wlan-lanforge-scripts/py-scripts/lf_ftp.py

""" ftp_test.py will verify that N clients connected on specified band and can simultaneously download/upload some amount of file from FTP server and measuring the time taken by client to download/upload the file.
    cli- python3 ftp_test.py --mgr localhost --mgr_port 8080 --upstream_port eth1 --ssid FTP --security open --passwd BLANK --ap_name WAC505 --ap_ip 192.168.213.90 --bands Both --directions Download --twog_radio wiphy1 --fiveg_radio wiphy0 --file_size 2MB --num_stations 40 --Both_duration 1 --traffic_duration 2 --ssh_port 22_
    Copyright 2021 Candela Technologies Inc
    License: Free to distribute and modify. LANforge systems must be licensed.
"""
import sys
import paramiko

if sys.version_info[0] != 3:
    print("This script requires Python 3")
    exit(1)
if 'py-json' not in sys.path:
    sys.path.append('../py-json')

from LANforge import LFUtils
from LANforge.lfcli_base import LFCliBase
from LANforge.LFUtils import *
from realm import Realm, PortUtils
import argparse
from datetime import datetime
import time
import matplotlib.patches as mpatches
from lf_report import *
from lf_graph import *


class FtpTest(LFCliBase):
    def __init__(self, lfclient_host="localhost", lfclient_port=8080, sta_prefix="sta", start_id=0, num_sta=None,
                 dut_ssid=None, dut_security=None, dut_passwd=None, file_size=None, band=None, twog_radio=None,
                 fiveg_radio=None, upstream="eth1", _debug_on=False, _exit_on_error=False, _exit_on_fail=False,
                 direction=None, duration=None, traffic_duration=None, ssh_port=None):
        super().__init__(lfclient_host, lfclient_port, _debug=_debug_on, _exit_on_fail=_exit_on_fail)
        print("Test is about to start")
        self.host = lfclient_host
        self.port = lfclient_port
        # self.radio = radio
        self.upstream = upstream
        self.sta_prefix = sta_prefix
        self.sta_start_id = start_id
        self.num_sta = num_sta
        self.ssid = dut_ssid
        self.security = dut_security
        self.password = dut_passwd
        self.requests_per_ten = 1
        self.band = band
        self.file_size = file_size
        self.direction = direction
        self.twog_radio = twog_radio
        self.fiveg_radio = fiveg_radio
        self.duration = duration
        self.traffic_duration = traffic_duration
        self.ssh_port = ssh_port
        self.local_realm = Realm(lfclient_host=self.host, lfclient_port=self.port)
        self.station_profile = self.local_realm.new_station_profile()
        self.cx_profile = self.local_realm.new_http_profile()
        self.port_util = PortUtils(self.local_realm)
        self.cx_profile.requests_per_ten = self.requests_per_ten

        print("Test is Initialized")

    def set_values(self):
        '''This method will set values according user input'''

        if self.band == "5G":
            self.radio = [self.fiveg_radio]
        elif self.band == "2.4G":
            self.radio = [self.twog_radio]
        elif self.band == "Both":
            self.radio = [self.fiveg_radio, self.twog_radio]

            # if Both then number of stations are half for 2.4G and half for 5G
            self.num_sta = self.num_sta // 2

        # converting minutes into time stamp
        self.pass_fail_duration = self.duration
        self.duration = self.convert_min_in_time(self.duration)
        self.traffic_duration = self.convert_min_in_time(self.traffic_duration)

        # file size in Bytes
        self.file_size_bytes = int(self.convert_file_size_in_Bytes(self.file_size))

    def precleanup(self):
        self.count = 0

        # delete everything in the GUI before starting the script
        '''try:
            self.local_realm.load("BLANK")
        except:
            print("Couldn't load 'BLANK' Test configurations")'''

        for rad in self.radio:
            if rad == self.fiveg_radio:

                # select mode(All stations will connects to 5G)
                self.station_profile.mode = 9
                self.count = self.count + 1

            elif rad == self.twog_radio:

