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ARP works by broadcasting to identify the appropriate channel on which to locate the target host. Conversely, RARP is used to map MAC addresses to IP addresses. RARP is typically used to supply IP addresses from boot servers to diskless clients. A database of Ethernet addresses is maintained in the /etc/ethers table to support this activity.
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Packet interception is performed by the snoop application, which reads raw packet data from a network interface operating in promiscuous mode. The following example shows ETHER (Link), IP (Network), TCP (Transport), and Telnet (Application) sections, respectively:
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# snoop -v tcp port 23 Using device /dev/hme0 (promiscuous mode) ETHER: ----- Ether Header ----ETHER: ETHER: Packet 1 arrived at 14:13:22.14 ETHER: Packet size = 60 bytes ETHER: Destination = 1:58:4:16:8a:34, ETHER: Source = 2:60:5:12:6b:35, Sun ETHER: Ethertype = 0800 (IP) ETHER: IP: ----- IP Header ----IP: IP: Version = 4 IP: Header length = 20 bytes IP: Type of service = 0x00 IP: xxx. .... = 0 (precedence) IP: ...0 .... = normal delay IP: .... 0... = normal throughput IP: .... .0.. = normal reliability IP: Total length = 40 bytes IP: Identification = 46864 IP: Flags = 0x4 IP: .1.. .... = do not fragment IP: ..0. .... = last fragment IP: Fragment offset = 0 bytes IP: Time to live = 255 seconds/hops IP: Protocol = 6 (TCP) IP: Header checksum = 11a9 IP: Source address = 64.23.168.76, moppet.paulwatters.com IP: Destination address = 64.23.168.48, miki.paulwatters.com IP: No options IP: TCP: ----- TCP Header ----TCP: TCP: Source port = 62421 TCP: Destination port = 23 (TELNET) TCP: Sequence number = 796159562 TCP: Acknowledgement number = 105859685 TCP: Data offset = 20 bytes TCP: Flags = 0x10 TCP: ..0. .... = No urgent pointer TCP: ...1 .... = Acknowledgement
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TCP: .... 0... = No push TCP: .... .0.. = No reset TCP: .... ..0. = No Syn TCP: .... ...0 = No Fin TCP: Window = 8760 TCP: Checksum = 0x8f8f TCP: Urgent pointer = 0 TCP: No options TCP: TELNET: ----- TELNET: ----TELNET: TELNET: "a" TELNET:
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The ETHER header defines many of the characteristics of the packet. In the snoop example, the packets arrival time, size (in bytes), and destination and source addresses (Ethernet format) are all noted. In addition, the network type is also supplied. This leads into the IP header, which shows the IP version (IPv4), the length of the header (in bytes), destination and source addresses (IP format), and a checksum to ensure data integrity. Also, the protocol for transport is defined as TCP. The TCP header shows the port on which the data is being sent and on which it should be received, in addition to the application type (Telnet). The sequence and acknowledgement numbers determine how packets are ordered at the receiving end, since TCP is connection-oriented and guarantees data delivery, unlike other transport protocols, such as UDP, which are connectionless and do not guarantee the delivery of data. Finally, the data being transported is displayed: a . In addition to Telnet, other application protocols include SMTP, FTP, and NFS.
ndd is used to set parameters for network protocols, including TCP, IP, UDP, and ARP. It can be used to modify the parameters associated with IP forwarding and routing. For example, take a look at the set of configurable parameters for TCP transmission:
server# ndd /dev/tcp \ tcp_close_wait_interval tcp_conn_req_max_q tcp_conn_req_max_q0 tcp_conn_req_min tcp_conn_grace_period tcp_cwnd_max tcp_debug tcp_smallest_nonpriv_port tcp_ip_abort_cinterval tcp_ip_abort_linterval tcp_ip_abort_interval tcp_ip_notify_cinterval tcp_ip_notify_interval
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