omec/omec-user-plane/files/route_control.py - helm-charts - Gitiles

 #!/usr/bin/env python
 # SPDX-License-Identifier: Apache-2.0
 # Copyright(c) 2019 Intel Corporation

 import argparse
 import signal
 import sys
 import time

 # for retrieving neighbor info
 from pyroute2 import IPDB, IPRoute

 from scapy.all import *

 try:
     from pybess.bess import *
 except ImportError:
     print('Cannot import the API module (pybess)')
     raise

 MAX_RETRIES = 5
 SLEEP_S = 2


 class NeighborEntry:
     def __init__(self):
         self.neighbor_ip = None
         self.iface = None
         self.iprange = None
         self.prefix_len = None
         self.route_count = 0
         self.gate_idx = 0
         self.macstr = None

     def __str__(self):
         return ('{neigh: %s, iface: %s, ip-range: %s/%s}' %
                 (self.neighbor_ip, self.iface, self.iprange, self.prefix_len))


 def mac2hex(mac):
     return int(mac.replace(':', ''), 16)


 def send_ping(neighbor_ip):
     send(IP(dst=neighbor_ip) / ICMP())


 def send_arp(neighbor_ip, src_mac, iface):
     pkt = Ether(dst="ff:ff:ff:ff:ff:ff") / ARP(pdst=neighbor_ip, hwsrc=src_mac)
     pkt.show()
     hexdump(pkt)
     sendp(pkt, iface=iface)


 def fetch_mac(dip):
     ip = ''
     _mac = ''
     neighbors = ipr.get_neighbours(dst=dip)
     for i in range(len(neighbors)):
         for att in neighbors[i]['attrs']:
             if 'NDA_DST' in att and dip == att[1]:
                 # ('NDA_DST', dip)
                 ip = att[1]
             if 'NDA_LLADDR' in att:
                 # ('NDA_LLADDR', _mac)
                 _mac = att[1]
                 return _mac


 def link_modules(server, module, next_module, ogate=0, igate=0):
     print('Linking {} module'.format(next_module))

     # Pause bess first
     bess.pause_all()
     # Connect module to next_module
     for _ in range(MAX_RETRIES):
         try:
             server.connect_modules(module, next_module, ogate, igate)
         except BESS.Error as e:
             bess.resume_all()
             if e.code == errno.EBUSY:
                 break
             else:
                 return  #raise
         except Exception as e:
             print(
                 'Error connecting module {}:{}->{}:{}: {}. Retrying in {} secs...'
                 .format(module, ogate, igate, next_module, e, SLEEP_S))
             time.sleep(SLEEP_S)
         else:
             bess.resume_all()
             break
     else:
         bess.resume_all()
         print('BESS module connection ({}:{}->{}:{}) failure.'.format(
             module, ogate, igate, next_module))
         return
         #raise Exception('BESS module connection ({}:{}->{}:{}) failure.'.
         #                format(module, ogate, igate, next_module))


 def link_route_module(server, gateway_mac, item):
     iprange = item.iprange
     prefix_len = item.prefix_len
     route_module = item.iface + 'Routes'
     last_module = item.iface + 'Merge'
     gateway_mac_str = '{:X}'.format(gateway_mac)
     print('Adding route entry {}/{} for {}'.format(iprange, prefix_len,
                                                    route_module))

     print('Trying to retrieve neighbor entry {} from neighbor cache'.format(
         item.neighbor_ip))
     neighbor_exists = neighborcache.get(item.neighbor_ip)

     # How many gates does this module have?
     # If entry does not exist, then initialize it
     if not modgatecnt.get(route_module):
         modgatecnt[route_module] = 0

     # Compute likely index
     if neighbor_exists:
         # No need to create a new Update module
         gate_idx = neighbor_exists.gate_idx
     else:
         # Need to create a new Update module,
         # so get gate_idx from gate count
         gate_idx = modgatecnt[route_module]