                # select mode(All stations will connects to 2.4G)
                self.station_profile.mode = 6
                self.count = self.count + 1

            # check Both band if both band then for 2G station id start with 20
            if self.count == 2:
                self.sta_start_id = self.num_sta
                self.num_sta = 2 * (self.num_sta)

                # if Both band then first 20 stations will connects to 5G
                self.station_profile.mode = 9

                self.cx_profile.cleanup()

                # create station list with sta_id 20
                self.station_list1 = LFUtils.portNameSeries(prefix_=self.sta_prefix, start_id_=self.sta_start_id,
                                                            end_id_=self.num_sta - 1, padding_number_=10000,
                                                            radio=rad)

                # cleanup station list which started sta_id 20
                self.station_profile.cleanup(self.station_list1, debug_=self.debug)
                LFUtils.wait_until_ports_disappear(base_url=self.lfclient_url,
                                                   port_list=self.station_list,
                                                   debug=self.debug)
                return
            # clean layer4 ftp traffic
            self.cx_profile.cleanup()
            self.station_list = LFUtils.portNameSeries(prefix_=self.sta_prefix, start_id_=self.sta_start_id,
                                                       end_id_=self.num_sta - 1, padding_number_=10000,
                                                       radio=rad)

            # cleans stations
            self.station_profile.cleanup(self.station_list, delay=1.5, debug_=self.debug)
            LFUtils.wait_until_ports_disappear(base_url=self.lfclient_url,
                                               port_list=self.station_list,
                                               debug=self.debug)
            time.sleep(1)

        print("precleanup done")

    def build(self):
        # set ftp
        self.port_util.set_ftp(port_name=self.local_realm.name_to_eid(self.upstream)[2], resource=1, on=True)

        for rad in self.radio:

            # station build
            self.station_profile.use_security(self.security, self.ssid, self.password)
            self.station_profile.set_number_template("00")
            self.station_profile.set_command_flag("add_sta", "create_admin_down", 1)
            self.station_profile.set_command_param("set_port", "report_timer", 1500)
            self.station_profile.set_command_flag("set_port", "rpt_timer", 1)
            self.station_profile.create(radio=rad, sta_names_=self.station_list, debug=self.debug)
            self.local_realm.wait_until_ports_appear(sta_list=self.station_list)
            self.station_profile.admin_up()
            if self.local_realm.wait_for_ip(self.station_list):
                self._pass("All stations got IPs")
            else:
                self._fail("Stations failed to get IPs")
                # exit(1)

            # building layer4
            self.cx_profile.direction = "dl"
            self.cx_profile.dest = "/dev/null"
            print('Direction:', self.direction)

            if self.direction == "Download":

                # data from GUI for find out ip addr of upstream port
                data = self.json_get("ports/list?fields=IP")

                for i in data["interfaces"]:
                    for j in i:
                        if "1.1." + self.upstream == j:
                            ip_upstream = i["1.1." + self.upstream]['ip']

                self.cx_profile.create(ports=self.station_profile.station_names, ftp_ip=ip_upstream + "/ftp_test.txt",
                                       sleep_time=.5, debug_=self.debug, suppress_related_commands_=True, ftp=True,
                                       user="lanforge",
                                       passwd="lanforge", source="")


            elif self.direction == "Upload":
                dict_sta_and_ip = {}

                # data from GUI for find out ip addr of each station
                data = self.json_get("ports/list?fields=IP")

                # This loop for find out proper ip addr and station name
                for i in self.station_list:
                    for j in data['interfaces']:
                        for k in j:
                            if i == k:
                                dict_sta_and_ip[k] = j[i]['ip']

                # list of ip addr of all stations
                ip = list(dict_sta_and_ip.values())

                eth_list = []
                client_list = []

                # list of all stations
                for i in range(len(self.station_list)):
                    client_list.append(self.station_list[i][4:])

