def main():
app = p2pConsole()
while (True):
console_input = str(raw_input('node$ ')).split()
if str(console_input[0]) == 'connect':
if len(console_input) == 3:
app.host = str(console_input[1])
app.port = int(console_input[2])
app.start_connection()
else:
print("Staring connection with default values. Use " +
"following syntax for custom values: connect " +
"[host] [port]")
app.start_connection()
elif str(console_input[0]) == 'join':
app.sock.send(
createMessage(msg_type=MSG_JOIN,
payload="",
org_port=app.org_port,
org_ip=app.org_ip))
app.receive_message()
elif str(console_input[0]) == 'query':
if len(console_input) == 2:
message = createMessage(msg_type=MSG_QUERY,
ttl=3,
org_port=app.org_port,
org_ip=app.org_ip,
payload=str(console_input[1]))
print(parseReceivedMessage(message))
app.sock.send(message)
app.receive_message()
else:
print("Use following syntax: query [payload]")
elif str(console_input[0]) == 'ping':
app.sock.send(
createMessage(ttl=3, org_port=app.org_port, org_ip=app.org_ip))
app.receive_message()
elif str(console_input[0]) == 'bye':
print("Closing connection")
app.sock.send(
createMessage(msg_type=MSG_BYE,
org_port=app.org_port,
org_ip=app.org_ip))
app.close_connection()
print("Closed")
elif str(console_input[0]) == 'quit':
app.close_connection()
sys.exit(0)
else:
print('Wrong input!')
def main():
app = p2pConsole()
while(True):
console_input = str(raw_input('node$ ')).split()
if str(console_input[0]) == 'connect':
if len(console_input) == 3:
app.host = str(console_input[1])
app.port = int(console_input[2])
app.start_connection()
else:
print("Staring connection with default values. Use " +
"following syntax for custom values: connect " +
"[host] [port]")
app.start_connection()
elif str(console_input[0]) == 'join':
app.sock.send(createMessage(
msg_type=MSG_JOIN, payload="", org_port=app.org_port,
org_ip=app.org_ip))
app.receive_message()
elif str(console_input[0]) == 'query':
if len(console_input) == 2:
message = createMessage(
msg_type=MSG_QUERY, ttl=3, org_port=app.org_port,
org_ip=app.org_ip, payload=str(console_input[1]))
print(parseReceivedMessage(message))
app.sock.send(message)
app.receive_message()
else:
print("Use following syntax: query [payload]")
elif str(console_input[0]) == 'ping':
app.sock.send(createMessage(ttl=3, org_port=app.org_port,
org_ip=app.org_ip))
app.receive_message()
elif str(console_input[0]) == 'bye':
print("Closing connection")
app.sock.send(createMessage(msg_type=MSG_BYE,
org_port=app.org_port,
org_ip=app.org_ip))
app.close_connection()
print("Closed")
elif str(console_input[0]) == 'quit':
app.close_connection()
sys.exit(0)
else:
print('Wrong input!')
