KR20050032764A - Packet routing method in communication network based point-to-point protocol over ethernet protocol - Google Patents

Abstract

A method for routing the packet in a communication network based on the point-to-point protocol is provided to utilize the connection program installed on the router and the subscriber's terminal in response to the state that the PPPoE protocol is capsulized in the Ethernet packet received from the corresponding subscriber's terminal. A method for routing the packet in a communication network based on the point-to-point protocol includes the steps of: receiving(S20) the Ethernet packet from the subscriber's terminal; identifying(S21) whether the point-to-point protocol over Ethernet(PPPoE) protocol is capsulized into the received Ethernet packet or not; routing(S24-S26) with the internet network by capsulizing the PPP protocol into the Ethernet protocol of the Ethernet packet received in response to the PPPoE protocol; transmitting(S23) the capsulized Ethernet packet to the bridge based on bypassing capsulized Ethernet packet to the PPPoE protocol; and routing(S24-S26) the destination address of the received Ethernet packet as the internet network by capsulizing the request for comments(RFC) 1483 protocol after the bridge identifies the destination address of the received Ethernet packet.

Description

PACKET ROUTING METHOD IN COMMUNICATION NETWORK BASED POINT-TO-POINT PROTOCOL OVER ETHERNET PROTOCOL}

The present invention relates to a communication system, and in particular, when an access program such as WinPoet, EnterNet300, RASPPPoE, etc. supporting the PPPoE protocol is installed in a router accommodating a plurality of subscribers in a communication network constituting an ADSL network based on the PPPoE protocol. The router separates and routes the traffic path of the received Ethernet packet according to whether the PPPoE protocol is encapsulated in the Ethernet packet received from the corresponding subscriber side terminal, thereby eliminating the need to delete the access program installed in the respective subscriber side terminals. The present invention relates to a packet routing method in a communication network based on the PPI protocol which can simultaneously use an access program installed in a subscriber terminal.

The x-Digital Subscriber Line (xDSL) is a technology for transmitting digital information at high bandwidth over existing telephone lines installed in homes and businesses. It includes Asymmetrical DSL (ADSL), Universal Asymmetrical DSL (UDASL), and High Bitrate (HDSL). DSL, Symmetrical DSL (SDSL), and Very High DSL (VDSL) are available on the same line to accommodate not only digital information but also analog (voice) information.

In addition, ADSL having an asymmetric structure, which is used for transmitting most of the xDSL service from the subscriber side down to the user side and allocates very little to the information received from the user side, is widely used.

Common ADSL protocols include Point-to-Point Protocol over ATM (PPPoA), Point-to-Point Protocol over Ethernet (PPPoE), and Internet Protocol over ATM (IPoA). Asynchronous Transfer Mode (ATM) based protocol refers to RFC 2364 protocol, PPPoE refers to RFC 1483 protocol based on Ethernet, and IPoA is ATM based on IP (Internet Protocol). Refers to the RFC 1566 protocol.

PPPoE, one of ADSL's protocols, is a standard for connecting multiple subscribers using a single Ethernet to a service provider's site at a remote location through a subscriber's common equipment such as a modem. It is a combination of the Point-to-Point Protocol (PPP) protocol and the Ethernet protocol supporting multiple subscribers in a local area network.

That is, FIG. 1 is a network diagram schematically showing a configuration of an ADSL network based on the conventional PPPoE protocol and a protocol stack of a router according to the above, and an Ethernet network in which a plurality of subscriber terminals 11 to 14 are connected by an Ethernet line. To the Internet network 30, wherein the plurality of subscriber-side terminals 11 to 14 or the router 20 are provided with PPPoE by installing a separate access program such as WinPoet, EnterNet300, RASPPPoE, etc. It provides remote access service through protocol.

At this time, when configuring the Ethernet network and interworking with the ADSL network, the PPPoE protocol is required for the router 20, but the subscriber terminal 11 to 14 or the individual subscriber terminal (not shown) in the Ethernet network are internal. The PPPoE protocol is optionally loaded according to the type of modem installed in the modem.

That is, modems installed in subscriber terminals 11 to 14 or individual subscriber terminals (not shown) in the Ethernet network are largely divided into bridge type modems and router type modems. Only the PPPoE protocol can be used to connect between network layers, so it is linked with ADSL network only by using the function of the destination address. However, in the case of the router type modem, the router itself is in charge of the network layer. Since it plays a role of setting a path, even if a separate PPPoE protocol is not used, the PPPoE protocol can be interworked with the ADSL network even if the PPPoE protocol is mounted in the router 20 for routing in the Ethernet network.

Therefore, when the access program supporting the PPPoE protocol is installed in the router 20, the access terminal supporting the PPPoE protocol is not required for the subscriber terminal 11 to 14, and the router 20 is provided through the router 20 without the PPPoE protocol. An internet network 30 can be connected.

When the subscriber wants to access the Internet network 30 through the subscriber terminals 11-14 connected to the Ethernet network, the Ethernet packets generated by the subscriber terminals 11-14 are not encapsulated by the PPPoE protocol. Instead, it is transmitted to the Ethernet physical layer of the router 20 through the Ethernet line.

