytest
import allure
pytestmark = [pytest.mark.rx_sensitivity_tests, pytest.mark.vlan, pytest.mark.wpa2_personal]
setup_params_general = {
"mode": "VLAN",
"ssid_modes": {
"wpa2_personal": [
{"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something", "vlan":100},
{"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something", "vlan":100}
]},
"rf": {
"2G": {"channel-width": 20},
"5G": {"channel-width": 80},
},
"radius": False,
}
@pytest.mark.parametrize(
'setup_configuration',
[setup_params_general],
indirect=True,
scope="class"
)
@allure.parent_suite("Receiver Sensitivity Tests")
@allure.suite("WPA2 Personal Security")
@allure.sub_suite("Vlan Mode")
@allure.feature("TR-398 Issue 2")
@pytest.mark.usefixtures("setup_configuration")
class TestRxSensitivityVLAN2G(object):
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-2446", name="WIFI-2446")
@pytest.mark.twog
@allure.title("Test for Receiver Sensitivity for 2.4G band")
def test_client_wpa2_personal_vlan_2g(self, get_test_library, setup_configuration, check_connectivity):
"""Receiver Sensitivity Vlan Mode
pytest -m "rx_sensitivity_tests and vlan and wpa2_personal and twog"
"""
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
security_key = profile_data["security_key"]
security = "wpa2"
mode = "VLAN"
band = "twog"
vlan = [100]
dut_name = list(setup_configuration.keys())[0]
dut_5g, dut_2g = "", ""
radios_2g, radios_5g, radios_ax = [], [], []
data = get_test_library.json_get(_req_url="/port?fields=alias,port,mode")
data = data['interfaces']
port, port_data = "", []
for i in data:
for j in i:
if i[j]['mode'] != '':
port_data.append(i)
for item in range(len(port_data)):
for p in port_data[item]:
temp = port_data[item][p]['port'].split('.')
temp = list(map(int, temp))
temp = list(map(str, temp))
port = ".".join(temp)
if port_data[item][p]['mode'] == '802.11bgn-AC':
radios_2g.append(port + " " + port_data[item][p]['alias'])
if port_data[item][p]['mode'] == '802.11an-AC':
radios_5g.append(port + " " + port_data[item][p]['alias'])
if port_data[item][p]['mode'] == '802.11abgn-AX':
radios_ax.append(port + " " + port_data[item][p]['alias'])
for i in setup_configuration[dut_name]['ssid_data']:
get_test_library.dut_idx_mapping[str(i)] = list(setup_configuration[dut_name]['ssid_data'][i].values())
if get_test_library.dut_idx_mapping[str(i)][3] == "2G":
dut_2g = dut_name + ' ' + get_test_library.dut_idx_mapping[str(i)][0] + ' ' \
'' + get_test_library.dut_idx_mapping[str(i)][4] + f' (1)'
instance_name = "rx_sens_TR398"
result, description = get_test_library.tr398(radios_2g=radios_2g, radios_5g=radios_5g, radios_ax=radios_ax,dut_name=dut_name,
dut_5g=dut_5g, dut_2g=dut_2g, mode=mode, vlan_id=vlan, skip_2g=False,
skip_5g=True, instance_name=instance_name, test="rxsens", ssid_name=ssid_name,
security_key=security_key, security=security,
move_to_influx=False, dut_data=setup_configuration, tr398v2=True)
if result:
assert True
else:
assert False, description
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-2446", name="WIFI-2446")
@pytest.mark.fiveg
@allure.title("Test for Receiver Sensitivity for 5G band")
def test_client_wpa2_personal_vlan_5g(self, get_test_library, setup_configuration, check_connectivity):
"""Receiver Sensitivity Vlan Mode
pytest -m "rx_sensitivity_tests and vlan and wpa2_personal and fiveg"
"""
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
security_key = profile_data["security_key"]
security = "wpa2"
mode = "VLAN"
band = "fiveg"
vlan = [100]
dut_name = list(setup_configuration.keys())[0]
dut_5g, dut_2g = "", ""
radios_2g, radios_5g, radios_ax = [], [], []
data = get_test_library.json_get(_req_url="/port?fields=alias,port,mode")
data = data['interfaces']
port, port_data = "", []
for i in data:
for j in i:
if i[j]['mode'] != '':
port_data.append(i)
for item in range(len(port_data)):
for p in port_data[item]:
temp = port_data[item][p]['port'].split('.')