def handshake(socket):
socket.send(createMessage(msg_type=MSG_JOIN,
org_ip=socket.getsockname()[0]))
response = socket.recv(1024)
header, payload = parseReceivedMessage(response)
# Join was successful
if payload == ('0200'):
global neighbours
neighbours.append((header[6], header[4]))
# Send PING type b to expand neighbourhood
socket.send(createMessage(ttl=5, org_port=socket.getsockname()[1],
org_ip=socket.getsockname()[0]))
response = socket.recv(1024)
header, payload = parseReceivedMessage(response)
if len(payload) > 0:
# Iterate through payload
for i in range(1, len(payload)):
# Add to neighbours if not already there
if not (payload[i][0], payload[i][1]) in neighbours:
neighbours.append((payload[i][0], payload[i][1]))
print("Neighbours:")
print(neighbours)
def forward(header, payload, sock):
global connections
data = struct.pack('>'+str(len(payload[0]))+'s', payload[0])
message = createMessage(msg_type=MSG_QUERY, ttl=header[1]-1,
org_port=header[4], org_ip=header[6],
msg_id=header[7], payload=data)
for connection in connections:
# Don't send it back to searching node
if sock is not connection[1]:
print("Forwarded Message parsed:")
print(parseReceivedMessage(message))
connection[1].send(message)
def handshake(socket):
socket.send(
createMessage(msg_type=MSG_JOIN, org_ip=socket.getsockname()[0]))
response = socket.recv(1024)
header, payload = parseReceivedMessage(response)
# Join was successful
if payload == ('0200'):
global neighbours
neighbours.append((header[6], header[4]))
# Send PING type b to expand neighbourhood
socket.send(
createMessage(ttl=5,
org_port=socket.getsockname()[1],
org_ip=socket.getsockname()[0]))
response = socket.recv(1024)
header, payload = parseReceivedMessage(response)
if len(payload) > 0:
# Iterate through payload
for i in range(1, len(payload)):
# Add to neighbours if not already there
if not (payload[i][0], payload[i][1]) in neighbours:
neighbours.append((payload[i][0], payload[i][1]))
print("Neighbours:")
print(neighbours)
def forward(header, payload, sock):
global connections
data = struct.pack('>' + str(len(payload[0])) + 's', payload[0])
message = createMessage(msg_type=MSG_QUERY,
ttl=header[1] - 1,
org_port=header[4],
org_ip=header[6],
msg_id=header[7],
payload=data)
for connection in connections:
# Don't send it back to searching node
if sock is not connection[1]:
print("Forwarded Message parsed:")
print(parseReceivedMessage(message))
connection[1].send(message)
def process_message(header, payload, socket):
# Discard messages with invalid version or ttl
global q_searches
global connections
global neighbours
if (header[0] == 1 or header[1] < 1 or header[1] > 5):
if header[2] == MSG_PING:
# Type a
if header[1] == 1:
print("Respond with PONG A")
socket.send(createMessage(msg_type=MSG_PONG,
org_port=socket.getsockname()[1],
org_ip=socket.getsockname()[0]))
# Type b
else:
tmp = list(neighbours)
if (header[6], header[4]) in tmp:
tmp.remove((header[6], header[4]))
response = tmp[:5]
data = bytearray()
if(len(response) > 0):
data.extend(struct.pack('>HH', len(response), 0))
for item in response:
data.extend(struct.pack('>IHH', ipToNum(item[0]),
item[1], 0))
print("Respond with PONG B")
socket.send(createMessage(msg_type=MSG_PONG,
org_port=socket.getsockname()[1],
org_ip=socket.getsockname()[0],
payload=data))
elif header[2] == MSG_PONG:
# Pong type b
if len(payload) > 0:
# Iterate through payload
for i in range(1, len(payload)):
# Add to neighbours if not already there
if not (payload[i][0], payload[i][1]) in neighbours:
neighbours.append((payload[i][0], payload[i][1]))
elif header[2] == MSG_BYE:
if (header[6], header[4]) in neighbours:
neighbours.remove((header[6], header[4]))
print("Neighbours:")
print(neighbours)
if (header[6], socket) in connections:
connections.remove((header[6], socket))
elif header[2] == MSG_JOIN:
if not (header[6], header[4]) in neighbours:
