#!/usr/bin/env python3 # network.py - PVC client function library, Network fuctions # Part of the Parallel Virtual Cluster (PVC) system # # Copyright (C) 2018-2020 Joshua M. Boniface # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . # ############################################################################### import re import click from kazoo.exceptions import NoNodeError import daemon_lib.ansiprint as ansiprint import daemon_lib.zkhandler as zkhandler # # Cluster search functions # def getClusterNetworkList(zk_conn): # Get a list of VNIs by listing the children of /networks vni_list = zkhandler.listchildren(zk_conn, '/networks') description_list = [] # For each VNI, get the corresponding description from the data for vni in vni_list: description_list.append(zkhandler.readdata(zk_conn, '/networks/{}'.format(vni))) return vni_list, description_list def searchClusterByVNI(zk_conn, vni): try: # Get the lists vni_list, description_list = getClusterNetworkList(zk_conn) # We're looking for UUID, so find that element ID index = vni_list.index(vni) # Get the name_list element at that index description = description_list[index] except ValueError: # We didn't find anything return None return description def searchClusterByDescription(zk_conn, description): try: # Get the lists vni_list, description_list = getClusterNetworkList(zk_conn) # We're looking for name, so find that element ID index = description_list.index(description) # Get the uuid_list element at that index vni = vni_list[index] except ValueError: # We didn't find anything return None return vni def getNetworkVNI(zk_conn, network): # Validate and obtain alternate passed value if network.isdigit(): net_description = searchClusterByVNI(zk_conn, network) net_vni = searchClusterByDescription(zk_conn, net_description) else: net_vni = searchClusterByDescription(zk_conn, network) net_description = searchClusterByVNI(zk_conn, net_vni) return net_vni def getNetworkDescription(zk_conn, network): # Validate and obtain alternate passed value if network.isdigit(): net_description = searchClusterByVNI(zk_conn, network) net_vni = searchClusterByDescription(zk_conn, net_description) else: net_vni = searchClusterByDescription(zk_conn, network) net_description = searchClusterByVNI(zk_conn, net_vni) return net_description def getNetworkDHCPLeases(zk_conn, vni): # Get a list of DHCP leases by listing the children of /networks//dhcp4_leases dhcp4_leases = zkhandler.listchildren(zk_conn, '/networks/{}/dhcp4_leases'.format(vni)) return sorted(dhcp4_leases) def getNetworkDHCPReservations(zk_conn, vni): # Get a list of DHCP reservations by listing the children of /networks//dhcp4_reservations dhcp4_reservations = zkhandler.listchildren(zk_conn, '/networks/{}/dhcp4_reservations'.format(vni)) return sorted(dhcp4_reservations) def getNetworkACLs(zk_conn, vni, _direction): # Get the (sorted) list of active ACLs if _direction == 'both': directions = ['in', 'out'] else: directions = [_direction] full_acl_list = [] for direction in directions: unordered_acl_list = zkhandler.listchildren(zk_conn, '/networks/{}/firewall_rules/{}'.format(vni, direction)) ordered_acls = dict() for acl in unordered_acl_list: order = zkhandler.readdata(zk_conn, '/networks/{}/firewall_rules/{}/{}/order'.format(vni, direction, acl)) ordered_acls[order] = acl for order in sorted(ordered_acls.keys()): rule = zkhandler.readdata(zk_conn, '/networks/{}/firewall_rules/{}/{}/rule'.format(vni, direction, acl)) full_acl_list.append({'direction': direction, 'order': int(order), 'description': ordered_acls[order], 'rule': rule}) return full_acl_list def getNetworkInformation(zk_conn, vni): description = zkhandler.readdata(zk_conn, '/networks/{}'.format(vni)) nettype = zkhandler.readdata(zk_conn, '/networks/{}/nettype'.format(vni)) domain = zkhandler.readdata(zk_conn, '/networks/{}/domain'.format(vni)) name_servers = zkhandler.readdata(zk_conn, '/networks/{}/name_servers'.format(vni)) ip6_network = zkhandler.readdata(zk_conn, '/networks/{}/ip6_network'.format(vni)) ip6_gateway = zkhandler.readdata(zk_conn, '/networks/{}/ip6_gateway'.format(vni)) dhcp6_flag = zkhandler.readdata(zk_conn, '/networks/{}/dhcp6_flag'.format(vni)) ip4_network = zkhandler.readdata(zk_conn, '/networks/{}/ip4_network'.format(vni)) ip4_gateway = zkhandler.readdata(zk_conn, '/networks/{}/ip4_gateway'.format(vni)) dhcp4_flag = zkhandler.readdata(zk_conn, '/networks/{}/dhcp4_flag'.format(vni)) dhcp4_start = zkhandler.readdata(zk_conn, '/networks/{}/dhcp4_start'.format(vni)) dhcp4_end = zkhandler.readdata(zk_conn, '/networks/{}/dhcp4_end'.format(vni)) # Construct a data structure to represent the data network_information = { 'vni': int(vni), 'description': description, 'type': nettype, 'domain': domain, 'name_servers': name_servers.split(','), 'ip6': { 'network': ip6_network, 'gateway': ip6_gateway, 'dhcp_flag': dhcp6_flag, }, 'ip4': { 'network': ip4_network, 'gateway': ip4_gateway, 'dhcp_flag': dhcp4_flag, 'dhcp_start': dhcp4_start, 'dhcp_end': dhcp4_end } } return network_information def getDHCPLeaseInformation(zk_conn, vni, mac_address): # Check whether this is a dynamic or static lease try: zkhandler.readdata(zk_conn, '/networks/{}/dhcp4_leases/{}'.format(vni, mac_address)) type_key = 'dhcp4_leases' except NoNodeError: zkhandler.readdata(zk_conn, '/networks/{}/dhcp4_reservations/{}'.format(vni, mac_address)) type_key = 'dhcp4_reservations' hostname = zkhandler.readdata(zk_conn, '/networks/{}/{}/{}/hostname'.format(vni, type_key, mac_address)) ip4_address = zkhandler.readdata(zk_conn, '/networks/{}/{}/{}/ipaddr'.format(vni, type_key, mac_address)) if type_key == 'dhcp4_leases': timestamp = zkhandler.readdata(zk_conn, '/networks/{}/{}/{}/expiry'.format(vni, type_key, mac_address)) else: timestamp = 'static' # Construct a data structure to represent the data lease_information = { 'hostname': hostname, 'ip4_address': ip4_address, 'mac_address': mac_address, 'timestamp': timestamp } return lease_information def getACLInformation(zk_conn, vni, direction, description): order = zkhandler.readdata(zk_conn, '/networks/{}/firewall_rules/{}/{}/order'.format(vni, direction, description)) rule = zkhandler.readdata(zk_conn, '/networks/{}/firewall_rules/{}/{}/rule'.format(vni, direction, description)) # Construct a data structure to represent the data acl_information = { 'order': order, 'description': description, 'rule': rule, 'direction': direction } return acl_information def isValidMAC(macaddr): allowed = re.compile(r""" ( ^([0-9A-F]{2}[:]){5}([0-9A-F]{2})$ ) """, re.VERBOSE|re.IGNORECASE) if allowed.match(macaddr): return True else: return False def isValidIP(ipaddr): ip4_blocks = str(ipaddr).split(".") if len(ip4_blocks) == 4: for block in ip4_blocks: # Check if number is digit, if not checked before calling this function if not block.isdigit(): return False tmp = int(block) if 0 > tmp > 255: return False return True return False # # Direct functions # def add_network(zk_conn, vni, description, nettype, domain, name_servers, ip4_network, ip4_gateway, ip6_network, ip6_gateway, dhcp4_flag, dhcp4_start, dhcp4_end): # Ensure start and end DHCP ranges are set if the flag is set if dhcp4_flag and ( not dhcp4_start or not dhcp4_end ): return False, 'ERROR: DHCPv4 start and end addresses are required for a DHCPv4-enabled network.' # Check if a network with this VNI or description already exists if zkhandler.exists(zk_conn, '/networks/{}'.format(vni)): return False, 'ERROR: A network with VNI "{}" already exists!'.format(vni) for network in zkhandler.listchildren(zk_conn, '/networks'): network_description = zkhandler.readdata(zk_conn, '/networks/{}'.format(network)) if network_description == description: return False, 'ERROR: A network with description "{}" already exists!'