     # Pause bess first
     bess.pause_all()
     # Pass routing entry to bessd's route module
     for _ in range(MAX_RETRIES):
         try:
             server.run_module_command(route_module, 'add',
                                       'IPLookupCommandAddArg', {
                                           'prefix': iprange,
                                           'prefix_len': int(prefix_len),
                                           'gate': gate_idx
                                       })
         except:
             print('Error adding route entry {}/{} in {}. Retrying in {}sec...'.
                   format(iprange, prefix_len, route_module, SLEEP_S))
             time.sleep(SLEEP_S)
         else:
             bess.resume_all()
             break
     else:
         bess.resume_all()
         print('BESS route entry ({}/{}) insertion failure in module {}'.format(
             iprange, prefix_len, route_module))
         return
         #raise Exception('BESS route entry ({}/{}) insertion failure in module {}'.
         #                format(iprange, prefix_len, route_module))

     if not neighbor_exists:
         print('Neighbor does not exist')
         # Create Update module
         update_module = route_module + 'DstMAC' + gateway_mac_str

         # Pause bess first
         bess.pause_all()
         for _ in range(MAX_RETRIES):
             try:
                 server.create_module('Update', update_module, {
                     'fields': [{
                         'offset': 0,
                         'size': 6,
                         'value': gateway_mac
                     }]
                 })
             except BESS.Error as e:
                 bess.resume_all()
                 if e.code == errno.EEXIST:
                     break
                 else:
                     return  #raise
             except Exception as e:
                 print(
                     'Error creating update module {}: {}. Retrying in {} secs...'
                     .format(update_module, e, SLEEP_S))
                 time.sleep(SLEEP_S)
             else:
                 bess.resume_all()
                 break
         else:
             bess.resume_all()
             print('BESS module {} creation failure.'.format(update_module))
             return  #raise Exception('BESS module {} creation failure.'.
             #        format(update_module))

         print('Update module created')

         # Connect Update module to route module
         link_modules(server, route_module, update_module, gate_idx, 0)

         # Connect Update module to dpdk_out module
         link_modules(server, update_module, last_module, 0, 0)

         # Add a new neighbor in neighbor cache
         neighborcache[item.neighbor_ip] = item

         # Add a record of the affliated gate id
         item.gate_idx = gate_idx

         # Set the mac str
         item.macstr = gateway_mac_str

         # Increment global gate count number
         modgatecnt[route_module] += 1

         neighbor_exists = item

     else:
         print('Neighbor already exists')

     # Finally increment route count
     neighborcache[item.neighbor_ip].route_count += 1


 def del_route_entry(server, item):
     iprange = item.iprange
     prefix_len = item.prefix_len
     route_module = item.iface + 'Routes'
     last_module = item.iface + 'Merge'

     neighbor_exists = neighborcache.get(item.neighbor_ip)
     if neighbor_exists:
         # Pause bess first
         bess.pause_all()
         # Delete routing entry from bessd's route module
         for i in range(MAX_RETRIES):
             try:
                 server.run_module_command(route_module, 'delete',
                                           'IPLookupCommandDeleteArg', {
                                               'prefix': iprange,
                                               'prefix_len': int(prefix_len)
                                           })
             except:
                 print(
                     'Error while deleting route entry for {}. Retrying in {} sec...'
                     .format(route_module, SLEEP_S))
                 time.sleep(SLEEP_S)
             else:
                 bess.resume_all()
                 break
         else:
             bess.resume_all()
             print('Route entry deletion failure.')
             return
             #raise Exception('Route entry deletion failure.')

         print('Route entry {}/{} deleted from {}'.format(
             iprange, prefix_len, route_module))

         # Decrementing route count for the registered neighbor
         neighbor_exists.route_count -= 1

         # If route count is 0, then delete the whole module
         if neighbor_exists.route_count == 0:
             update_module = route_module + 'DstMAC' + neighbor_exists.macstr
             # Pause bess first
             bess.pause_all()
             for i in range(MAX_RETRIES):
                 try:
                     server.destroy_module(update_module)
                 except:
                     print('Error destroying module {}. Retrying in {}sec...'.
                           format(update_module, SLEEP_S))
                     time.sleep(SLEEP_S)
                 else:
                     bess.resume_all()
                     break
             else:
                 bess.resume_all()
                 print('Module {} deletion failure.'.format(update_module))
                 return
                 #raise Exception('Module {} deletion failure.'.
                 #                format(update_module))

             print('Module {} destroyed'.format(update_module))

             # Delete entry from the neighbor cache
             del neighborcache[item.neighbor_ip]
             print('Deleting item from neighborcache')
             del neighbor_exists
         else:
             print('Route count for {}  decremented to {}'.format(
                 item.neighbor_ip, neighbor_exists.route_count))
             neighborcache[item.neighbor_ip] = neighbor_exists
     else:
         print('Neighbor {} does not exist'.format(item.neighbor_ip))


 def probe_addr(item, src_mac):
     # Store entry if entry does not exist in ARP cache
     arpcache[item.neighbor_ip] = item
     print('Adding entry {} in arp probe table'.format(item))

