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Unreliable Delivery Model
Connected: An Internet Encyclopedia
Unreliable Delivery Model
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Connected: An Internet Encyclopedia
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Programmed Instruction Course
Up:
Section 3 - The IP Protocol
Prev: CIDR
Next: ICMP
Unreliable Delivery Model
Unreliable Delivery Model
The IP Protocol uses an unreliable delivery model as
one of its fundamental principles.
One of Internet's earliest design decisions was that the fundamental
transport protocol (the
IP Protocol)
would be based on an assumption of unreliable delivery.
This means that an IP packet can be legally discarded at any time,
without any notification to the sender or receiver. No guarantee
is made that any particular packet will be delivered. Instead, network
reachability takes a statistical form - there is a pretty good chance that
any one packet will be delivered, and if a group of packets are
transmitted, most of them should arrive at their destinations.
At first, this may somewhat silly. After all, what's the point of a
data communications network if you can't count on the data getting
to its destination? To understand this better, refer to the concept of
protocol
layering. Data delivery is unreliable at the Network Layer,
where IP operates. If an application requires reliable data delivery,
the Transport Layer must provide this, based upon the unreliable delivery
facilities provided by the Network Layer. This is the main function of the
TCP Protocol,
which uses sequence numbers and timeouts to detect data loss, and then
retransmits lost data until it is received and acknowledged.
So, why go through all this in the first place? Well, for one thing,
if our network fails briefly at any point, in any way, there should be
no serious problems. If a switching node becomes overloaded with traffic,
it can simple discard some of the excess. If a link fails while a
packet is being transfered, there's no need for an elaborate recovery
procedure. The assumption of unreliable delivery, and the consequent
demand that software be able to handle intermittent failures,
significantly reduces demands on hardware and low-level software design.
Sporadic network outages might slow the tempo, but the show will go on.
\begin{soapbox}
Unreliable delivery has been a mixed blessing for the Internet.
It certainly has lived up to its billing for producing a
fault-tolerant network, but has created almost as many
problems as it has solved.
TCP guarantees data delivery, but makes no guarantees about
how long that delivery will take. In some applications,
such as telephone calls, this is simply unacceptable.
If the data arrives too late, it is useless. Worse, TCP
will stop everything to ensure retransmission of the lost
data, possibly disrupting other data that could have
arrived on time. Some Internet protocols, such as ST,
have been proposed to address this problem, but none have
gained widespread acceptance and all are a far cry from
the guaranteed bandwidth of a phone call.
\end{soapbox}
Next: ICMP
Connected: An Internet Encyclopedia
Unreliable Delivery Model
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