KR100299144B1 - Layer-3 ip switching apparatus using layer-2 switch in atmor ethernet and method thereof - Google Patents

Abstract

The technical field to which the invention described in the claims belongs.

It relates to asynchronous transmission mode and IP communication over Ethernet network.

B. Technical problem to be solved

A layer-3 IP switching apparatus and method using a layer-2 switch in an ATM and an Ethernet network.

C. Summary of the Solution

The present invention provides a MAC address for a terminal belonging to each virtual LAN and an ATM address for the MAC address and corresponding IP address information in a router that performs routing between the virtual LANs in communication between different virtual LANs over an ATM and an Ethernet network. In case of requesting IP communication from a terminal belonging to each virtual LAN to a destination terminal belonging to a different virtual LAN by providing a New Proxy ARP / LE_ARP module including a MAC address and a destination address of the destination terminal through the New Proxy ARP / LE_ARP module. Layer-3 IP switching is performed through the layer-2 switch by transmitting the ATM address to the layer-2 switch to which each virtual LAN belongs.

D. Significant Uses of the Invention

It is used for communication between different virtual LANs in asynchronous transmission mode and Ethernet network.

Description

LAYER-3 IP SWITCHING APPARATUS USING LAYER-2 SWITCH IN ATMOR ETHERNET AND METHOD THEREOF}

The present invention relates to IP communication over an asynchronous transfer mode (hereinafter referred to as 'ATM') and an Ethernet network, and more particularly to a layer-3 IP switching apparatus and method implemented using a layer 2 switch. It is about.

In general, a local area network (LAN) refers to an information communication network configured to enable data communication between a plurality of computers, and various types of configurations are provided according to the purpose of use. In order to prevent LAN performance deterioration due to broadcast traffic, VLAN type LANs, in which the same LAN is divided into multiple virtual LANs (hereinafter referred to as 'VLANs'), are increasing. to be.

1 and 2 illustrate a VLAN type Ethernet and ATM network configuration using a conventional router for data transmission between the different VLANs.

First, referring to FIG. 1, a communication operation between different VLANs on Ethernet is described. A destination terminal belonging to a VLAN 2 (106) from a source terminal A (110) belonging to a VLAN 1 (100) is shown. In order to transmit data to the B 116, the source terminal A 110 obtains a media access control (MAC) address of the router 108 and transmits a frame to the router 108 via the path P1. Then, the router 108 detects the IP address information of the frame, analyzes the IP address through Layer-3, and then the MAC address of the destination terminal B 116 corresponding to the destination IP address. By generating a transmission MAC address is the MAC address of the router, the destination MAC address is changed to the MAC address of the destination terminal B (116) corresponding to the destination IP address and transmitted to the terminal B (116).

Next, referring to FIG. 2, a communication operation between different VLANs on an ATM network is similar to that of the Ethernet on the ATM network as shown in FIG. 2. That is, when an ATM uplink is implemented through a VLAN, a source for transmitting data from the source terminal A 210 belonging to the VLAN 1 200 to the destination terminal B 216 belonging to the VLAN 2 208 is provided. The terminal A 210 establishes a channel C1 with the router 204 through a LAN emulation client (hereinafter referred to as "LEC") 218 in charge of the ATM uplink, and then transmits data to the set channel. Will be sent. Then, the router 204 generates the MAC address of the destination terminal B 216 corresponding to the destination IP address of the frame transmitted from the source terminal A 210 through the layer-3, and then the destination terminal B 216. The ATM address is generated based on the MAC address, and the channel C2 is set to the destination terminal B 216 to transmit data through the set channels C1 and C2.

However, in the conventional IP communication between VLANs, since the IP information is analyzed on the layer-3 and the frame information is changed, the routing performance is very low compared to the switching performance of the layer-2 switch. Therefore, when the amount of data communicated between different VLANs increases, network bottlenecks in VLAN communication over Ethernet and ATM networks are concentrated on routers performing routing operations using IP addresses on Layer-3.

Accordingly, in order to reduce the bottleneck on the network due to the increase in communication between different VLANs, an additional hardware chip (ASIC Chip) to help search for an IP address and to increase the routing speed of the router has to be provided. Having an additional hardware chip causes an additional cost increase to the user, and also, if the hardware chip is not provided, communication performance between different VLANs is sharply degraded.

As described above, the bottleneck on the network in the different VLAN communication on the Ethernet and the ATM is concentrated on the router performing the routing operation using the IP address on the layer-3, so as to reduce the bottleneck on the network. An additional hardware chip had to be provided to increase the routing speed of the router by assisting the search for the device. The additional hardware chip as described above causes an additional cost increase to the user, and when the hardware chip is not provided. There is a problem in that communication performance between different VLANs is sharply degraded.

