mirror of
https://github.com/Telecominfraproject/wlan-testing.git
synced 2025-11-02 03:48:09 +00:00
wifi capacity test adjustments
Signed-off-by: shivamcandela <shivam.thakur@candelatech.com>
This commit is contained in:
shivamcandela
@@ -81,18 +81,38 @@ class APNOS:
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return output
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# Method to get the iwinfo status of AP using AP-CLI/ JUMPHOST-CLI
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def iwinfo_status(self):
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def get_bssid_band_mapping(self):
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client = self.ssh_cli_connect()
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cmd = 'iwinfo'
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if self.mode:
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cmd = f"cd ~/cicd-git/ && ./openwrt_ctl.py {self.owrt_args} -t {self.tty} --action " \
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f"cmd --value \"{cmd}\" "
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stdin, stdout, stderr = client.exec_command(cmd)
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output = stdout.read()
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data = stdout.read()
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client.close()
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allure.attach(name="iwinfo Output Msg: ", body=str(output))
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allure.attach(name="iwinfo Output Msg: ", body=str(data))
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allure.attach(name="iwinfo config Err Msg: ", body=str(stderr))
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return output
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data = str(data).replace(" ", "").split("\\r\\n")
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band_info = []
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for i in data:
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tmp = []
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if i.__contains__("AccessPoint"):
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bssid = i.replace("AccessPoint:", "")
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tmp.append(bssid.casefold())
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elif i.__contains__("MasterChannel"):
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if i.split(":")[2].__contains__("2.4"):
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tmp.append("2G")
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else:
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tmp.append("5G")
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else:
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tmp = []
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if tmp != []:
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band_info.append(tmp)
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bssi_band_mapping = {}
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for i in range(len(band_info)):
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if (i % 2) == 0:
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bssi_band_mapping[band_info[i][0]] = band_info[i+1][0]
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return bssi_band_mapping
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# Method to get the vif_config of AP using AP-CLI/ JUMPHOST-CLI
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def get_vif_config(self):
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@@ -362,15 +382,20 @@ class APNOS:
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if __name__ == '__main__':
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obj = {
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'jumphost': True,
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'ip': "localhost",
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'ip': "10.28.3.100",
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'username': "lanforge",
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'password': "pumpkin77",
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'port': 8803,
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'jumphost_tty': '/dev/ttyAP2'
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'port': 22,
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'jumphost_tty': '/dev/ttyAP1'
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}
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var = APNOS(credentials=obj)
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r = var.get_ssid_info()
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print(r)
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print(var.get_ssid_info())
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print(var.get_manager_state())
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print(var.get_vlan())
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abc = var.get_bssid_band_mapping()
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# lst.remove("")
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print(abc)
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# r = var.get_ssid_info()
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# print(r)
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# print(var.get_ssid_info())
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# print(var.get_manager_state())
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# print(var.get_vlan())
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@@ -283,7 +283,7 @@ class RunTest:
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return True
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def dataplane(self, station_name=None, mode="BRIDGE", vlan_id=100, download_rate="85%", dut_name="TIP",
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upload_rate="85%", duration="1m", instance_name="test_demo", raw_lines=None):
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upload_rate="0", duration="15s", instance_name="test_demo", raw_lines=None):
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if mode == "BRIDGE":
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self.client_connect.upstream_port = self.upstream_port
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elif mode == "NAT":
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@@ -292,13 +292,14 @@ class RunTest:
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self.client_connect.upstream_port = self.upstream_port + "." + str(vlan_id)
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if raw_lines is None:
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raw_lines = [['pkts: MTU'], ['directions: DUT Transmit;DUT Receive'], ['traffic_types: UDP;TCP'],
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raw_lines = [['pkts: 60, 142, 256, 512, 1024, MTU, 4000'], ['directions: DUT Transmit;DUT Receive'],
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['traffic_types: UDP;TCP'],
