wlan-lanforge-scripts/py-scripts/test_1k_clients_jedtest.py

#!/usr/bin/env python3
import sys
if sys.version_info[0] != 3:
    print("This script requires Python 3")
    exit(1)

import os

if 'py-json' not in sys.path:
    sys.path.append(os.path.join(os.path.abspath('..'), 'py-json'))
from realm import Realm
from LANforge.lfcli_base import LFCliBase
from LANforge import LFUtils
import argparse
import time
import datetime
import pprint

class Test1KClients(LFCliBase):
    def __init__(self,
                 host,
                 port,
                 upstream,
                 side_a_min_rate=0, side_a_max_rate=56000,
                 side_b_min_rate=0, side_b_max_rate=56000,
                 num_sta_=200,
                 test_duration="30s",
                 _debug_on=True,
                 _exit_on_error=False,
                 _exit_on_fail=False):
        super().__init__(host,
                         port,
                         _debug=_debug_on,
                         _local_realm=Realm(lfclient_host=host, lfclient_port=port),
                         _halt_on_error=_exit_on_error,
                         _exit_on_fail=_exit_on_fail)
        self.ssid_radio_map = {
            '1.1.wiphy0' : ("wpa2", "jedway-wpa2-x2048-4-4", "jedway-wpa2-x2048-4-4"),
            '1.1.wiphy1' : ("wpa2", "jedway-wpa2-x2048-5-1", "jedway-wpa2-x2048-5-1"),
            '1.1.wiphy2' : ("wpa2", "jedway-wpa2-x2048-4-1", "jedway-wpa2-x2048-4-1"),

            '1.2.wiphy0' : ("wpa2", "jedway-wpa2-x2048-5-3", "jedway-wpa2-x2048-5-3"),
            '1.2.wiphy1' : ("wpa2", "jedway-wpa2-x2048-4-4", "jedway-wpa2-x2048-4-4"),
            '1.2.wiphy2' : ("wpa2", "jedway-wpa2-x2048-4-1", "jedway-wpa2-x2048-4-1"),
        }
        if num_sta_ is None:
            raise ValueError("need a number of stations per radio")
        self.num_sta = int(num_sta_)
        self.station_radio_map = {
            # port_name_series(prefix=prefix_, start_id=start_id_, end_id=end_id_, padding_number=padding_number_, radio=radio)
            "1.1.wiphy0" : LFUtils.port_name_series(start_id=0,    end_id=self.num_sta-1,      padding_number=10000, radio="1.1.wiphy0"),
            "1.1.wiphy1" : LFUtils.port_name_series(start_id=1000, end_id=1000+self.num_sta-1, padding_number=10000, radio="1.1.wiphy1"),
            "1.1.wiphy2" : LFUtils.port_name_series(start_id=2000, end_id=2000+self.num_sta-1, padding_number=10000, radio="1.1.wiphy2"),

            "1.2.wiphy0" : LFUtils.port_name_series(start_id=3000, end_id=3000+self.num_sta-1, padding_number=10000, radio="1.2.wiphy0"),
            "1.2.wiphy1" : LFUtils.port_name_series(start_id=4000, end_id=4000+self.num_sta-1, padding_number=10000, radio="1.2.wiphy1"),
            "1.2.wiphy2" : LFUtils.port_name_series(start_id=5000, end_id=5000+self.num_sta-1, padding_number=10000, radio="1.2.wiphy2")
        }
        self.test_duration=test_duration
        self.upstream=upstream
        self.name_prefix = "1k"
        self.cx_profile = self.local_realm.new_l3_cx_profile()
        self.cx_profile.name_prefix = self.name_prefix
        self.cx_profile.side_a_min_bps = side_a_min_rate
        self.cx_profile.side_a_max_bps = side_a_max_rate
        self.cx_profile.side_b_min_bps = side_b_min_rate
        self.cx_profile.side_b_max_bps = side_b_max_rate

        self.station_profile_map = {}
    def build(self):
        for (radio, name_series) in self.station_radio_map.items():
            print("building stations for %s"%radio)
            if (name_series is None) or len(name_series) < 1:
                print("No name series for %s"%radio)
                continue
            station_profile = self.local_realm.new_station_profile()
            station_profile.use_security(self.ssid_radio_map[radio][0],
                                         self.ssid_radio_map[radio][1],
                                         self.ssid_radio_map[radio][2])
            self.station_profile_map[radio] = station_profile
        
        self._pass("defined %s station profiles" % len(self.station_radio_map))
        for (radio, station_profile) in self.station_profile_map.items():
            station_profile.create(radio=radio,
                                   sta_names_=self.station_radio_map[radio],
                                   dry_run=False,
                                   up_=False,
                                   debug=self.debug,
                                   suppress_related_commands_=True,
                                   use_radius=False,
                                   hs20_enable=False,
                                   sleep_time=.02)
            station_profile.set_command_param("set_port", "report_timer", 1500)
            station_profile.set_command_flag("set_port", "rpt_timer", 1)
            self.cx_profile.create(endp_type="lf_udp", side_a=station_profile.station_names, side_b=self.upstream, sleep_time=0)

        self._pass("built stations on %s radios" % len(self.station_radio_map))

