Exemplo n.º 1
0
    exit(1)

print("** Existing CXs **")
try:
    cx_list = localrealm.cx_list()
    print("%s CXs:" % len(cx_list))
    pprint(cx_list)
except Exception as x:
    localrealm.error(x)
    exit(1)

print("** Removing previous CXs **")

print("** Creating Layer 3 CXs **")
try:
    cx_profile = localrealm.new_l3_cx_profile()
    # set attributes of cxProfile
    cx_profile.create("lf_udp",
                      side_a="1.1.eth1",
                      side_b=list(localrealm.find_ports_like("sta+")))
except Exception as x:
    pprint(x)
    exit(1)

try:
    cx_profile = localrealm.new_l3_cx_profile()
    # set attributes of cxProfile
    cx_profile.create("lf_udp",
                      side_a=list(localrealm.find_ports_like("sta+")),
                      side_b="1.1.eth1")
except Exception as x:
class SingleClientEAP(LFCliBase):
    def __init__(self,
                 host,
                 port,
                 security=None,
                 ssid=None,
                 sta_list=None,
                 number_template="00000",
                 _debug_on=False,
                 _dut_bssid="",
                 _exit_on_error=False,
                 _sta_name=None,
                 _resource=1,
                 radio="wiphy0",
                 key_mgmt="WPA-EAP",
                 eap="",
                 identity="",
                 ttls_passwd="",
                 hessid=None,
                 ttls_realm="",
                 domain="",
                 _exit_on_fail=False,
                 _cleanup_on_exit=True):
        super().__init__(host,
                         port,
                         _debug=_debug_on,
                         _halt_on_error=_exit_on_error,
                         _exit_on_fail=_exit_on_fail)
        self.host = host
        self.port = port
        self.ssid = ssid
        self.radio = radio
        self.security = security
        #self.password = password
        self.sta_list = sta_list
        self.key_mgmt = key_mgmt
        self.eap = eap
        self.identity = identity
        self.ttls_passwd = ttls_passwd
        self.ttls_realm = ttls_realm
        self.domain = domain
        self.hessid = hessid
        self.dut_bssid = _dut_bssid
        self.timeout = 120
        self.number_template = number_template
        self.debug = _debug_on
        self.local_realm = realm.Realm(lfclient_host=self.host,
                                       lfclient_port=self.port)
        self.station_profile = self.local_realm.new_station_profile()
        self.station_profile.lfclient_url = self.lfclient_url
        self.station_profile.ssid = self.ssid
        self.station_profile.security = self.security
        self.station_profile.number_template_ = self.number_template
        self.station_profile.mode = 0
        #Added to test_ipv4_ttls code
        self.upstream_url = None  # defer construction
        self.sta_url_map = None
        self.upstream_resource = None
        self.upstream_port = None
        self.station_names = []
        if _sta_name is not None:
            self.station_names = [_sta_name]
        self.localrealm = Realm(lfclient_host=host, lfclient_port=port)
        self.resource = _resource
        self.cleanup_on_exit = _cleanup_on_exit
        self.resulting_stations = {}
        self.resulting_endpoints = {}
        self.station_profile = None
        self.l3_udp_profile = None
        self.l3_tcp_profile = None

    # def get_realm(self) -> Realm: # py > 3.6
    def get_realm(self):
        return self.localrealm

    def get_station_url(self, sta_name_=None):
        if sta_name_ is None:
            raise ValueError("get_station_url wants a station name")
        if self.sta_url_map is None:
            self.sta_url_map = {}
            for sta_name in self.station_names:
                self.sta_url_map[sta_name] = "port/1/%s/%s" % (self.resource,
                                                               sta_name)
        return self.sta_url_map[sta_name_]

    def get_upstream_url(self):
        if self.upstream_url is None:
            self.upstream_url = "port/1/%s/%s" % (self.upstream_resource,
                                                  self.upstream_port)
        return self.upstream_url

    # Compare pre-test values to post-test values
    def compare_vals(self, name, postVal, print_pass=False, print_fail=True):
        # print(f"Comparing {name}")
        if postVal > 0:
            self._pass("%s %s" % (name, postVal), print_pass)
        else:
            self._fail("%s did not report traffic: %s" % (name, postVal),
                       print_fail)

    def remove_stations(self):
        for name in self.station_names:
            LFUtils.removePort(self.resource, name, self.lfclient_url)

    def num_associated(self, bssid):
        counter = 0
        # print("there are %d results" % len(self.station_results))
        fields = "_links,port,alias,ip,ap,port+type"
        self.station_results = self.localrealm.find_ports_like("eap*",
                                                               fields,
                                                               debug_=False)
        if (self.station_results is None) or (len(self.station_results) < 1):
            self.get_failed_result_list()
        for eid, record in self.station_results.items():
            #print("-- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- ")
            #pprint(eid)
            #pprint(record)
            if record["ap"] == bssid:
                counter += 1
            #print("-- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- ")
        return counter

    def clear_test_results(self):
        self.resulting_stations = {}
        self.resulting_endpoints = {}
        super().clear_test_results()
        #super(StaConnect, self).clear_test_results().test_results.clear()

    def setup(self):
        self.clear_test_results()
        self.check_connect()
        upstream_json = self.json_get("%s?fields=alias,phantom,down,port,ip" %
                                      self.get_upstream_url(),
                                      debug_=False)

        if upstream_json is None:
            self._fail(message="Unable to query %s, bye" % self.upstream_port,
                       print_=True)
            return False

        if upstream_json['interface']['ip'] == "0.0.0.0":
            if self.debug:
                pprint.pprint(upstream_json)
            self._fail("Warning: %s lacks ip address" %
                       self.get_upstream_url(),
                       print_=True)
            return False

        # remove old stations
        print("Removing old stations")
        for sta_name in self.station_names:
            sta_url = self.get_station_url(sta_name)
            response = self.json_get(sta_url)
            if (response is not None) and (response["interface"] is not None):
                for sta_name in self.station_names:
                    LFUtils.removePort(self.resource, sta_name,
                                       self.lfclient_url)
        LFUtils.wait_until_ports_disappear(self.lfclient_url,
                                           self.station_names)

        # Create stations and turn dhcp on
        self.station_profile = self.localrealm.new_station_profile()

        # Build stations
        self.station_profile.use_security(self.security,
                                          self.ssid,
                                          passwd="[BLANK]")
        self.station_profile.set_number_template(self.number_template)
        print("Creating stations")
        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.set_wifi_extra(key_mgmt=self.key_mgmt,
                                            eap=self.eap,
                                            identity=self.identity,
                                            passwd=self.ttls_passwd,
                                            realm=self.ttls_realm,
                                            domain=self.domain,
                                            hessid=self.hessid)
        self.station_profile.create(radio=self.radio,
                                    sta_names_=self.sta_list,
                                    debug=self.debug,
                                    use_radius=True,
                                    hs20_enable=False)
        self._pass("PASS: Station build finished")

    def start(self):
        if self.station_profile is None:
            self._fail("Incorrect setup")
        pprint.pprint(self.station_profile)
        if self.station_profile.up is None:
            self._fail("Incorrect station profile, missing profile.up")
        if self.station_profile.up == False:
            print("\nBringing ports up...")
            data = {
                "shelf": 1,
                "resource": self.resource,
                "port": "ALL",
                "probe_flags": 1
            }
            self.json_post("/cli-json/nc_show_ports", data)
            self.station_profile.admin_up()
            LFUtils.waitUntilPortsAdminUp(self.resource, self.lfclient_url,
                                          self.station_names)

