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In Internet Model there are four layers: Link -> Networking -> Transport -> Application.

I don't really know the difference between networking layer and transport layer. As I read:

Transport layer: include congestion control, flow control, reliability ...
Networking layer: route data from A to B

So, base on above properties, I see that there are some overlaps between those two layers.

1) Networking layer decides to move data from A to B. But, when data has known how to moved from A to B, what does it means for term "flow control" "congestion control" ... ? How and What does it control when the packet (and byte stream is in packet) has already known to moved across network.

2) Or other example, TCP protocol in Transport layer is ORDERED delivery of a stream. But, TCP doesn't decide how to move data, but Networking layer. So, how can TCP can do ?

So, I cannot get in those two terms. Please teach me.

Thanks :)

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1  
Not a bad question, but it sure is Off-Topic –  The Unfun Cat Nov 11 '12 at 18:02
2  
maybe a networking stackexchange site might be needed ? i couldn't find one –  cristi _b Nov 11 '12 at 18:17
1  
@cristi_b serverfault.com –  hexafraction Nov 11 '12 at 18:55

4 Answers 4

up vote 10 down vote accepted

These are levels of abstraction.

Transport Layer is where the decision to use TCP/UDP is made. Among commonly used protocols in this layer, TCP is reliable, UDP isn't. Depending upon the choice made, the respective headers are attached to your packet. TCP for example just knows about SYN-ACK, Three-way handshake mechanisms, but does not know the address of the remote-endpoint, or the mechanism of getting the packet across the network.

Congestion control, Flow control help ensure that the network isn't flooded with packets, by regulating the number of packets being sent.

Now, after TCP/UDP header being appended, it moves on to the Network Layer. Till this step, the remote end-point's IP address wasn't a part of the packet at all. It is at this step that the Source & Destination IP addresses are added to the packet. This layer actually knows the remote-endpoint.


      Sender                          Receiver


    -----------                      ------------
   |           |   virtual link     |            |
   | Transport | -----------------> | Transport  |
   |           |                    |            |
    -----------                      ------------
         |                                |
         |                                |
    -----------                       -----------
   |           |    virtual link     |           |
   |  Network  | ------------------> |  Network  |
   |           |                     |           |
    -----------                       -----------
         |                                |
         |                                |
    -----------                       -----------
   |           |                     |           |
   | Physical  |                     | Physical  |
   |           |                     |           |
    -----------                       -----------
         ↓                                 ↑
         |____________real link____________|

The sender's Transport Layer data, is the exact data received by the receiver's transport layer.

As the packet travels down the sender, each layer is adding its own header information, but all of that is removed by the corresponding layer on the receiver.

The advantage is that a virtual link is established, like the one shown above, whereas the real link is only in the physical layer.

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Thanks for explanation 1. Can you explain 2 for me, please. TCP is reliable oriented, so it will decide the ordered data to transport. But, when byte stream move to Network layer, it will become packet. And networking doesn't care about ordered. –  hqt Nov 11 '12 at 18:15
    
@hqt Each layer in the receiver sees the exact data its counterpart sent in the sender's stack. I will edit my answer. –  Anirudh Ramanathan Nov 11 '12 at 18:22

Transport layer:

  • Logical communication between processes.

Network layer:

  • Logical communication between hosts.

Transport layer:

  • Responsible for checking that data available in session layer are error free.

Network layer:

  • Responsible for logical addressing and translating logical addresses (ex. amazon.com) into physical addresses (ex. 180.215.206.136)

Transport layer: Protocols used at this layer are :

  • TCP(Transmission Control Protocol)
  • UDP(User Datagram Protocol )
  • SCTP(Stream Control Transmission Protocol)

Network layer: Protocols used at this layer are :

  • IP(Internet Protocol)
  • ICMP(Internet Control Message Protocol)
  • IGMP(Internet Group Message Protocol)
  • RARP(Reverse Address Resolution Protocol)
  • ARP(Address Resolution Protocol)

Transport layer:

  • This layer ensures that the protocols operated at this layer provide reliable end-to-end flow and error control.

Network layer:

  • This layer controls routing of data from source to destination plus the building and dismantling data packets.
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+1 for more descriptive with points. –  Code Lღver Nov 12 '13 at 10:59

Cthulhu's explanation is ok but in order to understand a bit better, I recommend that you should read on the OSI Model

Transport layer handles port numbers, TCP, UDP, layer 4 PDU's and it's the first step in encapsulating and segmenting data in order to send it across the network

PDU = protocol data unit , it's a piece of information containing a header, the data segment and maybe a footer (see layer 2 encapsulation)

Network handles ip routing and delivery of data packets across the network

Each layer (regardless if it's OSI model or TCP/IP model with 4 layers) , each layer interacts with it's adjacent layer and provides an abstract framework for today's telecom purposes

Regarding your questions :

1). Flow control is a TCP mechanism for handling the size of the packet in order to prevent packet loss and retransmision, congestion control is another thing. Network layer doesn't decide anything, it simply tries to send your package over a network, if it fails, it will notify the upper layer about this problem and then the application or user should decide what to do).

2). TCP enables a 3way handshake mechanism to start a session, afterwards each packet is market with a counter and the receiver acknowledges receipt of senders package. In case he doesn't acknowledge, TCP resends that lost package. Networking layer will only forward packets and won't make any decisions regarding traffic control or packet ordering.

Further details are available in CCNA1 documentation or on the web.

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2  
The OSI model is a bit old. The 4-layer IP-model might be better now perhaps? –  Anirudh Ramanathan Nov 11 '12 at 18:18
    
both models are fine imo and when it comes to telecom and troubleshooting, it's ok to identify the problem at a specific layer (network, data link or physical) –  cristi _b Nov 11 '12 at 18:20

Transport: Determines how data is to be sent: Reliably or unreliably. Defines well known services (ports.)

Network: Provides logical addressing, finds best path to a destination.

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