                # list of upstream port
                eth_list.append(self.upstream)

                # create layer for connection for upload
                for client_num in range(len(self.station_list)):
                    self.cx_profile.create(ports=eth_list, ftp_ip=ip[client_num] + "/ftp_test.txt", sleep_time=.5,
                                           debug_=self.debug, suppress_related_commands_=True, ftp=True,
                                           user="lanforge", passwd="lanforge",
                                           source="", upload_name=client_list[client_num])

            # check Both band present then build stations with another station list
            if self.count == 2:
                self.station_list = self.station_list1

                # if Both band then another 20 stations will connects to 2.4G
                self.station_profile.mode = 6
        print("Test Build done")

    def start(self, print_pass=False, print_fail=False):
        for rad in self.radio:
            self.cx_profile.start_cx()

        print("Test Started")

    def stop(self):
        self.cx_profile.stop_cx()
        self.station_profile.admin_down()

    def postcleanup(self):
        self.cx_profile.cleanup()
        # self.local_realm.load("BLANK")
        self.station_profile.cleanup(self.station_profile.station_names, delay=1.5, debug_=self.debug)
        LFUtils.wait_until_ports_disappear(base_url=self.lfclient_url, port_list=self.station_profile.station_names,
                                           debug=self.debug)

    def file_create(self):
        '''This method will Create file for given file size'''

        ip = self.host
        user = "root"
        pswd = "lanforge"
        port = self.ssh_port
        ssh = paramiko.SSHClient()  # creating shh client object we use this object to connect to router
        ssh.set_missing_host_key_policy(paramiko.AutoAddPolicy())  # automatically adds the missing host key
        ssh.connect(ip, port=port, username=user, password=pswd, banner_timeout=600)
        cmd = '[ -f /home/lanforge/ftp_test.txt ] && echo "True" || echo "False"'
        stdin, stdout, stderr = ssh.exec_command(str(cmd))
        output = stdout.readlines()
        print(output)
        if output == ["True\n"]:
            cmd1 = "rm /home/lanforge/ftp_test.txt"
            stdin, stdout, stderr = ssh.exec_command(str(cmd1))
            output = stdout.readlines()
            time.sleep(10)
            cmd2 = "sudo fallocate -l " + self.file_size + " /home/lanforge/ftp_test.txt"
            stdin, stdout, stderr = ssh.exec_command(str(cmd2))
            print("File creation done %s" % self.file_size)
            output = stdout.readlines()
        else:
            cmd2 = "sudo fallocate -l " + self.file_size + " /home/lanforge/ftp_test.txt"
            stdin, stdout, stderr = ssh.exec_command(str(cmd2))
            print("File creation done %s" % self.file_size)
            output = stdout.readlines()
        ssh.close()
        time.sleep(1)
        return output

    def convert_file_size_in_Bytes(self, size):
        '''convert file size MB or GB into Bytes'''

        if (size.endswith("MB")) or (size.endswith("Mb")) or (size.endswith("GB")) or (size.endswith("Gb")):
            if (size.endswith("MB")) or (size.endswith("Mb")):
                return float(size[:-2]) * 10 ** 6
            elif (size.endswith("GB")) or (size.endswith("Gb")):
                return float(size[:-2]) * 10 ** 9

    def my_monitor(self, time1):
        # data in json format
        data = self.json_get("layer4/list?fields=bytes-rd")

        # list of layer 4 connections name
        self.data1 = []

        for i in range(self.num_sta):
            self.data1.append((str(list(data['endpoint'][i].keys())))[2:-2])

        data2 = self.data1
        list_of_time = []
        list1 = []
        list2 = []
        counter = 0

        for i in range(self.num_sta):
            list_of_time.append(0)
        #running layer 4 traffic upto user given time
        while str(datetime.datetime.now() - time1) <= self.traffic_duration:
            if list_of_time.count(0) == 0:
                break

            while list_of_time.count(0) != 0:

                # run script upto given time
                if counter == 0:
                    if str(datetime.datetime.now() - time1) >= self.duration:
                        counter = counter + 1
                        break
                else:
                    if str(datetime.datetime.now() - time1) >= self.traffic_duration:
                        break

                for i in range(self.num_sta):
                    data = self.json_get("layer4/list?fields=bytes-rd")

