ffmap-backend/nodedb.py
Linus Lüssing 605765cd12 try non-fuzzy prior fuzzy mac matching
Fuzzy matching should only be tried if there's no exact match. Otherwise
a node in the map might get the wrong label.
2014-05-02 04:10:39 +02:00

382 lines
8.9 KiB
Python

import json
from functools import reduce
from collections import defaultdict
from node import Node, Interface
from link import Link, LinkConnector
class NodeDB:
def __init__(self):
self._nodes = []
self._links = []
# fetch list of links
def get_links(self):
self.update_vpn_links()
return self.reduce_links()
# fetch list of nodes
def get_nodes(self):
return self._nodes
def maybe_node_by_fuzzy_mac(self, mac):
mac_a = mac.lower()
for node in self._nodes:
for mac_b in node.macs:
if is_derived_mac(mac_a, mac_b):
return node
raise KeyError
def maybe_node_by_mac(self, macs):
for node in self._nodes:
for mac in macs:
if mac.lower() in node.macs:
return node
raise KeyError
def maybe_node_by_id(self, mac):
for node in self._nodes:
if mac.lower() == node.id:
return node
raise KeyError
def parse_vis_data(self,vis_data):
for x in vis_data:
if 'of' in x:
try:
node = self.maybe_node_by_mac((x['of'], x['secondary']))
except:
node = Node()
node.flags['online'] = True
if 'legacy' in x:
node.flags['legacy'] = True
self._nodes.append(node)
node.add_mac(x['of'])
node.add_mac(x['secondary'])
for x in vis_data:
if 'router' in x:
try:
node = self.maybe_node_by_mac((x['router'], ))
except:
node = Node()
node.flags['online'] = True
if 'legacy' in x:
node.flags['legacy'] = True
node.add_mac(x['router'])
self._nodes.append(node)
# If it's a TT link and the MAC is very similar
# consider this MAC as one of the routers
# MACs
if 'gateway' in x and x['label'] == "TT":
if is_similar(x['router'], x['gateway']):
node.add_mac(x['gateway'])
# skip processing as regular link
continue
try:
if 'neighbor' in x:
try:
node = self.maybe_node_by_mac((x['neighbor']))
except:
continue
if 'gateway' in x:
x['neighbor'] = x['gateway']
node = self.maybe_node_by_mac((x['neighbor'], ))
except:
node = Node()
node.flags['online'] = True
if x['label'] == 'TT':
node.flags['client'] = True
node.add_mac(x['neighbor'])
self._nodes.append(node)
for x in vis_data:
if 'router' in x:
try:
if 'gateway' in x:
x['neighbor'] = x['gateway']
router = self.maybe_node_by_mac((x['router'], ))
neighbor = self.maybe_node_by_mac((x['neighbor'], ))
except:
continue
# filter TT links merged in previous step
if router == neighbor:
continue
link = Link()
link.source = LinkConnector()
link.source.interface = x['router']
link.source.id = self._nodes.index(router)
link.target = LinkConnector()
link.target.interface = x['neighbor']
link.target.id = self._nodes.index(neighbor)
link.quality = x['label']
link.id = "-".join(sorted((link.source.interface, link.target.interface)))
if x['label'] == "TT":
link.type = "client"
self._links.append(link)
for x in vis_data:
if 'primary' in x:
try:
node = self.maybe_node_by_mac((x['primary'], ))
except:
continue
node.id = x['primary']
def reduce_links(self):
tmp_links = defaultdict(list)
for link in self._links:
tmp_links[link.id].append(link)
links = []
def reduce_link(a, b):
a.id = b.id
a.source = b.source
a.target = b.target
a.type = b.type
a.quality = ", ".join([x for x in (a.quality, b.quality) if x])
return a
for k, v in tmp_links.items():
new_link = reduce(reduce_link, v, Link())
links.append(new_link)
return links
def import_aliases(self, aliases):
for mac, alias in aliases.items():
try:
node = self.maybe_node_by_mac([mac])
except:
try:
node = self.maybe_node_by_fuzzy_mac(mac)
except:
# create an offline node
node = Node()
node.add_mac(mac)
self._nodes.append(node)
if 'name' in alias:
node.name = alias['name']
