コード例 #1
0
def tcp(address: Tuple[str, int], timeout: float) -> PORTS:
    """
    This function is run asynchronously and listens for
    TCP ACK responses to the sent TCP SYN msg.
    """
    ports: DefaultDict[str, Set[int]] = defaultdict(set)
    with closing(
            socket.socket(socket.AF_INET, socket.SOCK_RAW,
                          socket.IPPROTO_TCP)) as s:
        s.bind(address)
        # bind the raw socket to the listening address
        time_remaining = timeout
        while True:
            time_taken = ip_utils.wait_for_socket(s, time_remaining)
            # wait for the socket to become readable
            if time_taken == -1:
                break
            else:
                time_remaining -= time_taken
            packet = s.recv(1024)
            # recieve the packet data
            tcp = headers.tcp(packet[20:40])
            if tcp.flags & 2:  # syn flags set
                ports["OPEN"].add(tcp.source)
            elif tcp.flags & 4:
                ports["CLOSED"].add(tcp.source)
            else:
                continue
    return ports
コード例 #2
0
def udp_listener(dest_ip: str, timeout: float) -> Set[int]:
    """
    This listener detects UDP packets from dest_ip in the given timespan,
    all ports that send direct replies are marked as being open.
    Returns a list of open ports.
    """

    time_remaining = timeout
    ports: Set[int] = set()
    with socket.socket(socket.AF_INET, socket.SOCK_RAW,
                       socket.IPPROTO_UDP) as s:
        while True:
            time_taken = ip_utils.wait_for_socket(s, time_remaining)
            if time_taken == -1:
                break
            else:
                time_remaining -= time_taken
            packet = s.recv(1024)
            ip = headers.ip(packet[:20])
            udp = headers.udp(packet[20:28])
            # unpack the UDP header
            if dest_ip == ip.source and ip.protocol == 17:
                ports.add(udp.src)

    return ports
コード例 #3
0
def syn_listener(address: Tuple[str, int], timeout: float) -> List[int]:
    """
    This function is run asynchronously and listens for
    TCP ACK responses to the sent TCP SYN msg.
    """
    print(f"address: [{address}]\ntimeout: [{timeout}]")
    open_ports: List[int] = []
    with closing(
            socket.socket(socket.AF_INET, socket.SOCK_RAW,
                          socket.IPPROTO_TCP)) as s:
        s.bind(address)
        # bind the raw socket to the listening address
        time_remaining = timeout
        print("started listening")
        while True:
            time_taken = ip_utils.wait_for_socket(s, time_remaining)
            # wait for the socket to become readable
            if time_taken == -1:
                break
            else:
                time_remaining -= time_taken
            packet = s.recv(1024)
            # recieve the packet data
            tcp = headers.tcp(packet[20:40])
            if tcp.flags == 0b00010010:  # syn ack
                print(tcp)
                open_ports.append(tcp.source)
                # check that the header contained the TCP ACK flag and if it
                # did append it
            else:
                continue
        print("finished listening")
    return open_ports
コード例 #4
0
def ping(ID: int, timeout: float) -> Set[Tuple[str, float, headers.ip]]:
    """
    Takes in a process id and a timeout and returns
    a list of addresses which sent ICMP ECHO REPLY
    packets with the packed id matching ID in the time given by timeout.
    """
    ping_sock = socket.socket(socket.AF_INET, socket.SOCK_RAW,
                              socket.IPPROTO_ICMP)
    # opens a raw socket for sending ICMP protocol packets
    time_remaining = timeout
    addresses = set()
    recieved_from = set()
    while True:
        time_waiting = ip_utils.wait_for_socket(ping_sock, time_remaining)
        # time_waiting stores the time the socket took to become readable
        # or returns minus one if it ran out of time

        if time_waiting == -1:
            break
        time_recieved = time.time()
        # store the time the packet was recieved
        recPacket, addr = ping_sock.recvfrom(1024)
        # recieve the packet
        ip = headers.ip(recPacket[:20])
        # unpack the IP header into its respective components
        icmp = headers.icmp(recPacket[20:28])
        # unpack the time from the packet.
        time_sent = struct.unpack("d",
                                  recPacket[28:28 + struct.calcsize("d")])[0]
        # unpack the value for when the packet was sent
        time_taken: float = time_recieved - time_sent
        # calculate the round trip time taken for the packet
        if icmp.id == ID:
            # if the ping was sent from this machine then add it to the list of
            # responses
            ip_address, port = addr
            # this is to prevent a bug where IPs were being added twice
            if ip_address not in recieved_from:
                addresses.add((ip_address, time_taken, ip))
                recieved_from.add(ip_address)
        elif time_remaining <= 0:
            break
        else:
            continue
    # return a list of all the addesses that replied to our ICMP echo request.
    return addresses
コード例 #5
0
def icmp_unreachable(src_ip: str, timeout: float = 2) -> int:
    """
    This listener detects ICMP destination unreachable
    packets and returns the icmp code.
    This is later used to mark them as either close, open|filtered, filtered.
    3 -> closed
    0|1|2|9|10|13 -> filtered
    -1 -> error with arguments
    open|filtered means that they are either open or
    filtered but return nothing.
    """

    ping_sock = socket.socket(socket.AF_INET, socket.SOCK_RAW,
                              socket.IPPROTO_ICMP)
    # open raw socket to listen for ICMP destination unrechable packets
    time_remaining = timeout
    code = -1
    while True:
        time_waiting = ip_utils.wait_for_socket(ping_sock, time_remaining)
        # wait for socket to be readable
        if time_waiting == -1:
            break
        else:
            time_remaining -= time_waiting
        recPacket, addr = ping_sock.recvfrom(1024)
        # recieve the packet
        ip = headers.ip(recPacket[:20])
        icmp = headers.icmp(recPacket[20:28])
        valid_codes = [0, 1, 2, 3, 9, 10, 13]
        if (ip.source == src_ip and icmp.type == 3
                and icmp.code in valid_codes):
            code = icmp.code
            break
        elif time_remaining <= 0:
            break
        else:
            continue
    ping_sock.close()
    return code