def clear_buffer(self, remove_total_filter=False):
# there is a window of time after the socket has been created and
# before bind/attaching a filter where packets can be queued onto the
# socket buffer
# see comments in function set_kernel_filter() in libpcap's
# pcap-linux.c. libpcap sets a total filter which does not match any
# packet. It then clears what is already in the socket
# before setting the desired filter
total_fstring, prog = compile_bpf(total_filter)
socket.setsockopt(self, SOL_SOCKET, SO_ATTACH_FILTER, total_fstring)
self.setblocking(0)
while True:
try:
self.recvfrom(0)
except error as e:
if e.args[0] == errno.ENETDOWN:
# we only get this exception once per down event
# there may be more packets left to clean
pass
elif e.args[0] in [errno.EAGAIN, errno.EWOULDBLOCK]:
break
else:
raise
self.setblocking(1)
if remove_total_filter:
# total_fstring ignored
socket.setsockopt(self, SOL_SOCKET, SO_DETACH_FILTER,
total_fstring)
def clear_buffer(self, remove_total_filter=False):
# there is a window of time after the socket has been created and
# before bind/attaching a filter where packets can be queued onto the
# socket buffer
# see comments in function set_kernel_filter() in libpcap's
# pcap-linux.c. libpcap sets a total filter which does not match any
# packet. It then clears what is already in the socket
# before setting the desired filter
total_fstring, prog = compile_bpf(total_filter)
socket.setsockopt(self, SOL_SOCKET, SO_ATTACH_FILTER, total_fstring)
self.setblocking(0)
while True:
try:
self.recvfrom(0)
except error as e:
if e.args[0] == errno.ENETDOWN:
# we only get this exception once per down event
# there may be more packets left to clean
pass
elif e.args[0] in [errno.EAGAIN, errno.EWOULDBLOCK]:
break
else:
raise
self.setblocking(1)
if remove_total_filter:
# total_fstring ignored
socket.setsockopt(self, SOL_SOCKET, SO_DETACH_FILTER,
total_fstring)
def __init__(self, ifname, bpf=None):
self.ifname = ifname
# lookup the interface details
with IPRoute() as ip:
for link in ip.get_links():
if link.get_attr('IFLA_IFNAME') == ifname:
break
else:
raise IOError(2, 'Link not found')
self.l2addr = link.get_attr('IFLA_ADDRESS')
self.ifindex = link['index']
# bring up the socket
socket.__init__(self, AF_PACKET, SOCK_RAW, htons(ETH_P_ALL))
socket.bind(self, (self.ifname, ETH_P_ALL))
if bpf:
fstring, self.fprog = compile_bpf(bpf)
socket.setsockopt(self, SOL_SOCKET, SO_ATTACH_FILTER, fstring)
def __init__(self, ifname, bpf=None):
self.ifname = ifname
# lookup the interface details
with IPRoute() as ip:
for link in ip.get_links():
if link.get_attr("IFLA_IFNAME") == ifname:
break
else:
raise IOError(2, "Link not found")
self.l2addr = link.get_attr("IFLA_ADDRESS")
self.ifindex = link["index"]
# bring up the socket
socket.__init__(self, AF_PACKET, SOCK_RAW, htons(ETH_P_ALL))
socket.bind(self, (self.ifname, ETH_P_ALL))
if bpf:
fstring, self.fprog = compile_bpf(bpf)
socket.setsockopt(self, SOL_SOCKET, SO_ATTACH_FILTER, fstring)
def __init__(self, ifname, bpf=None):
self.ifname = ifname
# lookup the interface details
with IPRoute() as ip:
for link in ip.get_links():
if link.get_attr('IFLA_IFNAME') == ifname:
break
else:
raise IOError(2, 'Link not found')
self.l2addr = link.get_attr('IFLA_ADDRESS')
self.ifindex = link['index']
# bring up the socket
socket.__init__(self, AF_PACKET, SOCK_RAW, htons(ETH_P_ALL))
socket.bind(self, (self.ifname, ETH_P_ALL))
if bpf:
self.clear_buffer()
fstring, self.fprog = compile_bpf(bpf)
socket.setsockopt(self, SOL_SOCKET, SO_ATTACH_FILTER, fstring)
else:
self.clear_buffer(remove_total_filter=True)
def clear_buffer(self, remove_total_filter=False):
# there is a window of time after the socket has been created and
# before bind/attaching a filter where packets can be queued onto the
# socket buffer
# see comments in function set_kernel_filter() in libpcap's
# pcap-linux.c. libpcap sets a total filter which does not match any
# packet. It then clears what is already in the socket
# before setting the desired filter
total_fstring, prog = compile_bpf(total_filter)