    def __get_rx_values(self):
        cx_list = self.json_get("endp?fields=name,rx+bytes", debug_=self.debug)
        # print(self.cx_profile.created_cx.values())
        print("==============\n", cx_list, "\n==============")
        cx_rx_map = {}
        for cx_name in cx_list['endpoint']:
            if cx_name != 'uri' and cx_name != 'handler':
                for item, value in cx_name.items():
                    for value_name, value_rx in value.items():
                      if value_name == 'rx bytes' and item in self.cx_profile.created_cx.values():
                        cx_rx_map[item] = value_rx
        return cx_rx_map

    def __compare_vals(self, old_list, new_list):
        passes = 0
        expected_passes = 0
        if len(old_list) == len(new_list):
            for item, value in old_list.items():
                expected_passes += 1
                if new_list[item] > old_list[item]:
                    passes += 1
                # print(item, new_list[item], old_list[item], passes, expected_passes)

            if passes == expected_passes:
                return True
            else:
                return False
        else:
            return False        

    def start(self):
        print("Bringing stations up...")
        prev_ip_num=0
        total_num_sta=6*self.num_sta      
        for (radio, station_profile) in self.station_profile_map.items():
            station_profile.admin_up()
            self.local_realm.wait_for_ip(station_list=self.station_radio_map[radio], debug=self.debug, timeout_sec=30)
            curr_ip_num = self.local_realm.get_curr_num_ips(num_sta_with_ips=prev_ip_num,station_list=self.station_radio_map[radio], debug=self.debug)
            while ((prev_ip_num < curr_ip_num) and (curr_ip_num < total_num_sta)):
                self.local_realm.wait_for_ip(station_list=self.station_radio_map[radio], debug=self.debug, timeout_sec=60)
                prev_ip_num = curr_ip_num
                curr_ip_num = self.local_realm.get_curr_num_ips(num_sta_with_ips=prev_ip_num,station_list=self.station_radio_map[radio], debug=self.debug)
        if curr_ip_num == total_num_sta:
            self._pass("stations on radio %s up" % radio)
        else: 
            self._fail("FAIL: Not all stations on radio %s up" % radio)
            self.exit_fail()
            
        
        old_cx_rx_values = self.__get_rx_values() 
        print("Test duration is %s", self.test_duration)
        #for loop through all and start all cross-connects
        for (radio, station_profile) in self.station_profile_map.items():
            self.cx_profile.start_cx()

        passes = 0
        expected_passes = 0
        cur_time = datetime.datetime.now()
        end_time = self.local_realm.parse_time(self.test_duration) + cur_time
        sleep_interval = self.local_realm.parse_time(self.test_duration) // 3

        while cur_time < end_time:

            time.sleep(sleep_interval.total_seconds())

            new_cx_rx_values = self.__get_rx_values()
            print(old_cx_rx_values, new_cx_rx_values)
            print("\n-----------------------------------")
            print(cur_time, end_time, cur_time + datetime.timedelta(minutes=1))
            print("-----------------------------------\n")
            expected_passes += 1
            if self.__compare_vals(old_cx_rx_values, new_cx_rx_values):
                passes += 1
            else:
                self._fail("FAIL: Not all stations increased traffic")
                self.exit_fail()

            old_cx_rx_values = new_cx_rx_values
            cur_time = datetime.datetime.now()

        if passes == expected_passes:
            self._pass("PASS: All tests passed")


    def stop(self):
        for (radio, station_profile) in self.station_profile_map.items():
            self.cx_profile.stop_cx()

    def cleanup(self):
        #self.cx_profile.cleanup_prefix()
        for (radio, name_series) in self.station_radio_map.items():
            sta_list= self.station_radio_map[radio]
            for sta in sta_list:
                self.local_realm.rm_port(sta, check_exists=True)

def main():
    num_sta=200
    lfjson_host = "localhost"
    lfjson_port = 8080
    
    argparser = LFCliBase.create_basic_argparse(prog=__file__,
                                                formatter_class=argparse.RawTextHelpFormatter,
                                                      epilog='''\
           creates lots of stations across multiple radios.
            ''',
        description='''\
        test_1k_clients_jedtest.py:
        --------------------
        Generic command layout:
        python3 ./test_1k_clients_jedtest.py 
            --sta_per_radio 300
            --test_duration 3m
            --a_min 1000
            --b_min 1000
            --debug        '''          
        )
    argparser.add_argument("--sta_per_radio",
                           type=int,
                           help="number of stations per radio")
    argparser.add_argument("--test_duration",
                           type=int,
                           help="length of test duration")

    args = argparser.parse_args()

    kilo_test = Test1KClients(lfjson_host,
                              lfjson_port,
                              upstream=args.upstream_port,
                              num_sta_=args.sta_per_radio,
                              _debug_on=args.debug)

    kilo_test.cleanup()
    kilo_test.build()
    if not kilo_test.passes():
        kilo_test.exit_failed()
    kilo_test.start()
    if not kilo_test.passes():
        kilo_test.exit_failed()
    kilo_test.stop()
    if not kilo_test.passes():
         kilo_test.exit_failed()
    kilo_test.cleanup()

if __name__ == "__main__":
    main()