KR20030022598A - Ethernet connection apparatus and method using hot standby double process board and one repeater/hub - Google Patents

Abstract

PURPOSE: A device for connecting with Ethernet using a hot standby dualized board and one repeater/hub is provided to connect the dualized board with the Ethernet by using one repeater/hub, instead of a cross dualized connection device using two repeaters, thereby reducing the number of Ethernet drivers and repeaters/hubs. CONSTITUTION: One repeater/hub(50) transceives Ethernet data with an external network. An activity board(100) inputs the Ethernet data outputted from the one repeater/hub(50), calculates a result, and outputs the Ethernet data. A standby board(200) inputs the Ethernet data outputted from the one repeater/hub(50), calculates a result, and does not output the Ethernet data. A back board(30) includes a PROM, supplying the same MAC address and IP address to the activity board(100) and the standby board(200).

Description

ETHERNET CONNECTION APPARATUS AND METHOD USING HOT STANDBY DOUBLE PROCESS BOARD AND ONE REPEATER / HUB}

The present invention relates to an Ethernet connection device and method using a hot standby redundant board and one repeater / hub, and in particular, to a redundant board connected to Ethernet using one repeater / hub rather than a cross-redundant connection device using two repeaters. The present invention relates to an apparatus and method for connecting an Ethernet using a hot standby redundant board and a repeater / hub.

In general, a hot standby operation method is a method in which a program operates simultaneously in an active device and a standby device, and when a problem occurs in the active device, the program operates in a standby device without stopping.

In a conventional hot standby redundant Ethernet connection device, a duplicated board and two repeaters / hubs are implemented by a cross duplication method, which will be described with reference to FIG. 1.

FIG. 1 is a block diagram showing a cross-redundant Ethernet connection device using a conventional hot standby duplication board and two repeaters / hubs, and an active repeater / hub 50 for transmitting and receiving data to and from an external network as shown in FIG. ; A standby repeater / hub 60 which operates when the activity repeater / hub 50 is malfunctioning; A main ethernet driver 13 for transmitting and receiving data to and from the active repeater / hub 50, a secondary ethernet driver 14 for transmitting and receiving data to and from the standby repeater / hub 60, and the two Ethernet drivers 13 and 14; MUX 12 outputting the received data output from the control unit to the control unit 11 side by the reception data control signal, and a control unit processing the received data output from the mux 12 to output to the main Ethernet driver 13 side An activity board 10 composed of 11; In the same configuration as the activity board 10, the activity board 10 is composed of a standby board 20 that operates when a malfunction.

When describing a conventional hot standby duplex board and a cross-redundant Ethernet connection device using two repeaters / hubs, the two repeat / hubs 50 and 60 are configured as active repeat / It is determined by the hub 50 and atmospheric repeat / hub 60.

In addition, the two processor boards 10 and 20 are also determined as the activity board 10 and the standby board 20.

The activity repeat / hub 50 transmits data to both the activity board 10 and the standby board 20.

Both hot standby / activity boards 10 and 20 receive the same Ethernet data and produce the same result.

In detail, the two activity / standby boards 10 and 20 receive data corresponding to the same MAC address and corresponding IP address in order to receive the same Ethernet data.

Therefore, the two activity / standby boards 10 and 20 of the hot standby method produce the same result with respect to the received Ethernet data.

The activity board 10 transmits Ethernet data, and the standby board 20 does not transmit Ethernet data.

The activity repeat / hub 50 receives data received from the activity board 10.

The standby repeat / hub 60 does not receive Ethernet data from the activity board 10 and is in a standby state.

However, in the prior art as described above, two Ethernet drivers are required on the processor board side for cross redundancy.

In addition, repeat / hub also has a problem that two are required to achieve this cross-redundant connection.

Accordingly, the present invention has been made in view of the above-described problems. In a hot standby Ethernet connection method, a standby redundant board and one repeater using only one Ethernet driver and only one repeat / hub are used on the redundant processor board. Its purpose is to provide an Ethernet connection device and method using a / hub.

1 is a block diagram showing a cross-redundant Ethernet connection using a conventional hot standby duplication board and two repeaters / hubs.

Figure 2 is an exemplary view showing an Ethernet connection device using the present invention hot standby redundant board and one repeater / hub.

Figure 3 is an exemplary view showing an Ethernet connection method using the present invention hot standby redundant board and one repeater / hub.

** Explanation of symbols for main parts of drawings **

30: backboard 40: pyrom

50: Repeater / Hub 100: Activity Board

110, 210: control unit 120, 220: Ethernet driver

130, 230: Buffer 200: Standby board

The present invention for achieving the above object, one repeater / hub for transmitting and receiving Ethernet data with the external network; An activity board that receives the Ethernet data output from the one repeater / hub, calculates a result, and outputs Ethernet data; A standby board which receives the Ethernet data outputted from the one repeater / hub, calculates a result, and does not output Ethernet data; Characterized in that it consists of a back board including a PROM providing the same MAC address and IP address to the activity board and the standby board.