.format(description) # We're generating the default gateway to be ip6_network::1/YY if ip6_network: dhcp6_flag = 'True' if not ip6_gateway: ip6_netpart, ip6_maskpart = ip6_network.split('/') ip6_gateway = '{}1'.format(ip6_netpart) else: dhcp6_flag = 'False' if nettype == 'managed' and not domain: domain = '{}.local'.format(description) # Add the new network to Zookeeper zkhandler.writedata(zk_conn, { '/networks/{}'.format(vni): description, '/networks/{}/nettype'.format(vni): nettype, '/networks/{}/domain'.format(vni): domain, '/networks/{}/name_servers'.format(vni): name_servers, '/networks/{}/ip6_network'.format(vni): ip6_network, '/networks/{}/ip6_gateway'.format(vni): ip6_gateway, '/networks/{}/dhcp6_flag'.format(vni): dhcp6_flag, '/networks/{}/ip4_network'.format(vni): ip4_network, '/networks/{}/ip4_gateway'.format(vni): ip4_gateway, '/networks/{}/dhcp4_flag'.format(vni): dhcp4_flag, '/networks/{}/dhcp4_start'.format(vni): dhcp4_start, '/networks/{}/dhcp4_end'.format(vni): dhcp4_end, '/networks/{}/dhcp4_leases'.format(vni): '', '/networks/{}/dhcp4_reservations'.format(vni): '', '/networks/{}/firewall_rules'.format(vni): '', '/networks/{}/firewall_rules/in'.format(vni): '', '/networks/{}/firewall_rules/out'.format(vni): '' }) return True, 'Network "{}" added successfully!'.format(description) def modify_network(zk_conn, vni, description=None, domain=None, name_servers=None, ip4_network=None, ip4_gateway=None, ip6_network=None, ip6_gateway=None, dhcp4_flag=None, dhcp4_start=None, dhcp4_end=None): # Add the modified parameters to Zookeeper zk_data = dict() if description: zk_data.update({'/networks/{}'.format(vni): description}) if domain: zk_data.update({'/networks/{}/domain'.format(vni): domain}) if name_servers: zk_data.update({'/networks/{}/name_servers'.format(vni): name_servers}) if ip4_network: zk_data.update({'/networks/{}/ip4_network'.format(vni): ip4_network}) if ip4_gateway: zk_data.update({'/networks/{}/ip4_gateway'.format(vni): ip4_gateway}) if ip6_network: zk_data.update({'/networks/{}/ip6_network'.format(vni): ip6_network}) if ip6_network is not None: zk_data.update({'/networks/{}/dhcp6_flag'.format(vni): 'True'}) else: zk_data.update({'/networks/{}/dhcp6_flag'.format(vni): 'False'}) if ip6_gateway: zk_data.update({'/networks/{}/ip6_gateway'.format(vni): ip6_gateway}) else: # If we're changing the network, but don't also specify the gateway, # generate a new one automatically if ip6_network: ip6_netpart, ip6_maskpart = ip6_network.split('/') ip6_gateway = '{}1'.format(ip6_netpart) zk_data.update({'/networks/{}/ip6_gateway'.format(vni): ip6_gateway}) if dhcp4_flag: zk_data.update({'/networks/{}/dhcp4_flag'.format(vni): dhcp4_flag}) if dhcp4_start: zk_data.update({'/networks/{}/dhcp4_start'.format(vni): dhcp4_start}) if dhcp4_end: zk_data.update({'/networks/{}/dhcp4_end'.format(vni): dhcp4_end}) zkhandler.writedata(zk_conn, zk_data) return True, 'Network "{}" modified successfully!'.format(vni) def remove_network(zk_conn, network): # Validate and obtain alternate passed value vni = getNetworkVNI(zk_conn, network) description = getNetworkDescription(zk_conn, network) if not vni: return False, 'ERROR: Could not find network "{}" in the cluster!'.format(network) # Delete the configuration zkhandler.deletekey(zk_conn, '/networks/{}'.format(vni)) return True, 'Network "{}" removed successfully!'.format(description) def add_dhcp_reservation(zk_conn, network, ipaddress, macaddress, hostname): # Validate and obtain standard passed value net_vni = getNetworkVNI(zk_conn, network) if not net_vni: return False, 'ERROR: Could not find network "{}" in the cluster!'.format(network) # Use lowercase MAC format exclusively macaddress = macaddress.lower() if not isValidMAC(macaddress): return False, 'ERROR: MAC address "{}" is not valid! Always use ":" as a separator.'.format(macaddress) if not isValidIP(ipaddress): return False, 'ERROR: IP address "{}" is not valid!'.format(macaddress) if zkhandler.exists(zk_conn, '/networks/{}/dhcp4_reservations/{}'.format(net_vni, macaddress)): return False, 'ERROR: A reservation with MAC "{}" already exists!'.format(macaddress) # Add the new static lease to ZK try: zkhandler.writedata(zk_conn, { '/networks/{}/dhcp4_reservations/{}'.format(net_vni, macaddress): 'static', '/networks/{}/dhcp4_reservations/{}/hostname'.format(net_vni, macaddress): hostname, '/networks/{}/dhcp4_reservations/{}/ipaddr'.format(net_vni, macaddress): ipaddress }) except Exception as e: return False, 'ERROR: Failed to write to Zookeeper! Exception: "{}".'