temp = list(map(int, temp))
temp = list(map(str, temp))
port = ".".join(temp)
if port_data[item][p]['mode'] == '802.11bgn-AC':
radios_2g.append(port + " " + port_data[item][p]['alias'])
if port_data[item][p]['mode'] == '802.11an-AC':
radios_5g.append(port + " " + port_data[item][p]['alias'])
if port_data[item][p]['mode'] == '802.11abgn-AX':
radios_ax.append(port + " " + port_data[item][p]['alias'])
for i in setup_configuration[dut_name]['ssid_data']:
get_test_library.dut_idx_mapping[str(i)] = list(setup_configuration[dut_name]['ssid_data'][i].values())
if get_test_library.dut_idx_mapping[str(i)][3] == "5G":
dut_5g = dut_name + ' ' + get_test_library.dut_idx_mapping[str(i)][0] + ' ' \
'' + \
get_test_library.dut_idx_mapping[str(i)][4] + f' (1)'
instance_name = "rx_sens_TR398"
result, description = get_test_library.tr398(radios_2g=radios_2g, radios_5g=radios_5g, radios_ax=radios_ax,
dut_name=dut_name, dut_5g=dut_5g, dut_2g=dut_2g, mode=mode,
vlan_id=vlan, skip_2g=True, skip_5g=False, instance_name=instance_name,
test="rxsens", ssid_name=ssid_name, security_key=security_key,
security=security, move_to_influx=False, dut_data=setup_configuration,
tr398v2=True)
if result:
assert True
else:
assert False, description

153
tests/e2e/advanced/spatial_consistency/wpa2_personal/test_bridge_mode.py
View File

@@ -18,14 +18,24 @@ setup_params_general = {
]
},
"rf": {
"5G":{
"channel-width": 80},
"2G":{
"channel-width": 20}
"5G": {
'band': '5G',
"channel": 36,
"channel-width": 80
},
"2G": {
'band': '2G',
"channel": 6,
"channel-width": 20
}
},
"radius": False
}
@allure.feature("SPATIAL CONSISTENCY")
@allure.feature("Spatial Consistency")
@allure.parent_suite("Spatial Consistency Test")
@allure.suite(suite_name="BRIDGE Mode")
@allure.sub_suite(sub_suite_name="WPA2 Personal")
@@ -38,107 +48,62 @@ setup_params_general = {
@pytest.mark.usefixtures("setup_configuration")
class Test_SpatialConsistency_Bridge(object):
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title("BRIDGE Mode Spatial Consistency Test (NSS-1) UDP-Download 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5052", name="WIFI-5052")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.nss1
def test_udp_download_nss1_wpa2_personal_2g(self, get_test_library, setup_configuration, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
security_key = profile_data["security_key"]
security = "wpa2"
mode = "BRIDGE"
band = "twog"
vlan = 1
@pytest.mark.fiveg
@pytest.mark.advance_ac
@allure.title("Spatial Consistency Test for AC Clients in BRIDGE Mode")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-13336", name="WIFI-13336")
def test_spatial_consistency_ac_bridge(self, get_test_library, setup_configuration, check_connectivity, selected_testbed):
"""
Test Description:
Spatial consistency test intends to verify the Wi-Fi signal consistency in spatial
domain by testing throughput with DUT at different angles to the Station and at different
emulated distance. The angles are changed with a programmable turn-table.
The distance is emulated by adjusting attenuation.
result, description = get_test_library.spatial_consistency(ssid_name=ssid_name, security_key=security_key,
security=security,mode=mode, band=band,vlan=vlan,
dut_data=setup_configuration,num_sta=1, spatial_streams=1,
instance_name="SPATIAL_NSS1_TWOG",
pass_value={"strong": 45, "medium": 35, "weak": 17},
attenuations=[10, 38, 48])
Marker:
advance_ac and spatial_consistency and wpa2_personal and bridge
Note: Please refer to the PDF report for the Test Procedure, Pass/Fail Criteria, and Candela Score.