Then, in order to enable 1: 1 data communication between a specific subscriber of the subscriber terminal 11 to 14 and a service provider in the Internet network 30, the router 20 is connected to an IP (Internet Protocol) layer. According to the Ethernet layer and traffic control through the Point-to-Point Protocol (PPP) and PPPoE protocol, the received Ethernet packet is encapsulated in the PPPoE protocol, and then the ADSL physical layer conforms to the RFC 1483 and ATM (Asynchronous Transfer Mode) layers. Routing to the destination address of the Ethernet packet in the Internet network 30 through the ADSL line of the layer.

However, in the conventional technology as described above, in the communication network constituting the ADSL network based on the PPPoE protocol, when the access program supporting the PPPoE protocol is installed in a router that accommodates a plurality of subscribers, Since the access program is not required and the installed access program cannot be used, the existing installed access program must be removed for interworking with the Internet network, which wastes time and manpower for deleting the access program, as well as PPPoE. In case of using an ADSL protocol other than the protocol, the access program must be separately installed, which causes inconvenience to subscribers.

Therefore, the present invention has been proposed to solve the above-described problems, such as WinPoet, EnterNet300, RASPPPoE, etc. which supports the PPPoE protocol to a router that accommodates a plurality of subscribers in a communication network constituting an ADSL network based on the PPPoE protocol. When the access program is installed, the router separates and routes the traffic path of the received Ethernet packet according to whether or not the PPPoE protocol is encapsulated in the Ethernet packet received from the corresponding subscriber side terminal, thereby connecting to each subscriber side terminal. An object of the present invention is to provide a method for simultaneously using an access program installed in the router and the subscriber terminal without deleting the program.

In order to achieve the above object, the present invention, when receiving an Ethernet packet, comprising the steps of checking whether the PPI protocol is encapsulated in the received Ethernet packet; And separating and routing the traffic paths of the received Ethernet packets according to the checking result.

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

FIG. 2 is a flowchart illustrating an operation of a packet routing method in a communication network based on the PPPoE protocol according to the present invention. As shown in FIG. 2, the Ethernet physical layer from the subscriber terminals 100 to 130 in an Ethernet network is connected through an Ethernet line. Step S20 of receiving an Ethernet packet (P201); Checking whether the point-to-point protocol over Ethernet (PPPoE) protocol (P209) is encapsulated in the received Ethernet packet in a bridge (P203) of the router (200) (S21); As a result of the check, when the PPPoE protocol P209 is encapsulated, after checking the destination address of the received Ethernet packet, encapsulating the RFC (Request For Comments) 1483 protocol (P204) and routing it to the Internet network (300) (S24 ~). S26); If the PPPoE protocol P209 is not encapsulated, encapsulating the Point-to-Point Protocol (PPP) protocol (P208) in the Ethernet protocol (P202) of the received Ethernet packet according to the PPPoE protocol (P209) (S22). Wow; Transmitting, by a packet forwarding driver (P210), the Ethernet packet encapsulated by the PPPoE protocol (P209) to the bridge (P203) (S23); After checking the destination address of the received Ethernet packet, the bridge P203 encapsulates the request for comments (RFC) 1483 protocol (P204) and routes it to the Internet network (300) (S24 to S26).

In addition, Figure 3 is a schematic diagram showing the configuration of the ADSL network based on the PPPoE protocol for implementing the present invention and the protocol stack (stack) of the router 200 accordingly.

The present invention can be applied to a communication network having a router 200 for connecting a plurality of subscriber-side terminals 100 to 130 to an internet network 300 connected through an Ethernet line, and an embodiment of the present invention. In the following description, it is assumed that the present invention is applied to an Asymmetrical DSL (ADSL) based on the PPPoE protocol among xDSL (x-Digital Subscriber Line) based communication networks.

In the present invention, even when the access program such as WinPoet, EnterNet300, RASPPPoE, etc. supporting the PPPoE protocol is installed in the router 200, the router 200 does not need to delete the access program installed in each of the subscriber terminals 100 to 130. And the packet forwarding driver (P210) in the router 200 so that the access program can be simultaneously used by the subscriber terminals 100 to 130, the router 200 can be connected from the subscriber terminals 100 to 130. Depending on whether the PPPoE protocol is encapsulated in the received Ethernet packet, the traffic path of the Ethernet packet is separated and routed.

That is, the present invention can be applied to the Ethernet network configured by using all of the subscriber terminal terminals 100 to 130 with or without the access program installed. 100 to 130 are connected through an Ethernet line to form an Ethernet network, and access programs such as WinPoet, EnterNet300, RASPPPoE, etc., supporting the PPPoE protocol are installed in the subscriber terminals 100 and 110, and the subscriber terminals 120 and 130 are installed. It is assumed that the above program is not installed.