.format(e) return True, 'DHCP reservation "{}" added successfully!'.format(macaddress) def remove_dhcp_reservation(zk_conn, network, reservation): # Validate and obtain standard passed value net_vni = getNetworkVNI(zk_conn, network) if not net_vni: return False, 'ERROR: Could not find network "{}" in the cluster!'.format(network) match_description = '' # Check if the reservation matches a static reservation description, a mac, or an IP address currently in the database dhcp4_reservations_list = getNetworkDHCPReservations(zk_conn, net_vni) for macaddr in dhcp4_reservations_list: hostname = zkhandler.readdata(zk_conn, '/networks/{}/dhcp4_reservations/{}/hostname'.format(net_vni, macaddr)) ipaddress = zkhandler.readdata(zk_conn, '/networks/{}/dhcp4_reservations/{}/ipaddr'.format(net_vni, macaddr)) if reservation == macaddr or reservation == hostname or reservation == ipaddress: match_description = macaddr lease_type_zk = 'reservations' lease_type_human = 'static reservation' # Check if the reservation matches a dynamic reservation description, a mac, or an IP address currently in the database dhcp4_leases_list = getNetworkDHCPLeases(zk_conn, net_vni) for macaddr in dhcp4_leases_list: hostname = zkhandler.readdata(zk_conn, '/networks/{}/dhcp4_leases/{}/hostname'.format(net_vni, macaddr)) ipaddress = zkhandler.readdata(zk_conn, '/networks/{}/dhcp4_leases/{}/ipaddr'.format(net_vni, macaddr)) if reservation == macaddr or reservation == hostname or reservation == ipaddress: match_description = macaddr lease_type_zk = 'leases' lease_type_human = 'dynamic lease' if not match_description: return False, 'ERROR: No DHCP reservation or lease exists matching "{}"!'.format(reservation) # Remove the entry from zookeeper try: zkhandler.deletekey(zk_conn, '/networks/{}/dhcp4_{}/{}'.format(net_vni, lease_type_zk, match_description)) except Exception: return False, 'ERROR: Failed to write to Zookeeper!' return True, 'DHCP {} "{}" removed successfully!'.format(lease_type_human, match_description) def add_acl(zk_conn, network, direction, description, rule, order): # Validate and obtain standard passed value net_vni = getNetworkVNI(zk_conn, network) if not net_vni: return False, 'ERROR: Could not find network "{}" in the cluster!'.format(network) # Check if the ACL matches a description currently in the database match_description = '' full_acl_list = getNetworkACLs(zk_conn, net_vni, 'both') for acl in full_acl_list: if acl['description'] == description: match_description = acl['description'] if match_description: return False, 'ERROR: A rule with description "{}" already exists!'.format(description) # Change direction to something more usable if direction: direction = "in" else: direction = "out" # Handle reordering full_acl_list = getNetworkACLs(zk_conn, net_vni, direction) acl_list_length = len(full_acl_list) # Set order to len if not order or int(order) > acl_list_length: order = acl_list_length # Convert passed-in order to an integer else: order = int(order) # Insert into the array at order-1 full_acl_list.insert(order, {'direction': direction, 'description': description, 'rule': rule}) # Update the existing ordering updated_orders = dict() for idx, acl in enumerate(full_acl_list): if acl['description'] == description: continue updated_orders[ '/networks/{}/firewall_rules/{}/{}/order'.format(net_vni, direction, acl['description']) ] = idx if updated_orders: try: zkhandler.writedata(zk_conn, updated_orders) except Exception as e: return False, 'ERROR: Failed to write to Zookeeper! Exception: "{}".'.format(e) # Add the new rule try: zkhandler.writedata(zk_conn, { '/networks/{}/firewall_rules/{}/{}'.format(net_vni, direction, description): '', '/networks/{}/firewall_rules/{}/{}/order'.format(net_vni, direction, description): order, '/networks/{}/firewall_rules/{}/{}/rule'.format(net_vni, direction, description): rule }) except Exception as e: return False, 'ERROR: Failed to write to Zookeeper! Exception: "{}".'.format(e) return True, 'Firewall rule "{}" added successfully!'