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["show_3s: 1"], ["show_ll_graphs: 1"], ["show_log: 1"]]
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self.dataplane_obj = DataplaneTest(lf_host=self.lanforge_ip,
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lf_port=self.lanforge_port,
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ssh_port=self.lf_ssh_port,
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local_path=self.local_report_path,
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local_lf_report_dir=self.local_report_path,
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lf_user="lanforge",
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lf_password="lanforge",
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instance_name=instance_name,
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@@ -323,13 +324,13 @@ class RunTest:
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return self.dataplane_obj
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def dualbandperformancetest(self, ssid_5G="[BLANK]", ssid_2G="[BLANK]", mode="BRIDGE", vlan_id=100, dut_name="TIP",
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instance_name="test_demo"):
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instance_name="test_demo", dut_5g="", dut_2g=""):
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if mode == "BRIDGE":
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self.client_connect.upstream_port = self.upstream_port
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self.upstream_port = self.upstream_port
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elif mode == "NAT":
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self.client_connect.upstream_port = self.upstream_port
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self.upstream_port = self.upstream_port
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else:
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self.client_connect.upstream_port = self.upstream_port + "." + str(vlan_id)
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self.upstream_port = self.upstream_port + "." + str(vlan_id)
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self.dualbandptest_obj = ApAutoTest(lf_host=self.lanforge_ip,
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lf_port=self.lanforge_port,
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@@ -339,27 +340,30 @@ class RunTest:
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config_name="dbp_config",
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upstream="1.1." + self.upstream_port,
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pull_report=True,
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dut5_0=dut_name + ' ' + ssid_5G,
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dut2_0=dut_name + ' ' + ssid_2G,
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dut5_0=dut_5g,
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dut2_0=dut_2g,
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load_old_cfg=False,
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max_stations_2=1,
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max_stations_5=1,
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max_stations_dual=2,
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radio2=[["1.1.wiphy0"]],
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radio5=[["1.1.wiphy1"]],
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local_lf_report_dir=self.local_report_path,
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max_stations_2=64,
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max_stations_5=64,
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max_stations_dual=124,
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radio2=[self.twog_radios],
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radio5=[self.fiveg_radios],
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sets=[['Basic Client Connectivity', '0'], ['Multi Band Performance', '1'],
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['Throughput vs Pkt Size', '0'], ['Capacity', '0'],
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['Skip 2.4Ghz Tests', '1'],
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['Skip 5Ghz Tests', '1'],
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['Stability', '0'],
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['Band-Steering', '0'], ['Multi-Station Throughput vs Pkt Size', '0'],
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['Long-Term', '0']]
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)
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self.dualbandptest_obj.setup()
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self.dualbandptest_obj.run()
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report_name = self.dataplane_obj.report_name[0]['LAST']["response"].split(":::")[1].split("/")[-1]
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influx = CSVtoInflux(influxdb=self.influxdb,
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_influx_tag=self.influx_params["influx_tag"],
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target_csv=self.local_report_path + report_name + "/kpi.csv")
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influx.post_to_influx()
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report_name = self.dualbandptest_obj.report_name[0]['LAST']["response"].split(":::")[1].split("/")[-1]
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# influx = CSVtoInflux(influxdb=self.influxdb,
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# _influx_tag=self.influx_params["influx_tag"],
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# target_csv=self.local_report_path + report_name + "/kpi.csv")
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# influx.post_to_influx()
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return self.dualbandptest_obj
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@@ -1,3 +1,6 @@
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import re
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import allure
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from create_chamberview import CreateChamberview
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from create_chamberview_dut import DUT
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import time
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@@ -29,7 +32,7 @@ class ChamberView:
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self.scenario_name = "TIP-" + self.testbed
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self.debug = debug
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self.exit_on_error = False
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self.dut_idx_mapping = {}
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self.raw_line = [
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["profile_link " + self.upstream_resources + " upstream-dhcp 1 NA NA " + self.upstream_port.split(".")