                    # reading uc-avg data in json format
                    uc_avg = self.json_get("layer4/list?fields=uc-avg")
                    if data['endpoint'][i][data2[i]]['bytes-rd'] <= self.file_size_bytes:
                        data = self.json_get("layer4/list?fields=bytes-rd")
                    if data['endpoint'][i][data2[i]]['bytes-rd'] >= self.file_size_bytes:
                        list1.append(i)
                        if list1.count(i) == 1:
                            list2.append(i)
                            list1 = list2

                            # stop station after download or upload file with particular size
                            self.json_post("/cli-json/set_cx_state", {
                                "test_mgr": "default_tm",
                                "cx_name": "CX_" + data2[i],
                                "cx_state": "STOPPED"
                            }, debug_=self.debug)

                            list_of_time[i] = round(int(uc_avg['endpoint'][i][data2[i]]['uc-avg']) / 1000, 1)
                time.sleep(0.5)

        # method calling for throughput calculation
        self.throughput_calculation()

        # return list of download/upload time in seconds
        return list_of_time

    def throughput_calculation(self):
        '''Method for calculate throughput of each station'''

        self.list_of_throughput = []
        data = self.json_get("layer4/list?fields=bytes-rd")
        for i in range(self.num_sta):
            throughput = data['endpoint'][i][self.data1[i]]['bytes-rd'] / 10 ** 6
            if isinstance(throughput, float):
                self.list_of_throughput.append(round(throughput, 2))
            else:
                self.list_of_throughput.append(throughput)

    def ftp_test_data(self, list_time, pass_fail, bands, file_sizes, directions, num_stations):
        '''Method for arrange ftp download/upload time data in dictionary'''

        # creating dictionary for single iteration
        create_dict = {}

        create_dict["band"] = self.band
        create_dict["direction"] = self.direction
        create_dict["file_size"] = self.file_size
        create_dict["time"] = list_time
        create_dict["duration"] = self.pass_fail_duration
        create_dict["result"] = pass_fail
        create_dict["bands"] = bands
        create_dict["file_sizes"] = file_sizes
        create_dict["directions"] = directions
        create_dict["num_stations"] = num_stations
        create_dict["throughput"] = self.list_of_throughput

        return create_dict

    def convert_min_in_time(self, total_minutes):
        # Get hours with floor division
        hours = total_minutes // 60

        # Get additional minutes with modulus
        minutes = total_minutes % 60

        # Create time as a string
        time_string = str("%d:%02d" % (divmod(total_minutes, 60))) + ":00" + ":000000"

        return time_string

    def pass_fail_check(self, time_list):
        if max(time_list) < (self.pass_fail_duration * 60):
            return "Pass"
        else:
            return "Fail"

    def add_pass_fail_table(self, result_data):
        '''Method for create dict for pass/fail table for report'''

        self.column_head = []
        self.rows_head = []
        self.bands = result_data[1]["bands"]
        self.file_sizes = result_data[1]["file_sizes"]
        self.directions = result_data[1]["directions"]
        self.num_stations = result_data[1]["num_stations"]

        for size in self.file_sizes:
            for direction in self.directions:
                self.column_head.append(size + " " + direction)
        for band in self.bands:
            if band != "Both":
                self.rows_head.append(str(self.num_stations) + " Clients-" + band)
            else:
                self.rows_head.append(str(self.num_stations // 2) + "+" + str(self.num_stations // 2) + " Clients-2.4G+5G")

