NetAlertX/front/plugins/omada_sdn_imp/omada_sdn.py

#!/usr/bin/env python
__author__ = "ffsb"
__version__ = "0.1"  #initial
__version__ = "0.2"  # added logic to retry omada api call once as it seems to sometimes fail for some reasons, and error handling logic...
__version__ = "0.3"  # split devices API calls to allow multithreading but had to stop due to concurency issues.
__version__ = "0.6"  # found issue with multithreading - my omada calls redirect stdout which gets clubbered by normal stdout... not sure how to fix for now...
__version__ = "0.7"  # avoid updating omada sdn client name when it is the MAC, and naxname is also the same MAC...
__version__ = "1.0"  # fixed the timzone mylog issue by resetting the tz value at the begining of the script... I suspect it doesn't inherit the tz from the main.
__version__ = "1.1"  # added logic to handle gracefully a failure of omada devices so it won't try to populate uplinks on non-existent switches and AP.
__version__ = "1.2"  # finally got multiprocessing to work to parse devices AND to update names! yeah!


# query OMADA SDN to populate NetAlertX witch omada switches, access points, clients.
# try to identify and populate their connections by switch/accesspoints and ports/SSID
# try to differentiate root bridges from accessory 


#
# sample code to update unbound on opnsense - for reference...
# curl -X POST -d '{"host":{"enabled":"1","hostname":"test","domain":"testdomain.com","rr":"A","mxprio":"","mx":"","server":"10.0.1.1","description":""}}' -H "Content-Type: application/json" -k -u $OPNS_KEY:$OPNS_SECRET https://$IPFW/api/unbound/settings/AddHostOverride
#
import os
import pathlib
import sys
import json
import sqlite3
import tplink_omada_client
import importlib.util
import time
import io
import re
#import concurrent.futures
import subprocess
import multiprocessing
 

#import netifaces

# Define the installation path and extend the system path for plugin imports
INSTALL_PATH = "/app"
sys.path.extend([f"{INSTALL_PATH}/front/plugins", f"{INSTALL_PATH}/server"])

from plugin_helper import Plugin_Object, Plugin_Objects, decodeBase64
from plugin_utils import get_plugins_configs
from logger import mylog
from const import pluginsPath, fullDbPath
from helper import timeNowTZ, get_setting_value 
from notification import write_notification
from pytz import timezone
import conf
conf.tz = timezone(get_setting_value('TIMEZONE'))
PARALLELISM = 4

# Define the current path and log file paths
CUR_PATH = str(pathlib.Path(__file__).parent.resolve())
LOG_FILE = os.path.join(CUR_PATH, 'script.log')
RESULT_FILE = os.path.join(CUR_PATH, 'last_result.log')
OMADA_API_RETURN_FILE = os.path.join(CUR_PATH, 'omada_api_return')

# Initialize the Plugin obj output file
plugin_objects = Plugin_Objects(RESULT_FILE)
#
# sample target output:
#  0 MAC, 1 IP, 2 Name, 3 switch/AP, 4 port/SSID, 5 TYPE    
#17:27:10 [<unique_prefix>] token: "['1A-2B-3C-4D-5E-6F', '192.168.0.217', '1A-2B-3C-4D-5E-6F', '17', '40-AE-30-A5-A7-50, 'Switch']"
    
# Constants for array indices
MAC, IP, NAME, SWITCH_AP, PORT_SSID, TYPE = range(6)

# sample omada devices input format:
# 
#  0.MAC                    1.IP    2.type  3.status           4.name              5.model
#40-AE-30-A5-A7-50    192.168.0.11      ap CONNECTED        office_Access_point         EAP773(US) v1.0
#B0-95-75-46-0C-39     192.168.0.4  switch CONNECTED        pantry12             T1600G-52PS v4.0
dMAC, dIP, dTYPE, dSTATUS, dNAME, dMODEL = range(6) 