neighbours.append((header[6], header[4]))
print("Neighbours:")
print(neighbours)
data = bytearray()
data.append(0x02)
data.append(0x00)
print("Respond with JOIN OK")
socket.send(createMessage(msg_type=MSG_JOIN,
org_port=socket.getsockname()[1],
org_ip=socket.getsockname()[0],
payload=data))
elif header[2] == MSG_QUERY:
# Check if key is known
if payload[0] in keys:
data = struct.pack('>HHHH4s', 1, 0, 1, 0,
binascii.unhexlify(keys[payload[0]]))
print("Respond with QUERY HIT")
socket.send(createMessage(msg_type=MSG_QHIT,
org_port=socket.getsockname()[1],
org_ip=socket.getsockname()[0],
payload=data, msg_id=header[7]))
# Save search
q_searches.append((header[6], header[7]))
# Forward to other nodes
forward(header, payload, socket)
elif header[2] == MSG_QHIT:
# Check if known message id
for (x, y) in q_searches:
if y == header[7]:
# Check if connection exists with given ip address
for (a, b) in connections:
if a == x:
data = bytearray()
data.extend(struct.pack('>HH', payload[0], 0))
for i in range(payload[0]):
data.extend(
struct.pack('>HH4s', i+1, 0,
binascii.unhexlify(
payload[1][i+1])))
b.send(createMessage(msg_type=MSG_QHIT,
org_port=header[4],
org_ip=header[6],
payload=data, msg_id=y))
def process_message(header, payload, socket):
# Discard messages with invalid version or ttl
global q_searches
global connections
global neighbours
if (header[0] == 1 or header[1] < 1 or header[1] > 5):
if header[2] == MSG_PING:
# Type a
if header[1] == 1:
print("Respond with PONG A")
socket.send(
createMessage(msg_type=MSG_PONG,
org_port=socket.getsockname()[1],
org_ip=socket.getsockname()[0]))
# Type b
else:
tmp = list(neighbours)
if (header[6], header[4]) in tmp:
tmp.remove((header[6], header[4]))
response = tmp[:5]
data = bytearray()
if (len(response) > 0):
data.extend(struct.pack('>HH', len(response), 0))
for item in response:
data.extend(
struct.pack('>IHH', ipToNum(item[0]), item[1], 0))
print("Respond with PONG B")
socket.send(
createMessage(msg_type=MSG_PONG,
org_port=socket.getsockname()[1],
org_ip=socket.getsockname()[0],
payload=data))
elif header[2] == MSG_PONG:
# Pong type b
if len(payload) > 0:
# Iterate through payload
for i in range(1, len(payload)):
# Add to neighbours if not already there
if not (payload[i][0], payload[i][1]) in neighbours:
neighbours.append((payload[i][0], payload[i][1]))
elif header[2] == MSG_BYE:
if (header[6], header[4]) in neighbours:
neighbours.remove((header[6], header[4]))
print("Neighbours:")
print(neighbours)
if (header[6], socket) in connections:
connections.remove((header[6], socket))
elif header[2] == MSG_JOIN:
if not (header[6], header[4]) in neighbours:
neighbours.append((header[6], header[4]))
print("Neighbours:")
print(neighbours)
data = bytearray()
data.append(0x02)
data.append(0x00)
print("Respond with JOIN OK")
socket.send(
createMessage(msg_type=MSG_JOIN,
org_port=socket.getsockname()[1],
org_ip=socket.getsockname()[0],
payload=data))
elif header[2] == MSG_QUERY:
# Check if key is known
if payload[0] in keys:
data = struct.pack('>HHHH4s', 1, 0, 1, 0,
binascii.unhexlify(keys[payload[0]]))
print("Respond with QUERY HIT")
socket.send(
createMessage(msg_type=MSG_QHIT,
org_port=socket.getsockname()[1],
org_ip=socket.getsockname()[0],
payload=data,
msg_id=header[7]))
# Save search
q_searches.append((header[6], header[7]))
# Forward to other nodes
forward(header, payload, socket)
elif header[2] == MSG_QHIT:
# Check if known message id
for (x, y) in q_searches:
if y == header[7]:
# Check if connection exists with given ip address
for (a, b) in connections:
if a == x:
data = bytearray()
data.extend(struct.pack('>HH', payload[0], 0))
for i in range(payload[0]):
data.extend(
struct.pack(
'>HH4s', i + 1, 0,
binascii.unhexlify(payload[1][i + 1])))
b.send(
createMessage(msg_type=MSG_QHIT,
org_port=header[4],
org_ip=header[6],
payload=data,
msg_id=y))
