#!/usr/bin/env python3 import re import time import pprint from pprint import pprint from LANforge import LFRequest from LANforge import LFUtils from LANforge import set_port from LANforge import add_sta from LANforge import lfcli_base from LANforge.lfcli_base import LFCliBase from generic_cx import GenericCx class Realm(LFCliBase): def __init__(self, lfclient_host="localhost", lfclient_port=8080, debug_on=True): super().__init__(lfclient_host, lfclient_port, debug_on, _halt_on_error=True) #self.lfclient_url = "http://%s:%s" % (lfclient_host, lfclient_port) self.check_connect() # Returns json response from webpage of all layer 3 cross connects def cx_list(self): response = super().json_get("/cx") return response # Returns map of all stations with port+type == WIFI-STATION def station_map(self): response = super().json_get("/port/list?fields=_links,alias,device,port+type") if (response is None) or ("interfaces" not in response): pprint(response) print("station_list: incomplete response, halting") exit(1) sta_map = {} temp_map = LFUtils.portListToAliasMap(response) for k, v in temp_map.items(): if (v['port type'] == "WIFI-STA"): sta_map[k] = v; temp_map.clear() del temp_map del response return sta_map # Returns list of all stations with port+type == WIFI-STATION def station_list(self): sta_list = [] response = super().json_get("/port/list?fields=_links,alias,device,port+type") if (response is None) or ("interfaces" not in response): print("station_list: incomplete response:") pprint(response) exit(1) for x in range(len(response['interfaces'])): for k, v in response['interfaces'][x].items(): if v['port type'] == "WIFI-STA": sta_list.append(response['interfaces'][x]) del response return sta_list # Returns list of all VAPs with "vap" in their name def vap_list(self): sta_list = [] response = super().json_get("/port/list?fields=_links,alias,device,port+type") for x in range(len(response['interfaces'])): for k, v in response['interfaces'][x].items(): if "vap" in v['device']: sta_list.append(response['interfaces'][x]) return sta_list # removes port by eid/eidpn def remove_vlan_by_eid(self, eid): if (eid is None) or ("" == eid): raise ValueError("removeVlanByEid wants eid like 1.1.sta0 but given[%s]" % eid) hunks = eid.split('.') # print("- - - - - - - - - - - - - - - - -") # pprint(hunks) # pprint(self.lfclient_url) # print("- - - - - - - - - - - - - - - - -") if (len(hunks) > 3) or (len(hunks) < 2): raise ValueError("removeVlanByEid wants eid like 1.1.sta0 but given[%s]" % eid) elif len(hunks) == 3: LFUtils.removePort(hunks[1], hunks[2], self.lfclient_url) else: LFUtils.removePort(hunks[0], hunks[1], self.lfclient_url) # Searches for ports that match a given pattern and returns a list of names def find_ports_like(self, pattern="", _fields="_links,alias,device,port+type", resource=0, debug_=False): if resource == 0: url = "/port/1/list?fields=%s" % _fields else: url = "/port/1/%s/list?fields=%s" % (resource, _fields) response = self.json_get(url) if debug_: print("###### find_ports_like r:%s, u:%s #################" % (resource, url)) pprint(response) alias_map = LFUtils.portListToAliasMap(response, debug_=debug_) if debug_: pprint(alias_map) prelim_map = {} matched_map = {} for name, record in alias_map.items(): try: if debug_: print("- prelim - - - - - - - - - - - - - - - - - - -") pprint(record) if (record["port type"] == "WIFI-STA"): prelim_map[name] = record except Exception as x: self.error(x) prefix = "" try: if pattern.find("+") > 0: match = re.search(r"^([^+]+)[+]$", pattern) if match.group(1): prefix = match.group(1) for port_eid, record in prelim_map.items(): if debug_: print("name:", port_eid, " Group 1: ", match.group(1)) if port_eid.find(prefix) >= 0: matched_map[port_eid] = record elif pattern.find("*") > 0: match = re.search(r"^([^\*]+)[\*]$", pattern) if match.group(1): prefix = match.group(1) if debug_: print("group 1: ", prefix) for port_eid, record in prelim_map.items(): if port_eid.find(prefix) >= 0: matched_map[port_eid] = record elif pattern.find("[") > 0: match = re.search(r"^([^\[]+)\[(\d+)\.