# sample omada clients input format:
#  0 MAC, 1 IP, 2 Name, 3 switch/AP, 4 port/SSID, 
#17:27:10 [<unique_prefix>] token: "['1A-2B-3C-4D-5E-6F', '192.168.0.217', '1A-2B-3C-4D-5E-6F', 'myssid_name2', '(office_Access_point)']"
#17:27:10 [<unique_prefix>] token: "['1A-2B-3C-4D-5E-01', '192.168.0.153', 'frontyard_ESP_29E753', 'pantry12', '(48)']"
#17:27:10 [<unique_prefix>] token: "['1A-2B-3C-4D-5E-02', '192.168.0.1', 'bastion', 'office24', '(23)']"
#17:27:10 [<unique_prefix>] token: "['1A-2B-3C-4D-5E-03', '192.168.0.226', 'brick', 'myssid_name3', '(office_Access_point)']"
cMAC, cIP, cNAME, cSWITCH_AP, cPORT_SSID = range(5)

OMDLOGLEVEL = 'debug'
pluginName = 'OMDSDN'
#
# translate MAC address from standard ieee model to ietf draft
# AA-BB-CC-DD-EE-FF to aa:bb:cc:dd:ee:ff
# tplink adheres to ieee,  Nax adheres to ietf
def ieee2ietf_mac_formater(inputmac):
    return(inputmac.lower().replace('-',':'))

def ietf2ieee_mac_formater(inputmac):
    return(inputmac.upper().replace(':','-'))

def get_mac_from_IP(target_IP):
    from scapy.all import ARP, Ether, srp
    try:
        arp_request = ARP(pdst=target_IP)
        ether = Ether(dst="ff:ff:ff:ff:ff:ff")
        packet = ether/arp_request
        result = srp(packet, timeout=3, verbose=0)[0]
        if result:
            return result[0][1].hwsrc
        else:
            return None
    except Exception as e:
        mylog('minimal', [f'[{pluginName}] get_mac_from_IP ERROR:{e}'])
        return None
    
    

#
# wrapper to call the omada python library's own wrapper 
# it returns the output as a multiline python string 
#
def callomada(myargs):
    arguments=" ".join(myargs)
    mylog('verbose', [f'[{pluginName}] callomada:{arguments}'])
    from tplink_omada_client.cli    import main as omada 
    from contextlib import redirect_stdout
    omada_output = ''
    retries = 2
    while omada_output == '' and retries > 1:
        retries = retries - 1
        try:
            mf = io.StringIO()
            with redirect_stdout(mf):
                bar = omada(myargs)
            omada_output = mf.getvalue()
        except Exception as e:
            mylog('minimal', [f'[{pluginName}] ERROR WHILE CALLING callomada:{arguments}\n {mf}'])
            omada_output= ''
    return(omada_output)

#
# extract all the mac addresses from a multilines text...
# return a list of MAC as 'string' 
#
def extract_mac_addresses(text):
    mac_pattern = r"([0-9A-Fa-f]{2}[:-][0-9A-Fa-f]{2}[:-][0-9A-Fa-f]{2}[:-][0-9A-Fa-f]{2}[:-][0-9A-Fa-f]{2}[:-][0-9A-Fa-f]{2})"
    mac_addresses = re.findall(mac_pattern, text)
    return ["".join(parts) for parts in mac_addresses]

def find_default_gateway_ip ():
    #import netifaces
    #gw = netifaces.gateways()
    #return(gw['default'][netifaces.AF_INET][0])
    from scapy.all import conf, Route, sr1, IP, ICMP
    default_route = conf.route.route("0.0.0.0")
    return default_route[2] if default_route[2] else None


    #return('192.168.0.1')


