#!/usr/bin/env python # vim:ts=2:et:sw=2:ai # # Build topological network graph # Rick van der Zwet import gformat import glob import json import os import re import subprocess import sys import tempfile import yaml try: store = yaml.load(open('store.yaml','r')) except IOError: store = None HEADER = ''' ''' POINT = ''' %(nodename)s %(nodename)s %(longitude)s,%(latitude)s,0 ''' LINE = ''' #%(styleId)s %(longitudeA)s,%(latitudeA)s,0 %(longitudeB)s,%(latitudeB)s,0 ''' FOOTER = ''' ''' def get_graph_data(debug=False): poel = {} link_type = {} link_data = {} link_status = {} hosts = {} try: for host in gformat.get_hostlist(): if debug: print "## Processing host", host datadump = gformat.get_yaml(host) nodename = datadump['nodename'] hosts[nodename] = datadump for iface_key in datadump['autogen_iface_keys']: l = datadump[iface_key]['ip'] addr, mask = l.split('/') # Not parsing of these folks please if not gformat.valid_addr(addr): continue addr = gformat.parseaddr(addr) mask = int(mask) addr = addr & ~((1 << (32 - mask)) - 1) if poel.has_key(addr): poel[addr] += [nodename] if link_status[addr] == 'linkUp': if datadump['status'] == 'planned': link_status[addr] = 'linkPlanned' elif datadump[iface_key]['status'] == 'planned': link_status[addr] = 'linkPlanned' elif datadump[iface_key]['status'] == 'down': link_status[addr] = 'linkDown' else: poel[addr] = [nodename] # Assume all ns_ip to be 11a for a moment if datadump[iface_key].has_key('ns_ip'): link_type[addr] = '11a' else: link_type[addr] = datadump[iface_key]['type'] if datadump['status'] == 'planned': link_status[addr] = 'linkPlanned' elif datadump[iface_key]['status'] == 'planned': link_status[addr] = 'linkPlanned' elif datadump[iface_key]['status'] == 'down': link_status[addr] = 'linkDown' else: link_status[addr] = 'linkUp' link_data[addr] = 1 iface = datadump[iface_key]['autogen_ifname'] nodename = datadump['nodename'] INTERVAL = 60 * 10 if store and store['uptime'].has_key(nodename) and store['snmp'].has_key(nodename) and store['traffic'].has_key(nodename): if store and store['traffic'][nodename].has_key(iface): (b_in, b_out) = store['traffic'][nodename][iface] uptime = store['uptime'][nodename] t_kb = float(b_in + b_out) / 1024 if debug: print "# INFO: Found %s kB in %s seconds" % (t_kb, INTERVAL) retval = ((t_kb) / uptime) * INTERVAL link_data[addr] = retval if debug: print "### %s [%s] is of type %s" % (gformat.showaddr(addr), iface_key, link_type[addr]) except (KeyError, ValueError), e: if debug: print "[FOUT] in '%s' interface '%s'" % (host,iface_key) if debug: print e sys.exit(1) return (poel, link_type, link_data, link_status, hosts) def make_nodeplanner_json(debug=False): # Input data poel, link_type, link_data, link_status, hosts = get_graph_data(debug) # Export data points = [] for nodename, datadump in hosts.iteritems(): points.append({'name': datadump['nodename'], 'lat' : float(datadump['latitude']), 'lon' : float(datadump['longitude']), 'state' : datadump['status']}) links = [] for addr,leden in poel.iteritems(): for index,lid in enumerate(leden[:-1]): for buur in leden[index + 1:]: links.append({'master' : hosts[buur]['nodename'], 'slave': hosts[lid]['nodename'], 'state' : link_status[addr][4:].lower()}) # Format data return json.dumps({'points' : points, 'links' : links}) def make_graph(debug=False): poel, link_type, link_data, link_status, hosts = get_graph_data(debug) output = '' if debug: print "# Building KML file" output += HEADER for nodename, datadump in hosts.iteritems(): output += POINT % datadump for addr,leden in poel.iteritems(): if link_type[addr] == '11a': color = 'green' weight = 4 elif link_type[addr] == 'eth': color = 'blue' weight = 8 else: color = 'black' weight = 1 width = max(1,link_data[addr]) leden = sorted(set(leden)) for index,lid in enumerate(leden[:-1]): for buur in leden[index + 1:]: keys = {} keys['styleId'] = link_status[addr] for key, value in hosts[buur].iteritems(): keys[key + 'A'] = value for key, value in hosts[lid].iteritems(): keys[key + 'B'] = value output += LINE % keys output += FOOTER return output if __name__ == "__main__": OUTFILE = os.path.join(os.getcwd(),'network.kml') kml_data = make_graph(debug=True) f = open(OUTFILE,'w') f.write(kml_data) f.close() print "# COMPLETED find your output in %s\n" % OUTFILE