Then, when the subscriber wants to access the Internet network 300 through the subscriber terminal 100,110 connected to the Ethernet network, the Ethernet packet generated at the subscriber terminal 100,110 is encapsulated in the PPPoE protocol and then over the Ethernet line. The Ethernet packet transmitted to the Ethernet physical layer P201 of the router 200 and the Ethernet packets generated from the subscriber terminals 120 and 130 are not encapsulated by the PPPoE protocol, but the Ethernet physical layer P201 of the router 200 through the Ethernet line. Is transmitted (S20).

Then, the Ethernet packet received by the router 200 is processed according to the Ethernet protocol (P202) and forwarded to the bridge (P203), where the bridge (P203) is PPPoE (Point-to- point) to the received Ethernet packet Point Protocol over Ethernet checks whether the protocol is encapsulated (S21), and separates and routes the traffic path of the received Ethernet packet according to the check result.

As a result of checking in step S21, when the PPPoE protocol is encapsulated in the received Ethernet packet, that is, when the Ethernet packet is received from the subscriber terminal (100, 110) in which the access program supporting the PPPoE protocol is installed, the bridge (P203). After checking the MAC (Media Access Control) address of the Ethernet packet to confirm the destination address, the Ethernet packet is requested for Comments (RFC) 1483 protocol (P204), Asynchronous Transfer Mode (ATM) layer (P205) and ADSL physical The traffic path is encapsulated in the RFC 1483 protocol (P204) that enables multi-protocol loading while passing through the layer (P206) and is routed to the Internet network 300 in units of cells by the ATM method (S24 to S26).

When the PPPoE protocol is not encapsulated in the Ethernet packet, that is, when the Ethernet packet is received from the subscriber terminal 120 or 130 without an access program supporting the PPPoE protocol, the bridge P203 receives the received Ethernet packet. Set a traffic path to the IP stack P207 to receive the Ethernet packet encapsulated by the PPPoE protocol P209 again via the PPP protocol P208, the PPPoE protocol P209, and the packet forwarding driver P210.

That is, when the IP stack P207 of the router 200 reads and forwards the destination address included in the header of the Ethernet packet, the PPPoE protocol P209 transmits the PPP protocol P208 to the Ethernet protocol P202 of the received Ethernet packet. Is encapsulated (S22), and the packet forwarding driver P210 bypasses the Ethernet packet encapsulated by the PPPoE protocol P209 and transmits it to the bridge P203 (S23).

In this case, since the RFC 1483 protocol P204 cannot be directly loaded on the Ethernet packet encapsulated by the PPPoE protocol P209, the packet forwarding driver P210 bridges the Ethernet packet encapsulated by the PPPoE protocol P209 (P203). ) And bypasses transmission to the RFC 1483 protocol (P204) and vice versa.

Then, after receiving the Ethernet packet by the packet forwarding driver P210, the bridge P203 checks the MAC address of the Ethernet packet, and then the Ethernet packet is RFC 1483 protocol (P204), ATM layer (P205) and ADSL. Encapsulated in the RFC 1483 protocol (P204) while passing through the physical layer (P206) and then routed to the Internet network 300 by the ATM method (S24 to S26).

As described above, in the present invention, when a connection program such as WinPoet, EnterNet300, RASPPPoE, etc. supporting the PPPoE protocol is installed in a router accommodating a plurality of subscribers in a communication network configuring an ADSL network based on the PPPoE protocol, the router is installed. By separating and routing the traffic path of the received Ethernet packet according to whether the PPPoE protocol is encapsulated in the Ethernet packet received from the subscriber terminal, the router and the subscriber side without having to delete the access program installed in each subscriber terminal. Since the access program installed in the terminal can be used at the same time, the waste of time and manpower caused by the deletion of the access program installed in each subscriber side terminal can be eliminated.

1 is a schematic diagram illustrating a configuration of an ADSL network based on a conventional PPPoE protocol and a protocol stack of a router accordingly.

Figure 2 is a flow chart showing the operation of the packet routing method in a communication network based on the PPPoE protocol of the present invention.

Figure 3 is a schematic diagram showing the configuration of the ADSL network and the protocol stack of the router according to the implementation of the packet routing method in the communication network based on the present invention PPPoE protocol.

*** Description of the symbols for the main parts of the drawings ***

100 to 130: subscriber terminal 200: router

300: Internet network

Claims (3)

When receiving an Ethernet packet, checking whether the PPI protocol is encapsulated in the received Ethernet packet; And routing and separating the traffic path of the received Ethernet packet according to the result of the checking. The method as claimed in claim 1, wherein, when the PPI protocol is encapsulated, checking the destination address of the Ethernet packet received by the bridge, and encapsulating the Ethernet packet in the RFC 1483 protocol and routing it to the Internet network. A packet routing method in a communication network based on the PPI protocol. The method of claim 1, further comprising: encapsulating the PPI protocol in an Ethernet protocol of the received Ethernet packet according to the PPI protocol when the PPI protocol is not encapsulated; Transmitting, by a packet forwarding driver, the Ethernet packet encapsulated by the PPI protocol to a bridge; A method for routing a packet in a communication network based on the PPI protocol, characterized in that a bridge checks a destination address of a received Ethernet packet and encapsulates the RFC 1483 protocol and routes it to the Internet network.