        # station_info = self.jsonGet(self.mgr_url, "%s?fields=port,ip,ap" % (self.getStaUrl()))
        duration = 0
        maxTime = 30
        ip = "0.0.0.0"
        ap = ""
        print("Waiting for %s stations to associate to AP: " %
              len(self.station_names),
              end="")
        connected_stations = {}
        while (len(connected_stations.keys()) < len(
                self.station_names)) and (duration < maxTime):
            duration += 3
            time.sleep(10)
            print(".", end="")
            for sta_name in self.station_names:
                sta_url = self.get_station_url(sta_name)
                station_info = self.json_get(sta_url + "?fields=port,ip,ap")

                # LFUtils.debug_printer.pprint(station_info)
                if (station_info is not None) and ("interface"
                                                   in station_info):
                    if "ip" in station_info["interface"]:
                        ip = station_info["interface"]["ip"]
                    if "ap" in station_info["interface"]:
                        ap = station_info["interface"]["ap"]

                if (ap == "Not-Associated") or (ap == ""):
                    if self.debug:
                        print(" -%s," % sta_name, end="")
                else:
                    if ip == "0.0.0.0":
                        if self.debug:
                            print(" %s (0.0.0.0)" % sta_name, end="")
                    else:
                        connected_stations[sta_name] = sta_url
            data = {
                "shelf": 1,
                "resource": self.resource,
                "port": "ALL",
                "probe_flags": 1
            }
            self.json_post("/cli-json/nc_show_ports", data)

        for sta_name in self.station_names:
            sta_url = self.get_station_url(sta_name)
            station_info = self.json_get(sta_url)  # + "?fields=port,ip,ap")
            if station_info is None:
                print("unable to query %s" % sta_url)
            self.resulting_stations[sta_url] = station_info
            ap = station_info["interface"]["ap"]
            ip = station_info["interface"]["ip"]
            if (ap != "") and (ap != "Not-Associated"):
                print(" %s +AP %s, " % (sta_name, ap), end="")
                if self.dut_bssid != "":
                    if self.dut_bssid.lower() == ap.lower():
                        self._pass(sta_name + " connected to BSSID: " + ap)
                        # self.test_results.append("PASSED: )
                        # print("PASSED: Connected to BSSID: "+ap)
                    else:
                        self._fail(
                            "%s connected to wrong BSSID, requested: %s  Actual: %s"
                            % (sta_name, self.dut_bssid, ap))
            else:
                self._fail(sta_name + " did not connect to AP")
                return False

            if ip == "0.0.0.0":
                self._fail("%s did not get an ip. Ending test" % sta_name)
            else:
                self._pass("%s connected to AP: %s  With IP: %s" %
                           (sta_name, ap, ip))

        if self.passes() == False:
            if self.cleanup_on_exit:
                print("Cleaning up...")
                self.remove_stations()
            return False

    def udp_profile(self, side_a_min_bps, side_b_min_bps, side_a_min_pdu,
                    side_b_min_pdu):
        # Create UDP endpoint - Alex's code!
        self.l3_udp_tput_profile = self.localrealm.new_l3_cx_profile()
        self.l3_udp_tput_profile.side_a_min_bps = side_a_min_bps
        self.l3_udp_tput_profile.side_b_min_bps = side_b_min_bps
        self.l3_udp_tput_profile.side_a_min_pdu = side_a_min_pdu
        self.l3_udp_tput_profile.side_b_min_pdu = side_b_min_pdu
        self.l3_udp_tput_profile.report_timer = 1000
        self.l3_udp_tput_profile.name_prefix = "udp"
        self.l3_udp_tput_profile.create(
            endp_type="lf_udp",
            side_a=list(self.localrealm.find_ports_like("tput+")),
            side_b="%d.%s" % (self.resource, self.upstream_port),
            suppress_related_commands=True)

    def tcp_profile(self, side_a_min_bps, side_b_min_bps):
        # Create TCP endpoints - original code!
        self.l3_tcp_tput_profile = self.localrealm.new_l3_cx_profile()
        self.l3_tcp_tput_profile.side_a_min_bps = side_a_min_bps
        self.l3_tcp_tput_profile.side_b_min_bps = side_b_min_bps
        self.l3_tcp_tput_profile.name_prefix = "tcp"
        self.l3_tcp_tput_profile.report_timer = 1000
        self.l3_tcp_tput_profile.create(
            endp_type="lf_tcp",
            side_a=list(self.localrealm.find_ports_like("tput+")),
            side_b="%d.%s" % (self.resource, self.upstream_port),
            suppress_related_commands=True)

    # Start UDP Downstream Traffic
    def udp_throughput(self):
        print("\nStarting UDP Traffic")
        self.l3_udp_tput_profile.start_cx()
        time.sleep(1)
        self.l3_udp_tput_profile.refresh_cx()

    def tcp_throughput(self):
        print("\nStarting TCP Traffic")
        self.l3_tcp_tput_profile.start_cx()
        time.sleep(1)
        self.l3_tcp_tput_profile.refresh_cx()

    def udp_stop(self):
        # stop cx traffic
        print("Stopping CX Traffic")
        self.l3_udp_tput_profile.stop_cx()

        # Refresh stats
        print("\nRefresh CX stats")
        self.l3_udp_tput_profile.refresh_cx()

        print("Sleeping for 5 seconds")
        time.sleep(5)

        # get data for endpoints JSON
        return self.collect_client_stats(self.l3_udp_tput_profile.created_cx)
        # print("\n")

    def tcp_stop(self):
        # stop cx traffic
        print("Stopping CX Traffic")
        self.l3_tcp_tput_profile.stop_cx()

        # Refresh stats
        print("\nRefresh CX stats")
        self.l3_tcp_tput_profile.refresh_cx()

        print("Sleeping for 5 seconds")
        time.sleep(5)

        # get data for endpoints JSON
        return self.collect_client_stats(self.l3_tcp_tput_profile.created_cx)
        # print("\n")

    # New Endpoint code to print TX and RX numbers
    def collect_client_stats(self, endp_map):
        print("Collecting Data")
        fields = "?fields=name,tx+bytes,rx+bytes"
        for (cx_name, endps) in endp_map.items():
            try:
                endp_url = "/endp/%s%s" % (endps[0], fields)
                endp_json = self.json_get(endp_url)
                self.resulting_endpoints[endp_url] = endp_json
                ptest_a_tx = endp_json['endpoint']['tx bytes']
                ptest_a_rx = endp_json['endpoint']['rx bytes']

