Graphics Programs Reference
In-Depth Information
For example, whenever you browse the Web, the Ethernet cable and
card make up the physical layer, taking care of the transmission of raw bits
from one end of the cable to the other. The next later is the data link layer.
In the web browser example, Ethernet makes up this layer, which provides
the low-level communications between Ethernet ports on the LAN. This
protocol allows for communication between Ethernet ports, but these ports
don't yet have IP addresses. The concept of IP addresses doesn't exist until
the next layer, the network layer. In addition to addressing, this layer is
responsible for moving data from one address to another. These three
lower layers together are able to send packets of data from one IP address
to another. The next layer is the transport layer, which for web traffic is
TCP; it provides a seamless bidirectional socket connection. The term
TCP/IP
describes the use of TCP on the transport layer and IP on the network layer.
Other addressing schemes exist at this layer; however, your web traffic
probably uses IP version 4 (IPv4). IPv4 addresses follow a familiar form
of
XX
.
XX
.
XX
.
XX
. IP version 6 (IPv6) also exists on this layer, with a totally
different addressing scheme. Since IPv4 is most common,
IP
will always
refer to IPv4 in this topic.
The web traffic itself uses HTTP (Hypertext Transfer Protocol) to com-
municate, which is in the top layer of the OSI model. When you browse the
Web, the web browser on your network is communicating across the Internet
with the webserver located on a different private network. When this happens,
the data packets are encapsulated down to the physical layer where they are
passed to a router. Since the router isn't concerned with what's actually in
the packets, it only needs to implement protocols up to the network layer.
The router sends the packets out to the Internet, where they reach the other
network's router. This router then encapsulates this packet with the lower-
layer protocol headers needed for the packet to reach its final destination.
This process is shown in the following illustration.
Network 1
application
Network 2
application
Internet
(7) Application layer
(6) Presentation layer
(5) Session layer
(4) Transport layer
(3) Network layer
(2) Data-link layer
(1) Physical layer