Accordingly, an object of the present invention is to provide a layer-3 IP switching device and method using a layer-2 switch that can increase the routing speed on the layer-3 of a router without having to provide additional hardware for increasing the routing speed. have.

1 is a configuration diagram of a conventional virtual LAN method Ethernet network,

2 is a block diagram of a conventional virtual LAN asynchronous transmission mode network,

3 is a configuration diagram of a virtual LAN type Ethernet network according to an embodiment of the present invention;

4 is a diagram illustrating a virtual LAN method asynchronous transmission mode network configuration according to an embodiment of the present invention;

5 is a flowchart illustrating processing of a layer-2 switch in a virtual LAN Ethernet according to an embodiment of the present invention;

6 is a flowchart illustrating a process of a New Proxy ARP module in a router according to an embodiment of the present invention;

7 is a flowchart illustrating a layer-2 switch in a virtual LAN asynchronous transmission mode according to an embodiment of the present invention;

8 is a flowchart illustrating processing in a New Proxy ARP / LE_ARP module in a router according to an embodiment of the present invention.

The present invention for achieving the above object in the communication between different virtual LAN on ATM and Ethernet network, the router performing the routing between the virtual LAN to the MAC address and the MAC address for the terminal belonging to each virtual LAN The New Proxy ARP / LE_ARP module is provided with a New Proxy ARP / LE_ARP module having an ATM address and corresponding IP address information, and there is an IP communication request from a terminal belonging to each virtual LAN to a destination terminal belonging to a different virtual LAN. By transmitting the MAC address and ATM address of the destination terminal to the layer-2 switch to which each virtual LAN belongs, it is characterized in that the layer-3 IP switching is performed through the layer-2 switch.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Many specific details are set forth in the following description and in the accompanying drawings, in order to provide a more thorough understanding of the present invention. It will be apparent to those skilled in the art that the present invention may be practiced without these specific details. And a detailed description of known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted.

3 and 4 illustrate a VLAN type Ethernet and ATM network configuration for data transmission between different VLANs according to an exemplary embodiment of the present invention.

3 and 4, a network according to an embodiment of the present invention includes a switching module proxy A.P. module that performs layer-3 IP switching between a plurality of subnetworks divided into VLANs and between them. Routers 302 and 402 having an ARP Module 300 or a Proxy ARP / LE_ARP 400. The newly added New Proxy ARP module 300 and New Proxy LE_ARP module 400 are mounted on a newly configured routing device or an existing layer-2 switch. In addition, in the embodiment of the present invention, all VLANs in the layer-3 IP switching are defined as flat networks. That is, when configuring IP addresses of the terminals 312,314, 316, and 318 belonging to FIG. 3, all subnet fields are set to be the same to communicate with terminals belonging to the layer-3 IP switching equipment. will be. In order to group the terminals and design a network using a sub-network concept, a broadcast domain is set using a VLAN function provided by layer-2 switching. The New Proxy ARP module 300 of FIG. 3 is a module for performing ARP (Address Resolution Protocol) between different VLANs and stores a MAC address and a corresponding IP address for terminals and devices belonging to each VLAN. base). The ARP performance refers to a function of generating a MAC address of the destination terminal B 318 according to a request from the source terminal A 312. That is, when the source terminal A 304 requests the ARP for the destination terminal B 318 belonging to the other VLAN, it provides a function to respond instead.

The New Proxy LE_ARP module 400 of FIG. 4 is a module that performs LE_ARP between terminals belonging to different VLANs. Performing LE_ARP refers to a function of generating an ATM address for the MAC address of the destination terminal B 416. When communicating using a LAN on an ATM network, the source terminal A 410 obtains the MAC address for the destination terminal B 416 in order to communicate with the destination terminal B 416, and then the ATM address corresponding to the MAC address. To establish a channel C1 and communicate with the destination terminal B 416 through the preset channel C2 between the router 402 and the destination terminal B 416 using the channel C1. . At this time, the LE_ARP protocol implemented on the LAN is used to obtain the ATM address corresponding to the MAC address. That is, when the source terminal A 410 sends a LE_ARP request to the destination terminal B (416) belonging to another VLAN, it provides a function to replace the LE_ARP response.

5 is a flowchart illustrating an operation control in the layer-2 switch of FIG. 3 for communication between different VLANs on Ethernet according to an embodiment of the present invention. Hereinafter, embodiments of the present invention will be described in detail with reference to FIGS. 3 and 5. In particular, in the following description of an embodiment of the present invention, when there is a request for IP communication from a source terminal A 312 belonging to a VLAN 1 304 to a destination terminal B 318 belonging to a different VLAN 2 310 for convenience of description. Will be described with an example.