        #creating dict for a table
        table_dict_pass_fail = {}
        i = 0
        table_dict_pass_fail[""] = self.rows_head
        for size in self.file_sizes:
            for d in self.directions:
                list_data = []
                for b in self.bands:
                    for data in result_data.values():
                        if data["band"] == b and data["direction"] == d and data["file_size"] == size:
                            list_data.append(data["result"])

                table_dict_pass_fail[self.column_head[i]] = list_data
                i = i + 1

        return table_dict_pass_fail

    def download_upload_time_table(self,result_data):
        '''Method for create dict for download/upload table for report'''

        table_dict_time = {}
        string_data = ""
        i = 0
        table_dict_time[""] = self.rows_head

        for size in self.file_sizes:
            for d in self.directions:
                list_data = []
                for b in self.bands:
                    for data in result_data.values():
                        data_time = data['time']
                        if data_time.count(0) == 0:
                            Min = min(data_time)
                            Max = max(data_time)
                            Sum = int(sum(data_time))
                            Len = len(data_time)
                            Avg = round(Sum / Len, 2)
                        elif data_time.count(0) == len(data_time):
                            Min = "-"
                            Max = "-"
                            Avg = "-"
                        else:
                            data_time = [i for i in data_time if i != 0]
                            Min = min(data_time)
                            Max = max(data_time)
                            Sum = int(sum(data_time))
                            Len = len(data_time)
                            Avg = round(Sum / Len, 2)
                        string_data = "Min=" + str(Min) + ",Max=" + str(Max) + ",Avg=" + str(Avg) + " (sec)"

                        if data["band"] == b and data["direction"] == d and data["file_size"] == size:
                            list_data.append(string_data)

                table_dict_time[self.column_head[i]] = list_data
                i = i + 1

        return table_dict_time

    def generate_graph_time(self,result_data, x_axis, band, size):
        '''Method for generating graph for time'''

        num_stations = result_data[1]["num_stations"]
        dataset = []
        labels = []
        color = []
        graph_name = ""
        graph_description = ""
        count = 0
        handles = []
        for data in result_data.values():
            if data["band"] == band and data["file_size"] == size and data["direction"] == "Download":
                dataset.append(data["time"])
                labels.append("Download")

                #Adding red bar if client unable to download/upload file
                color_list = []
                #converting minutes in seconds
                duration = data["duration"] * 60
                for i in data["time"]:
                    if i < duration:
                        color_list.append("orange")
                    else:
                        color_list.append("red")
                if color_list.count("red") == 0:
                    handles.append(mpatches.Patch(color='orange', label='Download <= threshold time'))
                    num_col = 1
                    box = (1, 1.15)
                else:
                    handles.append(mpatches.Patch(color='orange', label='Download <= threshold time'))
                    handles.append(mpatches.Patch(color='red', label='Download > threshold time'))
                    num_col = 2
                    box = (1, 1.15)
                color.append(color_list)
                graph_name = "File size " + size + " " + str(
                    num_stations) + " Clients " + band + "-File Download Times(secs)"
                fail_count = len([i for i in data["time"] if i > (data["duration"] * 60)])
                graph_description = "Out of " + str(data["num_stations"]) + " clients, " + str(
                    data["num_stations"] - fail_count) + " are able to download " + "within " + str(
                    data["duration"]) + " min."
                count = count + 1
            if data["band"] == band and data["file_size"] == size and data["direction"] == "Upload":
                dataset.append(data["time"])
                labels.append("Upload")

                # Adding red bar if client unable to download/upload file
                color_list = []
                duration = data["duration"] * 60
                for i in data["time"]:
                    if i < duration:
                        color_list.append("blue")
                    else:
                        color_list.append("red")
                if color_list.count("red") == 0:
                    handles.append(mpatches.Patch(color='blue', label='Upload <= threshold time'))
                    num_col = 1
                    box = (1, 1.15)
                else:
                    handles.append(mpatches.Patch(color='blue', label='Upload <= threshold time'))
                    handles.append(mpatches.Patch(color='red', label='Upload < threshold time'))
                    num_col = 2
                    box = (1, 1.15)
                color.append(color_list)