                # ptest = self.json_get("/endp/%s?fields=tx+bytes,rx+bytes" % cx_names[cx_name]["b"])
                endp_url = "/endp/%s%s" % (endps[1], fields)
                endp_json = self.json_get(endp_url)
                self.resulting_endpoints[endp_url] = endp_json
                ptest_b_tx = endp_json['endpoint']['tx bytes']
                ptest_b_rx = endp_json['endpoint']['rx bytes']

                byte_values = []
                byte_values.append("Station TX: " + str(ptest_a_tx))
                byte_values.append("Station RX: " + str(ptest_a_rx))
                byte_values.append("AP TX: " + str(ptest_b_tx))
                byte_values.append("AP RX: " + str(ptest_b_rx))

                return byte_values

            except Exception as e:
                self.error(e)

    def cleanup_udp(self):
        # remove all endpoints and cxs
        if self.cleanup_on_exit:
            for sta_name in self.station_names:
                LFUtils.removePort(self.resource, sta_name, self.lfclient_url)
            curr_endp_names = []
            removeCX(self.lfclient_url,
                     self.l3_udp_tput_profile.get_cx_names())
            for (cx_name,
                 endp_names) in self.l3_udp_tput_profile.created_cx.items():
                curr_endp_names.append(endp_names[0])
                curr_endp_names.append(endp_names[1])
            removeEndps(self.lfclient_url, curr_endp_names, debug=self.debug)

    def cleanup_tcp(self):
        # remove all endpoints and cxs
        if self.cleanup_on_exit:
            for sta_name in self.station_names:
                LFUtils.removePort(self.resource, sta_name, self.lfclient_url)
            curr_endp_names = []
            removeCX(self.lfclient_url,
                     self.l3_tcp_tput_profile.get_cx_names())
            for (cx_name,
                 endp_names) in self.l3_tcp_tput_profile.created_cx.items():
                curr_endp_names.append(endp_names[0])
                curr_endp_names.append(endp_names[1])
            removeEndps(self.lfclient_url, curr_endp_names, debug=self.debug)

    def cleanup(self):
        # remove all endpoints and cxs
        if self.cleanup_on_exit:
            for sta_name in self.station_names:
                LFUtils.removePort(self.resource, sta_name, self.lfclient_url)
            curr_endp_names = []
            removeCX(self.lfclient_url,
                     self.l3_tcp_tput_profile.get_cx_names())
            removeCX(self.lfclient_url,
                     self.l3_udp_tput_profile.get_cx_names())
            for (cx_name,
                 endp_names) in self.l3_tcp_tput_profile.created_cx.items():
                curr_endp_names.append(endp_names[0])
                curr_endp_names.append(endp_names[1])
            for (cx_name,
                 endp_names) in self.l3_udp_tput_profile.created_cx.items():
                curr_endp_names.append(endp_names[0])
                curr_endp_names.append(endp_names[1])
            removeEndps(self.lfclient_url, curr_endp_names, debug=self.debug)

    def udp_unidirectional(self, side_a_min_bps, side_b_min_bps,
                           side_a_min_pdu, side_b_min_pdu, direction,
                           values_line):
        self.udp_profile(side_a_min_bps, side_b_min_bps, side_a_min_pdu,
                         side_b_min_pdu)
        self.start()
        print("Running", direction,
              "Traffic for %s seconds" % self.runtime_secs)
        self.udp_throughput()
        print("napping %f sec" % self.runtime_secs)
        time.sleep(self.runtime_secs)
        values = self.udp_stop()
        print(values)
        # Get value required for measurement
        bytes = values[values_line]
        # Get value in Bits and convert to Mbps
        bits = (int(bytes.split(": ", 1)[1])) * 8
        mpbs = round((bits / 1000000) / self.runtime_secs, 2)
        return mpbs

    def tcp_unidirectional(self, side_a_min_bps, side_b_min_bps, direction,
                           values_line):
        self.tcp_profile(side_a_min_bps, side_b_min_bps)
        self.start()
        print("Running", direction,
              "Traffic for %s seconds" % self.runtime_secs)
        self.tcp_throughput()
        print("napping %f sec" % self.runtime_secs)
        time.sleep(self.runtime_secs)
        values = self.tcp_stop()
        print(values)
        # Get value required for measurement
        bytes = values[values_line]
        # Get value in Bits and convert to Mbps
        bits = (int(bytes.split(": ", 1)[1])) * 8
        mpbs = round((bits / 1000000) / self.runtime_secs, 2)
        return mpbs
Exemplo n.º 3
0
class CreateSTA_CX(LFCliBase):
    def __init__(self,
                 host,
                 port,
                 radio,
                 num_sta,
                 sta_id,
                 ssid,
                 security,
                 password,
                 upstream,
                 protocol,
                 min_bps,
                 max_bps,
                 security_debug_on=True,
                 _exit_on_error=True,
                 _exit_on_fail=True):
        super().__init__(host,
                         port,
                         _debug=security_debug_on,
                         _halt_on_error=_exit_on_error,
                         _exit_on_fail=_exit_on_fail)

        self.host = host
        self.port = port
        self.radio = radio

        self.num_sta = num_sta
        self.sta_id = sta_id

        self.ssid = ssid

        self.security = security
        self.password = password

        self.upstream = upstream
        self.protocol = protocol

        self.min_bps = min_bps
        self.max_bps = max_bps

        #Creating a Realm Object
        self.local_realm = Realm(lfclient_host=host, lfclient_port=port)

        #Creating Profile Objects
        self.station_profile = self.local_realm.new_station_profile()
        self.cx_profile = self.local_realm.new_l3_cx_profile()

        #Setting CX Name
        self.cx_profile.name_prefix_ = "Connection"
        self.cx_names = []
        self.sta_list = []
        self.endp = []
        for i in range(sta_id, sta_id + num_sta):
            self.sta_list.append("sta00")

        #portDhcpUpRequest
        '''
        upstream_dhcp = LFRequest.LFRequest("http://"+str(host)+":"+str(port)+"/"+"/cli-form/set_port")
        upstream_dhcp.addPostData( LFUtils.portSetDhcpDownRequest(1, upstream))
        upstream_dhcp.formPost()
        time.sleep(2)
        upstream_dhcp.addPostData( LFUtils.portUpRequest(1, upstream))
        upstream_dhcp.formPost()
        print(upstream + "Set to DHCP For Cross Connects")
        '''

    def build(self):

        #Creating Stations of Given Profile Settings
        self.station_profile.use_security(self.security,
                                          self.ssid,
                                          passwd=self.password)
        self.station_profile.create(self.radio,
                                    num_stations=self.num_sta,
                                    sta_names_=self.sta_list)
        self.station_profile.admin_up()
        #Wait for a while
        time.sleep(15)

        #Setting up the Parameters for CX
        self.cx_profile.side_a_min_bps = self.min_bps
        self.cx_profile.side_b_min_bps = self.min_bps
        self.cx_profile.side_a_max_bps = self.max_bps
        self.cx_profile.side_b_max_bps = self.max_bps

        self.cx_profile.side_a_min_pdu = 'Auto'
        self.cx_profile.side_b_min_pdu = 'Auto'
        self.cx_profile.report_timer = 1000
        self.cx_profile.side_a_min_pkt = 'Same'
        self.cx_profile.side_a_max_pkt = 'Same'

