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path: root/retiolum/scripts/adv_graphgen/tinc_stats/Graph.py
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#!/usr/bin/python
from BackwardsReader import BackwardsReader
from Graphite import GraphiteSender
import sys,json,os
from Supernodes import check_all_the_super
from Availability import get_node_availability
import sys,json
from time import time
DUMP_FILE = "/krebs/db/availability"


def resolve_myself(nodes):
  #resolve MYSELF to the real ip
  for k,v in nodes.iteritems():
    if v["external-ip"] == "MYSELF":
      for nodek,node in nodes.iteritems():
         for to in node['to']:
           if to['name'] == k:
             v["external-ip"] = to["addr"]
  return nodes

def dump_graph(nodes):
  from time import time
  graph = {}
  graph['nodes'] = nodes
  graph['timestamp'] = time()
  f = open(DUMP_FILE,'a')
  json.dump(graph,f)
  f.write('\n')
  f.close()

def generate_availability_stats(nodes):
  """ generates stats of from availability
  """
  jlines = []
  try:
    f = BackwardsReader(DUMP_FILE)
    lines_to_use = 1000
    while True:
      if lines_to_use == 0: break
      line = f.readline()
      if not line: break
      jline = json.loads(line)
      if not jline['nodes']: continue

      jlines.append(jline)
      lines_to_use -=1
  except Exception,e: sys.stderr.write(str(e))

  for k,v in nodes.iteritems():
    v['availability'] = get_node_availability(k,jlines)
    sys.stderr.write( "%s -> %f\n" %(k ,v['availability']))

def generate_stats(nodes):
  """ Generates some statistics of the network and nodes
  """
  for k,v in nodes.iteritems():
    conns = v.get('to',[])
    for c in conns: #sanitize weights
      if float(c['weight']) > 9000: c['weight'] = str(9001)
      elif float(c['weight']) < 0: c['weight'] = str(0)
    v['num_conns'] = len(conns)
    v['avg_weight'] = get_node_avg_weight(conns)

def get_node_avg_weight(conns):
  """ calculates the average weight for the given connections """
  if not conns:
    sys.syderr.write("get_node_avg_weight: connection parameter empty")
    return 9001
  else:
    return sum([float(c['weight']) for c in conns])/len(conns)

def delete_unused_nodes(nodes):
  """ Deletes all the nodes which are currently not connected to the network"""
  new_nodes = {}
  for k,v in nodes.iteritems():
    if v['external-ip'] == "(null)":
      continue
    if v.get('to',[]):
      new_nodes[k] = v
  for k,v in new_nodes.iteritems():
    if not [ i for i in v['to'] if i['name'] in new_nodes]:
      del(k)
  return new_nodes

def merge_edges(nodes):
  """ merge back and forth edges into one
  DESTRUCTS the current structure by deleting "connections" in the nodes
  """
  for k,v in nodes.iteritems():
    for con in v.get('to',[]):
      for i,secon in enumerate(nodes.get(con['name'],{}).get('to',[])):
        if k == secon['name']:
          del (nodes[con['name']]['to'][i])
          con['bidirectional'] = True


def print_head():
  print ('digraph retiolum {')
  print ('  graph [center packMode="clust"]')
  print ('  node[shape=box,style=filled,fillcolor=grey]')
  print ('  overlap=false')

def print_stat_node(nodes):
  ''' Write a `stats` node in the corner
      This node contains infos about the current number of active nodes and connections inside the network
  '''
  from time import localtime,strftime
  num_conns = 0
  num_nodes = len(nodes)
  try: 
    msg = '%s.num_nodes %d %d\r\n' %(g_path,num_nodes,begin)
    s.send(msg)
  except Exception as e: pass
  #except: pass
  for k,v in nodes.iteritems():
    num_conns+= len(v['to'])
  node_text = "  stats_node [label=\"Statistics\\l"
  node_text += "Build Date  : %s\\l" % strftime("%Y-%m-%d %H:%M:%S",localtime())
  node_text += "Active Nodes: %s\\l" % num_nodes
  node_text += "Connections : %s\\l" % num_conns
  node_text += "\""
  node_text += ",fillcolor=green"
  node_text += "]"
  print(node_text)

def print_node(k,v):
  """ writes a single node and its edges 
      edges are weightet with the informations inside the nodes provided by
      tinc
  """

  node = "  "+k+"[label=\""
  node += k+"\\l"
  node += "availability: %f\\l" % v['availability'] 
  if v.has_key('num_conns'):
    node += "Num Connects:"+str(v['num_conns'])+"\\l"
  node += "external:"+v['external-ip']+":"+v['external-port']+"\\l"
  for addr in v.get('internal-ip',['dunno lol']): 
    node += "internal:%s\\l"%addr
  node +="\""

  if v['num_conns'] == 1:
    node += ",fillcolor=red"
  elif k in supernodes:
    node += ",fillcolor=steelblue1"
  node += "]"
  print node

def print_anonymous_node(k,v):
  """ writes a single node and its edges 
      edges are weightet with the informations inside the nodes provided by
      tinc
  """
  
  node = "  "+k #+"[label=\""
  print node

def print_edge(k,v):
  for con in v.get('to',[]):
    label  = con['weight']
    w = int(con['weight'])
    weight = str(1000 - (((w - 150) * (1000 - 0)) / (1000 -150 )) + 0)

    length = str(float(w)/1500)
    if float(weight) < 0 :
      weight= "1"

    edge = "  "+k+ " -> " +con['name'] + " [label="+label + " weight="+weight 
    if con.get('bidirectional',False):
      edge += ",dir=both"
    edge += "]"
    print edge

def anonymize_nodes(nodes):
  #anonymizes all nodes
  i = "0"
  newnodes = {}
  for k,v in nodes.iteritems():
    for nodek,node in nodes.iteritems():
      for to in node['to']:
        if to['name'] == k:
          to['name'] = i
    newnodes[i] = v
    i = str(int(i)+1)
  return newnodes

if __name__ == "__main__":
  supernodes= []
  try:
    gr = GraphiteSender(os.environ.get("GRAPHITE_HOST","localhost"))
    begin = time()
  except Exception as e:
    sys.stderr.write( "Cannot connect to graphite: " + str(e))
  if len(sys.argv) != 2 or  sys.argv[1] not in ["anonymous","complete"]: 
    print("usage: %s (anonymous|complete)")
    sys.exit(1)

  nodes = json.load(sys.stdin)
  nodes = delete_unused_nodes(nodes)
  print_head()
  generate_stats(nodes)
  merge_edges(nodes)


  if sys.argv[1] == "anonymous":
    nodes = anonymize_nodes(nodes)

    for k,v in nodes.iteritems():
      print_anonymous_node(k,v)
      print_edge(k,v)

  elif sys.argv[1] == "complete":
    for supernode,addr in check_all_the_super():
      supernodes.append(supernode)
    generate_availability_stats(nodes)
    for k,v in nodes.iteritems():
      print_node(k,v)
      print_edge(k,v)
    try:
      dump_graph(nodes)
    except Exception,e:
      sys.stderr.write("Cannot dump graph: %s" % str(e))
  else:
    pass

  print_stat_node(nodes)
  print ('}')
  try: 
    gr.send("graph.anon_build_time",(time()-begin)*1000)
  except Exception as e: pass