     # Probe ARP request by sending ping
     send_ping(item.neighbor_ip)

     # Probe ARP request
     ##send_arp(neighbor_ip, src_mac, item.iface)


 def parse_new_route(msg):
     item = NeighborEntry()
     # Fetch prefix_len
     item.prefix_len = msg['dst_len']
     # Default route
     if item.prefix_len is 0:
         item.iprange = '0.0.0.0'

     for att in msg['attrs']:
         if 'RTA_DST' in att:
             # Fetch IP range
             # ('RTA_DST', iprange)
             item.iprange = att[1]
         if 'RTA_GATEWAY' in att:
             # Fetch gateway MAC address
             # ('RTA_GATEWAY', neighbor_ip)
             item.neighbor_ip = att[1]
             _mac = fetch_mac(att[1])
             if not _mac:
                 gateway_mac = 0
             else:
                 gateway_mac = mac2hex(_mac)
         if 'RTA_OIF' in att:
             # Fetch interface name
             # ('RTA_OIF', iface)
             item.iface = ipdb.interfaces[int(att[1])].ifname

     if not item.iface in args.i or not item.iprange or not item.neighbor_ip:
         # Neighbor info is invalid
         del item
         return

     # if mac is 0, send ARP request
     if gateway_mac == 0:
         print('Adding entry {} in arp probe table'.format(item.iface))
         probe_addr(item, ipdb.interfaces[item.iface].address)

     else:  # if gateway_mac is set
         print('Linking module {}Routes with {}Merge (Dest MAC: {})'.format(
             item.iface, item.iface, _mac))

         link_route_module(bess, gateway_mac, item)


 def parse_new_neighbor(msg):
     for att in msg['attrs']:
         if 'NDA_DST' in att:
             # ('NDA_DST', neighbor_ip)
             neighbor_ip = att[1]
         if 'NDA_LLADDR' in att:
             # ('NDA_LLADDR', neighbor_mac)
             gateway_mac = att[1]

     item = arpcache.get(neighbor_ip)
     if item:
         print('Linking module {}Routes with {}Merge (Dest MAC: {})'.format(
             item.iface, item.iface, gateway_mac))

         # Add route entry, and add item in the registered neighbor cache
         link_route_module(bess, mac2hex(gateway_mac), item)

         # Remove entry from unresolved arp cache
         del arpcache[neighbor_ip]


 def parse_del_route(msg):
     item = NeighborEntry()
     for att in msg['attrs']:
         if 'RTA_DST' in att:
             # Fetch IP range
             # ('RTA_DST', iprange)
             item.iprange = att[1]
         if 'RTA_GATEWAY' in att:
             # Fetch gateway MAC address
             # ('RTA_GATEWAY', neighbor_ip)
             item.neighbor_ip = att[1]
         if 'RTA_OIF' in att:
             # Fetch interface name
             # ('RTA_OIF', iface)
             item.iface = ipdb.interfaces[int(att[1])].ifname

     if not item.iface in args.i or not item.iprange or not item.neighbor_ip:
         # Neighbor info is invalid
         del item
         return

     # Fetch prefix_len
     item.prefix_len = msg['dst_len']

     del_route_entry(bess, item)

     # Delete item
     del item


 def netlink_event_listener(ipdb, netlink_message, action):

     # If you get a netlink message, parse it
     msg = netlink_message

     if action == 'RTM_NEWROUTE':
         parse_new_route(msg)

     if action == 'RTM_NEWNEIGH':
         parse_new_neighbor(msg)

     if action == 'RTM_DELROUTE':
         parse_del_route(msg)


 def bootstrap_routes():
     routes = ipr.get_routes()
     for i in routes:
         if i['event'] == 'RTM_NEWROUTE':
             parse_new_route(i)


 def connect_bessd():
     print('Connecting to BESS daemon...'),
     # Connect to BESS (assuming host=localhost, port=10514 (default))
     for i in range(MAX_RETRIES):
         try:
             if not bess.is_connected():
                 bess.connect(grpc_url=args.ip + ':' + args.port)
         except BESS.RPCError:
             print(
                 'Error connecting to BESS daemon. Retrying in {}sec...'.format(
                     SLEEP_S))
             time.sleep(SLEEP_S)
         else:
             break
     else:
         raise Exception('BESS connection failure.')

