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© 2002, Cisco Systems, Inc. All rights reserved.
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2 Frank Mann CCAI-CCNA Module 10: Intermediate TCP/IP
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10.1.1 TCP operation IP addresses allow for the routing of packets between networks. However, IP makes no guarantees about delivery. The transport layer is responsible for the reliable transport of and regulation of data flow from source to destination. This is accomplished using sliding windows and sequencing numbers along with a synchronization process that ensures each host is ready and willing to communicate
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10.1.2 TCP Segment Format
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10.1.2 Synchronization or 3-way handshake Prior to data transmission, the two communicating hosts go through a synchronization process to establish a virtual connection. This synchronization process insures that both sides are ready for data transmission and allows the devices to determine the initial sequence numbers.
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Sequence Numbers It is important to understand that sequence numbers are a part of initiating communication between the two devices. Sequence numbers act as reference starting numbers between the two devices. The sequence numbers give each host a way to ACK the SYN so that the receiver knows the sender is responding to the proper connection request
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10.1.3 Denial of service attacks Denial of service (DoS) attacks are designed to deny services to legitimate hosts attempting to establish connections. DoS attacks are a common method that hackers utilize to halt system response. One type of DoS is known as SYN flooding. SYN flooding exploits the normal three- way handshake and causes targeted devices to ACK to source addresses that will not complete the handshake.
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SYN Flooding In a DoS attack, the hacker initiates a synchronization but spoofs the source IP address To defend against these attacks, system administrators may decrease the connection timeout period and increase the connection queue size.
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10.1.4 Windowing and window size This sliding window also allows the destination device to indicate to the source a need to decrease or increase the amount of data being sent because it is incapable at that time of dealing with that much data.
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10.1.5 Sequencing numbers
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10.1.6 Positive acknowledgment and retransmission (PAR) With PAR, the source sends a packet, starts a timer, and waits for an ACK before sending the next packet. If the timer expires before the source receives an acknowledgment, the source retransmits the packet and starts the timer over again. TCP uses expectational acknowledgments in which the acknowledgment number refers to the next octet that is expected.
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10.1.7 UDP operation Not all applications need to guarantee delivery of the data packet, so they use the faster, connectionless delivery mechanism afforded by UDP. The UDP protocol standard, described in RFC 768, is a simple protocol that exchanges segments without acknowledgments or guaranteed delivery. UDP does not use windowing or acknowledgments so application layer protocols must provide error detection
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13 Frank Mann CCAI-CCNA 10.2 Overview of Transport Layer Ports
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10.2.1 Multiple conversations between hosts A port number must be associated with the conversation between hosts to ensure that the packet reaches the appropriate service on the server Without a way to distinguish between different conversations, the client would be unable to send both an email and browse a web page, using one server at the same time.
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10.2.2 Ports for services
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10.2.3 Ports for clients Destination ports, or ports for services, are normally defined using the well-known ports. Source ports set by the client are determined dynamically. In general, a client determines the source port by randomly assigning a number above 1023
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10.2.4 Port numbering and well-known port numbers Port numbers are represented by 2 bytes in the header of a TCP or UDP segment. This 16-bit value can result in port numbers ranging from 0 to 65535. These port numbers are divided into three different categories: The first 1023 ports are well-known ports Registered ports range from 1024 to 49151 Ports between 49152 and 65535 are defined as dynamic or private ports
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10.2.5 Example of multiple sessions between hosts A pair of sockets, one on each host, forms a unique connection. For instance, a host might have a telnet connection, port 23, while at the same time be surfing the net, port 80. The IP and the MAC addresses would be the same because the packets are coming from the same host.
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Sockets These three methods of addressing are often confusing, but this can be avoided if the addresses are explained in reference to the OSI model. Port numbers are located at the transport layer and are serviced by the network layer. The network layer assigns the logical address (IP address) and is then serviced by the data link layer which assigns the physical address (MAC address).
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10.2.6 Comparison of MAC addresses, IP addresses, and port numbers
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Labs Module 10: Intermediate TCP/IP Labs: 10.1.6 Multiple Active Host Sessions 10.2.5 Well-known Port Numbers and Multiple Sessions
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