def add_uplink (uplink_mac, switch_mac, device_data_bymac, sadevices_linksbymac,port_byswitchmac_byclientmac):
    #mylog(OMDLOGLEVEL, [f'[{pluginName}] trying to add uplink="{uplink_mac}" to switch="{switch_mac}"'])
    #mylog(OMDLOGLEVEL, [f'[{pluginName}] before adding:"{device_data_bymac[switch_mac]}"'])
    if device_data_bymac[switch_mac][SWITCH_AP] == 'null': 
        device_data_bymac[switch_mac][SWITCH_AP] = uplink_mac
        if device_data_bymac[switch_mac][TYPE] == 'Switch' and device_data_bymac[uplink_mac][TYPE] == 'Switch':
            port_to_uplink = port_byswitchmac_byclientmac[switch_mac][uplink_mac] 
            #find_port_of_uplink_switch(switch_mac, uplink_mac)
        else:
            port_to_uplink=device_data_bymac[uplink_mac][PORT_SSID]
        device_data_bymac[switch_mac][PORT_SSID] = port_to_uplink
    #    mylog(OMDLOGLEVEL, [f'[{pluginName}] after adding:"{device_data_bymac[switch_mac]}"'])    
    for link  in sadevices_linksbymac[switch_mac]:
        if device_data_bymac[link][SWITCH_AP] == 'null' and device_data_bymac[switch_mac][TYPE] == 'Switch':
            add_uplink(switch_mac, link, device_data_bymac, sadevices_linksbymac,port_byswitchmac_byclientmac)



# ----------------------------------------------
# Main initialization
def main():
    start_time = time.time()

    mylog('verbose', [f'[{pluginName}] starting execution']) 
    from database import DB
    from device import Device_obj
    db = DB()  # instance of class DB
    db.open()
     # Create a Device_obj instance
    device_handler = Device_obj(db)
    # Retrieve configuration settings
    # these should be self-explanatory
    omada_sites = [] 
    omada_username = get_setting_value('OMDSDN_username')
    omada_password = get_setting_value('OMDSDN_password')
    omada_sites = get_setting_value('OMDSDN_sites')
    omada_site = omada_sites[0]
    omada_url = get_setting_value('OMDSDN_url')
    
    omada_login = callomada(['-t','myomada','target','--url',omada_url,'--user',omada_username,
                             '--password',omada_password,'--site',omada_site,'--set-default'])
    mylog('verbose', [f'[{pluginName}] login to omada result is: {omada_login}'])    
        
    clients_list = callomada(['-t','myomada','clients'])
    mylog('verbose', [f'[{pluginName}] clients found:"{clients_list.count("\n")}"\n{clients_list}'])    

    switches_and_aps = callomada(['-t','myomada','devices'])
    mylog('verbose', [f'[{pluginName}] omada devices (switches, access points) found:"{switches_and_aps.count("\n")}" \n  {switches_and_aps}'])    
    

    #some_setting = get_setting_value('OMDSDN_url')

    #mylog(OMDLOGLEVEL, [f'[{pluginName}] some_setting value {some_setting}'])
    mylog(OMDLOGLEVEL, [f'[{pluginName}] ffsb'])




    # retrieve data
    device_data = get_device_data(clients_list, switches_and_aps, device_handler)

    #  Process the data into native application tables
    mylog('verbose', [f'[{pluginName}] New entries to create: "{len(device_data)}"'])
    if len(device_data) > 0:

        # insert devices into the lats_result.log 
        # make sure the below mapping is mapped in config.json, for example: 
        #"database_column_definitions": [
        # {
        #   "column": "Object_PrimaryID",                 <--------- the value I save into primaryId
        #   "mapped_to_column": "cur_MAC",                <--------- gets unserted into the CurrentScan DB table column cur_MAC
        #  watched1    = 'null' ,
        #  figure a way to run my udpate script delayed

        for device in device_data:
                mylog(OMDLOGLEVEL, [f'[{pluginName}] main parsing device: "{device}"'])
                myport = device[PORT_SSID] if device[PORT_SSID].isdigit() else ''
                myssid = device[PORT_SSID] if not device[PORT_SSID].isdigit() else ''
                ParentNetworkNode = ieee2ietf_mac_formater(device[SWITCH_AP]) if device[SWITCH_AP] != 'Internet' else 'Internet'
                mymac = ieee2ietf_mac_formater(device[MAC])
                plugin_objects.add_object(
                    primaryId   = mymac,    #  MAC
                    secondaryId = device[IP],    #  IP
                    watched1    = device[NAME],    #  NAME/HOSTNAME
                    watched2    = ParentNetworkNode,    #  PARENT NETWORK NODE MAC
                    watched3    = myport,    #  PORT
                    watched4    = myssid,    #  SSID
                    extra       = device[TYPE],
                    #omada_site,    #  SITENAME (cur_NetworkSite) or VENDOR (cur_Vendor) (PICK one and adjust config.json -> "column": "Extra")
                    foreignKey  = device[MAC].lower().replace('-',':'))    #  usually MAC
                