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[2] + ",AUTO -1 NA"],
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@@ -80,19 +83,34 @@ class ChamberView:
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self.CreateChamberview.sync_cv()
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return self.CreateChamberview, self.scenario_name
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def add_stations(self, band="twog", num_stations=50, dut="NA"):
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if band == "twog":
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def add_stations(self, band="2G", num_stations=50, dut="NA", ssid_name=[]):
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idx = 0
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print(self.dut_idx_mapping)
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for i in self.dut_idx_mapping:
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if self.dut_idx_mapping[i][0] == ssid_name and self.dut_idx_mapping[i][3] == band:
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idx = i
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max_stations = 0
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print(idx)
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if band == "2G":
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max_stations = 64 * len(self.twog_radios)
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radio = ",".join(self.twog_radios)
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if len(self.twog_radios) == 1:
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radio = radio + ",AUTO"
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# self.eap_connect.sta_prefix = self.twog_prefix
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if band == "fiveg":
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if band == "5G":
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max_stations = 64 * len(self.twog_radios)
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radio = ",".join(self.fiveg_radios)
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if len(self.fiveg_radios) == 1:
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radio = radio + ",AUTO"
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# self.eap_connect.sta_prefix = self.fiveg_prefix
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station_data = ["profile_link 1.1 STA-AUTO " + str(num_stations) + " 'DUT: " + dut + " Radio-1'" + " NA " + radio]
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if band == "ax":
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max_stations = len(self.twog_radios)
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radio = ",".join(self.fiveg_radios)
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if len(self.fiveg_radios) == 1:
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radio = radio + ",AUTO"
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# self.eap_connect.sta_prefix = self.fiveg_prefix
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if num_stations != "max":
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max_stations = num_stations
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station_data = ["profile_link 1.1 STA-AUTO " + str(max_stations) + " 'DUT: " + dut + " Radio-" + str(int(idx)+1) + "'" + " NA " + radio]
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self.raw_line.append(station_data)
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@@ -147,3 +165,31 @@ class ChamberView:
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return "empty"
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else:
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return df
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def attach_report_graphs(self, report_name=None, pdf_name="WIFI Capacity Test PDF Report"):
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relevant_path = "../reports/" + report_name + "/"
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entries = os.listdir("../reports/" + report_name + '/')
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pdf = False
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for i in entries:
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if ".pdf" in i:
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pdf = i
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if pdf:
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allure.attach.file(source=relevant_path + pdf,
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name=pdf_name)
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included_extensions = ['png']
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file_names = [fn for fn in os.listdir(relevant_path)
