# - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - # Define useful common methods - # - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - import sys if sys.version_info[0] != 3: print("This script requires Python 3") exit() import pprint import json import time from time import sleep from random import seed seed( int(round(time.time() * 1000))) from random import randint from LANforge import LFRequest debug_printer = pprint.PrettyPrinter(indent=2) base_url = "http://localhost:8080" class PortEID: shelf: 1 resource: 1 port_id: 0 port_name: "" def __init__(self, p_resource=1, p_port_id=0, p_port_name=""): resource = p_resource port_id = p_port_id port_name = p_port_name def __init__(self, json_response): if json_response == None: raise Exception("No json input") json_s = json_response if json_response['interface'] != None: json_s = json_response['interface'] debug_printer(json_s) resource = json_s['resource'] port_id = json_s['id'] port_name = json_s['name'] # end class PortEID def portNameSeries(prefix="sta", start_id=0, end_id=1, padding_number=1000): name_list = [] for i in range((padding_number+start_id), (padding_number+end_id)): sta_name = prefix+str(i)[1:] name_list.append(sta_name) return name_list # generate random hex if you need it for mac addresses def generateRandomHex(): # generate a few random numbers and convert them into hex: random_hex = [] for rn in range(0, 254): random_dec = randint(0, 254) random_hex.append(hex(random_dec)) return random_hex # return reverse map of aliases to port records def portAliasesInList(json_list): if len(json_list) < 1: raise Exception("empty list") reverse_map = {} json_interfaces = json_list if 'interfaces' in json_list: json_interfaces = json_list['interfaces'] # expect nested records, which is an artifact of some ORM # that other customers expect: # [ # { # "1.1.eth0": { # "alias":"eth0" # } # }, # { ... } for record in json_interfaces: if len(record.keys()) < 1: continue record_keys = record.keys() #debug_printer.pprint(record_keys) k2 = "" for k in record_keys: k2 = k if k2.__contains__("Unknown"): #debug_printer.pprint("skipping: "+k2) continue port_json = record[k2] reverse_map[port_json['alias']] = record #print("resulting map: ") #debug_printer.pprint(reverse_map) return reverse_map def findPortEids(resource_id=1, port_names=(), base_url="http://localhost:8080"): port_eids = [] if len(port_names) < 0: return [] for port_name in port_names: url = "/port/1/%s/%s"%(resource_id,port_name) lf_r = LFRequest.LFRequest(url) try: response = lf_r.getAsJson() if response == None: continue port_eids.append(PortEID(response)) except: print("Not found: "+port_name) return None def waitUntilPortsDisappear(resource_id=1, port_list=()): found_stations = port_list.copy() sleep(1) while len(found_stations) > 0: found_stations = [] for port_name in port_list: sleep(1) url = base_url+"/port/1/%s/%s" % (resource_id, port_name) print("Example 2: checking for station : "+url) lf_r = LFRequest.LFRequest(url) json_response = lf_r.getAsJson() if (json_response != None): found_stations.append(port_name) return None ### def waitUntilPortsAppear(resource_id=1, port_list=()): found_stations = [] sleep(1) while len(found_stations) < len(port_list): found_stations = [] for port_name in port_list: sleep(1) url = base_url+"/port/1/%s/%s" % (resource_id, port_name) print("Example 2: checking for station : "+url) lf_r = LFRequest.LFRequest(url) json_response = lf_r.getAsJson() if (json_response != None): found_stations.append(port_name) return None