\.(\d+)\]$", pattern) if match.group(0): if debug_: print("[group1]: ", match.group(1)) print("[group2]: ", match.group(2)) print("[group3]: ", match.group(3)) prefix = match.group(1) for port_eid, record in prelim_map.items(): if port_eid.find(prefix) >= 0: port_suf = record["device"][len(prefix):] if (port_suf >= match.group(2)) and (port_suf <= match.group(3)): # print("%s: suffix[%s] between %s:%s" % (port_name, port_name, match.group(2), match.group(3)) matched_map[port_eid] = record except ValueError as e: self.error(e) return matched_map def new_station_profile(self): station_prof = StationProfile(self.lfclient_url, debug=self.debugOn) return station_prof def new_l3_cx_profile(self): return cx_prof def new_l4_cx_profile(self): return cx_prof def new_generic_cx_profile(self): return cx_prof class L3CXProfile: def __init__(self, lfclient_host, lfclient_port, debug=False): self.lfclient_url = "http://%s:%s/" % (lfclient_host, lfclient_port) self.debug = debug # Creates cross-connect for each port specified in the addPorts function def create(self, endp_type, side="a", ports=[], sleep_time=.5): post_data = [] side = side.upper() endp_side_a = { "alias": "", "shelf": 1, "resource": 1, "port": "", "type": endp_type, "min_rate": 0, "max_rate": 0, "min_pkt": -1, "max_pkt": 0 } endp_side_b = { "alias": "", "shelf": 1, "resource": 1, "port": "", "type": endp_type, "min_rate": 0, "max_rate": 0, "min_pkt": -1, "max_pkt": 0 } for port_name in ports: if side == "A": endp_side_a["alias"] = port_name + "CX-A" endp_side_a["port"] = port_name endp_side_b["alias"] = port_name + "CX-B" endp_side_b["port"] = "eth1" elif side == "B": endp_side_a["alias"] = port_name + "CX-A" endp_side_a["port"] = "eth1" endp_side_b["alias"] = port_name + "CX-B" endp_side_b["port"] = port_name url = self.lfclient_url + "/cli-json/add_endp" LFCliBase.json_post(url, endp_side_a) LFCliBase.json_post(url, endp_side_b) time.sleep(sleep_time) data = { "alias": port_name + "CX", "test_mgr": "default_tm", "tx_endp": port_name + "CX-A", "rx_endp": port_name + "CX-B" } post_data.append(data) for data in post_data: url = self.lfclient_url + "/cli-json/add_cx" LFCliBase.json_post(url, data) time.sleep(sleep_time) class L4CXProfile: def __init__(self, lfclient_host, lfclient_port, debug=False): self.lfclient_url = "http://%s:%s/" % (lfclient_host, lfclient_port) self.debug = debug # Creates cross-connect for each port specified in the addPorts function def create(self, endp_type, ports=[], sleep_time=.5): post_data = [] for port_name in ports: data = { "alias": port_name + "_l4", "shelf": 1, "resource": 1, "port": port_name, "type": endp_type, "timeout": 1000, "url_rate": 600, "url": "http://localhost/" } url = self.lfclient_url + "cli-json/add_l4_endp" LFCliBase.json_post(url, data) time.sleep(sleep_time) data = { "alias": port_name + "_l4CX", "test_mgr": "default_tm", "tx_endp": port_name + "_l4", "rx_endp": "NA" } post_data.append(data) for data in post_data: url = self.lfclient_url + "/cli-json/add_cx" LFCliBase.json_post(url, data) time.sleep(sleep_time) class GenCXProfile: def __init__(self, lfclient_host, lfclient_port, debug=False): self.lfclient_url = "http://%s:%s/" % (lfclient_host, lfclient_port) self.debug = debug # Creates cross-connect for each port specified in the addPorts function def create(self, endp_type, ports=[], sleep_time=.5): post_data = [] for port_name in