     print('Done.')


 def reconfigure(number, frame):
     print('Received: {} Reloading routes'.format(number))
     # clear arpcache
     for ip in list(arpcache):
         item = arpcache.get(ip)
         del item
     arpcache.clear()
     for ip in list(neighborcache):
         item = neighborcache.get(ip)
         del item
     neighborcache.clear()
     for modname in list(modgatecnt):
         item = modgatecnt.get(modname)
         del item
     modgatecnt.clear()
     bootstrap_routes()
     signal.pause()


 def cleanup(number, frame):
     ipdb.unregister_callback(event_callback)
     print('Received: {} Exiting'.format(number))
     sys.exit()


 def main():
     global arpcache, neighborcache, modgatecnt, ipdb, event_callback, bess, ipr
     # for holding unresolved ARP queries
     arpcache = {}
     # for holding list of registered neighbors
     neighborcache = {}
     # for holding gate count per route module
     modgatecnt = {}
     # for interacting with kernel
     ipdb = IPDB()
     ipr = IPRoute()
     # for bess client
     bess = BESS()

     # connect to bessd
     connect_bessd()

     # program current routes
     #bootstrap_routes()

     # listen for netlink events
     print('Registering netlink event listener callback...'),
     event_callback = ipdb.register_callback(netlink_event_listener)
     print('Done.')

     signal.signal(signal.SIGHUP, reconfigure)
     signal.signal(signal.SIGINT, cleanup)
     signal.signal(signal.SIGTERM, cleanup)
     signal.pause()


 if __name__ == '__main__':
     parser = argparse.ArgumentParser(
         description='Basic IPv4 Routing Controller')
     parser.add_argument('-i',
                         type=str,
                         nargs='+',
                         help='interface(s) to control')
     parser.add_argument('--ip',
                         type=str,
                         default='localhost',
                         help='BESSD address')
     parser.add_argument('--port', type=str, default='10514', help='BESSD port')

     # for holding command-line arguments
     global args
     args = parser.parse_args()

     if args.i:
         main()
     # if interface list is empty, print help menu and quit
     else:
         print(parser.print_help())
	#!/usr/bin/env python
	# SPDX-License-Identifier: Apache-2.0
	# Copyright(c) 2019 Intel Corporation

	import argparse
	import signal
	import sys
	import time

	# for retrieving neighbor info
	from pyroute2 import IPDB, IPRoute

	from scapy.all import *

	try:
	from pybess.bess import *
	except ImportError:
	print('Cannot import the API module (pybess)')
	raise

	MAX_RETRIES = 5
	SLEEP_S = 2


	class NeighborEntry:
	def __init__(self):
	self.neighbor_ip = None
	self.iface = None
	self.iprange = None
	self.prefix_len = None
	self.route_count = 0
	self.gate_idx = 0
	self.macstr = None

	def __str__(self):
	return ('{neigh: %s, iface: %s, ip-range: %s/%s}' %
	(self.neighbor_ip, self.iface, self.iprange, self.prefix_len))


	def mac2hex(mac):
	return int(mac.replace(':', ''), 16)


	def send_ping(neighbor_ip):
	send(IP(dst=neighbor_ip) / ICMP())


	def send_arp(neighbor_ip, src_mac, iface):
	pkt = Ether(dst="ff:ff:ff:ff:ff:ff") / ARP(pdst=neighbor_ip, hwsrc=src_mac)
	pkt.show()
	hexdump(pkt)
	sendp(pkt, iface=iface)


	def fetch_mac(dip):
	ip = ''
	_mac = ''
	neighbors = ipr.get_neighbours(dst=dip)
	for i in range(len(neighbors)):
	for att in neighbors[i]['attrs']:
	if 'NDA_DST' in att and dip == att[1]:
	# ('NDA_DST', dip)
	ip = att[1]
	if 'NDA_LLADDR' in att:
	# ('NDA_LLADDR', _mac)
	_mac = att[1]
	return _mac


	def link_modules(server, module, next_module, ogate=0, igate=0):
	print('Linking {} module'.format(next_module))

