KR20010058232A - Extended Label Switched Path Setup Method in MPLS System with IP Packet Forwarding Engines - Google Patents

Abstract

PURPOSE: A method for setting an expansion label switched path in a multi-protocol label switching system that includes Internet protocol packet forwarding engines is provided to set a label switch path and the expansion label switched path in a switching center. CONSTITUTION: The expansion label switched path generated in each Internet protocol packet forwarding engine is connected to multi-protocol label switching areas(LC-ATM_1 - LC-ATM_n) in one of label switched switching centers. The expansion label switched path, which is connected to the multi-protocol label switching areas(LC-ATM_1 - LC-ATM_n) in a certain label switched switching center, is connected a label switched path that is coupled with the certain label switched switching center.

Description

Extended Label Switched Path Setup Method in MPLS System with IP Packet Forwarding Engines in Multiprotocol Label Switching Systems with Multiple Internet Protocol Packet Forwarding Engines

The present invention relates to a method for establishing an extended label switched path of an Internet packet to be received by a plurality of Internet Protocol packet forwarding engines in an ATM switch which is the basis of a high-speed public telecommunication network. Multiprotocol Label Switching System with Multiple Internet Protocol Packet Forwarding Engines for Attempting Extended Label Switched Routing in Multiprotocol Label Switching Systems with Label Switch Pathing Essentials for Internet Packet Transmission and Multiple Internet Protocol Packet Forwarding Engines To a method for setting an extended label switched path in.

In general, the Internet has been implemented and used in existing private networks, and its functions have not been ported to exchanges. Therefore, the structure and implementation method of various functions dependent on the exchange could not but be implemented with different technologies and design techniques depending on the transplantation method.

Therefore, conventionally, there is a technology for processing an Internet data packet for each protocol inputted through a PPP access subscriber or a relay line at the exchange by protocol, and because the path setting for the Internet data packet uses the existing exchange routing, It is different from the routing control method in the network and is not suitable for the high-speed information communication network.

In addition, by setting label switched paths to a plurality of Internet protocol packet forwarding engines, Internet protocol packet forwarding can be performed at a high speed in a multi-protocol label switching LER. Since it is only set within the network, the extended label switched path is set up to the I / O internet protocol forwarding engine in the multi-protocol label switching LER system.

In this case, the extended label switched path setting may be performed by selecting a input / output Internet protocol forwarding engine corresponding to the non-multiprotocol label switching area in the routing information after the label distribution protocol establishes the label switched path in the multiprotocol label switching area. An extended label switched path must be established to the I / O interface within the LER system.

Therefore, there is a need for a technology that can easily manage and access routing information in a non-multi-protocol label switching area and a technique for extending a label switched path in a multi-protocol label switching area to an Internet protocol packet forwarding engine using a label distribution protocol. Occurred.

An object of the present invention for solving the above problems is an extended label in a multi-protocol label switching system equipped with a plurality of Internet protocol packet forwarding engines and label switch routing necessary for Internet packet transmission in an exchange that is an important element for Internet access. An extended label switched routing method in a multi-protocol label switching system equipped with a plurality of Internet protocol packet forwarding engines for attempting switched routing is provided.

1 is a structure diagram of a multi-protocol label switching system equipped with a plurality of Internet protocol packet forwarding engines to which the present invention is applied.

2 is a block diagram of a software control block to which the present invention is applied.

3A and 3B illustrate an extended label switched path setting method according to the present invention.

<Description of the symbols for the main parts of the drawings>

100: multiprotocol label switching network

200: HANbit ACE 64 Multiprotocol Label Switching Switch

300: non-multiprotocol label switching network

400: Routing Control Processor (RCP)

500: subscriber and network registration device in a multiprotocol label switching system

600: RCP in a multiprotocol label switching system

700: Internet Protocol Packet Forwarding Engine in a Multiprotocol Label Switching System

800: call processing device in a multi-protocol label switching system

A feature of the extended label switched routing method in a multi-protocol label switching system equipped with a plurality of Internet protocol packet forwarding engines according to the present invention for achieving the above object is that a plurality of Internet protocol forwarding engines and a plurality of label switched exchanges A multi-protocol label switching system, comprising: an exchange switch for allocating a data transmission path between the Internet protocol forwarding engines and label switched exchanges, the multi-protocol label switching system having a plurality of Internet protocol packet forwarding engines. When establishing a label switched path, an extended label switched path generated by each of the Internet protocol forwarding engines is transferred to a multiprotocol level in any one of the label switched exchanges. A first step of block connected to the switching area; And a second step of connecting the extended label switched path connected to the multi-protocol label switching area inside the specific label switched exchange to the label switched path connected to the specific label switched exchange through the first process.

Another feature of the extended label switched path setting method in a multi-protocol label switching system equipped with a plurality of Internet protocol packet forwarding engines according to the present invention for achieving the above object is a plurality of Internet protocol forwarding engines and a plurality of label switched exchanges. A multiprotocol label switching system comprising: an exchange switch for allocating a data transmission path between the internet protocol forwarding engines and label switched exchanges, the multiprotocol label switching system having a plurality of internet protocol packet forwarding engines; A first step of detecting routing information from the received specific information when the specific information reaches the corresponding label switched exchange through the specific label switched path in the case of setting the label switched path in the method; And a second step of setting an extended label switched path to a corresponding Internet protocol forwarding engine mapped according to a destination Internet protocol address specified in the routing information detected through the first process.