        #Create Connections of Given Parameters
        self.cx_profile.create(self.protocol,
                               side_a="1.1." + self.upstream,
                               side_b=list(
                                   self.local_realm.find_ports_like("sta0+")))
        time.sleep(15)

        # Getting all the Endpoint Names for measuring Throughput Later
        for i in self.cx_profile.get_cx_names():
            self.cx_names.append(i)
        for j in self.cx_names:
            x = self.local_realm.json_get("/cx/" + j)
            self.endp.append(x.get(j).get('endpoints')[1])
        #print(self.endp)
        return 0

    def start(self):
        #self.station_profile.admin_up()

        self.cx_profile.start_cx()
        time.sleep(5)
        return 0

    def stop(self):
        self.cx_profile.stop_cx()
        time.sleep(5)
        self.lf_stations.admin_down()
        time.sleep(5)
        return 0

    def cleanup(self):
        # Removing Connections
        self.local_realm.cleanup_cxe_prefix(self.cx_profile.name_prefix)

        vap = self.local_realm.find_ports_like("vap+")
        bridges = self.local_realm.find_ports_like("br+")
        station_map = self.local_realm.find_ports_like("sta+")
        #Removing Bridges
        for eid, record in bridges.items():
            self.local_realm.remove_vlan_by_eid(eid)
            time.sleep(0.03)
        #Removing VAP
        for eid, record in vap.items():
            self.local_realm.remove_vlan_by_eid(eid)
            time.sleep(0.03)

        #Removing stations
        for eid, record in station_map.items():
            self.local_realm.remove_vlan_by_eid(eid)
            time.sleep(0.03)
        del_sta_names = []
        try:
            for eid, value in station_map.items():
                tname = eid[eid.rfind('.'):]
                del_sta_names.append(tname)
        except Exception as x:
            self.local_realm.error(x)
        try:
            LFUtils.waitUntilPortsDisappear(
                base_url=self.local_realm.lfclient_url,
                port_list=del_sta_names,
                debug=True)
            print("Ports Successfully Cleaned up")
            return 0
        except:
            print("Ports Successfully Cleaned up")
        time.sleep(5)
        return 0
class SingleClient(LFCliBase):
    def __init__(self,
                 host,
                 port,
                 _dut_ssid="jedway-open-1",
                 _dut_passwd="NA",
                 _dut_bssid="",
                 _user="",
                 _passwd="",
                 _sta_mode="0",
                 _radio="wiphy0",
                 _resource=1,
                 _upstream_resource=1,
                 _upstream_port="eth1",
                 _sta_name=None,
                 debug_=False,
                 _dut_security=OPEN,
                 _exit_on_error=False,
                 _cleanup_on_exit=True,
                 _runtime_sec=60,
                 _exit_on_fail=False):
        # do not use `super(LFCLiBase,self).__init__(self, host, port, _debugOn)
        # that is py2 era syntax and will force self into the host variable, making you
        # very confused.
        super().__init__(host,
                         port,
                         _debug=debug_,
                         _halt_on_error=_exit_on_error,
                         _exit_on_fail=_exit_on_fail)
        self.debug = debug_
        self.dut_security = _dut_security
        self.dut_ssid = _dut_ssid
        self.dut_passwd = _dut_passwd
        self.dut_bssid = _dut_bssid
        self.user = _user
        self.passwd = _passwd
        self.sta_mode = _sta_mode  # See add_sta LANforge CLI users guide entry
        self.radio = _radio
        self.resource = _resource
        self.upstream_resource = _upstream_resource
        self.upstream_port = _upstream_port
        self.runtime_secs = _runtime_sec
        self.cleanup_on_exit = _cleanup_on_exit
        self.sta_url_map = None  # defer construction
        self.upstream_url = None  # defer construction
        self.station_names = []
        if _sta_name is not None:
            self.station_names = [_sta_name]
        # self.localrealm :Realm = Realm(lfclient_host=host, lfclient_port=port) # py > 3.6
        self.localrealm = Realm(lfclient_host=host,
                                lfclient_port=port)  # py > 3.6
        self.resulting_stations = {}
        self.resulting_endpoints = {}
        self.station_profile = None
        self.l3_udp_profile = None
        self.l3_tcp_profile = None

    # def get_realm(self) -> Realm: # py > 3.6
    def get_realm(self):
        return self.localrealm

    def get_station_url(self, sta_name_=None):
        if sta_name_ is None:
            raise ValueError("get_station_url wants a station name")
        if self.sta_url_map is None:
            self.sta_url_map = {}
            for sta_name in self.station_names:
                self.sta_url_map[sta_name] = "port/1/%s/%s" % (self.resource,
                                                               sta_name)
        return self.sta_url_map[sta_name_]

    def get_upstream_url(self):
        if self.upstream_url is None:
            self.upstream_url = "port/1/%s/%s" % (self.upstream_resource,
                                                  self.upstream_port)
        return self.upstream_url

    # Compare pre-test values to post-test values
    def compare_vals(self, name, postVal, print_pass=False, print_fail=True):
        # print(f"Comparing {name}")
        if postVal > 0:
            self._pass("%s %s" % (name, postVal), print_pass)
        else:
            self._fail("%s did not report traffic: %s" % (name, postVal),
                       print_fail)

    def remove_stations(self):
        for name in self.station_names:
            LFUtils.removePort(self.resource, name, self.lfclient_url)

    def num_associated(self, bssid):
        counter = 0
        # print("there are %d results" % len(self.station_results))
        fields = "_links,port,alias,ip,ap,port+type"
        self.station_results = self.localrealm.find_ports_like("sta*",
                                                               fields,
                                                               debug_=False)
        if (self.station_results is None) or (len(self.station_results) < 1):
            self.get_failed_result_list()
        for eid, record in self.station_results.items():
            #print("-- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- ")
            #pprint(eid)
            #pprint(record)
            if record["ap"] == bssid:
                counter += 1
            #print("-- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- ")
        return counter

    def clear_test_results(self):
        self.resulting_stations = {}
        self.resulting_endpoints = {}
        super().clear_test_results()
        #super(StaConnect, self).clear_test_results().test_results.clear()

    def setup(self):
        self.clear_test_results()
        self.check_connect()
        upstream_json = self.json_get("%s?fields=alias,phantom,down,port,ip" %
                                      self.get_upstream_url(),
                                      debug_=False)

        if upstream_json is None:
            self._fail(message="Unable to query %s, bye" % self.upstream_port,
                       print_=True)
            return False

        if upstream_json['interface']['ip'] == "0.0.0.0":
            if self.debug:
                pprint.pprint(upstream_json)
            self._fail("Warning: %s lacks ip address" %
                       self.get_upstream_url(),
                       print_=True)
            return False

        # remove old stations
        print("Removing old stations")
        for sta_name in self.station_names:
            sta_url = self.get_station_url(sta_name)
            response = self.json_get(sta_url)
            if (response is not None) and (response["interface"] is not None):
                for sta_name in self.station_names:
                    LFUtils.removePort(self.resource, sta_name,
                                       self.lfclient_url)
        LFUtils.wait_until_ports_disappear(self.lfclient_url,
                                           self.station_names)

