Policy engine using stream classifier and policy binding...

Multiplex communications – Pathfinding or routing – Switching a message which includes an address header

Reexamination Certificate

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C370S360000, C370S395300

Reexamination Certificate

active

06542508

ABSTRACT:

TECHNICAL FIELD
The present invention relates to policy-based network equipment and, in particular, to policy-based network equipment that employs a favorable division of hardware and software to provide both performance and flexibility.
BACKGROUND
Some typical policy-based computer network applications are Virtual Private Networks (VPN), Firewall, Traffic Management, Network Address Translation, Network Monitoring, and TOS Marking. In general, the policy-based application has access to the network media through an operating system driver interface. In a typical network architecture, the policy-based application examines every packet coming in from the network along the data path, compares it against flow classification criteria, and performs the necessary actions based upon the policies defined in a policy database.
Today's policy-based applications are challenged with several key issues. These issues can be major inhibitors for the future growth of the emerging industry:
1) Flow classification overhead—Flow classification specifications can be complicated and lengthy for each network service. As can be seen from
FIG. 1
, in a conventional policy-based application, each packet compared with potentially hundreds of rules in order to find the matching one and determine the proper action specifications. With stateful applications, state tracking is even more time consuming. Multiple network services on a single system simply make matters worse.
As is also shown in
FIG. 1
, the process of flow classification and action processing may repeat for many iterations as multiple policies are activated at the same time. For example, a VPN (virtual private network) application may comprise Firewall Policy, IPSEC Policy, IPCOMP (IP compression) policy, NAT (Network Address Translation) Policy, QoS (Quality of Service) policy, Monitoring Policy, L2TP/PPTP (L2 Tunnel Protocol/Point To Point Tunnel Protocol) Tunnel Policy, and so on.
The flow classification is a rule based operation that can be very flexible to tune to application needs. For example, it may define a rule to identify packets with a pattern of any random byte within a packet, and/or across many packets. The flow classifiers may also differ per action processor for performance optimization. As a result the matching criteria used by a flow classifier to classify a flow may include a specific value, a range, or wildcard on interface port numbers, protocols, IP addresses, TCP ports, applications, application data, or any user specifiable criteria. The distinctions of various implementation makes it difficult to cache a flow with its decision in many ways.
2) Flow classification technique is evolving—Flow classification and analysis technique is more than just looking into the packet's address, port number and protocol type and or other header information. It often involves state tracking for newer applications. This technique is being continuously modified and, therefore, is not practically appropriate for a hardware based implementation. Furthermore, flow classification techniques are often viewed as key differentiaters between vendors.
3) Action execution speed.—Once the classification process is complete, the proper actions need to be executed. Some of the actions are simple like a discard or forwarding decision for a firewall, while some others are extremely time consuming, like triple-DES encryption and SHA hashing algorithm or QOS scheduling algorithm. Software based implementations cannot keep up with the bandwidth expansion as newer and faster media technologies are employed.
4) Integrated services—As more and more policy-based applications become available, it is desirable to provide integrated services on a single platform because this ostensibly reduces policy management complexity, avoids potential policy conflicts, and lowers the TCO (Total Cost of Ownership). On the other hand, integrated services impose a very large computing power requirement that cannot be practically achieved with off-the-shelf general purpose machines. A disadvantage of the conventional architecture is that, because it is primarily software-based, it is relatively high overhead. However, precisely because it is software-based, it is quite flexible.
What is desired is a policy architecture has the flexibility of present flow classification systems, but that also has lower overhead.


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