Multiplex communications – Pathfinding or routing – Switching a message which includes an address header
Reexamination Certificate
1999-09-10
2004-07-27
Duong, Frank (Department: 2666)
Multiplex communications
Pathfinding or routing
Switching a message which includes an address header
C370S400000
Reexamination Certificate
active
06768738
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a packet forwarding apparatus wherein a plurality of networks are connected to one another and packets are forwarded between the networks.
2. Description of the Related Art
Traffics (packets), which flow over an Internet, are increasing rapidly with an increase in Internet users. Since the same line can be shared between packets sent from a large number of users in a packet type communication system employed in the Internet, the cost per bandwidth can be less reduced. The non-execution of strict management of quality control or the like for each users also leads to the implementation of a cost reduction.
Owing to the advantage of the low cost, which is held by the packet type communication system, moves have been made to integrate telephone networks and enterprise networks which have heretofore been implemented by dedicated networks, into one by the Internet thereby to implement a reduction in communication cost. It is necessary to implement quality of service (QoS) such as a low delay time, a low discard rate, etc. which have been carried out by the conventional telephone networks or enterprise networks, and security even over the Internet for the purpose of integrating these plural networks into one.
As to QoS control for implementing QoS, forwarding or transfer control must be effected on respective packets with priority corresponding to a contract while specific applications (such as telephone traffics, etc.) and individual users (enterprises, etc.) taken as objects to be controlled are being identified. The QoS control is generally used in an ATM (Asynchronous Transfer Mode) switch. The QoS control of the ATM switch is implemented by a bandwidth monitoring device for monitoring the presence or absence of a breach of a contracted bandwidth at the entrance of a network, and a priority control forwarding device for preferentially forwarding each packet made compliant with the contracted bandwidth with the contracted priority.
The priority control forwarding device employed in the ATM switch has been described in, for example, Japanese Patent Application Laid-Open No. Hei 6-197128 (prior art 1). In the prior art 1, two output buffers for CBR (Constant Bit Rate) and VBR (Variable Bit Rate) are provided every output lines, and the priority for outputting each cell stored in the buffer for CBR is set higher than that for each cell stored in the buffer for VBR, whereby a communication delay time in the ATM switch is limited to within a constant value with respect to a cell group of CBR traffics having a strict restriction on a communication delay.
Further, the bandwidth monitoring function employed in the ATM switch has been described in, for example, Chapter 4 of “The ATM Forum Traffic Management Specification Version 4.0” (prior art 2). In the prior art 2, bandwidth monitoring based on GCRA (Generic Cell Rate Algorithm) corresponding to an algorithm for bandwidth monitoring is effected at the entrance of each network, whereby resources for the network can be prevented from being occupied by a specific user.
The ATM switch is a connecting device for connection type communications, wherein a user packet having a fixed length is communicated after a connection has been established between terminals. When the ATM switch receives a cell from an input line, it reads bandwidth monitoring information and QoS control information such as priority information for cell transfer, etc. from a connection information table provided in the ATM switch, based on connection information indicative of users and applications, included in a header of the input cell, thereby to perform bandwidth monitoring based on the bandwidth monitoring information and priority control of cell forwarding according to the priority information.
On the other hand, a router device is a connecting device for packet type (connection-less type) communications, in which a user packet is communicated without establishing a connection between terminals in advance. The router does not have the connection information table for storing the bandwidth monitoring information and the QoS control information as in the ATM switch. Therefore, the router device must be provided with a flow detector or detection device for detecting bandwidth monitoring information and priority information from header information set every input packets in order to perform priority transfer control and bandwidth monitoring. It is further necessary to control the bandwidth monitoring and the priority transfer, based on the bandwidth monitoring information and the priority information detected by the flow detector.
In the specification of the present application, a packet identification condition defined by a combination of a plurality of items of parameter information included in a packet header will be called “flow condition”, a traffic comprised of a series of packets coincident with the flow condition will be called “flow”, and determination as to whether header information of each received packet coincides with a predetermined flow condition, will be called “flow detection”, respectively.
The QoS control employed in the router device has been disclosed in, for example, Japanese Patent Application Laid-Open No. Hei 6-232904 (prior art 3). In order to execute the QoS control, a router disclosed in the prior art 3 has a mapping table which holds priorities in association with all the combinations of priority identification information and protocol (upper application) information which will be included within the packet header so that the router executes priority forwarding control by determining the priority for each input packet from the mapping table.
As another prior art related to the QoS control employed in the router device, there is known Diffserv (Differentiated Service) indicated by RFC2475 (prior art 4) of IETF (Internet Engineering Task Force).
According to the prior art 4, for example, when an edge router
326
or
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called a boundary node located in the entrance of an Internet
325
in a network shown in
FIG. 2
in which QoS is contracted between enterprise networks A, B, C and D and the Internet
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, receives a packet sent from an enterprise network
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or
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, it performs a flow detection through a flow detector called classifier, with a source IP address and a destination IP address, a source port number and a destination port number, protocol, etc. in a TCP/IP header as flow conditions respectively. Each boundary node monitors a bandwidth for each flow detected by the classifier and writes the result of determination of DS indicative of each priority in the Internet
325
into a DS field (TOS field) of each received packet. A backbone router (called an interior node in the prior art 4) corresponding to a core node of the Internet
325
performs QoS control on each packet, based on the value of each DS field referred to above.
The flow detection is a technique necessary even for filtering to keep security. In a connection type communication network, for example, each terminal is controlled so that a connection is established only between the terminal and a pre-allowed communication opposite party, and a connection between the terminal and a non-allowed communication opposite party is prohibited from establishing, whereby the reception of cells from an unexpected terminal can be avoided. However, since there is a possibility that in a packet type communication network which starts communication without establishing a connection, each individual terminals will receive packets from all the other terminals connected to networks, it is necessary to provide a filtering function for completely discarding packets sent from unexpected opposite parties.
In order to perform filtering on each received packet, a router needs to effect a flow detection for identifying each packet for filtering, on each input packet in a manner similar to the QoS control to thereby generate control information indicative of whether or not packet transfer is allowed and to s
Aimoto Takeshi
Matsuyama Nobuhito
Sugai Kazuo
Yazaki Takeki
Duong Frank
Hitachi , Ltd.
Jagannathan Melanie
Mattingly Stanger & Malur, P.C.
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