                graph_name = "File size " + size + " " + str(
                    num_stations) + " Clients " + band + "-File Upload Times(secs)"
                fail_count = len([i for i in data["time"] if i > (data["duration"] * 60)])
                graph_description = graph_description + "Out of " + str(data["num_stations"]) + " clients, " + str(
                    data["num_stations"] - fail_count) + " are able to upload " + "within " + str(
                    data["duration"]) + " min."
                count = count + 1
        if count == 2:
            graph_name = "File size " + size + " " + str(
                num_stations) + " Clients " + band + "-File Download and Upload Times(secs)"
            handles = []
            for i in labels:
                if i == "Upload":
                    c = "blue"
                else:
                    c = "orange"
                handles.append(mpatches.Patch(color=c, label=i + " <= threshold time"))
            num_col = 2
            box = (1, 1.15)
            if (color[0].count("red") >= 1) or (color[1].count("red") >= 1):
                num_col = 3
                box = (1, 1.15)
                if labels[0] == "Download":
                    handles.append(mpatches.Patch(color='red', label='Download/Upload > threshold time'))
                else:
                    handles.append(mpatches.Patch(color='red', label='Upload/Download > threshold time'))


        self.report.set_obj_html(graph_name, graph_description)
        self.report.build_objective()
        image_name = "image"+band+size
        x_axis_name = "Stations"
        y_axis_name = "Time in seconds"
        self.bar_graph(x_axis, image_name, dataset, color, labels, x_axis_name, y_axis_name, handles, ncol=num_col, box=box, fontsize=12)

    def generate_graph_throughput(self, result_data, x_axis, band, size):
        '''Method for generating graph for time'''

        num_stations = result_data[1]["num_stations"]
        dataset = []
        labels = []
        color = []
        graph_name = ""
        graph_description = ""
        count = 0
        for data in result_data.values():
            if data["band"] == band and data["file_size"] == size and data["direction"] == "Download":
                dataset.append(data["throughput"])
                labels.append("Download")
                color.append("Orange")
                graph_name = "File size " + size + " " + str(
                    num_stations) + " Clients " + band + "-File Download Throughput(MB)"
                graph_description = str(data["num_stations"] - data["time"].count(0)) + " clients are able to download " + data["file_size"] + " file."
                count = count + 1
            if data["band"] == band and data["file_size"] == size and data["direction"] == "Upload":
                dataset.append(data["throughput"])
                labels.append("Upload")
                color.append("Blue")
                graph_name = "File size " + size + " " + str(
                    num_stations) + " Clients " + band + "-File Upload Throughput(MB)"
                graph_description = graph_description + str(data["num_stations"] - data["time"].count(0)) + " clients are able to upload " + data["file_size"] + " file."
                count = count + 1
        if count == 2:
            graph_name = "File size " + size + " " + str(
                num_stations) + " Clients " + band + "-File Download and Upload Throughput(MB)"

        self.report.set_obj_html(graph_name, graph_description)
        self.report.build_objective()
        image_name = "image" + band + size + "throughput"
        x_axis_name = "Stations"
        y_axis_name = "Throughput in MB"
        box = (1.1, 1.05)
        self.bar_graph(x_axis, image_name, dataset, color, labels, x_axis_name, y_axis_name, handles=None, ncol=1, box=box, fontsize=None)

    def bar_graph(self, x_axis, image_name, dataset, color, labels, x_axis_name, y_axis_name,handles, ncol, box, fontsize):
        '''This Method will plot bar graph'''

        graph = lf_bar_graph(_data_set=dataset,
                             _xaxis_name=x_axis_name,
                             _yaxis_name=y_axis_name,
                             _xaxis_categories=x_axis,
                             _label=labels,
                             _graph_image_name=image_name,
                             _figsize=(18, 6),
                             _color=color,
                             _show_bar_value=False,
                             _xaxis_step=None,
                             _legend_handles=handles,
                             _color_edge=None,
                             _text_rotation=40,
                             _legend_loc="upper right",
                             _legend_box=box,
                             _legend_ncol=ncol,
                             _legend_fontsize=fontsize,
                             _enable_csv=True)

        graph_png = graph.build_bar_graph()

        print("graph name {}".format(graph_png))

        self.report.set_graph_image(graph_png)
        # need to move the graph image to the results
        self.report.move_graph_image()
        self.report.set_csv_filename(graph_png)
        self.report.move_csv_file()