"""
mode = "BRIDGE"
vlan = 1
raw_line = [["skip_ac: 0"], ["skip_ax: 1"]]
result, description = get_test_library.tr398v2(mode=mode, vlan_id=vlan, test="spatial",
dut_data=setup_configuration, move_to_influx=False,
testbed=selected_testbed, extra_raw_lines=raw_line)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title("BRIDGE Mode Spatial Consistency Test (NSS-2) UDP-Download 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5068", name="WIFI-5068")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.nss2
def test_udp_download_nss2_wpa2_personal_2g(self,get_test_library, setup_configuration, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
security_key = profile_data["security_key"]
security = "wpa2"
mode = "BRIDGE"
band = "twog"
vlan = 1
result, description = get_test_library.spatial_consistency(ssid_name=ssid_name, security_key=security_key,
security=security,mode=mode, band=band, vlan=vlan,
dut_data=setup_configuration,num_sta=1, spatial_streams=2,
instance_name="SPATIAL_NSS2_TWOG",
pass_value={"strong": 90, "medium": 70, "weak": 35},
attenuations=[10, 38, 48])
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title("BRIDGE Mode Spatial Consistency Test (NSS-1) UDP-Download 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5067", name="WIFI-5067")
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@pytest.mark.nss1
def test_udp_download_nss1_wpa2_personal_5g(self, get_test_library, setup_configuration, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
security_key = profile_data["security_key"]
security = "wpa2"
mode = "BRIDGE"
band = "fiveg"
vlan = 1
@pytest.mark.advance_ax
@allure.title("Spatial Consistency Test for AX Clients in BRIDGE Mode")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-13336", name="WIFI-13336")
def test_spatial_consistency_ax_bridge(self, get_test_library, setup_configuration, check_connectivity,
selected_testbed):
"""
Test Description:
Spatial consistency test intends to verify the Wi-Fi signal consistency in spatial
domain by testing throughput with DUT at different angles to the Station and at different
emulated distance. The angles are changed with a programmable turn-table.
The distance is emulated by adjusting attenuation.
result, description = get_test_library.spatial_consistency(ssid_name=ssid_name, security_key=security_key,
security=security, mode=mode, band=band, vlan=vlan,
dut_data=setup_configuration, num_sta=1,
spatial_streams=1,
instance_name="SPATIAL_NSS1_FIVEG",
pass_value={"strong": 250, "medium": 150, "weak": 75},
attenuations=[10, 25, 35])
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title("BRIDGE Mode Spatial Consistency Test (NSS-2) UDP-Download 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5066", name="WIFI-5066")
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@pytest.mark.nss2
def test_udp_download_nss2_wpa2_personal_5g(self, get_test_library, setup_configuration, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
security_key = profile_data["security_key"]
security = "wpa2"
mode = "BRIDGE"
band = "fiveg"
vlan = 1
result, description = get_test_library.spatial_consistency(ssid_name=ssid_name, security_key=security_key,
security=security, mode=mode, band=band, vlan=vlan,
dut_data=setup_configuration, num_sta=1,
spatial_streams=2,
instance_name="SPATIAL_NSS2_FIVEG",
pass_value={"strong": 500, "medium": 300,"weak": 150},
attenuations=[10, 25, 35])
Marker:
advance_ax and spatial_consistency and wpa2_personal and bridge
Note: Please refer to the PDF report for the Test Procedure, Pass/Fail Criteria, and Candela Score.