        # Create stations and turn dhcp on
        self.station_profile = self.localrealm.new_station_profile()

        if self.dut_security == WPA2:
            self.station_profile.use_security(security_type="wpa2",
                                              ssid=self.dut_ssid,
                                              passwd=self.dut_passwd)
        elif self.dut_security == WPA:
            self.station_profile.use_security(security_type="wpa",
                                              ssid=self.dut_ssid,
                                              passwd=self.dut_passwd)
        elif self.dut_security == OPEN:
            self.station_profile.use_security(security_type="open",
                                              ssid=self.dut_ssid,
                                              passwd="[BLANK]")
        elif self.dut_security == WPA:
            self.station_profile.use_security(security_type="wpa",
                                              ssid=self.dut_ssid,
                                              passwd=self.dut_passwd)
        elif self.dut_security == WEP:
            self.station_profile.use_security(security_type="wep",
                                              ssid=self.dut_ssid,
                                              passwd=self.dut_passwd)
        self.station_profile.set_command_flag("add_sta", "create_admin_down",
                                              1)

        print("Adding new stations ", end="")
        self.station_profile.create(radio=self.radio,
                                    sta_names_=self.station_names,
                                    up_=False,
                                    debug=self.debug,
                                    suppress_related_commands_=True)
        LFUtils.wait_until_ports_appear(self.lfclient_url,
                                        self.station_names,
                                        debug=self.debug)

    def start(self):
        if self.station_profile is None:
            self._fail("Incorrect setup")
        pprint.pprint(self.station_profile)
        if self.station_profile.up is None:
            self._fail("Incorrect station profile, missing profile.up")
        if self.station_profile.up == False:
            print("\nBringing ports up...")
            data = {
                "shelf": 1,
                "resource": self.resource,
                "port": "ALL",
                "probe_flags": 1
            }
            self.json_post("/cli-json/nc_show_ports", data)
            self.station_profile.admin_up()
            LFUtils.waitUntilPortsAdminUp(self.resource, self.lfclient_url,
                                          self.station_names)

        # station_info = self.jsonGet(self.mgr_url, "%s?fields=port,ip,ap" % (self.getStaUrl()))
        duration = 0
        maxTime = 100
        ip = "0.0.0.0"
        ap = ""
        print("Waiting for %s stations to associate to AP: " %
              len(self.station_names),
              end="")
        connected_stations = {}
        while (len(connected_stations.keys()) < len(
                self.station_names)) and (duration < maxTime):
            duration += 3
            time.sleep(10)
            print(".", end="")
            for sta_name in self.station_names:
                sta_url = self.get_station_url(sta_name)
                station_info = self.json_get(sta_url + "?fields=port,ip,ap")

                # LFUtils.debug_printer.pprint(station_info)
                if (station_info is not None) and ("interface"
                                                   in station_info):
                    if "ip" in station_info["interface"]:
                        ip = station_info["interface"]["ip"]
                    if "ap" in station_info["interface"]:
                        ap = station_info["interface"]["ap"]

                if (ap == "Not-Associated") or (ap == ""):
                    if self.debug:
                        print(" -%s," % sta_name, end="")
                else:
                    if ip == "0.0.0.0":
                        if self.debug:
                            print(" %s (0.0.0.0)" % sta_name, end="")
                    else:
                        connected_stations[sta_name] = sta_url
            data = {
                "shelf": 1,
                "resource": self.resource,
                "port": "ALL",
                "probe_flags": 1
            }
            self.json_post("/cli-json/nc_show_ports", data)

        for sta_name in self.station_names:
            sta_url = self.get_station_url(sta_name)
            station_info = self.json_get(sta_url)  # + "?fields=port,ip,ap")
            if station_info is None:
                print("unable to query %s" % sta_url)
            self.resulting_stations[sta_url] = station_info
            ap = station_info["interface"]["ap"]
            ip = station_info["interface"]["ip"]
            if (ap != "") and (ap != "Not-Associated"):
                print(" %s +AP %s, " % (sta_name, ap), end="")
                if self.dut_bssid != "":
                    if self.dut_bssid.lower() == ap.lower():
                        self._pass(sta_name + " connected to BSSID: " + ap)
                        # self.test_results.append("PASSED: )
                        # print("PASSED: Connected to BSSID: "+ap)
                    else:
                        self._fail(
                            "%s connected to wrong BSSID, requested: %s  Actual: %s"
                            % (sta_name, self.dut_bssid, ap))
            else:
                self._fail(sta_name + " did not connect to AP")
                return False

            if ip == "0.0.0.0":
                self._fail("%s did not get an ip. Ending test" % sta_name)
            else:
                self._pass("%s connected to AP: %s  With IP: %s" %
                           (sta_name, ap, ip))

        if self.passes() == False:
            if self.cleanup_on_exit:
                print("Cleaning up...")
                self.remove_stations()
            return False

    def udp_profile(self, side_a_min_bps, side_b_min_bps, side_a_min_pdu,
                    side_b_min_pdu):
        # Create UDP endpoint - Alex's code!
        self.l3_udp_tput_profile = self.localrealm.new_l3_cx_profile()
        self.l3_udp_tput_profile.side_a_min_bps = side_a_min_bps
        self.l3_udp_tput_profile.side_b_min_bps = side_b_min_bps
        self.l3_udp_tput_profile.side_a_min_pdu = side_a_min_pdu
        self.l3_udp_tput_profile.side_b_min_pdu = side_b_min_pdu
        self.l3_udp_tput_profile.report_timer = 1000
        self.l3_udp_tput_profile.name_prefix = "udp"
        self.l3_udp_tput_profile.create(
            endp_type="lf_udp",
            side_a=list(self.localrealm.find_ports_like("tput+")),
            side_b="%d.%s" % (self.resource, self.upstream_port),
            suppress_related_commands=True)

    def tcp_profile(self, side_a_min_bps, side_b_min_bps):
        # Create TCP endpoints - original code!
        self.l3_tcp_tput_profile = self.localrealm.new_l3_cx_profile()
        self.l3_tcp_tput_profile.side_a_min_bps = side_a_min_bps
        self.l3_tcp_tput_profile.side_b_min_bps = side_b_min_bps
        self.l3_tcp_tput_profile.name_prefix = "tcp"
        self.l3_tcp_tput_profile.report_timer = 1000
        self.l3_tcp_tput_profile.create(
            endp_type="lf_tcp",
            side_a=list(self.localrealm.find_ports_like("tput+")),
            side_b="%d.%s" % (self.resource, self.upstream_port),
            suppress_related_commands=True)

    # Start UDP Downstream Traffic
    def udp_throughput(self):
        print("\nStarting UDP Traffic")
        self.l3_udp_tput_profile.start_cx()
        time.sleep(1)
        self.l3_udp_tput_profile.refresh_cx()

    def tcp_throughput(self):
        print("\nStarting TCP Traffic")
        self.l3_tcp_tput_profile.start_cx()
        time.sleep(1)
        self.l3_tcp_tput_profile.refresh_cx()

    def udp_stop(self):
        # stop cx traffic
        print("Stopping CX Traffic")
        self.l3_udp_tput_profile.stop_cx()