ports: genl = GenericCx(lfclient_host=self.lfjson_host, lfclient_port=self.lfjson_port) genl.createGenEndp(port_name + "_gen", 1, 1, port_name, endp_type) genl.createGenEndp(port_name + "_gen2", 1, 1, port_name, endp_type) genl.setFlags(port_name + "_gen", "ClearPortOnStart", 1) genl.setFlags(port_name + "_gen2", "ClearPortOnStart", 1) genl.setFlags(port_name + "_gen2", "Unmanaged", 1) genl.setCmd(port_name + "_gen", "lfping -i 0.1 -I %s 10.40.0.1" % port_name) time.sleep(sleep_time) data = { "alias": "CX_genTest1", "test_mgr": "default_tm", "tx_endp": "genTest1", "rx_endp": "genTest2" } post_data.append(data) for data in post_data: url = self.lfclient_url + "/cli-json/add_cx" LFCliBase.json_post(url, data) time.sleep(sleep_time) # use the station profile to set the combination of features you want on your stations # once this combination is configured, build the stations with the build(resource, radio, number) call # build() calls will fail if the station already exists. Please survey and clean your resource # before calling build() # survey = Realm.findStations(resource=1) # Realm.removeStations(survey) # profile = Realm.newStationProfile() # profile.set... # profile.build(resource, radio, 64) # class StationProfile: def __init__(self, lfclient_url, ssid="NA", ssid_pass="NA", security="open", prefix="00000", mode=0, up=True, dhcp=True, debug=False): self.debug = debug self.lfclient_url = lfclient_url self.ssid = ssid self.ssid_pass = ssid_pass self.mode = mode self.up = up self.dhcp = dhcp self.security = security self.COMMANDS = ["add_sta", "set_port"] self.desired_add_sta_flags = ["wpa2_enable", "80211u_enable", "create_admin_down"] self.desired_add_sta_flags_mask = ["wpa2_enable", "80211u_enable", "create_admin_down"] self.prefix = prefix self.add_sta_data = { "shelf": 1, "resource": 1, "radio": None, "sta_name": None, "ssid": None, "key": None, "mode": 0, "mac": "xx:xx:xx:xx:*:xx", "flags": 0, # (0x400 + 0x20000 + 0x1000000000) # create admin down } self.desired_set_port_current_flags = ["if_down", "use_dhcp"] self.desired_set_port_interest_flags = ["current_flags", "dhcp", "ifdown"] self.set_port_data = { "shelf": 1, "resource": 1, "port": None, "current_flags": 0, "interest": 0, # (0x2 + 0x4000 + 0x800000) # current, dhcp, down, } def use_wpa2(self, on=False, ssid=None, passwd=None): if on: if (ssid is None) or ("" == ssid): raise ValueError("use_wpa2: WPA2 requires ssid") if (passwd is None) or ("" == passwd): raise ValueError("use_wpa2: WPA2 requires passphrase or [BLANK]") self.set_command_param("add_sta", "ssid", ssid) self.set_command_param("add_sta", "key", passwd) else: self.set_command_flag("add_sta", "flags", "wpa2_enable", 0) def set_command_param(self, command_name, param_name, param_value): # we have to check what the param name is if (command_name is None) or (command_name == ""): return if (param_name is None) or (param_name == ""): return if command_name not in self.COMMANDS: self.error("Command name name [%s] not defined in %s" % (command_name, self.COMMANDS)) return if command_name == "add_sta": self.add_sta_data[param_name] = param_value elif command_name == "set_port": self.set_port_data[param_name] = param_value def set_command_flag(self, command_name, param_name, value): # we have to check what the param name is if (command_name is None) or (command_name == ""): return if (param_name is None) or (param_name == ""): return if command_name not in self.COMMANDS: print("Command name name [%s] not defined in %s" % (command_name, self.COMMANDS)) return if command_name == "add_sta": if (param_name not in add_sta.add_sta_flags) and (param_name not in add_sta.add_sta_modes): print("Parameter name [%s] not defined in add_sta.py" % param_name) if self.debug: pprint(add_sta.add_sta_flags) return if (value == 1) and (param_name not in self.desired_add_sta_flags): self.desired_add_sta_flags_flags.append(param_name) elif value == 0: self.desired_set_port_flags_flags.remove(param_name) elif command_name == "set_port": if (param_name not in set_port.set_port_current_flags) and (param_name not in set_port.set_port_cmd_flags): print("Parameter name [%s] not defined in set_port.py" % param_name) if self.debug: pprint(set_port.set_port_cmd_flags) pprint(set_port.set_port_current_flags) pprint(set_port.set_port_interest_flags) return if (value == 1) and (param_name not in self.desired_set_port_flags): self.desired_set_port_flags_flags.append(param_name) elif value == 0: self.desired_set_port_flags_flags.remove(param_name) # use this for hinting station name; stations begin with 'sta', the # stations created with a prefix '0100' indicate value 10100 + n with # resulting substring(1,) applied; station 900 becomes 'sta1000' def set_prefix(self, pref): self.prefix = pref def add_named_flags(self, desired_list, command_ref): if desired_list is None: raise ValueError("addNamedFlags wants a list of desired flag names") if len(desired_list) < 1: print("addNamedFlags: empty desired list") return 0 if (command_ref is None) or (len(command_ref) < 1): raise ValueError("addNamedFlags wants a maps of flag values") result = 0 for name in desired_list: if (name is None) or (name == ""): continue if name not in command_ref: if self.debug: pprint(command_ref) raise ValueError("flag %s not in map" % name) result += command_ref[name] return result # Checks for errors in initialization values and creates specified number of stations using init parameters def create(self, resource, radio, num_stations, dry_run=False, debug=False): # try: # resource = resource_radio[0: resource_radio.index(".")] # name = resource_radio[resource_radio.index(".") + 1:] # if name.index(".") >= 0: # radio_name = name[name.index(".")+1 : ] # print("Building %s on radio %s.%s" % (num_stations, resource, radio_name)) # except ValueError as e: # print(e) # create stations down, do set_port on them, then set stations up self.add_sta_data["flags"] = self.add_named_flags(self.desired_add_sta_flags, add_sta.add_sta_flags) self.add_sta_data["flags_mask"] = self.add_named_flags(self.desired_add_sta_flags_mask, add_sta.add_sta_flags) self.add_sta_data["radio"] = radio self.add_sta_data["resource"] = resource self.set_port_data["current_flags"] = self.add_named_flags(self.desired_set_port_current_flags, set_port.set_port_current_flags) self.set_port_data["interest"] = self.add_named_flags(self.desired_set_port_interest_flags, set_port.set_port_interest_flags) add_sta_r = LFRequest.LFRequest(self.lfclient_url + "/cli-json/add_sta") set_port_r = LFRequest.LFRequest(self.lfclient_url + "/cli-json/set_port") sta_names = LFUtils.portNameSeries("sta", 0, num_stations - 1, 10000) num = 0 for name in sta_names: num += 1 self.add_sta_data["sta_name"] = name self.set_port_data["port"] = name if debug: print("- 381 - %s- - - - - - - - - - - - - - - - - - " % name) pprint(self.add_sta_data) pprint(self.set_port_data) print("- ~381 - - - - - - - - - - - - - - - - - - - ") if dry_run: print("dry run") continue add_sta_r.addPostData(self.add_sta_data) json_response = add_sta_r.jsonPost(debug) set_port_r.addPostData(self.set_port_data) json_response = set_port_r.jsonPost(debug) time.sleep(0.03) LFUtils.waitUntilPortsAppear(resource, self.lfclient_url, sta_names) # and set ports up if dry_run: return for sta_name in sta_names: req = LFUtils.portUpRequest(resource, sta_name, debug_on=False) set_port_r.addPostData(req) json_response = set_port_r.jsonPost(debug) time.sleep(0.03) print("created %s stations" % num) #