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node.py
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from transporter_api import Transporter
import networkx as nx
import socket
import json
from pprint import pprint
import time
import signal
import sys
from threading import Timer
from collections import defaultdict
import logging
logger = logging.getLogger('root')
FORMAT = "[%(filename)s:%(lineno)s - %(funcName)20s() ] %(message)s"
logging.basicConfig(format=FORMAT)
logger.setLevel(logging.DEBUG)
# logger.setLevel(logging.WARNING)
class RepeatedTimer(object):
def __init__(self, interval, function, *args, **kwargs):
self._timer = None
self.interval = interval
self.function = function
self.args = args
self.kwargs = kwargs
self.is_running = False
self.start()
def _run(self):
self.is_running = False
self.start()
self.function(*self.args, **self.kwargs)
def start(self):
if not self.is_running:
self._timer = Timer(self.interval, self._run)
self._timer.start()
self.is_running = True
def stop(self):
self._timer.cancel()
self.is_running = False
class Node(Transporter):
def on_receive(self, msg):
logger.debug("Received: "+ str(msg))
for m in msg:
decoded_json = json.loads(m)
type = decoded_json['type']
if type == 'send_init_along_path':
self.handleInitAlongPath(decoded_json)
elif type == 'heartbeat':
self.handleHeartbeat(decoded_json)
elif type == 'heartbeat_ack':
self.handleHeartbeatAck(decoded_json)
elif type == 'send_msg_to_root':
self.send_msg_to_root(decoded_json)
elif type == 'broadcast_reiden':
self.broadcast_reiden(decoded_json)
elif type == 'broadcast_moe':
self.broadcast_moe(decoded_json)
elif type == 'ack_to_reiden':
self.converge_cast_ack(decoded_json['msg'])
elif type == 'moe_update':
self.converge_cast_moe(decoded_json['edge'], decoded_json['path'])
elif type == 'neighbors_info':
self.add_neighbor_info(decoded_json)
elif type == 'set_root':
self.change_root(decoded_json['path'], decoded_json['child'], decoded_json['edge'])
elif type == 'join_request':
self.handle_join(decoded_json)
elif type == 'formation_completed':
self.broadcast_completion_info(decoded_json)
elif type == 'neighbors_info':
self.add_neighbor_info(decoded_json)
def handleInitAlongPath(self, msg):
if len(msg['remaining_path']) > 0:
ip, port = msg['remaining_path'][0]
msg['remaining_path'].remove(msg['remaining_path'][0])
self.send_message(ip, port, msg)
else:
self.self_node = msg['msg']['self_node']
self.master_node = msg['msg']['master_node']
self.fragmentId = [msg['msg']['self_node']['id']]
self.parent = msg['msg']['parent']
self.children = msg['msg']['children']
self.neighbors = msg['msg']['neighbors']
self.join_request = []
self.root_changed = False
for l in self.neighbors:
l['timestamp'] = int(round(time.time() * 1000))
self.ack = 0
pprint(vars(self))
self.startHeartbeat()
def startHeartbeat(self):
RepeatedTimer(2, self.callbackHeartbeat)
def handleHeartbeat(self, msg):
if not hasattr(self,'neighbors'):
print "early heartbeat"
return
for l in self.neighbors:
if l['id'] == msg['from']:
l['timestamp'] = int(round(time.time() * 1000))
msg = {'type': 'heartbeat_ack', 'from': self.self_node['id']}
self.send_message(l['ip'], l['port'], msg)
def handleHeartbeatAck(self, msg):
for l in self.neighbors:
if l['id'] == msg['from']:
l['timestamp'] = int(round(time.time() * 1000))
def callbackHeartbeat(self):
logger.debug("heartbeatcheck!")
newneighbors = []
toberemoved = []
for l in self.neighbors:
curr_time = int(round(time.time() * 1000))
if l['timestamp'] < curr_time - 6000:
logger.debug("timeout, removing"+str(l))
toberemoved.append(l)
continue
else:
newneighbors.append(l)
if l['id'] > self.self_node['id']:
msg = {'type': 'heartbeat', 'from': self.self_node['id']}
self.send_message(l['ip'], l['port'], msg)
self.neighbors = newneighbors
for x in toberemoved:
self.on_link_failure(x['id'])
def removeFromNeighbors(self, idlist):
newneighbors = []
toberemoved = []
for x in self.neighbors:
if x['id'] in idlist:
logger.debug("removing "+ str(x['id'])+ ' from neighbors')
toberemoved.append(x)
continue
else:
newneighbors.append(x)
self.neighbors = newneighbors
for x in toberemoved:
self.on_link_failure(x['id'])
def shutEverythingDown(self, signal, frame):
logger.debug(" huehuehue bye")
sys.exit(0)
def handleInterrupt(self, signal, frame):
with open("interrupt_instruction.txt", 'r') as f:
lines = f.readlines()
interrupt_type = lines[0].strip()
if interrupt_type == "sendmst":
self.sendMSTInfos()
elif interrupt_type == "removefromneighbors":
self.removeFromNeighbors([l.strip() for l in lines[1:]])
def startInterruptHandling(self):
signal.signal(signal.SIGINT, self.handleInterrupt)
signal.signal(signal.SIGTSTP, self.shutEverythingDown)
def on_link_failure(self, lost_node_id):
if self.parent != None and self.parent['id'] == lost_node_id:
self.parent = None
else:
index = -1
for i in range(len(self.children)):
if self.children[i]['id'] == lost_node_id:
index = i
break
if index >= 0:
self.children.pop(index)
msg = {'type': 'send_msg_to_root'}
self.send_msg_to_root(msg)
def send_msg_to_root(self, msg):
logger.debug("send msg to root"+str(msg))
if self.parent is None:
self.on_broadcast_reiden()
else:
self.send_message(self.parent['ip'], self.parent['port'], msg)
def broadcast_reiden(self, msg):
logger.debug("broadcast rieden"+str(msg))
if len(self.children) == 0:
self.converge_cast_ack([])
else:
for child in self.children:
self.send_message(child['ip'], child['port'], msg)
def on_broadcast_reiden(self):
msg = {'type': 'broadcast_reiden'}
self.broadcast_reiden(msg)
def broadcast_moe(self, msg):
logger.debug("broADCAST MOE "+str(msg))
self.fragmentId = msg['fragment_id']
if len(self.children) == 0:
edge = {'weight': sys.maxint}
self.converge_cast_moe(edge, [])
else:
for child in self.children:
self.send_message(child['ip'], child['port'], msg)
def on_formation_completition(self):
msg = {'type':'formation_completed',
}
self.broadcast_completion_info(msg)
def broadcast_completion_info(self,msg):
neighbours_info = {'type': 'neighbors_info',
'id': self.self_node['id'],
'parent':self.parent,
'children': self.children
}
self.send_message(self.master_node['ip'], self.master_node['port'], neighbours_info)
for child in self.children:
self.send_message(child['ip'], child['port'], msg)
def on_broadcast_moe(self, list_of_node_ids):
msg = {'type': 'broadcast_moe',
'fragment_id': list_of_node_ids
}
self.broadcast_moe(msg)
def handle_join(self, msg):
self.join_request.append(msg['from'])
if self.root_changed:
self.root_changed = False
self.join_request.remove(msg['from'])
logger.debug("hua2")
if msg['from']['id'] > self.self_node['id']:
self.parent = msg['from']
else:
self.children.append(msg['from'])
time.sleep(1)
self.on_broadcast_reiden()
pprint(vars(self))
def change_root(self, path, child, edge):
logger.debug("change root initiated"+str(path)+","+str(child)+","+str(edge))
if len(path) == 1:
# call the join function
if child is not None:
self.children.append(child)
self.parent = None
self.root_changed = True
msg ={}
msg['type'] = "join_request"
msg['from'] = edge['inside']
self.send_message(edge['outside']['ip'], edge['outside']['port'], msg)
if edge['outside'] in self.join_request:
self.root_changed = False
self.join_request.remove(edge['outside'])
logger.debug("hua1"+str(edge))
if edge['outside']['id'] > edge['inside']['id']:
self.parent = edge['outside']
else:
self.children.append(edge['outside'])
time.sleep(1)
self.on_broadcast_reiden()
pprint(vars(self))
else:
path = path[:-1]
self.parent = path[-1]
self.children.remove(path[-1])
if child is not None:
self.children.append(child)
msg = {}
msg['type'] = 'set_root'
msg['path'] = path
msg['child'] = self.self_node
msg['edge'] = edge
self.send_message(self.parent['ip'], self.parent['port'], msg)
def converge_cast_moe(self, edge, path):
logger.debug("converge_cast_moe inititated"+str(edge)+","+str(path))
self.ack += 1
if hasattr(self, 'moeList'):
self.moeList.append((edge, path))
else:
self.moeList = []
self.moeList.append((edge, path))
if self.ack >= len(self.children):
self.ack = 0
ans_path = []
min_wt = sys.maxint
min_edge = {}
min_edge['weight'] = sys.maxint
for anedge in self.moeList:
if min_wt > anedge[0]['weight']:
min_wt = anedge[0]['weight']
min_edge = anedge[0]
ans_path = anedge[1]
self.moeList = []
own_moe = self.get_moe()
if own_moe['weight'] != sys.maxint:
if own_moe['weight'] < min_edge['weight']:
ans_path = [self.self_node]
min_edge = own_moe
else:
ans_path.append(self.self_node)
else:
ans_path.append(self.self_node)
if self.parent is not None:
msg = {}
msg['type'] = 'moe_update'
msg['edge'] = min_edge
msg['path'] = ans_path
self.send_message(self.parent['ip'], self.parent['port'], msg)
else:
if min_edge['weight'] != sys.maxint:
self.change_root(ans_path, self.parent, min_edge) # check this line
else:
logger.debug("Tree sahi ho gaya huehuehuehue")
self.on_formation_completition()
def get_moe(self):
min_wt = sys.maxint
min_edge = {}
min_edge['weight'] = sys.maxint
### COnfirm neighbors
for neighbor in self.neighbors:
if neighbor['id'] not in self.fragmentId:
if min_wt > neighbor['weight']:
min_wt = neighbor['weight']
min_edge['inside'] = self.self_node
nbr = {}
nbr['id'] = neighbor['id']
nbr['ip'] = neighbor['ip']
nbr['port'] = neighbor['port']
min_edge['outside'] = nbr
min_edge['weight'] = min_wt
return min_edge
def converge_cast_ack(self, subtreeId):
logger.debug("converge_cast_ack initiated"+str(subtreeId))
self.ack += 1
if self.ack == 1:
self.fragmentId = [self.self_node['id']]
self.fragmentId.extend(subtreeId)
if self.ack >= len(self.children):
self.ack = 0
if self.parent is not None:
msg = {}
msg['type'] = "ack_to_reiden"
msg['msg'] = self.fragmentId
self.send_message(self.parent['ip'], self.parent['port'], msg)
else:
# broadcast MOE and fragment message
self.on_broadcast_moe(self.fragmentId)