                mylog('verbose', [f'[{pluginName}] New entries: "{mymac:<18}, {device[IP]:<16}, {device[NAME]:<63}, {ParentNetworkNode:<18}, {myport:<4}, {myssid:<32}, {device[TYPE]}"'])
        mylog('verbose', [f'[{pluginName}] New entries: "{len(device_data)}"'])

    # log result
    plugin_objects.write_result_file()
    
    #mylog(OMDLOGLEVEL, [f'[{pluginName}] TEST name from MAC: {device_handler.getValueWithMac('devName','00:e2:59:00:a0:8e')}'])  
    #mylog(OMDLOGLEVEL, [f'[{pluginName}] TEST MAC from IP: {get_mac_from_IP('192.168.0.1')} also {ietf2ieee_mac_formater(get_mac_from_IP('192.168.0.1'))}'])  
    end_time = time.time()
    mylog('verbose', [f'[{pluginName}] execution completed in {end_time - start_time:.2f} seconds'])
    

    return 0

def get_omada_devices_details(msadevice_data):
    mthisswitch = msadevice_data[dMAC]
    mtype = msadevice_data[dTYPE]
    mswitch_detail = ''
    mswitch_dump = ''
    if mtype == 'ap':
        mswitch_detail = callomada(['access-point', mthisswitch])
    elif mtype  == 'switch':        
        mswitch_detail = callomada(['switch', mthisswitch])
        mswitch_dump = callomada(['-t','myomada','switch','-d',mthisswitch])
    else:
        mswitch_detail = ''
        nswitch_dump = ''
    return mswitch_detail, mswitch_dump

def get_omada_devices_details_parallel(msadevice_data):
    mthisswitch = msadevice_data[dMAC]
    mtype = msadevice_data[dTYPE]
    mswitch_detail = ''
    mswitch_dump = ''
    if mtype == 'ap':
        mswitch_detail = subprocess.run('omada access-point '+mthisswitch, capture_output=True, text=True, shell=True).stdout
    elif mtype  == 'switch':        
        mswitch_detail = subprocess.run('omada switch '+mthisswitch, capture_output=True, text=True, shell=True).stdout
        mswitch_dump = subprocess.run('omada access-point '+mthisswitch, capture_output=True, text=True, shell=True).stdout
    else:
        mswitch_detail = ''
        mswitch_dump = ''
    return mthisswitch, mswitch_detail, mswitch_dump


# ----------------------------------------------
#  retrieve data
def get_device_data(omada_clients_output,switches_and_aps,device_handler):
    
    
    # sample omada devices input format:
    #  0.MAC                    1.IP    2.type  3.status           4.name              5.model
    #40-AE-30-A5-A7-50    192.168.0.11      ap CONNECTED        office_Access_point         EAP773(US) v1.0
    #B0-95-75-46-0C-39     192.168.0.4  switch CONNECTED        pantry12             T1600G-52PS v4.0
    #
    # sample target output:
    #  0 MAC, 1 IP, 2 Name, 3 switch/AP, 4 port/SSID, 5 TYPE    
    #17:27:10 [<unique_prefix>] token: "['1A-2B-3C-4D-5E-6F', '192.168.0.217', '1A-2B-3C-4D-5E-6F', '17', '40-AE-30-A5-A7-50, 'Switch']"
    #constants
    sadevices_macbyname = {}
    sadevices_macbymac = {}
    sadevices_linksbymac = {}
    port_byswitchmac_byclientmac = {}
    device_data_bymac = {}
    device_data_mac_byip = {}
    omada_force_overwrite = get_setting_value('OMDSDN_force_overwrite')
    switch_details = {}
    switch_dumps = {}
    '''
    command = 'which omada'
    def run_command(command, index):
        result = subprocess.run(command, capture_output=True, text=True, shell=True)
        return str(index), result.stdout.strip()
    