socket.setsockopt(self, SOL_SOCKET, SO_ATTACH_FILTER, total_fstring)
self.setblocking(0)
while True:
try:
self.recvfrom(0)
except error as e:
# Resource temporarily unavailable
if e.args[0] != 11:
raise
break
self.setblocking(1)
if remove_total_filter:
# total_fstring ignored
socket.setsockopt(self, SOL_SOCKET, SO_DETACH_FILTER,
total_fstring)
def connect(self, address):
socket.connect(self, address)
socket.setsockopt(self, IPPROTO_TCP, TCP_NODELAY, 1)
raw_send = self.send
def send_x(data, timeout=0):
view = memoryview(data)
size = len(view)
offset = 0
while offset < size:
_, ready_to_write, _ = select((), (self, ), (), timeout)
while not ready_to_write:
_, ready_to_write, _ = select((), (self, ), (), timeout)
sent = raw_send(view[offset:])
if sent == 0:
raise SocketError("Peer closed connection")
offset += sent
raw_recv = self.recv
received = [
b""
] # the functions below assume exactly one item in this list on entry and exit
def recv_headers(timeout=0):
end = received[0].find(b"\r\n\r\n")
while end == -1:
ready_to_read, _, _ = select((self, ), (), (), timeout)
while not ready_to_read:
ready_to_read, _, _ = select((self, ), (), (), timeout)
data = raw_recv(8192)
received[0] += data
end = received[0].find(b"\r\n\r\n")
if data == b"" and end == -1:
raise SocketError("Peer closed connection")
data, received[0] = received[0][:end], received[0][(end + 4):]
return data.split(b"\r\n")
def recv_content(length=None, timeout=0):
if length is None:
# receive until closed
if received[0]:
yield received[0]
received[0] = b""
more = True
while more:
ready_to_read, _, _ = select((self, ), (), (), timeout)
while not ready_to_read:
ready_to_read, _, _ = select((self, ), (), (), timeout)
data = raw_recv(8192)
if data == b"":
more = False
else:
yield data
else:
assert length >= 0
# receive fixed amount
while length != 0:
data, received[0] = received[0][:length], received[0][
length:]
size = len(data)
if size != 0:
yield data
length -= size
if length != 0:
ready_to_read, _, _ = select((self, ), (), (), timeout)
while not ready_to_read:
ready_to_read, _, _ = select((self, ), (), (),
timeout)
data = raw_recv(8192)
if data == b"":
raise SocketError("Peer closed connection")
received[0] += data
def recv_line(timeout=0):
end = received[0].find(b"\r\n")
while end == -1:
ready_to_read, _, _ = select((self, ), (), (), timeout)
while not ready_to_read:
ready_to_read, _, _ = select((self, ), (), (), timeout)
data = raw_recv(8192)
received[0] += data
end = received[0].find(b"\r\n")
if data == b"" and end == -1:
raise SocketError("Peer closed connection")
data, received[0] = received[0][:end], received[0][(end + 2):]
return data
def recv_exact(length, timeout=0):
available = len(received[0])
while available < length:
ready_to_read, _, _ = select((self, ), (), (), timeout)
while not ready_to_read:
ready_to_read, _, _ = select((self, ), (), (), timeout)
data = raw_recv(8192)
received[0] += data
available += len(data)
if data == b"" and available < length:
raise SocketError("Peer closed connection")
data, received[0] = received[0][:length], received[0][length:]
return data
def recv_chunked_content(timeout=0):
chunk_size = -1
while chunk_size != 0:
chunk_size = int(recv_line(timeout=timeout), 16)
if chunk_size != 0:
yield recv_exact(chunk_size, timeout=timeout)
recv_exact(2, timeout=timeout)
self.send_x = send_x
self.recv_headers = recv_headers
self.recv_content = recv_content
self.recv_chunked_content = recv_chunked_content
from socket import socket, AF_INET, SOCK_STREAM, SOL_SOCKET, SO_REUSEADDR
import pickle
from time import sleep
socket = socket(AF_INET, SOCK_STREAM)
socket.setsockopt(SOL_SOCKET, SO_REUSEADDR, 1)
socket.bind(("", 2001))
socket.listen(2)
print("Server running...")