        # Refresh stats
        print("\nRefresh CX stats")
        self.l3_udp_tput_profile.refresh_cx()

        print("Sleeping for 5 seconds")
        time.sleep(5)

        # get data for endpoints JSON
        return self.collect_client_stats(self.l3_udp_tput_profile.created_cx)
        # print("\n")

    def tcp_stop(self):
        # stop cx traffic
        print("Stopping CX Traffic")
        self.l3_tcp_tput_profile.stop_cx()

        # Refresh stats
        print("\nRefresh CX stats")
        self.l3_tcp_tput_profile.refresh_cx()

        print("Sleeping for 5 seconds")
        time.sleep(5)

        # get data for endpoints JSON
        return self.collect_client_stats(self.l3_tcp_tput_profile.created_cx)
        # print("\n")

    # New Endpoint code to print TX and RX numbers
    def collect_client_stats(self, endp_map):
        print("Collecting Data")
        fields = "?fields=name,tx+bytes,rx+bytes"
        for (cx_name, endps) in endp_map.items():
            try:
                endp_url = "/endp/%s%s" % (endps[0], fields)
                endp_json = self.json_get(endp_url)
                self.resulting_endpoints[endp_url] = endp_json
                ptest_a_tx = endp_json['endpoint']['tx bytes']
                ptest_a_rx = endp_json['endpoint']['rx bytes']

                # ptest = self.json_get("/endp/%s?fields=tx+bytes,rx+bytes" % cx_names[cx_name]["b"])
                endp_url = "/endp/%s%s" % (endps[1], fields)
                endp_json = self.json_get(endp_url)
                self.resulting_endpoints[endp_url] = endp_json
                ptest_b_tx = endp_json['endpoint']['tx bytes']
                ptest_b_rx = endp_json['endpoint']['rx bytes']

                byte_values = []
                byte_values.append("Station TX: " + str(ptest_a_tx))
                byte_values.append("Station RX: " + str(ptest_a_rx))
                byte_values.append("AP TX: " + str(ptest_b_tx))
                byte_values.append("AP RX: " + str(ptest_b_rx))

                return byte_values

            except Exception as e:
                self.error(e)

    def cleanup_udp(self):
        # remove all endpoints and cxs
        if self.cleanup_on_exit:
            for sta_name in self.station_names:
                LFUtils.removePort(self.resource, sta_name, self.lfclient_url)
            curr_endp_names = []
            removeCX(self.lfclient_url,
                     self.l3_udp_tput_profile.get_cx_names())
            for (cx_name,
                 endp_names) in self.l3_udp_tput_profile.created_cx.items():
                curr_endp_names.append(endp_names[0])
                curr_endp_names.append(endp_names[1])
            removeEndps(self.lfclient_url, curr_endp_names, debug=self.debug)

    def cleanup_tcp(self):
        # remove all endpoints and cxs
        if self.cleanup_on_exit:
            for sta_name in self.station_names:
                LFUtils.removePort(self.resource, sta_name, self.lfclient_url)
            curr_endp_names = []
            removeCX(self.lfclient_url,
                     self.l3_tcp_tput_profile.get_cx_names())
            for (cx_name,
                 endp_names) in self.l3_tcp_tput_profile.created_cx.items():
                curr_endp_names.append(endp_names[0])
                curr_endp_names.append(endp_names[1])
            removeEndps(self.lfclient_url, curr_endp_names, debug=self.debug)

    def cleanup(self):
        # remove all endpoints and cxs
        if self.cleanup_on_exit:
            for sta_name in self.station_names:
                LFUtils.removePort(self.resource, sta_name, self.lfclient_url)
            curr_endp_names = []
            removeCX(self.lfclient_url,
                     self.l3_tcp_tput_profile.get_cx_names())
            removeCX(self.lfclient_url,
                     self.l3_udp_tput_profile.get_cx_names())
            for (cx_name,
                 endp_names) in self.l3_tcp_tput_profile.created_cx.items():
                curr_endp_names.append(endp_names[0])
                curr_endp_names.append(endp_names[1])
            for (cx_name,
                 endp_names) in self.l3_udp_tput_profile.created_cx.items():
                curr_endp_names.append(endp_names[0])
                curr_endp_names.append(endp_names[1])
            removeEndps(self.lfclient_url, curr_endp_names, debug=self.debug)

    def udp_unidirectional(self, side_a_min_bps, side_b_min_bps,
                           side_a_min_pdu, side_b_min_pdu, direction,
                           values_line):
        self.udp_profile(side_a_min_bps, side_b_min_bps, side_a_min_pdu,
                         side_b_min_pdu)
        self.start()
        print("Running", direction,
              "Traffic for %s seconds" % self.runtime_secs)
        self.udp_throughput()
        print("napping %f sec" % self.runtime_secs)
        time.sleep(self.runtime_secs)
        values = self.udp_stop()
        print(values)
        # Get value required for measurement
        bytes = values[values_line]
        # Get value in Bits and convert to Mbps
        bits = (int(bytes.split(": ", 1)[1])) * 8
        mpbs = round((bits / 1000000) / self.runtime_secs, 2)
        return mpbs

    def tcp_unidirectional(self, side_a_min_bps, side_b_min_bps, direction,
                           values_line):
        self.tcp_profile(side_a_min_bps, side_b_min_bps)
        self.start()
        print("Running", direction,
              "Traffic for %s seconds" % self.runtime_secs)
        self.tcp_throughput()
        print("napping %f sec" % self.runtime_secs)
        time.sleep(self.runtime_secs)
        values = self.tcp_stop()
        print(values)
        # Get value required for measurement
        bytes = values[values_line]
        # Get value in Bits and convert to Mbps
        bits = (int(bytes.split(": ", 1)[1])) * 8
        mpbs = round((bits / 1000000) / self.runtime_secs, 2)
        return mpbs

    def throughput_csv(csv_file, ssid_name, ap_model, firmware, security,
                       udp_ds, udp_us, tcp_ds, tcp_us):
        # Find band for CSV ---> This code is not great, it SHOULD get that info from LANForge!
        if "5G" in ssid_name:
            frequency = "5 GHz"

        elif "2dot4G" in ssid_name:
            frequency = "2.4 GHz"

        else:
            frequency = "Unknown"