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if any(fn.endswith(ext) for ext in included_extensions)]
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a = [item for item in file_names if 'kpi' not in item]
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a = [item for item in a if 'print' not in item]
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a = [item for item in a if 'logo' not in item]
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a = [item for item in a if 'Logo' not in item]
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a = [item for item in a if 'candela' not in item]
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a.sort()
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for i in a:
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allure.attach.file(source=relevant_path + i,
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name=i,
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attachment_type="image/png", extension=None)
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@@ -200,33 +200,27 @@ def setup_profiles(request, setup_controller, testbed, setup_vlan, get_equipment
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if mode == "wpa2_personal":
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for j in profile_data["ssid"][mode]:
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# print(j)
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if mode in get_markers.keys() and get_markers[mode]:
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try:
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if "twog" in get_markers.keys() and get_markers["twog"] and "is2dot4GHz" in list(
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j["appliedRadios"]):
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if j["appliedRadios"].__contains__("2G"):
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lf_dut_data.append(j)
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creates_profile = instantiate_profile.create_wpa2_personal_ssid_profile(profile_data=j)
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test_cases["wpa2_personal_2g"] = True
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allure.attach(body=str(creates_profile),
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name="SSID Profile Created")
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if j["appliedRadios"].__contains__("5G"):
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lf_dut_data.append(j)
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for i in range(len(j["appliedRadios"])):
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j["appliedRadios"][i] = j["appliedRadios"][i].replace("5GU", "is5GHzU")
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j["appliedRadios"][i] = j["appliedRadios"][i].replace("5GL", "is5GHzL")
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j["appliedRadios"][i] = j["appliedRadios"][i].replace("5G", "is5GHz")
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j["appliedRadios"][i] = j["appliedRadios"][i].replace("2G", "is2dot4GHz")
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creates_profile = instantiate_profile.create_wpa2_personal_ssid_profile(profile_data=j)
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test_cases["wpa2_personal_2g"] = True
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allure.attach(body=str(creates_profile),
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name="SSID Profile Created")
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except Exception as e:
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print(e)
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test_cases["wpa2_personal_2g"] = False
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allure.attach(body=str(e),
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name="SSID Profile Creation Failed")
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try:
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if "fiveg" in get_markers.keys() and get_markers["fiveg"] and "is5GHz" in list(
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j["appliedRadios"]):
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lf_dut_data.append(j)
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creates_profile = instantiate_profile.create_wpa2_personal_ssid_profile(profile_data=j)
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test_cases["wpa2_personal_5g"] = True
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allure.attach(body=str(creates_profile),
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name="SSID Profile Created")