	# Pause bess first
	bess.pause_all()
	# Connect module to next_module
	for _ in range(MAX_RETRIES):
	try:
	server.connect_modules(module, next_module, ogate, igate)
	except BESS.Error as e:
	bess.resume_all()
	if e.code == errno.EBUSY:
	break
	else:
	return #raise
	except Exception as e:
	print(
	'Error connecting module {}:{}->{}:{}: {}. Retrying in {} secs...'
	.format(module, ogate, igate, next_module, e, SLEEP_S))
	time.sleep(SLEEP_S)
	else:
	bess.resume_all()
	break
	else:
	bess.resume_all()
	print('BESS module connection ({}:{}->{}:{}) failure.'.format(
	module, ogate, igate, next_module))
	return
	#raise Exception('BESS module connection ({}:{}->{}:{}) failure.'.
	# format(module, ogate, igate, next_module))


	def link_route_module(server, gateway_mac, item):
	iprange = item.iprange
	prefix_len = item.prefix_len
	route_module = item.iface + 'Routes'
	last_module = item.iface + 'Merge'
	gateway_mac_str = '{:X}'.format(gateway_mac)
	print('Adding route entry {}/{} for {}'.format(iprange, prefix_len,
	route_module))

	print('Trying to retrieve neighbor entry {} from neighbor cache'.format(
	item.neighbor_ip))
	neighbor_exists = neighborcache.get(item.neighbor_ip)

	# How many gates does this module have?
	# If entry does not exist, then initialize it
	if not modgatecnt.get(route_module):
	modgatecnt[route_module] = 0

	# Compute likely index
	if neighbor_exists:
	# No need to create a new Update module
	gate_idx = neighbor_exists.gate_idx
	else:
	# Need to create a new Update module,
	# so get gate_idx from gate count
	gate_idx = modgatecnt[route_module]

	# Pause bess first
	bess.pause_all()
	# Pass routing entry to bessd's route module
	for _ in range(MAX_RETRIES):
	try:
	server.run_module_command(route_module, 'add',
	'IPLookupCommandAddArg', {
	'prefix': iprange,
	'prefix_len': int(prefix_len),
	'gate': gate_idx
	})
	except:
	print('Error adding route entry {}/{} in {}. Retrying in {}sec...'.
	format(iprange, prefix_len, route_module, SLEEP_S))
	time.sleep(SLEEP_S)
	else:
	bess.resume_all()
	break
	else:
	bess.resume_all()
	print('BESS route entry ({}/{}) insertion failure in module {}'.format(
	iprange, prefix_len, route_module))
	return
	#raise Exception('BESS route entry ({}/{}) insertion failure in module {}'.
	# format(iprange, prefix_len, route_module))

	if not neighbor_exists:
	print('Neighbor does not exist')
	# Create Update module
	update_module = route_module + 'DstMAC' + gateway_mac_str

	# Pause bess first
	bess.pause_all()
	for _ in range(MAX_RETRIES):
	try:
	server.create_module('Update', update_module, {
	'fields': [{
	'offset': 0,
	'size': 6,
	'value': gateway_mac
	}]
	})
	except BESS.Error as e:
	bess.resume_all()
	if e.code == errno.EEXIST:
	break
	else:
	return #raise
	except Exception as e:
	print(
	'Error creating update module {}: {}. Retrying in {} secs...'
	.format(update_module, e, SLEEP_S))
	time.sleep(SLEEP_S)
	else:
	bess.resume_all()
	break
	else:
	bess.resume_all()
	print('BESS module {} creation failure.'.format(update_module))
	return #raise Exception('BESS module {} creation failure.'.
	# format(update_module))

	print('Update module created')

	# Connect Update module to route module
	link_modules(server, route_module, update_module, gate_idx, 0)

	# Connect Update module to dpdk_out module
	link_modules(server, update_module, last_module, 0, 0)

	# Add a new neighbor in neighbor cache
	neighborcache[item.neighbor_ip] = item

	# Add a record of the affliated gate id
	item.gate_idx = gate_idx

	# Set the mac str
	item.macstr = gateway_mac_str

	# Increment global gate count number
	modgatecnt[route_module] += 1

	neighbor_exists = item

	else:
	print('Neighbor already exists')