if 'vpn' in alias and alias['vpn']:
node.interfaces[mac].vpn = True
if 'gps' in alias:
node.gps = alias['gps']
if 'firmware' in alias:
node.firmware = alias['firmware']
# list of macs
# if options['gateway']:
# mark_gateways(options['gateway'])
def mark_gateways(self, gateways):
for gateway in gateways:
try:
node = self.maybe_node_by_mac((gateway, ))
except:
continue
node.flags['gateway'] = True
def update_vpn_links(self):
changes = 1
while changes > 0:
changes = 0
for link in self._links:
if link.type == "client":
continue
source_interface = self._nodes[link.source.id].interfaces[link.source.interface]
target_interface = self._nodes[link.target.id].interfaces[link.target.interface]
if source_interface.vpn or target_interface.vpn:
source_interface.vpn = True
target_interface.vpn = True
if link.type != "vpn":
changes += 1
link.type = "vpn"
def count_clients(self):
for link in self._links:
try:
a = self.maybe_node_by_id(link.source.interface)
b = self.maybe_node_by_id(link.target.interface)
if a.flags['client']:
client = a
node = b
elif b.flags['client']:
client = b
node = a
else:
continue
node.clientcount += 1
except:
pass
def obscure_clients(self):
globalIdCounter = 0
nodeCounters = {}
clientIds = {}
for node in self._nodes:
if node.flags['client']:
node.macs = set()
clientIds[node.id] = None
for link in self._links:
ids = link.source.interface
idt = link.target.interface
try:
node_source = self.maybe_node_by_fuzzy_mac(ids)
node_target = self.maybe_node_by_id(idt)
if not node_source.flags['client'] and not node_target.flags['client']:
# if none of the nodes associated with this link are clients,
# we do not want to obscure
continue
if ids in clientIds and idt in clientIds:
# This is for corner cases, when a client
# is linked to another client.
clientIds[ids] = str(globalIdCounter)
ids = str(globalIdCounter)
globalIdCounter += 1
clientIds[idt] = str(globalIdCounter)
idt = str(globalIdCounter)
globalIdCounter += 1
elif ids in clientIds:
newId = generateId(idt)
clientIds[ids] = newId
ids = newId
link.source.interface = ids;
node_source.id = ids;
elif idt in clientIds:
newId = generateId(ids,nodeCounters)
clientIds[idt] = newId
idt = newId
link.target.interface = idt;
node_target.id = idt;
link.id = ids + "-" + idt
except KeyError:
pass
# extends node id by incremented node counter
def generateId(nodeId,nodeCounters):
if nodeId in nodeCounters:
n = nodeCounters[nodeId]
nodeCounters[nodeId] = n + 1
else:
nodeCounters[nodeId] = 1
n = 0
return nodeId + "_" + str(n)
# compares two MACs and decides whether they are
# similar and could be from the same node
def is_similar(a, b):
if a == b:
return True
try:
mac_a = list(int(i, 16) for i in a.split(":"))
mac_b = list(int(i, 16) for i in b.split(":"))
except ValueError:
return False
# first byte must only differ in bit 2
if mac_a[0] | 2 == mac_b[0] | 2:
# count different bytes
c = [x for x in zip(mac_a[1:], mac_b[1:]) if x[0] != x[1]]
else:
return False
# no more than two additional bytes must differ
if len(c) <= 2:
delta = 0
if len(c) > 0:
delta = sum(abs(i[0] -i[1]) for i in c)
# These addresses look pretty similar!
return delta < 8
def is_derived_mac(a, b):
if a == b:
return True
try:
mac_a = list(int(i, 16) for i in a.split(":"))
mac_b = list(int(i, 16) for i in b.split(":"))
except ValueError:
return False
if mac_a[4] != mac_b[4] or mac_a[2] != mac_b[2] or mac_a[1] != mac_b[1]:
return False
x = list(mac_a)
x[5] += 1
x[5] %= 255
if mac_b == x:
return True
x[0] |= 2
if mac_b == x:
return True
x[3] += 1
x[3] %= 255
if mac_b == x:
return True
x = list(mac_a)
x[0] |= 2
x[5] += 2
x[5] %= 255
if mac_b == x:
return True
x = list(mac_a)
x[0] |= 2
x[3] += 1
x[3] %= 255
if mac_b == x:
return True
return False