        # Append row to top of CSV file
        row = [
            ap_model, firmware, frequency, security, udp_ds, udp_us, tcp_ds,
            tcp_us
        ]

        with open(csv_file, 'r') as readFile:
            reader = csv.reader(readFile)
            lines = list(reader)
            lines.insert(1, row)

        with open(csv_file, 'w') as writeFile:
            writer = csv.writer(writeFile)
            writer.writerows(lines)

        readFile.close()
        writeFile.close()
Exemplo n.º 5
0
class StaConnect2(LFCliBase):
    def __init__(self,
                 host,
                 port,
                 _dut_ssid="jedway-open-1",
                 _dut_passwd="NA",
                 _dut_bssid="",
                 _user="",
                 _passwd="",
                 _sta_mode="0",
                 _radio="wiphy0",
                 _resource=1,
                 _upstream_resource=1,
                 _upstream_port="eth1",
                 _sta_name=None,
                 _sta_prefix='sta',
                 _bringup_time_sec=300,
                 debug_=False,
                 _dut_security=OPEN,
                 _exit_on_error=False,
                 _cleanup_on_exit=True,
                 _clean_all_sta=False,
                 _runtime_sec=60,
                 _exit_on_fail=False):
        # do not use `super(LFCLiBase,self).__init__(self, host, port, _debugOn)
        # that is py2 era syntax and will force self into the host variable, making you
        # very confused.
        super().__init__(host,
                         port,
                         _debug=debug_,
                         _halt_on_error=_exit_on_error,
                         _exit_on_fail=_exit_on_fail)
        self.debug = debug_
        self.dut_security = _dut_security
        self.dut_ssid = _dut_ssid
        self.dut_passwd = _dut_passwd
        self.dut_bssid = _dut_bssid
        self.user = _user
        self.passwd = _passwd
        self.sta_mode = _sta_mode  # See add_sta LANforge CLI users guide entry
        self.radio = _radio
        self.resource = _resource
        self.upstream_resource = _upstream_resource
        self.upstream_port = _upstream_port
        self.runtime_secs = _runtime_sec
        self.cleanup_on_exit = _cleanup_on_exit
        self.clean_all_sta = _clean_all_sta
        self.sta_url_map = None  # defer construction
        self.upstream_url = None  # defer construction
        self.station_names = []
        if _sta_name is not None:
            self.station_names = [_sta_name]
        self.sta_prefix = _sta_prefix
        self.bringup_time_sec = _bringup_time_sec
        # self.localrealm :Realm = Realm(lfclient_host=host, lfclient_port=port) # py > 3.6
        self.localrealm = Realm(lfclient_host=host,
                                lfclient_port=port)  # py > 3.6
        self.resulting_stations = {}
        self.resulting_endpoints = {}
        self.station_profile = None
        self.l3_udp_profile = None
        self.l3_tcp_profile = None

    # def get_realm(self) -> Realm: # py > 3.6
    def get_realm(self):
        return self.localrealm

    def get_station_url(self, sta_name_=None):
        if sta_name_ is None:
            raise ValueError("get_station_url wants a station name")
        if self.sta_url_map is None:
            self.sta_url_map = {}
            for sta_name in self.station_names:
                self.sta_url_map[sta_name] = "port/1/%s/%s" % (self.resource,
                                                               sta_name)
        return self.sta_url_map[sta_name_]

    def get_upstream_url(self):
        if self.upstream_url is None:
            self.upstream_url = "port/1/%s/%s" % (self.upstream_resource,
                                                  self.upstream_port)
        return self.upstream_url

    # Compare pre-test values to post-test values
    def compare_vals(self, name, postVal, print_pass=False, print_fail=True):
        # print(f"Comparing {name}")
        if postVal > 0:
            self._pass("%s %s" % (name, postVal), print_pass)
        else:
            self._fail("%s did not report traffic: %s" % (name, postVal),
                       print_fail)

    def remove_stations(self):
        for name in self.station_names:
            LFUtils.removePort(self.resource, name, self.lfclient_url)

    def num_associated(self, bssid):
        counter = 0
        # print("there are %d results" % len(self.station_results))
        fields = "_links,port,alias,ip,ap,port+type"
        self.station_results = self.localrealm.find_ports_like("%s*" %
                                                               self.sta_prefix,
                                                               fields,
                                                               debug_=False)
        if (self.station_results is None) or (len(self.station_results) < 1):
            self.get_failed_result_list()
        for eid, record in self.station_results.items():
            #print("-- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- ")
            #pprint(eid)
            #pprint(record)
            if record["ap"] == bssid:
                counter += 1
            #print("-- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- ")
        return counter

    def clear_test_results(self):
        self.resulting_stations = {}
        self.resulting_endpoints = {}
        super().clear_test_results()
        #super(StaConnect, self).clear_test_results().test_results.clear()

    def setup(self):
        self.clear_test_results()
        self.check_connect()
        upstream_json = self.json_get("%s?fields=alias,phantom,down,port,ip" %
                                      self.get_upstream_url(),
                                      debug_=False)

        if upstream_json is None:
            self._fail(message="Unable to query %s, bye" % self.upstream_port,
                       print_=True)
            return False

        if upstream_json['interface']['ip'] == "0.0.0.0":
            if self.debug:
                pprint.pprint(upstream_json)
            self._fail("Warning: %s lacks ip address" %
                       self.get_upstream_url(),
                       print_=True)
            return False

        # remove old stations
        if self.clean_all_sta:
            print("Removing all stations on resource.")
            self.localrealm.remove_all_stations(self.resource)
        else:
            print("Removing old stations to be created by this test.")
            for sta_name in self.station_names:
                sta_url = self.get_station_url(sta_name)
                response = self.json_get(sta_url)
                if (response is not None) and (response["interface"]
                                               is not None):
                    for sta_name in self.station_names:
                        LFUtils.removePort(self.resource, sta_name,
                                           self.lfclient_url)
            LFUtils.wait_until_ports_disappear(self.lfclient_url,
                                               self.station_names)

        # Create stations and turn dhcp on
        self.station_profile = self.localrealm.new_station_profile()

        if self.dut_security == WPA2:
            self.station_profile.use_security(security_type="wpa2",
                                              ssid=self.dut_ssid,
                                              passwd=self.dut_passwd)
        elif self.dut_security == OPEN:
            self.station_profile.use_security(security_type="open",
                                              ssid=self.dut_ssid,
                                              passwd="[BLANK]")
        elif self.dut_security == WPA:
            self.station_profile.use_security(security_type="wpa",
                                              ssid=self.dut_ssid,
                                              passwd=self.dut_passwd)
        elif self.dut_security == WEP:
            self.station_profile.use_security(security_type="wep",
                                              ssid=self.dut_ssid,
                                              passwd=self.dut_passwd)
        self.station_profile.set_command_flag("add_sta", "create_admin_down",
                                              1)

        print("Adding new stations ", end="")
        self.station_profile.create(radio=self.radio,
                                    sta_names_=self.station_names,
                                    up_=False,
                                    debug=self.debug,
                                    suppress_related_commands_=True)
        LFUtils.wait_until_ports_appear(self.lfclient_url,
                                        self.station_names,
                                        debug=self.debug)

        # Create UDP endpoints
        self.l3_udp_profile = self.localrealm.new_l3_cx_profile()
        self.l3_udp_profile.side_a_min_bps = 128000
        self.l3_udp_profile.side_b_min_bps = 128000
        self.l3_udp_profile.side_a_min_pdu = 1200
        self.l3_udp_profile.side_b_min_pdu = 1500
        self.l3_udp_profile.report_timer = 1000
        self.l3_udp_profile.name_prefix = "udp"
        port_list = list(
            self.localrealm.find_ports_like("%s+" % self.sta_prefix))
        if (port_list is None) or (len(port_list) < 1):
            raise ValueError("Unable to find ports named '%s'+" %
                             self.sta_prefix)
        self.l3_udp_profile.create(endp_type="lf_udp",
                                   side_a=port_list,
                                   side_b="%d.%s" %
                                   (self.resource, self.upstream_port),
                                   suppress_related_commands=True)