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except Exception as e:
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print(e)
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test_cases["wpa2_personal_5g"] = False
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allure.attach(body=str(e),
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name="SSID Profile Creation Failed")
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if mode == "wpa_wpa2_personal_mixed":
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for j in profile_data["ssid"][mode]:
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@@ -531,11 +525,14 @@ def setup_profiles(request, setup_controller, testbed, setup_vlan, get_equipment
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print("failed to create AP Profile")
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ap_ssh = get_apnos(get_configuration['access_point'][0], pwd="../libs/apnos/")
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# ssid_names = []
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# for i in instantiate_profile.profile_creation_ids["ssid"]:
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# ssid_names.append(instantiate_profile.get_ssid_name_by_profile_id(profile_id=i))
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# ssid_names.sort()
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ssid_names = []
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for i in instantiate_profile.profile_creation_ids["ssid"]:
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ssid_names.append(instantiate_profile.get_ssid_name_by_profile_id(profile_id=i))
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for i in lf_dut_data:
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ssid_names.append(i["ssid_name"])
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ssid_names.sort()
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# This loop will check the VIF Config with cloud profile
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vif_config = []
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test_cases['vifc'] = False
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@@ -573,30 +570,46 @@ def setup_profiles(request, setup_controller, testbed, setup_vlan, get_equipment
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ssid_info = ap_ssh.get_ssid_info()
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ssid_data = []
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print(ssid_info)
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band_mapping = ap_ssh.get_bssid_band_mapping()
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print(band_mapping)
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idx_mapping = {}
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for i in range(0, len(ssid_info)):
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if ssid_info[i][1] == "OPEN":
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ssid_info[i].append("")
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if ssid_info[i][1] == "OPEN":
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ssid = ["ssid_idx=" + str(i) + " ssid=" + ssid_info[i][3] + " security=OPEN" +
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" password=" + ssid_info[i][2] + " bssid=" + ssid_info[i][0]]
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idx_mapping[str(i)] = [ssid_info[i][3], ssid_info[i][2], ssid_info[i][1], band_mapping[ssid_info[i][0]], ssid_info[i][0]]
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if ssid_info[i][1] == "WPA":
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ssid = ["ssid_idx=" + str(i) + " ssid=" + ssid_info[i][3] + " security=WPA" +
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" password=" + ssid_info[i][2] + " bssid=" + ssid_info[i][0]]
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idx_mapping[str(i)] = [ssid_info[i][3], ssid_info[i][2], ssid_info[i][1], band_mapping[ssid_info[i][0]],
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ssid_info[i][0]]
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if ssid_info[i][1] == "WPA2":
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ssid = ["ssid_idx=" + str(i) + " ssid=" + ssid_info[i][3] + " security=WPA2" +
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" password=" + ssid_info[i][2] + " bssid=" + ssid_info[i][0]]
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idx_mapping[str(i)] = [ssid_info[i][3], ssid_info[i][2], ssid_info[i][1], band_mapping[ssid_info[i][0]],
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ssid_info[i][0]]
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if ssid_info[i][1] == "WPA3_PERSONAL":