First, when receiving an Ethernet frame transmitted from source terminal A 312 requesting IP communication to the destination terminal B 318, the layer-2 switch of VLAN 1 304 to which the source terminal A 312 belongs is In response, in step 500, an ARP request frame for obtaining a MAC address for the destination terminal B 318 transmitted from the source terminal A 312 is transmitted to the router 302.

Then, the New Proxy ARP module 300 of the router 302 is transmitted from the source terminal A 312 in step 600 as shown in FIG. 6 showing the operation control flow of the New Proxy ARP module 300. Receive the ARP request frame. In step 602, the New Proxy ARP module 300 checks whether the destination IP address on the frame exists in the database. If the destination IP address does not exist in the database, the new proxy ARP module 300 proceeds to step 604. Ignore the frame. In contrast, when the destination IP address exists in the database, the process proceeds to step 606 where the MAC address of the destination terminal B 318 for the destination IP address is the same as the MAC address of the source terminal A 312. Check if it is. In this case, when the MAC address of the source terminal A 312 and the MAC address of the destination terminal B 318 belong to different VLANs, the New Proxy ARP module 300 proceeds to step 608 and the source terminal A 312. A MAC frame having a header consisting of the MAC address of the destination terminal B 318 and the MAC address of the source terminal A 312 is transmitted to the layer-2 switch of VLAN 1 304 to which the VLAN 1 304 belongs.

Accordingly, the layer-2 switch of the VLAN 1 304 receives the MAC frame transmitted from the New Proxy ARP module 300 in step 502 of FIG. 5, and proceeds to step 504 in which the MAC address is transmitted. Layer-2 switching is performed between the source terminal A 312 and the destination terminal B 318 to transmit the Ethernet frame transmitted from the source terminal A 312 to the destination terminal B 318.

Accordingly, communication through layer-2 switching is possible even when communicating between different virtual LANs.

7 is a flowchart illustrating an operation control in the layer-2 switch of FIG. 4 for communication between different VLANs on an ATM network according to an embodiment of the present invention. Hereinafter, embodiments of the present invention will be described in detail with reference to FIGS. 4 and 7.

First, when receiving a frame transmitted from the source terminal A 410 requesting IP communication to the destination terminal B 416, the layer-2 switch of the VLAN 1 402 to which the source terminal A 410 belongs responds thereto. In step 700, the ARP request frame for obtaining the MAC address for the destination terminal B 416 transmitted from the source terminal A 410 is transmitted to the router 402. Then, the New Proxy ARP of the New Proxy ARP / LE_ARP module 400 of the router 402 is a destination to the Layer-2 switch of the VLAN 1 402 to which the source terminal A 410 belongs, as in the process of FIG. 6. A MAC frame having a header consisting of the MAC address of the terminal B 416 and the MAC address of the source terminal A 410 is transmitted in an ARP response. Accordingly, the layer-2 switch of the VLAN 1 402 receives the MAC frame including the MAC address information of the transmitted destination terminal B 416 in step 702, and proceeds to step 704 again to the destination. The LE_ARP request frame for obtaining the ATM address for the MAC address of the terminal B 416 is transmitted.

Then, the New Proxy LE_ARP of the New Proxy ARP / LE_ARP module 400 of the router 402 receives the LE_ARP request frame in step 800 as shown in FIG. 8. New Proxy LE_ARP proceeds to step 802 and checks whether the MAC address of the destination terminal B 416 on the frame exists in the database, so that the MAC address of the destination terminal B 416 does not exist in the database. If no, go to Step 804 to ignore the frame. On the contrary, if the MAC address of the destination terminal B 416 exists in the database, the process proceeds to step 806 where the ATM address for the MAC address of the destination terminal B 416 is determined by the source terminal A 410. Check whether it belongs to the same VLAN as ATM address for MAC address. In this case, when the ATM address of the source terminal A 410 and the ATM address of the destination terminal B 416 belong to different VLANs, the New Proxy LE_ARP proceeds to step 808 and the VLAN 1 to which the source terminal A 410 belongs. The LE_ARP response frame including the ATM address of the MAC address of the destination terminal B 416 is transmitted to the layer-2 switch of step 410.

Accordingly, the layer-2 switch of VLAN 1 402 receives the ATM address for the destination terminal B 416 transmitted from the Proxy LE_ARP in step 706 of FIG. 7, and proceeds to step 708. ATM channels C1 and C2 are respectively set between the source terminal A 410 and the router 402 and between the router 402 and the destination terminal B 416 according to the ATM address. In operation 710, the layer-2 switch of the VLAN 1 402 performs layer-2 switching between the source terminal A 410 and the destination terminal B 416 using the MAC address. The frame from the source terminal A 410 is transmitted to the destination terminal B 416 through the ATM channels C1 and C2 set in the step.

As a result, communication through layer-2 switching is possible even when communicating between different virtual LANs in an ATM network, thereby improving system performance.