"""
mode = "BRIDGE"
vlan = 1
raw_line = [["skip_ac: 1"], ["skip_ax: 0"]]
result, description = get_test_library.tr398v2(mode=mode, vlan_id=vlan, test="spatial",
dut_data=setup_configuration, move_to_influx=False,
testbed=selected_testbed, extra_raw_lines=raw_line)
if result:
assert True
else:

151
tests/e2e/advanced/spatial_consistency/wpa2_personal/test_nat_mode.py
View File

@@ -1,151 +0,0 @@
"""
Test Spatial Consistency: Nat Mode
pytest -m spatial_consistency
"""
import pytest
import allure
pytestmark = [pytest.mark.advance, pytest.mark.spatial_consistency, pytest.mark.nat]
setup_params_general = {
"mode": "NAT",
"ssid_modes": {
"wpa2_personal": [
{"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"},
{"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
]
},
"rf": {
"5G":{
"channel-width": 80},
"2G":{
"channel-width": 20}
},
"radius": False
}
@allure.feature("SPATIAL CONSISTENCY")
@allure.parent_suite("Spatial Consistency Test")
@allure.suite(suite_name="NAT Mode")
@allure.sub_suite(sub_suite_name="WPA2 Personal")
@pytest.mark.parametrize(
'setup_configuration',
[setup_params_general],
indirect=True,
scope="class"
)
@pytest.mark.usefixtures("setup_configuration")
class Test_SpatialConsistency_Nat(object):
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title("Nat Mode Spatial Consistency Test (NSS-1) UDP-Download 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5052", name="WIFI-5052")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.nss1
def test_udp_download_nss1_wpa2_personal_2g(self, get_test_library, setup_configuration, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
security_key = profile_data["security_key"]
security = "wpa2"
mode = "NAT-WAN"
band = "twog"
vlan = 1
result, description = get_test_library.spatial_consistency(ssid_name=ssid_name, security_key=security_key,
security=security, mode=mode, band=band, vlan=vlan,
dut_data=setup_configuration, num_sta=1,
download_rate="100%", upload_rate="56Kbps",
spatial_streams=1,
instance_name="SPATIAL_NSS1_TWOG",
pass_value={"strong": 45, "medium": 35, "weak": 17},
attenuations=[10, 38, 48])
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title("Nat Mode Spatial Consistency Test (NSS-2) UDP-Download 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5068", name="WIFI-5068")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.nss2
def test_udp_download_nss2_wpa2_personal_2g(self,get_test_library, setup_configuration, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
security_key = profile_data["security_key"]
security = "wpa2"
mode = "NAT-WAN"
band = "twog"
vlan = 1
result, description = get_test_library.spatial_consistency(ssid_name=ssid_name, security_key=security_key,
security=security, mode=mode, band=band, vlan=vlan,
dut_data=setup_configuration, num_sta=1,
download_rate="100%", upload_rate="56Kbps",
spatial_streams=2,
instance_name="SPATIAL_NSS2_TWOG",
pass_value={"strong": 90, "medium": 70, "weak": 35},
attenuations=[10, 38, 48])
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title("Nat Mode Spatial Consistency Test (NSS-1) UDP-Download 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5067", name="WIFI-5067")
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@pytest.mark.nss1
def test_udp_download_nss1_wpa2_personal_5g(self,get_test_library, setup_configuration, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
security_key = profile_data["security_key"]
security = "wpa2"
mode = "NAT-WAN"
band = "fiveg"
vlan = 1
result, description = get_test_library.spatial_consistency(ssid_name=ssid_name, security_key=security_key,
security=security, mode=mode, band=band, vlan=vlan,
dut_data=setup_configuration, num_sta=1,
download_rate="100%", upload_rate="56Kbps",
spatial_streams=1,
instance_name="SPATIAL_NSS1_FIVEG",
pass_value={"strong": 250, "medium": 150,"weak": 75},
attenuations=[10, 25, 35])
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title("Nat Mode Spatial Consistency Test (NSS-2) UDP-Download 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5066", name="WIFI-5066")
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@pytest.mark.nss2
def test_udp_download_nss2_wpa2_personal_5g(self, get_test_library, setup_configuration, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
security_key = profile_data["security_key"]
security = "wpa2"
mode = "NAT-WAN"
band = "fiveg"
vlan = 1
result, description = get_test_library.spatial_consistency(ssid_name=ssid_name, security_key=security_key,
security=security, mode=mode, band=band, vlan=vlan,
dut_data=setup_configuration, num_sta=1,
download_rate="100%", upload_rate="56Kbps",
spatial_streams=2,
instance_name="SPATIAL_NSS2_FIVEG",
pass_value={"strong": 500, "medium": 300,"weak": 150},
attenuations=[10, 25, 35])
if result:
assert True
else:
assert False, description

150
tests/e2e/advanced/spatial_consistency/wpa2_personal/test_vlan_mode.py
View File

@@ -1,150 +0,0 @@
"""
Test Spatial Consistency: Vlan Mode
pytest -m spatial_consistency
"""
import pytest
import allure
pytestmark = [pytest.mark.advance, pytest.mark.spatial_consistency, pytest.mark.vlan]
setup_params_general = {
"mode": "VLAN",
"ssid_modes": {
"wpa2_personal": [
{"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something", "vlan":100},
{"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something", "vlan":100}
]
},
"rf": {
"5G":{
"channel-width": 80},
"2G":{
"channel-width": 20}
},
"radius": False
}
@allure.feature("SPATIAL CONSISTENCY")
@allure.parent_suite("Spatial Consistency Test")
@allure.suite(suite_name="VLAN Mode")
@allure.sub_suite(sub_suite_name="WPA2 Personal")
@pytest.mark.parametrize(
'setup_configuration',
[setup_params_general],
indirect=True,
scope="class"
)
@pytest.mark.usefixtures("setup_configuration")
class Test_SpatialConsistency_Vlan(object):
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title("Vlan Mode Spatial Consistency Test (NSS-1) UDP-Download 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5052", name="WIFI-5052")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.nss1
def test_udp_download_nss1_wpa2_personal_2g(self, get_test_library, setup_configuration, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
security_key = profile_data["security_key"]
security = "wpa2"
mode = "VLAN"
band = "twog"
vlan = 100
result, description = get_test_library.spatial_consistency(ssid_name=ssid_name, security_key=security_key,
security=security, mode=mode, band=band, vlan=vlan,
dut_data=setup_configuration, num_sta=1,
spatial_streams=1,
instance_name="SPATIAL_NSS1_TWOG",
pass_value={"strong": 45, "medium": 35, "weak": 17},
attenuations=[10, 38, 48],create_vlan=False)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 2.4 GHZ Band')
@allure.title("Vlan Mode Spatial Consistency Test (NSS-2) UDP-Download 2.4 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5068", name="WIFI-5068")
@pytest.mark.wpa2_personal
@pytest.mark.twog
@pytest.mark.nss2
def test_udp_download_nss2_wpa2_personal_2g(self,get_test_library, setup_configuration, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_2g", "appliedRadios": ["2G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
security_key = profile_data["security_key"]
security = "wpa2"
mode = "VLAN"
band = "twog"
vlan = 100
result, description = get_test_library.spatial_consistency(ssid_name=ssid_name, security_key=security_key,
security=security, mode=mode, band=band, vlan=vlan,
dut_data=setup_configuration, num_sta=1,
spatial_streams=2,
instance_name="SPATIAL_NSS2_TWOG",
pass_value={"strong": 90, "medium": 70, "weak": 35},
attenuations=[10, 38, 48],create_vlan=False)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title("Vlan Mode Spatial Consistency Test (NSS-1) UDP-Download 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5067", name="WIFI-5067")
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@pytest.mark.nss1
def test_udp_download_nss1_wpa2_personal_5g(self, get_test_library, setup_configuration, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
security_key = profile_data["security_key"]
security = "wpa2"
mode = "VLAN"
band = "fiveg"
vlan = 100
result, description = get_test_library.spatial_consistency(ssid_name=ssid_name, security_key=security_key,
security=security, mode=mode, band=band, vlan=vlan,
dut_data=setup_configuration, num_sta=1,
spatial_streams=1,
instance_name="SPATIAL_NSS1_FIVEG",
pass_value={"strong": 250, "medium": 150,"weak": 75},
attenuations=[10, 25, 35],create_vlan=False)
if result:
assert True
else:
assert False, description
@allure.story('wpa2_personal 5 GHZ Band')
@allure.title("Vlan Mode Spatial Consistency Test (NSS-2) UDP-Download 5 GHz Band")
@allure.testcase(url="https://telecominfraproject.atlassian.net/browse/WIFI-5066", name="WIFI-5066")
@pytest.mark.wpa2_personal
@pytest.mark.fiveg
@pytest.mark.nss2
def test_udp_download_nss2_wpa2_personal_5g(self,get_test_library, setup_configuration, check_connectivity):
profile_data = {"ssid_name": "ssid_wpa2_5g", "appliedRadios": ["5G"], "security_key": "something"}
ssid_name = profile_data["ssid_name"]
security_key = profile_data["security_key"]
security = "wpa2"
mode = "VLAN"
band = "fiveg"
vlan = 100
result, description = get_test_library.spatial_consistency(ssid_name=ssid_name, security_key=security_key,
security=security, mode=mode, band=band, vlan=vlan,
dut_data=setup_configuration, num_sta=1,
spatial_streams=2,
instance_name="SPATIAL_NSS2_FIVEG",
pass_value={"strong": 500, "medium": 300,"weak": 150},
attenuations=[10, 25, 35],create_vlan=False)
if result:
assert True
else:
assert False, description