The above objects and various advantages of the present invention will become more apparent from the preferred embodiments of the invention described below with reference to the accompanying drawings by those skilled in the art.

Hereinafter, with reference to the accompanying drawings will be described in detail the present invention.

1 is a structural diagram of a multi-protocol label switching system equipped with a plurality of Internet protocol packet forwarding engines to which the present invention is applied.

The multiprotocol label switching network 200 and the multiprotocol label switching network 100 and a non multiprotocol label switching network 300 are connected, and in particular, the network includes the Internet.

The multiprotocol label switching system comprises a Labeled Control (LC) -ATM matching device (A1), an ATM matching device (A2), a plurality of Internet protocol packet forwarding engines (A3, A4, A5, A6), a routing processor (400) and ATM switch A7 is included.

A label switched path is a connection setup to an LC-ATM device connected to a multiprotocol label switching network, and an extended label switched path is a connection setup to a corresponding Internet protocol packet forwarding engine in addition to the path. The label distribution protocol and the routing protocol required for such label switch routing are performed in the routing processor.

2 is a block diagram of a multi-protocol label switching software control block to which the present invention is applied.

The routing control processor (RCP) 400 processes the label control messages for label switching control and also processes the control messages for routing. These messages are sent and received via a multiprotocol label switching network. It is also connected to the call processing device 800 for interworking with the call processing.

The software control block 600 in the RCP includes a routing information entry block (hereinafter referred to as RIEF) B2 which performs a function of processing various routing protocols for generating routing information required for internet routing. A Label Distribution Control Function Block (hereinafter referred to as LDPCF) B3 having a function for performing a label distribution protocol and controlling label mapping, and for processing a label mapping request in the LDPCF B3. It consists of a General Switch Management Function Block (hereinafter referred to as GSMPHF) (B4) and a call processing device software block that performs the function.

In addition, the Internet Packet Forwarding Management Function Block (B5) in the Internet Protocol Forwarding Engine 800 receives extension label information from the LDPCF B3 to manage extension label information necessary for Internet protocol packet transmission. Block.

In addition, the call processing apparatus 800 converts the extended label information into system dependent connection information and transmits the corresponding information to the MPLS Basic Rate Interface Function Block (B1). At this time, the Basic Rate Interface Function Block (BSO) and the MBSIF (B1) perform ATM cell switching.

In the extended label switched path setting method according to the present invention configured as described above, FIG. 3A relates to a method of setting an extended label switched path on the multi-protocol label switching LER ingress side, and FIG. A method for setting an extended label switched path on the grass side.

Referring to the accompanying FIG. 3A, an extension within a multiprotocol label switching system between the N Internet protocol forwarding engines C2, C3, C4 and C5 and the label switched path C7 to the multiprotocol label switching region C6 is provided. Label switched paths generate N paths to establish N extended label switched paths C1. At this point, the LC-ATM device C6 must have a merging function.

On the other hand, referring to FIG. 3B, the multi-protocol label switching system between the N Internet protocol forwarding engines D2, D3, D4, and D5 and the label switched path D7 to the multi-protocol label switching region D6 is shown. The extended label switched path selects the destination-specific Internet protocol forwarding engine D2 in the routing information and sets the extended label switched path D1 to the selected Internet protocol forwarding engine D2.

While the invention has been shown and described in connection with specific embodiments thereof, it will be appreciated that various modifications and changes can be made without departing from the spirit and scope of the invention as indicated by the claims. Anyone who owns it can easily find out.

As described above, when the extended label switched routing method is provided in a multi-protocol label switching system equipped with a plurality of Internet protocol packet forwarding engines according to the present invention, a label switching scheme for smoothly providing Internet services in a high-speed public network is provided. Implementing as a function within the exchange can help to provide Internet services in high-speed public networks in the future.

In addition, the present invention helps to improve performance in a system by establishing an extended label switched path in a multiprotocol label switching system.

Claims (2)

In a multi-protocol label switching system having a plurality of Internet protocol forwarding engines and a plurality of label switched exchanges and an exchange switch for allocating a data transmission path between the Internet protocol forwarding engines and the label switched exchanges, In a method for establishing a label switched path in a multi-protocol label switching system equipped with a packet forwarding engine, Connecting an extended label switched path generated in each of said Internet protocol forwarding engines to a multiprotocol label switching region in any one of said label switched exchanges; And a second process of connecting the extended label switched path connected to the multi-protocol label switching area inside the specific label switched exchange to the label switched path connected to the specific label switched exchange through the first process. Extended Label Switched Path Setup in a Multi-Protocol Label Switching System with a Protocol Packet Forwarding Engine. In a multi-protocol label switching system having a plurality of Internet protocol forwarding engines and a plurality of label switched exchanges and a switch switch for allocating a data transmission path between the Internet protocol forwarding engines and the label switched exchanges, In a method for establishing a label switched path in a multi-protocol label switching system equipped with a packet forwarding engine, A first step of detecting the routing information from the received specific information when the specific information reaches the corresponding label switched exchange through the specific label switched path; And a second step of establishing an extended label switched path to a corresponding Internet protocol forwarding engine mapped according to a destination Internet protocol address specified in the routing information detected through the first process. Extended label switched routing in multiprotocol label switching systems with engines.