As described above, the present invention implements layer-3 IP switching using existing layer-2 switches for communication between different VLANs, thereby maintaining layer-2 switching performance for communication between different VLANs while maintaining the characteristics of VLANs on the network. This can be directly applied to network users to provide high routing performance.

Claims (5)

In a layer-3 IP switching device for data communication between different virtual LANs on an Ethernet composed of multiple virtual LANs, MAC corresponding to the IP address of the destination terminal transmitted from the source terminal when there is a request for an I.P communication from a source terminal belonging to a specific virtual LAN among the different virtual LANs to a destination terminal belonging to another virtual LAN. A router configured to generate an address and transmit the address to the source terminal, the router configured to perform routing when communicating between the different virtual LANs; Upon receiving the address of the destination terminal transmitted from the proxy A.P. module, layer-2 switching using the address of the source terminal and the destination terminal is performed to transmit a frame transmitted from the source terminal to the destination terminal. Layer-3 I.P switching device using a layer-2 switch in the asynchronous transmission mode and Ethernet network characterized in that it comprises a layer-2 switch. A Layer-3 IP Switching Device in an Asynchronous Transfer Mode Network Configured by Multiple Virtual LANs, An I.P. address corresponding to an I.P address of an I.P address of a destination terminal transmitted from the source terminal when there is a request for communication from a source terminal belonging to a specific virtual LAN to a destination terminal belonging to another virtual LAN among different virtual LANs. Proxy ARP / LE_ARP module for transmitting the asynchronous transmission mode address of the destination terminal to the source terminal to the source terminal, and each other on the asynchronous transmission mode network A router that performs routing when communicating between different virtual LANs, When the proxy A.P./LAN emulation receives the address of the destination terminal and the asynchronous transmission mode address transmitted from the A.P.LAN module, the asynchronous transmission mode between the source terminal and the router and between the router and the destination terminal is received. And a layer-2 switch for setting a channel and performing layer-2 switching using the beer station between the source terminal and the destination terminal to transmit a frame transmitted from the source terminal to the destination terminal through the set channel. Layer-3 I.P switching device using a layer-2 switch characterized in that. The switching device of claim 2, wherein the layer-3 eye. LAN emulation connected to the virtual LAN to convert a frame transmitted from the layer-2 switch into an asynchronous transmission mode cell, and converts the asynchronous transmission mode cell transmitted from the router into an Ethernet frame and transmits the same to a layer-2 switch. With the client (LEC), An asynchronous transmission mode cell received from the LAN emulation client is converted into an Ethernet frame and transmitted to the router, and an Ethernet frame transmitted from the router is converted into the asynchronous transmission mode cell and transmitted to the LAN emulation client. Layer-3 I.P switching device using a layer-2 switch in the asynchronous transmission mode and Ethernet network characterized in that it further comprises. In the Layer-3 I.P switching method for data communication between different virtual LANs on an Ethernet composed of multiple virtual LANs, Transmitting an ARP request frame for obtaining a beer address of a destination terminal belonging to another virtual LAN transmitted from a source terminal belonging to a specific virtual LAN among the virtual LANs; Receiving a MAC frame having a header comprising a beer cow of the destination terminal and a beer cow of the source terminal generated and transmitted by the proxy A.P module of the router in response to the A.P request frame; And performing layer-2 switching between the source terminal and the destination terminal by using the beer terminal of the source terminal and the destination terminal included in the MAC frame, and transmitting the frame transmitted from the source terminal to the destination terminal. Layer-3 I.P switching method using asynchronous transfer mode and Layer-2 switch on Ethernet network. In the Layer-3 I.P switching method for data communication between different virtual LANs in an asynchronous transmission mode network composed of multiple virtual LAN methods, Transmitting an A.R.P request frame for obtaining a beer address of a destination terminal belonging to another virtual LAN transmitted from a source terminal belonging to a specific virtual LAN among the virtual LANs; Receiving a MAC frame having a header comprising a beer cow of the destination terminal and a beer cow of the source terminal generated and transmitted by the proxy A.P module of the router in response to the A.P request frame; Transmitting a LAN emulation ALE request frame to obtain an asynchronous transmission mode address for the destination terminal in response to receiving the address of the destination terminal; Receiving an asynchronous transmission mode address of the destination terminal generated and transmitted by a LAN emulation A.P module of a router in response to the LAN emulation A.P request frame; Setting an asynchronous transmission mode channel between the source terminal and the router and between the router and the destination terminal according to the asynchronous transmission mode address; Layer-2 switching is performed between the source terminal and the destination terminal by using the beer terminal of the source terminal and the destination terminal included in the MAC frame to transmit a frame from the source terminal to the destination terminal through the set channel. Layer-3 I.P switching method using asynchronous transfer mode and Layer-2 switch over Ethernet network.