	# Finally increment route count
	neighborcache[item.neighbor_ip].route_count += 1


	def del_route_entry(server, item):
	iprange = item.iprange
	prefix_len = item.prefix_len
	route_module = item.iface + 'Routes'
	last_module = item.iface + 'Merge'

	neighbor_exists = neighborcache.get(item.neighbor_ip)
	if neighbor_exists:
	# Pause bess first
	bess.pause_all()
	# Delete routing entry from bessd's route module
	for i in range(MAX_RETRIES):
	try:
	server.run_module_command(route_module, 'delete',
	'IPLookupCommandDeleteArg', {
	'prefix': iprange,
	'prefix_len': int(prefix_len)
	})
	except:
	print(
	'Error while deleting route entry for {}. Retrying in {} sec...'
	.format(route_module, SLEEP_S))
	time.sleep(SLEEP_S)
	else:
	bess.resume_all()
	break
	else:
	bess.resume_all()
	print('Route entry deletion failure.')
	return
	#raise Exception('Route entry deletion failure.')

	print('Route entry {}/{} deleted from {}'.format(
	iprange, prefix_len, route_module))

	# Decrementing route count for the registered neighbor
	neighbor_exists.route_count -= 1

	# If route count is 0, then delete the whole module
	if neighbor_exists.route_count == 0:
	update_module = route_module + 'DstMAC' + neighbor_exists.macstr
	# Pause bess first
	bess.pause_all()
	for i in range(MAX_RETRIES):
	try:
	server.destroy_module(update_module)
	except:
	print('Error destroying module {}. Retrying in {}sec...'.
	format(update_module, SLEEP_S))
	time.sleep(SLEEP_S)
	else:
	bess.resume_all()
	break
	else:
	bess.resume_all()
	print('Module {} deletion failure.'.format(update_module))
	return
	#raise Exception('Module {} deletion failure.'.
	# format(update_module))

	print('Module {} destroyed'.format(update_module))

	# Delete entry from the neighbor cache
	del neighborcache[item.neighbor_ip]
	print('Deleting item from neighborcache')
	del neighbor_exists
	else:
	print('Route count for {} decremented to {}'.format(
	item.neighbor_ip, neighbor_exists.route_count))
	neighborcache[item.neighbor_ip] = neighbor_exists
	else:
	print('Neighbor {} does not exist'.format(item.neighbor_ip))


	def probe_addr(item, src_mac):
	# Store entry if entry does not exist in ARP cache
	arpcache[item.neighbor_ip] = item
	print('Adding entry {} in arp probe table'.format(item))

	# Probe ARP request by sending ping
	send_ping(item.neighbor_ip)

	# Probe ARP request
	##send_arp(neighbor_ip, src_mac, item.iface)


	def parse_new_route(msg):
	item = NeighborEntry()
	# Fetch prefix_len
	item.prefix_len = msg['dst_len']
	# Default route
	if item.prefix_len is 0:
	item.iprange = '0.0.0.0'

	for att in msg['attrs']:
	if 'RTA_DST' in att:
	# Fetch IP range
	# ('RTA_DST', iprange)
	item.iprange = att[1]
	if 'RTA_GATEWAY' in att:
	# Fetch gateway MAC address
	# ('RTA_GATEWAY', neighbor_ip)
	item.neighbor_ip = att[1]
	_mac = fetch_mac(att[1])
	if not _mac:
	gateway_mac = 0
	else:
	gateway_mac = mac2hex(_mac)
	if 'RTA_OIF' in att:
	# Fetch interface name
	# ('RTA_OIF', iface)
	item.iface = ipdb.interfaces[int(att[1])].ifname

	if not item.iface in args.i or not item.iprange or not item.neighbor_ip:
	# Neighbor info is invalid
	del item
	return

	# if mac is 0, send ARP request
	if gateway_mac == 0:
	print('Adding entry {} in arp probe table'.format(item.iface))
	probe_addr(item, ipdb.interfaces[item.iface].address)

	else: # if gateway_mac is set
	print('Linking module {}Routes with {}Merge (Dest MAC: {})'.format(
	item.iface, item.iface, _mac))

	link_route_module(bess, gateway_mac, item)


	def parse_new_neighbor(msg):
	for att in msg['attrs']:
	if 'NDA_DST' in att:
	# ('NDA_DST', neighbor_ip)
	neighbor_ip = att[1]
	if 'NDA_LLADDR' in att:
	# ('NDA_LLADDR', neighbor_mac)
	gateway_mac = att[1]

	item = arpcache.get(neighbor_ip)
	if item:
	print('Linking module {}Routes with {}Merge (Dest MAC: {})'.format(
	item.iface, item.iface, gateway_mac))