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ssid = ["ssid_idx=" + str(i) + " ssid=" + ssid_info[i][3] + " security=WPA3" +
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" password=" + ssid_info[i][2] + " bssid=" + ssid_info[i][0]]
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idx_mapping[str(i)] = [ssid_info[i][3], ssid_info[i][2], ssid_info[i][1], band_mapping[ssid_info[i][0]],
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ssid_info[i][0]]
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if ssid_info[i][1] == "WPA | WPA2":
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ssid = ["ssid_idx=" + str(i) + " ssid=" + ssid_info[i][3] + " security=WPA|WPA2" +
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" password=" + ssid_info[i][2] + " bssid=" + ssid_info[i][0]]
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idx_mapping[str(i)] = [ssid_info[i][3], ssid_info[i][2], ssid_info[i][1], band_mapping[ssid_info[i][0]],
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ssid_info[i][0]]
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if ssid_info[i][1] == "EAP-TTLS":
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ssid = ["ssid_idx=" + str(i) + " ssid=" + ssid_info[i][3] + " security=EAP-TTLS" +
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" password=" + ssid_info[i][2] + " bssid=" + ssid_info[i][0]]
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idx_mapping[str(i)] = [ssid_info[i][3], ssid_info[i][2], ssid_info[i][1], band_mapping[ssid_info[i][0]],
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ssid_info[i][0]]
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ssid_data.append(ssid)
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lf_tools.dut_idx_mapping = idx_mapping
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# Add bssid password and security from iwinfo data
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# Format SSID Data in the below format
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# ssid_data = [
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|
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@@ -8,7 +8,8 @@ import os
|
||||
import pytest
|
||||
import allure
|
||||
|
||||
pytestmark = [pytest.mark.performance, pytest.mark.dataplane_throughput_test, pytest.mark.nat, pytest.mark.usefixtures("setup_test_run")]
|
||||
pytestmark = [pytest.mark.performance, pytest.mark.performance_release, pytest.mark.dataplane_throughput_test,
|
||||
pytest.mark.nat, pytest.mark.usefixtures("setup_test_run")]
|
||||
|
||||
setup_params_general = {
|
||||
"mode": "NAT",
|
||||
@@ -34,11 +35,12 @@ class TestDataplaneThroughputNAT(object):
|
||||
"""Dataplane THroughput nat Mode
|
||||
pytest -m "dataplane_throughput_test and nat"
|
||||
"""
|
||||
|
||||
@pytest.mark.wpa2_personal
|
||||
@pytest.mark.twog
|
||||
def test_client_wpa2_personal_2g(self, get_vif_state,
|
||||
lf_test, station_names_twog, create_lanforge_chamberview_dut,
|
||||
get_configuration):
|
||||
def test_tcp_upd_2g_band(self, get_vif_state, lf_tools,
|
||||
lf_test, station_names_twog, create_lanforge_chamberview_dut,
|
||||
get_configuration):
|
||||
"""Dataplane THroughput nat Mode
|
||||
pytest -m "dataplane_throughput_test and nat and wpa2_personal and twog"
|
||||
"""
|
||||
@@ -62,15 +64,7 @@ class TestDataplaneThroughputNAT(object):
|
||||
instance_name="TIP_DPT_DPT_WPA2_2G_NAT",
|
||||
vlan_id=vlan, dut_name=dut_name)
|
||||
report_name = dp_obj.report_name[0]['LAST']["response"].split(":::")[1].split("/")[-1]
|
||||
entries = os.listdir("../reports/" + report_name + '/')
|
||||
pdf = False
|
||||
for i in entries:
|
||||
if ".pdf" in i:
|
||||
pdf = i
|
||||
if pdf:
|
||||
allure.attach.file(source="../reports/" + report_name + "/" + pdf,
|
||||
name=get_configuration["access_point"][0]["model"] + "_dataplane")
|
||||
print("Test Completed... Cleaning up Stations")
|
||||
lf_tools.attach_report_graphs(report_name=report_name, pdf_name="Dataplane Throughput Test - TCP-UDP 2.4G")
|
||||
lf_test.Client_disconnect(station_name=station_names_twog)
|
||||
assert station
|
||||
else:
|
||||
@@ -78,8 +72,8 @@ class TestDataplaneThroughputNAT(object):
|
||||
|
||||
@pytest.mark.wpa2_personal
|
||||
@pytest.mark.fiveg
|
||||
def test_client_wpa2_personal_5g(self, get_vif_state,
|
||||
lf_test, station_names_fiveg, create_lanforge_chamberview_dut, get_configuration):
|
||||
def test_tcp_upd_5g_band(self, get_vif_state, lf_tools,
|
||||
lf_test, station_names_fiveg, create_lanforge_chamberview_dut, get_configuration):
|
||||
"""Dataplane THroughput nat Mode
|
||||
pytest -m "dataplane_throughput_test and nat and wpa2_personal and fiveg"
|
||||
"""
|
||||