.format(description) def remove_acl(zk_conn, network, description): # Validate and obtain standard passed value net_vni = getNetworkVNI(zk_conn, network) if not net_vni: return False, 'ERROR: Could not find network "{}" in the cluster!'.format(network) match_description = '' # Check if the ACL matches a description currently in the database acl_list = getNetworkACLs(zk_conn, net_vni, 'both') for acl in acl_list: if acl['description'] == description: match_description = acl['description'] match_direction = acl['direction'] if not match_description: return False, 'ERROR: No firewall rule exists matching description "{}"!'.format(description) # Remove the entry from zookeeper try: zkhandler.deletekey(zk_conn, '/networks/{}/firewall_rules/{}/{}'.format(net_vni, match_direction, match_description)) except Exception as e: return False, 'ERROR: Failed to write to Zookeeper! Exception: "{}".'.format(e) # Update the existing ordering updated_acl_list = getNetworkACLs(zk_conn, net_vni, match_direction) updated_orders = dict() for idx, acl in enumerate(updated_acl_list): updated_orders[ '/networks/{}/firewall_rules/{}/{}/order'.format(net_vni, match_direction, acl['description']) ] = idx if updated_orders: try: zkhandler.writedata(zk_conn, updated_orders) except Exception as e: return False, 'ERROR: Failed to write to Zookeeper! Exception: "{}".'.format(e) return True, 'Firewall rule "{}" removed successfully!'.format(match_description) def get_info(zk_conn, network): # Validate and obtain alternate passed value net_vni = getNetworkVNI(zk_conn, network) if not net_vni: return False, 'ERROR: Could not find network "{}" in the cluster!'.format(network) network_information = getNetworkInformation(zk_conn, network) if not network_information: return False, 'ERROR: Could not get information about network "{}"'.format(network) return True, network_information def get_list(zk_conn, limit, is_fuzzy=True): net_list = [] full_net_list = zkhandler.listchildren(zk_conn, '/networks') for net in full_net_list: description = zkhandler.readdata(zk_conn, '/networks/{}'.format(net)) if limit: try: if not is_fuzzy: limit = '^' + limit + '$' if re.match(limit, net): net_list.append(getNetworkInformation(zk_conn, net)) if re.match(limit, description): net_list.append(getNetworkInformation(zk_conn, net)) except Exception as e: return False, 'Regex Error: {}'.format(e) else: net_list.append(getNetworkInformation(zk_conn, net)) #output_string = formatNetworkList(zk_conn, net_list) return True, net_list def get_list_dhcp(zk_conn, network, limit, only_static=False, is_fuzzy=True): # Validate and obtain alternate passed value net_vni = getNetworkVNI(zk_conn, network) if not net_vni: return False, 'ERROR: Could not find network "{}" in the cluster!'.format(network) dhcp_list = [] if only_static: full_dhcp_list = getNetworkDHCPReservations(zk_conn, net_vni) reservations = True else: full_dhcp_list = getNetworkDHCPReservations(zk_conn, net_vni) full_dhcp_list += getNetworkDHCPLeases(zk_conn, net_vni) reservations = False if limit: try: if not is_fuzzy: limit = '^' + limit + '$' # Implcitly assume fuzzy limits if not re.match('[^].*', limit): limit = '.*' + limit if not re.match('.*[$]', limit): limit = limit + '.*' except Exception as e: return False, 'Regex Error: {}'.format(e) for lease in full_dhcp_list: valid_lease = False if limit: if re.match(limit, lease): valid_lease = True if re.match(limit, lease): valid_lease = True else: valid_lease = True if valid_lease: dhcp_list.append(getDHCPLeaseInformation(zk_conn, net_vni, lease)) return True, dhcp_list def get_list_acl(zk_conn, network, limit, direction, is_fuzzy=True): # Validate and obtain alternate passed value net_vni = getNetworkVNI(zk_conn, network) if not net_vni: return False, 'ERROR: Could not find network "{}" in the cluster!'.format(network) # Change direction to something more usable if direction is None: direction = "both" elif direction is True: direction = "in" elif direction is False: direction = "out" acl_list = [] full_acl_list = getNetworkACLs(zk_conn, net_vni, direction) if limit: try: if not is_fuzzy: limit = '^' + limit + '$' # Implcitly assume fuzzy limits if not re.match('[^].