    myindex, command_output= run_command(command, 2)
    mylog('verbose', [f'[{pluginName}] command={command} index={myindex} results={command_output}'])
    '''
    sadevices = switches_and_aps.splitlines()
    mylog(OMDLOGLEVEL, [f'[{pluginName}] switches_and_aps rows: "{len(sadevices)}"'])
    
    with multiprocessing.Pool(processes = PARALLELISM) as mypool:
        oresults = mypool.map(get_omada_devices_details_parallel, [sadevice.split() for sadevice in sadevices])

    for thisswitch, details, dump in oresults:
        switch_details[thisswitch] = details
        switch_dumps[thisswitch] = dump
        mylog(OMDLOGLEVEL, [f'[{pluginName}] switch={thisswitch} details={details}'])
    
    '''
    for sadevice in sadevices:
        sadevice_data = sadevice.split()
        thisswitch = sadevice_data[dMAC]
        thistype = sadevice_data[dTYPE]
        switch_details[thisswitch], switch_dumps[thisswitch] = get_omada_devices_details(sadevice_data)
    '''
    
    mylog('verbose', [f'[{pluginName}] switches details collected "{len(switch_details)}"'])
    mylog('verbose', [f'[{pluginName}] dump details collected "{len(switch_details)}"'])
        
    for sadevice in sadevices:
        sadevice_data = sadevice.split()
        thisswitch = sadevice_data[dMAC]
        sadevices_macbyname[sadevice_data[4]] = thisswitch
        if sadevice_data[dTYPE] == 'ap':
            sadevice_type = 'AP'
            #sadevice_details = callomada(['access-point', thisswitch])
            sadevice_details = switch_details[thisswitch]
            if sadevice_details == '':
                sadevice_links = [thisswitch]
            else:
                sadevice_links = extract_mac_addresses(sadevice_details)
            sadevices_linksbymac[thisswitch] = sadevice_links[1:]
            #mylog(OMDLOGLEVEL, [f'[{pluginName}]adding switch details: "{sadevice_details}"'])
            #mylog(OMDLOGLEVEL, [f'[{pluginName}]links are: "{sadevice_links}"'])
            #mylog(OMDLOGLEVEL, [f'[{pluginName}]linksbymac are: "{sadevices_linksbymac[thisswitch]}"'])
        elif sadevice_data[dTYPE] == 'switch':
            sadevice_type = 'Switch'
            #sadevice_details=callomada(['switch', thisswitch])
            sadevice_details = switch_details[thisswitch]
            if sadevice_details == '':
                sadevice_links = [thisswitch]
            else:
                sadevice_links=extract_mac_addresses(sadevice_details)
            sadevices_linksbymac[thisswitch] = sadevice_links[1:]
            # recovering the list of switches connected to sadevice switch and on which port...
            #switchdump = callomada(['-t','myomada','switch','-d',thisswitch])
            switchdump = switch_dumps[thisswitch]
            mylog(OMDLOGLEVEL, [f'[{pluginName}] switchdump: {switchdump}'])
            port_byswitchmac_byclientmac[thisswitch]  = {}
            for link in sadevices_linksbymac[thisswitch]:
                port_pattern = r"(?:{[^}]*\"port\"\: )([0-9]+)(?=[^}]*"+re.escape(link)+r")"
                myport = re.findall(port_pattern, switchdump,re.DOTALL)
                #mylog(OMDLOGLEVEL, [f'[{pluginName}] switchdump: link={link} myport:{myport}'])
                port_byswitchmac_byclientmac[thisswitch][link] = myport[0] if myport else ''
            #mylog(OMDLOGLEVEL, [f'[{pluginName}]links are: "{sadevice_links}"'])
            #mylog(OMDLOGLEVEL, [f'[{pluginName}]linksbymac are: "{sadevices_linksbymac[thisswitch]}"'])
            #mylog(OMDLOGLEVEL, [f'[{pluginName}]ports of each links  are: "{port_byswitchmac_byclientmac[thisswitch]}"'])
            #mylog(OMDLOGLEVEL, [f'[{pluginName}]adding switch details: "{sadevice_details}"'])
        else:
            sadevice_type = 'null'
            sadevice_details='null'
        device_data_bymac[thisswitch] = [thisswitch, sadevice_data[dIP], sadevice_data[dNAME], 'null', 'null',sadevice_type]
        device_data_mac_byip[sadevice_data[dIP]] = thisswitch
        foo=[thisswitch, sadevice_data[1], sadevice_data[4], 'null', 'null']
        mylog(OMDLOGLEVEL, [f'[{pluginName}]adding switch: "{foo}"'])
        