@@ -99,19 +93,13 @@ class TestDataplaneThroughputNAT(object):
|
||||
station_name=station_names_fiveg, vlan_id=vlan)
|
||||
|
||||
if station:
|
||||
dp_obj = lf_test.dataplane(station_name=station_names_fiveg, mode=mode, instance_name="TIP_DPT_DPT_WPA2_5G_NAT",
|
||||
vlan_id=vlan, dut_name=dut_name)
|
||||
dp_obj = lf_test.dataplane(station_name=station_names_fiveg, mode=mode,
|
||||
instance_name="TIP_DPT_DPT_WPA2_5G_NAT",
|
||||
vlan_id=vlan, dut_name=dut_name)
|
||||
report_name = dp_obj.report_name[0]['LAST']["response"].split(":::")[1].split("/")[-1]
|
||||
entries = os.listdir("../reports/"+report_name + '/')
|
||||
pdf = False
|
||||
for i in entries:
|
||||
if ".pdf" in i:
|
||||
pdf = i
|
||||
if pdf:
|
||||
allure.attach.file(source="../reports/" + report_name + "/" + pdf, name=get_configuration["access_point"][0]["model"] + "_dataplane")
|
||||
lf_tools.attach_report_graphs(report_name=report_name, pdf_name="Dataplane Throughput Test - TCP-UDP 5G")
|
||||
print("Test Completed... Cleaning up Stations")
|
||||
lf_test.Client_disconnect(station_name=station_names_fiveg)
|
||||
assert station
|
||||
else:
|
||||
assert False
|
||||
|
||||
|
||||
@@ -9,16 +9,15 @@ import os
|
||||
import allure
|
||||
import pytest
|
||||
|
||||
pytestmark = [pytest.mark.performance,pytest.mark.dual_band_test, pytest.mark.nat,
|
||||
pytest.mark.usefixtures("setup_test_run")]
|
||||
pytestmark = [pytest.mark.performance, pytest.mark.dual_band_test, pytest.mark.nat, pytest.mark.performance_release]#,
|
||||
# pytest.mark.usefixtures("setup_test_run")]
|
||||
|
||||
setup_params_general = {
|
||||
"mode": "NAT",
|
||||
"ssid_modes": {
|
||||
"wpa2_personal": [
|
||||
{"ssid_name": "ssid_wpa2p_2g", "appliedRadios": ["is2dot4GHz"], "security_key": "something"},
|
||||
{"ssid_name": "ssid_wpa2p_5g", "appliedRadios": ["is5GHzU", "is5GHz", "is5GHzL"],
|
||||
"security_key": "something"}]},
|
||||
{"ssid_name": "ssid_wpa2p_2g", "appliedRadios": ["2G", "5G"], "security_key": "something"}
|
||||
]},
|
||||
"rf": {},
|
||||
"radius": False
|
||||
}
|
||||
@@ -33,37 +32,40 @@ setup_params_general = {
|
||||
indirect=True,
|
||||
scope="class"
|
||||
)
|
||||
|
||||
@pytest.mark.usefixtures("setup_profiles")
|
||||
class TestDualbandPerformanceNat(object):
|
||||
|
||||
"""
|
||||
pytest -m "performance and dual_band_test and nat and wpa2_personal and twog and fiveg"
|
||||
"""
|
||||
|
||||
@pytest.mark.wpa2_personal
|
||||
@pytest.mark.twog
|
||||
@pytest.mark.fiveg
|
||||
def test_client_wpa2_personal(self,get_vif_state,create_lanforge_chamberview_dut,lf_test,get_configuration):
|
||||
def test_client_wpa2_personal(self, get_vif_state, lf_tools,
|
||||
create_lanforge_chamberview_dut, lf_test, get_configuration):
|
||||
profile_data = setup_params_general["ssid_modes"]["wpa2_personal"]
|
||||
ssid_2G = profile_data[0]["ssid_name"]
|
||||
ssid_5G = profile_data[1]["ssid_name"]
|
||||
ssid_5G = profile_data[0]["ssid_name"]
|
||||
dut_name = create_lanforge_chamberview_dut
|
||||
mode = "NAT"
|
||||
vlan = 1
|
||||
print(lf_tools.dut_idx_mapping)
|
||||
dut_5g = ""
|
||||
dut_2g = ""
|
||||
for i in lf_tools.dut_idx_mapping:
|
||||
if lf_tools.dut_idx_mapping[i][3] == "5G":
|
||||
dut_5g = dut_name + ' ' + lf_tools.dut_idx_mapping[i][0] + ' ' + lf_tools.dut_idx_mapping[i][4]
|
||||
print(dut_5g)
|
||||
if lf_tools.dut_idx_mapping[i][3] == "2G":
|
||||
dut_2g = dut_name + ' ' + lf_tools.dut_idx_mapping[i][0] + ' ' + lf_tools.dut_idx_mapping[i][4]
|
||||
print(dut_2g)
|
||||
if ssid_2G and ssid_5G not in get_vif_state:
|
||||
allure.attach(name="retest,vif state ssid not available:", body=str(get_vif_state))
|
||||
pytest.xfail("SSID's NOT AVAILABLE IN VIF STATE")
|
||||
|
||||
dbpt_obj = lf_test.dualbandperformancetest(mode=mode, ssid_2G=ssid_2G, ssid_5G=ssid_5G,
|
||||
instance_name="dbp_instance_wpa2p_nat",
|
||||
vlan_id=vlan, dut_name=dut_name)
|
||||
instance_name="dbp_instance_wpa2p_nat_p",
|
||||
vlan_id=vlan, dut_5g=dut_5g, dut_2g=dut_2g)
|
||||
report_name = dbpt_obj.report_name[0]['LAST']["response"].split(":::")[1].split("/")[-1]
|
||||
entries = os.listdir("../reports/" + report_name + '/')
|
||||
pdf = False
|
||||
for i in entries:
|
||||
if ".pdf" in i:
|
||||
pdf = i
|
||||
if pdf:
|
||||
allure.attach.file(source="../reports/" + report_name + "/" + pdf,
|
||||
name=get_configuration["access_point"][0]["model"] + "_dualbandperfomance")
|
||||
|
||||
lf_tools.attach_report_graphs(report_name=report_name, pdf_name="Dual Band Performance Test")
|
||||
assert True
|
||||
|
||||
File diff suppressed because it is too large
Load Diff
File diff suppressed because it is too large
Load Diff
File diff suppressed because it is too large
Load Diff
Reference in New Issue
Block a user