*', limit): limit = '.*' + limit if not re.match('.*[$]', limit): limit = limit + '.*' except Exception as e: return False, 'Regex Error: {}'.format(e) for acl in full_acl_list: valid_acl = False if limit: if re.match(limit, acl['description']): valid_acl = True else: valid_acl = True if valid_acl: acl_list.append(acl) #output_string = formatACLList(zk_conn, net_vni, direction, acl_list) return True, acl_list # CLI-only functions def getOutputColours(network_information): if network_information['ip6']['network'] != "None": v6_flag_colour = ansiprint.green() else: v6_flag_colour = ansiprint.blue() if network_information['ip4']['network'] != "None": v4_flag_colour = ansiprint.green() else: v4_flag_colour = ansiprint.blue() if network_information['ip6']['dhcp_flag'] == "True": dhcp6_flag_colour = ansiprint.green() else: dhcp6_flag_colour = ansiprint.blue() if network_information['ip4']['dhcp_flag'] == "True": dhcp4_flag_colour = ansiprint.green() else: dhcp4_flag_colour = ansiprint.blue() return v6_flag_colour, v4_flag_colour, dhcp6_flag_colour, dhcp4_flag_colour def format_info(network_information, long_output): if not network_information: click.echo("No network found") return v6_flag_colour, v4_flag_colour, dhcp6_flag_colour, dhcp4_flag_colour = getOutputColours(network_information) # Format a nice output: do this line-by-line then concat the elements at the end ainformation = [] ainformation.append('{}Virtual network information:{}'.format(ansiprint.bold(), ansiprint.end())) ainformation.append('') # Basic information ainformation.append('{}VNI:{} {}'.format(ansiprint.purple(), ansiprint.end(), network_information['vni'])) ainformation.append('{}Type:{} {}'.format(ansiprint.purple(), ansiprint.end(), network_information['type'])) ainformation.append('{}Description:{} {}'.format(ansiprint.purple(), ansiprint.end(), network_information['description'])) if network_information['type'] == 'managed': ainformation.append('{}Domain:{} {}'.format(ansiprint.purple(), ansiprint.end(), network_information['domain'])) ainformation.append('{}DNS Servers:{} {}'.format(ansiprint.purple(), ansiprint.end(), ', '.join(network_information['name_servers']))) if network_information['ip6']['network'] != "None": ainformation.append('') ainformation.append('{}IPv6 network:{} {}'.format(ansiprint.purple(), ansiprint.end(), network_information['ip6']['network'])) ainformation.append('{}IPv6 gateway:{} {}'.format(ansiprint.purple(), ansiprint.end(), network_information['ip6']['gateway'])) ainformation.append('{}DHCPv6 enabled:{} {}{}{}'.format(ansiprint.purple(), ansiprint.end(), dhcp6_flag_colour, network_information['ip6']['dhcp_flag'], ansiprint.end())) if network_information['ip4']['network'] != "None": ainformation.append('') ainformation.append('{}IPv4 network:{} {}'.format(ansiprint.purple(), ansiprint.end(), network_information['ip4']['network'])) ainformation.append('{}IPv4 gateway:{} {}'.format(ansiprint.purple(), ansiprint.end(), network_information['ip4']['gateway'])) ainformation.append('{}DHCPv4 enabled:{} {}{}{}'.format(ansiprint.purple(), ansiprint.end(), dhcp4_flag_colour, network_information['ip4']['dhcp_flag'], ansiprint.end())) if network_information['ip4']['dhcp_flag'] == "True": ainformation.append('{}DHCPv4 range:{} {} - {}'.format(ansiprint.purple(), ansiprint.end(), network_information['ip4']['dhcp_start'], network_information['ip4']['dhcp_end'])) if long_output: dhcp4_reservations_list = getNetworkDHCPReservations(zk_conn, vni) if dhcp4_reservations_list: ainformation.append('') ainformation.append('{}Client DHCPv4 reservations:{}'.format(ansiprint.bold(), ansiprint.end())) ainformation.append('') # Only show static reservations in the detailed information dhcp4_reservations_string = formatDHCPLeaseList(zk_conn, vni, dhcp4_reservations_list, reservations=True) for line in dhcp4_reservations_string.split('\n'): ainformation.append(line) firewall_rules = zkhandler.listchildren(zk_conn, '/networks/{}/firewall_rules'.format(vni)) if