    
        

    #    sadevices_macbymac[thisswitch] = thisswitch
    
    mylog(OMDLOGLEVEL, [f'[{pluginName}] switch_macbyname: "{sadevices_macbyname}"'])
    mylog(OMDLOGLEVEL, [f'[{pluginName}] switches: "{device_data_bymac}"'])


    # do some processing, call exteranl APIs, and return a device list
    #  ...
    # sample omada clients input format:
    #  0 MAC, 1 IP, 2 Name, 3 switch/AP, 4 port/SSID, 
    #17:27:10 [<unique_prefix>] token: "['1A-2B-3C-4D-5E-6F', '192.168.0.217', '1A-2B-3C-4D-5E-6F', 'myssid_name2', '(office_Access_point)']"
    #17:27:10 [<unique_prefix>] token: "['1A-2B-3C-4D-5E-01', '192.168.0.153', 'frontyard_ESP_29E753', 'pantry12', '(48)']"
    #17:27:10 [<unique_prefix>] token: "['1A-2B-3C-4D-5E-02', '192.168.0.1', 'bastion', 'office24', '(23)']"
    #17:27:10 [<unique_prefix>] token: "['1A-2B-3C-4D-5E-03', '192.168.0.226', 'brick', 'myssid_name3', '(office_Access_point)']"
   
    # sample target output:
    #  0 MAC, 1 IP, 2 Name, 3 MAC of switch/AP, 4 port/SSID, 5 TYPE    
    #17:27:10 [<unique_prefix>] token: "['1A-2B-3C-4D-5E-6F', '192.168.0.217', 'brick', 'office_Access_point','myssid_name2', , 'Switch']"

    odevices = omada_clients_output.splitlines()
    mylog(OMDLOGLEVEL, [f'[{pluginName}] omada_clients_outputs rows: "{len(odevices)}"'])
    omada_clients_to_rename = []

    for odevice in odevices:
        odevice_data = odevice.split()
        odevice_data_reordered = [ MAC, IP, NAME, SWITCH_AP, PORT_SSID, TYPE]
        odevice_data_reordered[MAC]=odevice_data[cMAC]
        odevice_data_reordered[IP]=odevice_data[cIP]
        real_naxname = device_handler.getValueWithMac('devName',ieee2ietf_mac_formater(odevice_data[cMAC]))

        #
        # if the name stored in Nax for a device is empty or the MAC addres or has some parenthhesis or is the same as in omada
        # don't bother updating omada's name at all.
        #

        naxname = real_naxname
        if real_naxname != None:
            if '(' in real_naxname:
            # removing parenthesis and domains from the name
                naxname = real_naxname.split('(')[0]
            if naxname != None and '.' in naxname:
                naxname = naxname.split('.')[0]
        if naxname in ( None, 'null', '' ):
            naxname = odevice_data[cNAME] if odevice_data[cNAME] != '' else odevice_data[cMAC]
        naxname = naxname.strip()
        mylog('debug', [f'[{pluginName}] TEST name from MAC: {naxname}'])    
        if odevice_data[cNAME] in ('null', ''):
            mylog('verbose', [f'[{pluginName}] updating omada server because odevice_data is: {odevice_data[cNAME]} and naxname is: "{naxname}"'])
            omada_clients_to_rename.append(['set-client-name',odevice_data[cMAC], naxname])
            #callomada(['set-client-name', odevice_data[cMAC], naxname])
            odevice_data_reordered[NAME] = naxname
        elif odevice_data[cNAME] == odevice_data[cMAC] and ieee2ietf_mac_formater(naxname) != ieee2ietf_mac_formater(odevice_data[cNAME]) :
            mylog('verbose', [f'[{pluginName}] updating omada server because odevice_data is: "{odevice_data[cNAME]} and naxname is: "{naxname}"'])
            omada_clients_to_rename.append(['set-client-name',odevice_data[cMAC], naxname])
            #callomada(['set-client-name', odevice_data[cMAC], naxname])
            odevice_data_reordered[NAME] = naxname
        else:
            if omada_force_overwrite and naxname != odevice_data[cNAME] :
                mylog('verbose', [f'[{pluginName}] updating omada server because odevice_data is: "{odevice_data[cNAME]} and naxname is: "{naxname}"'])
                omada_clients_to_rename.append(['set-client-name',odevice_data[cMAC], naxname])
                #callomada(['set-client-name', odevice_data[cMAC], naxname])
            odevice_data_reordered[NAME] = naxname
  