        # Create TCP endpoints
        self.l3_tcp_profile = self.localrealm.new_l3_cx_profile()
        self.l3_tcp_profile.side_a_min_bps = 128000
        self.l3_tcp_profile.side_b_min_bps = 56000
        self.l3_tcp_profile.name_prefix = "tcp"
        self.l3_tcp_profile.report_timer = 1000
        self.l3_tcp_profile.create(
            endp_type="lf_tcp",
            side_a=list(
                self.localrealm.find_ports_like("%s+" % self.sta_prefix)),
            side_b="%d.%s" % (self.resource, self.upstream_port),
            suppress_related_commands=True)

    def start(self):
        if self.station_profile is None:
            self._fail("Incorrect setup")
        pprint.pprint(self.station_profile)
        if self.station_profile.up is None:
            self._fail("Incorrect station profile, missing profile.up")
        if self.station_profile.up == False:
            print("\nBringing ports up...")
            data = {
                "shelf": 1,
                "resource": self.resource,
                "port": "ALL",
                "probe_flags": 1
            }
            self.json_post("/cli-json/nc_show_ports", data)
            self.station_profile.admin_up()
            LFUtils.waitUntilPortsAdminUp(self.resource, self.lfclient_url,
                                          self.station_names)

        # station_info = self.jsonGet(self.mgr_url, "%s?fields=port,ip,ap" % (self.getStaUrl()))
        duration = 0
        maxTime = self.bringup_time_sec
        ip = "0.0.0.0"
        ap = ""
        print("Waiting for %s stations to associate to AP: " %
              len(self.station_names),
              end="")
        connected_stations = {}
        while (len(connected_stations.keys()) < len(
                self.station_names)) and (duration < maxTime):
            duration += 3
            time.sleep(3)
            print(".", end="")
            for sta_name in self.station_names:
                sta_url = self.get_station_url(sta_name)
                station_info = self.json_get(sta_url + "?fields=port,ip,ap")

                # LFUtils.debug_printer.pprint(station_info)
                if (station_info is not None) and ("interface"
                                                   in station_info):
                    if "ip" in station_info["interface"]:
                        ip = station_info["interface"]["ip"]
                    if "ap" in station_info["interface"]:
                        ap = station_info["interface"]["ap"]

                if (ap == "Not-Associated") or (ap == ""):
                    if self.debug:
                        print(" -%s," % sta_name, end="")
                else:
                    if ip == "0.0.0.0":
                        if self.debug:
                            print(" %s (0.0.0.0)" % sta_name, end="")
                    else:
                        connected_stations[sta_name] = sta_url
            data = {
                "shelf": 1,
                "resource": self.resource,
                "port": "ALL",
                "probe_flags": 1
            }
            self.json_post("/cli-json/nc_show_ports", data)

        for sta_name in self.station_names:
            sta_url = self.get_station_url(sta_name)
            station_info = self.json_get(sta_url)  # + "?fields=port,ip,ap")
            if station_info is None:
                print("unable to query %s" % sta_url)
            self.resulting_stations[sta_url] = station_info
            ap = station_info["interface"]["ap"]
            ip = station_info["interface"]["ip"]
            if (ap != "") and (ap != "Not-Associated"):
                print(" %s +AP %s, " % (sta_name, ap), end="")
                if self.dut_bssid != "":
                    if self.dut_bssid.lower() == ap.lower():
                        self._pass(sta_name + " connected to BSSID: " + ap)
                        # self.test_results.append("PASSED: )
                        # print("PASSED: Connected to BSSID: "+ap)
                    else:
                        self._fail(
                            "%s connected to wrong BSSID, requested: %s  Actual: %s"
                            % (sta_name, self.dut_bssid, ap))
            else:
                self._fail(sta_name + " did not connect to AP")
                return False

            if ip == "0.0.0.0":
                self._fail("%s did not get an ip. Ending test" % sta_name)
            else:
                self._pass("%s connected to AP: %s  With IP: %s" %
                           (sta_name, ap, ip))

        if self.passes() == False:
            if self.cleanup_on_exit:
                print("Cleaning up...")
                self.remove_stations()
            return False

        # start cx traffic
        print("\nStarting CX Traffic")
        self.l3_udp_profile.start_cx()
        self.l3_tcp_profile.start_cx()
        time.sleep(1)
        # Refresh stats
        self.l3_udp_profile.refresh_cx()
        self.l3_tcp_profile.refresh_cx()

    def collect_endp_stats(self, endp_map):
        print("Collecting Data")
        fields = "?fields=name,tx+bytes,rx+bytes"
        for (cx_name, endps) in endp_map.items():
            try:
                endp_url = "/endp/%s%s" % (endps[0], fields)
                endp_json = self.json_get(endp_url)
                self.resulting_endpoints[endp_url] = endp_json
                ptest_a_tx = endp_json['endpoint']['tx bytes']
                ptest_a_rx = endp_json['endpoint']['rx bytes']

                #ptest = self.json_get("/endp/%s?fields=tx+bytes,rx+bytes" % cx_names[cx_name]["b"])
                endp_url = "/endp/%s%s" % (endps[1], fields)
                endp_json = self.json_get(endp_url)
                self.resulting_endpoints[endp_url] = endp_json

                ptest_b_tx = endp_json['endpoint']['tx bytes']
                ptest_b_rx = endp_json['endpoint']['rx bytes']

                self.compare_vals("testTCP-A TX", ptest_a_tx)
                self.compare_vals("testTCP-A RX", ptest_a_rx)

                self.compare_vals("testTCP-B TX", ptest_b_tx)
                self.compare_vals("testTCP-B RX", ptest_b_rx)

            except Exception as e:
                self.error(e)

    def stop(self):
        # stop cx traffic
        print("Stopping CX Traffic")
        self.l3_udp_profile.stop_cx()
        self.l3_tcp_profile.stop_cx()

        # Refresh stats
        print("\nRefresh CX stats")
        self.l3_udp_profile.refresh_cx()
        self.l3_tcp_profile.refresh_cx()

        print("Sleeping for 5 seconds")
        time.sleep(5)

        # get data for endpoints JSON
        self.collect_endp_stats(self.l3_udp_profile.created_cx)
        self.collect_endp_stats(self.l3_tcp_profile.created_cx)
        # print("\n")

    def cleanup(self):
        # remove all endpoints and cxs
        if self.cleanup_on_exit:
            for sta_name in self.station_names:
                LFUtils.removePort(self.resource, sta_name, self.lfclient_url)
            curr_endp_names = []
            removeCX(self.lfclient_url, self.l3_udp_profile.get_cx_names())
            removeCX(self.lfclient_url, self.l3_tcp_profile.get_cx_names())
            for (cx_name,
                 endp_names) in self.l3_udp_profile.created_cx.items():
                curr_endp_names.append(endp_names[0])
                curr_endp_names.append(endp_names[1])
            for (cx_name,
                 endp_names) in self.l3_tcp_profile.created_cx.items():
                curr_endp_names.append(endp_names[0])
                curr_endp_names.append(endp_names[1])
            removeEndps(self.lfclient_url, curr_endp_names, debug=self.debug)