firewall_rules: ainformation.append('') ainformation.append('{}Network firewall rules:{}'.format(ansiprint.bold(), ansiprint.end())) ainformation.append('') formatted_firewall_rules = get_list_firewall_rules(zk_conn, vni) # Join it all together click.echo('\n'.join(ainformation)) def format_list(network_list): if not network_list: click.echo("No network found") return network_list_output = [] # Determine optimal column widths net_vni_length = 5 net_description_length = 12 net_nettype_length = 8 net_domain_length = 6 net_v6_flag_length = 6 net_dhcp6_flag_length = 7 net_v4_flag_length = 6 net_dhcp4_flag_length = 7 for network_information in network_list: # vni column _net_vni_length = len(str(network_information['vni'])) + 1 if _net_vni_length > net_vni_length: net_vni_length = _net_vni_length # description column _net_description_length = len(network_information['description']) + 1 if _net_description_length > net_description_length: net_description_length = _net_description_length # domain column _net_domain_length = len(network_information['domain']) + 1 if _net_domain_length > net_domain_length: net_domain_length = _net_domain_length # Format the string (header) network_list_output.append('{bold}\ {net_vni: <{net_vni_length}} \ {net_description: <{net_description_length}} \ {net_nettype: <{net_nettype_length}} \ {net_domain: <{net_domain_length}} \ {net_v6_flag: <{net_v6_flag_length}} \ {net_dhcp6_flag: <{net_dhcp6_flag_length}} \ {net_v4_flag: <{net_v4_flag_length}} \ {net_dhcp4_flag: <{net_dhcp4_flag_length}} \ {end_bold}'.format( bold=ansiprint.bold(), end_bold=ansiprint.end(), net_vni_length=net_vni_length, net_description_length=net_description_length, net_nettype_length=net_nettype_length, net_domain_length=net_domain_length, net_v6_flag_length=net_v6_flag_length, net_dhcp6_flag_length=net_dhcp6_flag_length, net_v4_flag_length=net_v4_flag_length, net_dhcp4_flag_length=net_dhcp4_flag_length, net_vni='VNI', net_description='Description', net_nettype='Type', net_domain='Domain', net_v6_flag='IPv6', net_dhcp6_flag='DHCPv6', net_v4_flag='IPv4', net_dhcp4_flag='DHCPv4', ) ) for network_information in network_list: v6_flag_colour, v4_flag_colour, dhcp6_flag_colour, dhcp4_flag_colour = getOutputColours(network_information) if network_information['ip4']['network'] != "None": v4_flag = 'True' else: v4_flag = 'False' if network_information['ip6']['network'] != "None": v6_flag = 'True' else: v6_flag = 'False' if network_information['ip4']['dhcp_flag'] == "True": dhcp4_range = '{} - {}'.format(network_information['ip4']['dhcp_start'], network_information['ip4']['dhcp_end']) else: dhcp4_range = 'N/A' network_list_output.append( '{bold}\ {net_vni: <{net_vni_length}} \ {net_description: <{net_description_length}} \ {net_nettype: <{net_nettype_length}} \ {net_domain: <{net_domain_length}} \ {v6_flag_colour}{net_v6_flag: <{net_v6_flag_length}}{colour_off} \ {dhcp6_flag_colour}{net_dhcp6_flag: <{net_dhcp6_flag_length}}{colour_off} \ {v4_flag_colour}{net_v4_flag: <{net_v4_flag_length}}{colour_off} \ {dhcp4_flag_colour}{net_dhcp4_flag: <{net_dhcp4_flag_length}}{colour_off} \ {end_bold}'.format( bold='', end_bold='', net_vni_length=net_vni_length, net_description_length=net_description_length, net_nettype_length=net_nettype_length, net_domain_length=net_domain_length, net_v6_flag_length=net_v6_flag_length, net_dhcp6_flag_length=net_dhcp6_flag_length, net_v4_flag_length=net_v4_flag_length, net_dhcp4_flag_length=net_dhcp4_flag_length, net_vni=network_information['vni'], net_description=network_information['description'], net_nettype=network_information['type'], net_domain=network_information['domain'], net_v6_flag=v6_flag, v6_flag_colour=v6_flag_colour, net_dhcp6_flag=network_information['ip6']['dhcp_flag'], dhcp6_flag_colour=dhcp6_flag_colour, net_v4_flag=v4_flag, v4_flag_colour=v4_flag_colour, net_dhcp4_flag=network_information['ip4']['dhcp_flag'], dhcp4_flag_colour=dhcp4_flag_colour, colour_off=ansiprint.end() ) ) click.echo('\n'.join(sorted(network_list_output))) def format_list_dhcp(dhcp_lease_list): dhcp_lease_list_output = [] # Determine optimal column widths lease_hostname_length = 9 lease_ip4_address_length = 11 lease_mac_address_length = 13 lease_timestamp_length = 13 for dhcp_lease_information in dhcp_lease_list: # hostname column _lease_hostname_length = len(dhcp_lease_information['hostname']) + 1 if _lease_hostname_length > lease_hostname_length: lease_hostname_length = _lease_hostname_length # ip4_address column _lease_ip4_address_length = len(dhcp_lease_information['ip4_address']) + 1 if _lease_ip4_address_length > lease_ip4_address_length: lease_ip4_address_length = _lease_ip4_address_length # mac_address column _lease_mac_address_length = len(dhcp_lease_information['mac_address']) + 1 if _lease_mac_address_length > lease_mac_address_length: lease_mac_address_length = _lease_mac_address_length # Format the string (header) dhcp_lease_list_output.append('{bold}\ {lease_hostname: <{lease_hostname_length}} \ {lease_ip4_address: <{lease_ip4_address_length}} \ {lease_mac_address: <{lease_mac_address_length}} \ {lease_timestamp: <{lease_timestamp_length}} \ {end_bold}'.format( bold=ansiprint.bold(), end_bold=ansiprint.end(), lease_hostname_length=lease_hostname_length, lease_ip4_address_length=lease_ip4_address_length, lease_mac_address_length=lease_mac_address_length, lease_timestamp_length=lease_timestamp_length, lease_hostname='Hostname', lease_ip4_address='IP Address', lease_mac_address='MAC Address', lease_timestamp='Timestamp' ) ) for dhcp_lease_information in dhcp_lease_list: dhcp_lease_list_output.append('{bold}\ {lease_hostname: <{lease_hostname_length}} \ {lease_ip4_address: <{lease_ip4_address_length}} \ {lease_mac_address: <{lease_mac_address_length}} \ {lease_timestamp: <{lease_timestamp_length}} \ {end_bold}'.format( bold='', end_bold='', lease_hostname_length=lease_hostname_length, lease_ip4_address_length=lease_ip4_address_length, lease_mac_address_length=lease_mac_address_length, lease_timestamp_length=12, lease_hostname=dhcp_lease_information['hostname'], lease_ip4_address=dhcp_lease_information['ip4_address'], lease_mac_address=dhcp_lease_information['mac_address'], lease_timestamp=dhcp_lease_information['timestamp'] ) ) click.echo('\n'.join(sorted(dhcp_lease_list_output))) def format_list_acl(acl_list): acl_list_output = [] # Determine optimal column widths acl_direction_length = 10 acl_order_length = 6 acl_description_length = 12 acl_rule_length = 5 for acl_information in acl_list: # order column _acl_order_length = len(str(acl_information['order'])) + 1 if _acl_order_length > acl_order_length: acl_order_length = _acl_order_length # description column _acl_description_length = len(acl_information['description']) + 1 if _acl_description_length > acl_description_length: acl_description_length = _acl_description_length # rule column _acl_rule_length = len(acl_information['rule']) + 1 if _acl_rule_length > acl_rule_length: acl_rule_length = _acl_rule_length # Format the string (header) acl_list_output.append('{bold}\ {acl_direction: <{acl_direction_length}} \ {acl_order: <{acl_order_length}} \ {acl_description: <{acl_description_length}} \ {acl_rule: <{acl_rule_length}} \ {end_bold}'.format( bold=ansiprint.bold(), end_bold=ansiprint.end(), acl_direction_length=acl_direction_length, acl_order_length=acl_order_length, acl_description_length=acl_description_length, acl_rule_length=acl_rule_length, acl_direction='Direction', acl_order='Order', acl_description='Description', acl_rule='Rule', ) ) for acl_information in acl_list: acl_list_output.append('{bold}\ {acl_direction: <{acl_direction_length}} \ {acl_order: <{acl_order_length}} \ {acl_description: <{acl_description_length}} \ {acl_rule: <{acl_rule_length}} \ {end_bold}'.format( bold='', end_bold='', acl_direction_length=acl_direction_length, acl_order_length=acl_order_length, acl_description_length=acl_description_length, acl_rule_length=acl_rule_length, acl_direction=acl_information['direction'], acl_order=acl_information['order'], acl_description=acl_information['description'], acl_rule=acl_information['rule'], ) ) click.echo('\n'.join(sorted(acl_list_output)))