	# Add route entry, and add item in the registered neighbor cache
	link_route_module(bess, mac2hex(gateway_mac), item)

	# Remove entry from unresolved arp cache
	del arpcache[neighbor_ip]


	def parse_del_route(msg):
	item = NeighborEntry()
	for att in msg['attrs']:
	if 'RTA_DST' in att:
	# Fetch IP range
	# ('RTA_DST', iprange)
	item.iprange = att[1]
	if 'RTA_GATEWAY' in att:
	# Fetch gateway MAC address
	# ('RTA_GATEWAY', neighbor_ip)
	item.neighbor_ip = att[1]
	if 'RTA_OIF' in att:
	# Fetch interface name
	# ('RTA_OIF', iface)
	item.iface = ipdb.interfaces[int(att[1])].ifname

	if not item.iface in args.i or not item.iprange or not item.neighbor_ip:
	# Neighbor info is invalid
	del item
	return

	# Fetch prefix_len
	item.prefix_len = msg['dst_len']

	del_route_entry(bess, item)

	# Delete item
	del item


	def netlink_event_listener(ipdb, netlink_message, action):

	# If you get a netlink message, parse it
	msg = netlink_message

	if action == 'RTM_NEWROUTE':
	parse_new_route(msg)

	if action == 'RTM_NEWNEIGH':
	parse_new_neighbor(msg)

	if action == 'RTM_DELROUTE':
	parse_del_route(msg)


	def bootstrap_routes():
	routes = ipr.get_routes()
	for i in routes:
	if i['event'] == 'RTM_NEWROUTE':
	parse_new_route(i)


	def connect_bessd():
	print('Connecting to BESS daemon...'),
	# Connect to BESS (assuming host=localhost, port=10514 (default))
	for i in range(MAX_RETRIES):
	try:
	if not bess.is_connected():
	bess.connect(grpc_url=args.ip + ':' + args.port)
	except BESS.RPCError:
	print(
	'Error connecting to BESS daemon. Retrying in {}sec...'.format(
	SLEEP_S))
	time.sleep(SLEEP_S)
	else:
	break
	else:
	raise Exception('BESS connection failure.')

	print('Done.')


	def reconfigure(number, frame):
	print('Received: {} Reloading routes'.format(number))
	# clear arpcache
	for ip in list(arpcache):
	item = arpcache.get(ip)
	del item
	arpcache.clear()
	for ip in list(neighborcache):
	item = neighborcache.get(ip)
	del item
	neighborcache.clear()
	for modname in list(modgatecnt):
	item = modgatecnt.get(modname)
	del item
	modgatecnt.clear()
	bootstrap_routes()
	signal.pause()


	def cleanup(number, frame):
	ipdb.unregister_callback(event_callback)
	print('Received: {} Exiting'.format(number))
	sys.exit()


	def main():
	global arpcache, neighborcache, modgatecnt, ipdb, event_callback, bess, ipr
	# for holding unresolved ARP queries
	arpcache = {}
	# for holding list of registered neighbors
	neighborcache = {}
	# for holding gate count per route module
	modgatecnt = {}
	# for interacting with kernel
	ipdb = IPDB()
	ipr = IPRoute()
	# for bess client
	bess = BESS()

	# connect to bessd
	connect_bessd()

	# program current routes
	#bootstrap_routes()

	# listen for netlink events
	print('Registering netlink event listener callback...'),
	event_callback = ipdb.register_callback(netlink_event_listener)
	print('Done.')

	signal.signal(signal.SIGHUP, reconfigure)
	signal.signal(signal.SIGINT, cleanup)
	signal.signal(signal.SIGTERM, cleanup)
	signal.pause()


	if __name__ == '__main__':
	parser = argparse.ArgumentParser(
	description='Basic IPv4 Routing Controller')
	parser.add_argument('-i',
	type=str,
	nargs='+',
	help='interface(s) to control')
	parser.add_argument('--ip',
	type=str,
	default='localhost',
	help='BESSD address')
	parser.add_argument('--port', type=str, default='10514', help='BESSD port')

	# for holding command-line arguments
	global args
	args = parser.parse_args()

	if args.i:
	main()
	# if interface list is empty, print help menu and quit
	else:
	print(parser.print_help())