        self.report.build_graph()

    def generate_graph(self, result_data):
        '''This method will generate bar graph of time and throughput'''

        x_axis = []
        for i in range(1, self.num_stations + 1, 1):
            x_axis.append(i)

        for b in self.bands:
            for size in self.file_sizes:
                self.generate_graph_time(result_data, x_axis, b, size)
                self.generate_graph_throughput(result_data, x_axis, b, size)

    def generate_report(self, ftp_data, date,test_setup_info, input_setup_info):
        '''Method for generate the report'''

        self.report = lf_report(_results_dir_name="ftp_test", _output_html="ftp_test.html", _output_pdf="ftp_test.pdf")
        self.report.set_title("FTP Test")
        self.report.set_date(date)
        self.report.build_banner()
        self.report.set_table_title("Test Setup Information")
        self.report.build_table_title()
        self.report.test_setup_table(value="Device under test", test_setup_data=test_setup_info)

        self.report.set_obj_html("Objective",
                            "This FTP Test is used to Verify that N clients connected on Specified band and can simultaneously download/upload some amount of file from FTP server and measuring the time taken by client to Download/Upload the file.")
        self.report.build_objective()
        self.report.set_obj_html("PASS/FAIL Results",
                            "This Table will give Pass/Fail results.")
        self.report.build_objective()
        dataframe1 = pd.DataFrame(self.add_pass_fail_table(ftp_data))
        self.report.set_table_dataframe(dataframe1)
        self.report.build_table()
        self.report.set_obj_html("File Download/Upload Time (sec)",
                            "This Table will  give FTP Download/Upload Time of Clients.")
        self.report.build_objective()
        dataframe2 = pd.DataFrame(self.download_upload_time_table(ftp_data))
        self.report.set_table_dataframe(dataframe2)
        self.report.build_table()
        self.generate_graph(ftp_data)
        self.report.set_table_title("Test input Information")
        self.report.build_table_title()
        self.report.test_setup_table(value="Information", test_setup_data=input_setup_info)
        self.report.build_footer()
        html_file = self.report.write_html()
        print("returned file {}".format(html_file))
        print(html_file)
        self.report.write_pdf()







def main():
    parser = argparse.ArgumentParser(description="FTP Test Script")
    parser.add_argument('--mgr', help='hostname for where LANforge GUI is running', default='localhost')
    parser.add_argument('--mgr_port', help='port LANforge GUI HTTP service is running on', default=8080)
    parser.add_argument('--upstream_port', help='non-station port that generates traffic: eg: eth1', default='eth1')
    parser.add_argument('--ssid', type=str, help='--ssid')
    parser.add_argument('--passwd', type=str, help='--passwd')
    parser.add_argument('--security', type=str, help='--security')
    parser.add_argument('--ap_name', type=str, help='--ap_name')
    parser.add_argument('--ap_ip', type=str, help='--ap_ip')
    parser.add_argument('--twog_radio', type=str, help='specify radio for 2.4G clients', default='wiphy1')
    parser.add_argument('--fiveg_radio', type=str, help='specify radio for 5G client', default='wiphy0')
    parser.add_argument('--twog_duration', nargs="+", help='Pass and Fail duration for 2.4G band in minutes')
    parser.add_argument('--fiveg_duration', nargs="+", help='Pass and Fail duration for 5G band in minutes')
    parser.add_argument('--Both_duration', nargs="+", help='Pass and Fail duration for Both band in minutes')
    parser.add_argument('--traffic_duration', type=int, help='duration for layer 4 traffic running')
    parser.add_argument('--ssh_port', type=int, help="specify the shh port eg 22", default=22)

    # Test variables
    parser.add_argument('--bands', nargs="+", help='--bands defaults ["5G","2.4G","Both"]',
                        default=["5G", "2.4G", "Both"])
    parser.add_argument('--directions', nargs="+", help='--directions defaults ["Download","Upload"]',
                        default=["Download", "Upload"])
    parser.add_argument('--file_sizes', nargs="+", help='--File Size defaults ["2MB","500MB","1000MB"]',
                        default=["2MB", "500MB", "1000MB"])
    parser.add_argument('--num_stations', type=int, help='--num_stations is number of stations', default=40)

    args = parser.parse_args()