player1, player1_addr = socket.accept() # accept player1
print(f"{player1_addr[0]} has been connected")
player2, player2_addr = socket.accept() # accept player2
print(f"{player2_addr[0]} has been connected")
player1_win = False
player2_win = False
player1_shot = 0
player2_shot = 0
player1_coordinates = pickle.loads(player1.recv(1024)) # recv player1 ship coordinates
player2_coordinates = pickle.loads(player2.recv(1024)) # recv player2 ship coordinates
while True:
# send ready to player1
if player2_win:
player1.send(pickle.dumps(["You lose", player1_shot, player2_shot]))
player2.send(pickle.dumps(["You win", player1_shot, player2_shot]))
else:
def bind_socket(self, socket: socket) -> None:
socket.setsockopt(SOL_SOCKET, SO_REUSEADDR, 1)
socket.bind(('0.0.0.0', 14143))
socket.listen(10) # 10 clients max
print(colored(f'Serving at http://localhost:14143', 'green'))
def connect(self, address):
socket.connect(self, address)
socket.setsockopt(self, IPPROTO_TCP, TCP_NODELAY, 1)
raw_send = self.send
def send_x(data, timeout=0):
view = memoryview(data)
size = len(view)
offset = 0
while offset < size:
_, ready_to_write, _ = select((), (self,), (), timeout)
while not ready_to_write:
_, ready_to_write, _ = select((), (self,), (), timeout)
sent = raw_send(view[offset:])
if sent == 0:
raise SocketError("Peer closed connection")
offset += sent
raw_recv = self.recv
received = [b""] # the functions below assume exactly one item in this list on entry and exit
def recv_headers(timeout=0):
end = received[0].find(b"\r\n\r\n")
while end == -1:
ready_to_read, _, _ = select((self,), (), (), timeout)
while not ready_to_read:
ready_to_read, _, _ = select((self,), (), (), timeout)
data = raw_recv(8192)
received[0] += data
end = received[0].find(b"\r\n\r\n")
if data == b"" and end == -1:
raise SocketError("Peer closed connection")
data, received[0] = received[0][:end], received[0][(end + 4):]
return data.split(b"\r\n")
def recv_content(length=None, timeout=0):
if length is None:
# receive until closed
if received[0]:
yield received[0]
received[0] = b""
more = True
while more:
ready_to_read, _, _ = select((self,), (), (), timeout)
while not ready_to_read:
ready_to_read, _, _ = select((self,), (), (), timeout)
data = raw_recv(8192)
if data == b"":
more = False
else:
yield data
else:
assert length >= 0
# receive fixed amount
while length != 0:
data, received[0] = received[0][:length], received[0][length:]
size = len(data)
if size != 0:
yield data
length -= size
if length != 0:
ready_to_read, _, _ = select((self,), (), (), timeout)
while not ready_to_read:
ready_to_read, _, _ = select((self,), (), (), timeout)
data = raw_recv(8192)
if data == b"":
raise SocketError("Peer closed connection")
received[0] += data
def recv_line(timeout=0):
end = received[0].find(b"\r\n")
while end == -1:
ready_to_read, _, _ = select((self,), (), (), timeout)
while not ready_to_read:
ready_to_read, _, _ = select((self,), (), (), timeout)
data = raw_recv(8192)
received[0] += data
end = received[0].find(b"\r\n")
if data == b"" and end == -1:
raise SocketError("Peer closed connection")
data, received[0] = received[0][:end], received[0][(end + 2):]
return data
def recv_exact(length, timeout=0):
available = len(received[0])
while available < length:
ready_to_read, _, _ = select((self,), (), (), timeout)
while not ready_to_read:
ready_to_read, _, _ = select((self,), (), (), timeout)
data = raw_recv(8192)
received[0] += data
available += len(data)
if data == b"" and available < length:
raise SocketError("Peer closed connection")
data, received[0] = received[0][:length], received[0][length:]
return data
def recv_chunked_content(timeout=0):
chunk_size = -1
while chunk_size != 0:
chunk_size = int(recv_line(timeout=timeout), 16)
if chunk_size != 0:
yield recv_exact(chunk_size, timeout=timeout)
recv_exact(2, timeout=timeout)
self.send_x = send_x
self.recv_headers = recv_headers
self.recv_content = recv_content
self.recv_chunked_content = recv_chunked_content