  
  
  
        mightbeport = odevice_data[cPORT_SSID].lstrip('(')
        mightbeport = mightbeport.rstrip(')')
        if mightbeport.isdigit():
            odevice_data_reordered[SWITCH_AP] = odevice_data[cSWITCH_AP]
            odevice_data_reordered[PORT_SSID] = mightbeport
        else:
            odevice_data_reordered[SWITCH_AP] = mightbeport
            odevice_data_reordered[PORT_SSID] = odevice_data[cSWITCH_AP]
        
        # replacing the switch name with its MAC...
        try:
            mightbemac = sadevices_macbyname[odevice_data_reordered[SWITCH_AP]]
            odevice_data_reordered[SWITCH_AP] = mightbemac
        except KeyError:
            mylog(OMDLOGLEVEL, [f'[{pluginName}] could not find the mac adddress for: "{odevice_data_reordered[SWITCH_AP]}"'])
        # adding the type
        odevice_data_reordered[TYPE] = 'null'
        device_data_bymac[odevice_data_reordered[MAC]]  = odevice_data_reordered
        device_data_mac_byip[odevice_data_reordered[IP]] = odevice_data_reordered[MAC]
        mylog(OMDLOGLEVEL, [f'[{pluginName}] tokens: "{odevice_data}"'])
        mylog(OMDLOGLEVEL, [f'[{pluginName}] tokens_reordered: "{odevice_data_reordered}"'])
    # RENAMING
    #for omada_client_to_rename in omada_clients_to_rename:
    #   mylog('verbose', [f'[{pluginName}] calling omada: "{omada_client_to_rename}"'])
        #callomada(omada_client_to_rename)

    # populating the uplinks nodes of the omada switches and access points manually 
    # since OMADA SDN makes is unreliable if the gateway is not their own tplink hardware...
    # 	
    with multiprocessing.Pool(processes = PARALLELISM) as mypool2:
        oresults = mypool2.map(callomada, omada_clients_to_rename)
    mylog(OMDLOGLEVEL, [f'[{pluginName}] results are: "{oresults}"'])
    
    # step1 let's find the the default router
    # 
    default_router_ip =  find_default_gateway_ip()
    default_router_mac = ietf2ieee_mac_formater(get_mac_from_IP(default_router_ip))
    device_data_bymac[default_router_mac][TYPE] = 'Firewall'           
    # step2 let's find the first switch and set the default router parent to internet
    first_switch=device_data_bymac[default_router_mac][SWITCH_AP]
    device_data_bymac[default_router_mac][SWITCH_AP] = 'Internet'             
    # step3 let's set the switch connected to the default gateway uplink to the default gateway and hardcode port to 1 for now:
    #device_data_bymac[first_switch][SWITCH_AP]=default_router_mac                
    #device_data_bymac[first_switch][SWITCH_AP][PORT_SSID] = '1'                
    # step4, let's go recursively through switches other links to mark update their uplinks
    #  and pray it ends one day... 
    # 
    if len(sadevices) > 0:
        add_uplink(default_router_mac,first_switch, device_data_bymac,sadevices_linksbymac,port_byswitchmac_byclientmac)                       
    return device_data_bymac.values()

if __name__ == '__main__':
    main()