    # 1st time stamp for test duration
    time_stamp1 = datetime.datetime.now()

    # use for creating ftp_test dictionary
    iteraration_num = 0

    # empty dictionary for whole test data
    ftp_data = {}

    def pass_fail_duration(band, file_size):
        '''Method for set duration according file size and band which are given by user'''

        if band == "2.4G":
            if len(args.file_sizes) is not len(args.twog_duration):
                raise Exception("Give proper Pass or Fail duration for 2.4G band")

            for size in args.file_sizes:
                if size == file_size:
                    index = list(args.file_sizes).index(size)
                    duration = args.twog_duration[index]
        elif band == "5G":
            if len(args.file_sizes) is not len(args.fiveg_duration):
                raise Exception("Give proper Pass or Fail duration for 5G band")
            for size in args.file_sizes:
                if size == file_size:
                    index = list(args.file_sizes).index(size)
                    duration = args.fiveg_duration[index]
        else:
            if len(args.file_sizes) is not len(args.Both_duration):
                raise Exception("Give proper Pass or Fail duration for 5G band")
            for size in args.file_sizes:
                if size == file_size:
                    index = list(args.file_sizes).index(size)
                    duration = args.Both_duration[index]
        if duration.isdigit():
            duration = int(duration)
        else:
            duration = float(duration)

        return duration

    # For all combinations ftp_data of directions, file size and client counts, run the test
    for band in args.bands:
        for direction in args.directions:
            for file_size in args.file_sizes:
                # Start Test
                obj = FtpTest(lfclient_host=args.mgr,
                              lfclient_port=args.mgr_port,
                              upstream=args.upstream_port,
                              dut_ssid=args.ssid,
                              dut_passwd=args.passwd,
                              dut_security=args.security,
                              num_sta=args.num_stations,
                              band=band,
                              file_size=file_size,
                              direction=direction,
                              twog_radio=args.twog_radio,
                              fiveg_radio=args.fiveg_radio,
                              duration=pass_fail_duration(band, file_size),
                              traffic_duration=args.traffic_duration,
                              ssh_port=args.ssh_port
                              )

                iteraration_num = iteraration_num + 1
                obj.file_create()
                obj.set_values()
                obj.precleanup()
                obj.build()
                if not obj.passes():
                    print(obj.get_fail_message())
                    exit(1)

                # First time stamp
                time1 = datetime.datetime.now()

                obj.start(False, False)

                # return list of download/upload completed time stamp
                time_list = obj.my_monitor(time1)

                # check pass or fail
                pass_fail = obj.pass_fail_check(time_list)

                # dictionary of whole data
                ftp_data[iteraration_num] = obj.ftp_test_data(time_list, pass_fail, args.bands, args.file_sizes,
                                                              args.directions, args.num_stations)

                obj.stop()
                obj.postcleanup()

    # 2nd time stamp for test duration
    time_stamp2 = datetime.datetime.now()

    # total time for test duration
    test_duration = str(time_stamp2 - time_stamp1)[:-7]

    date = str(datetime.datetime.now()).split(",")[0].replace(" ", "-").split(".")[0]

    #print(ftp_data)

    test_setup_info = {
        "AP Name": args.ap_name,
        "SSID": args.ssid,
        "Test Duration": test_duration
    }

    input_setup_info = {
        "AP IP": args.ap_ip,
        "File Size": args.file_sizes,
        "Bands": args.bands,
        "Direction": args.directions,
        "Stations": args.num_stations,
        "Upstream": args.upstream_port,
        "SSID": args.ssid,
        "Security": args.security,
        "Contact": "support@candelatech.com"
    }
    obj.generate_report(ftp_data,
                    date,
                    test_setup_info,
                    input_setup_info)


if __name__ == '__main__':
    main()