In addition, the first step of receiving the Ethernet data corresponding to its own IP address through the Ethernet driver of the Ethernet data received by one repeater / hub; A second step of processing the Ethernet data received by the Ethernet driver and outputting the result to a buffer; And a third step of outputting the Ethernet data output to the buffer to the one repeater / hub according to a signal for distinguishing the activity board from the standby board.

Hereinafter, an embodiment of an Ethernet connection apparatus and method using a hot standby duplexing board and one repeater / hub according to the present invention will be described with reference to FIGS. 2 and 3.

FIG. 2 is a block diagram illustrating an Ethernet connection device using the present invention hot standby duplex board and one repeater / hub. As shown in FIG. 2, one repeater / hub 50 transmits and receives Ethernet data to and from an external network. Wow; An activity board 100 which receives the Ethernet data output from the one repeater / hub 50 and calculates a result and outputs the Ethernet data; A standby board 200 which receives the Ethernet data output from the one repeater / hub 50 and calculates a result and does not output the Ethernet data; The activity board 100 and the standby board 200 is composed of a back board 30 including a PROM providing the same MAC address and IP address.

FIG. 3 is a flowchart illustrating an operation procedure of an Ethernet connection method using a hot standby duplexing board and one repeater / hub according to the present invention. As shown therein, an Ethernet driver among the Ethernet data received by one repeater / hub is shown. A first step of receiving Ethernet data corresponding to its own IP address through; A second step of processing the Ethernet data received by the Ethernet driver and outputting the result to a buffer; The third step of outputting the Ethernet data output to the buffer to the one repeater / hub according to a signal distinguishing the active board from the standby board will be described. The operation of the embodiment of the present invention configured as described above will be described.

The two processor boards 100 and 200 are determined as the activity board 100 and the standby board 200 by the activity / standby agreement.

The repeat / hub 50 connected to the two boards 100 and 200 is always in operation.

The activity / standby boards 100 and 200 both receive the same Ethernet data and always operate with a single MAC (Media Access Control (MAC) address) and one IP (IP) to operate in hot standby. : Internet Protocol, hereinafter referred to as IP) Share the address.

This MAC address and IP address are stored in the pyrom 40 of the back board 30 to which the activity / standby boards 100 and 200 are attached.

In this case, the IP address is mapped to the physical MAC address and serves to distinguish the Ethernet data to be received among various other Ethernet data received from the network.

Since the activity / standby boards 100 and 200 all have the same MAC / IP address, they receive the same Ethernet data from the repeat / hub 50.

Since the activity / standby boards 100 and 200 operate in a hot standby state, the activity / standby boards 100 and 200 calculate the same transmission data for the same received data and transmit the same through the Ethernet drivers 120 and 220.

The activity board 100 activates the buffer 130 by the transmission activation signal to transmit Ethernet data, and the standby board 200 deactivates the buffer 230 by the transmission inactivity signal to stop transmission of the Ethernet data. Let's do it.

In detail, the buffer 130 of the activity board 100 receives the transmission activity signal and outputs the Ethernet data calculated by the controller 110 of the activity board 100 to the repeater / hub 50 side, and the standby board. The buffer 230 of 200 receives the transmission inactivity signal and does not output the Ethernet data calculated by the controller 210 of the standby board 200 to the repeater / hub 50 side.

The transmission activation signal and the transmission inactivity signal are implemented by a signal separating the activity board 100 and the standby board 200.

Here, the transmission activation signal and the transmission inactivity signal may be generated using values of registers representing the activity board 100 and the standby board 200. This will be described in detail as follows.

First, when power is supplied to two boards, a board that operates first reads the register of the other board, and if the value is not the value representing the activity board 100, it records a value representing the activity board 100 in its register.

On the contrary, if the register value of the counterpart board is the value representing the activity board, the value representing the standby board 200 is recorded in its register. In this process, the activity board 100 and the standby board 200 are determined.

Therefore, the transmission activation signal and the transmission inactivity signal may be implemented according to the register value. For example, the controller for determining the timing of the digital signal on the board determines whether the board is the activity board 100 or the standby board 200 with reference to the value of the register. If it is a board, it outputs transmission inactivity signal.

Therefore, the transmission signal calculated by the activity board 100 of the hot standby duplication method by the above process is transmitted to the repeater / hub 50 through the buffer 130 and transmitted to the external network, and the transmission signal calculated by the standby board. Is not delivered to the repeater / hub 50.

In another embodiment, Ethernet between Universal Control Process Assembly (UCPA-T) and Fast Ethernet Routing Board Assembly (FERA) in IS-95 and IMT 2000 System, currently under development by LG Electronics The ports are implemented in a cross-duplex fashion and require a Fast Ethernet Termination Assembly (FETA) that aggregates the FERA's Ethernet ports.

Using the present invention in the above device does not require FETA, and there is no cross duplication between UCPA-T and FERA, which reduces the number of Ethernet drivers and repeaters / hubs.

As described in detail above, the present invention has the effect of connecting to Ethernet using only one Ethernet driver and one repeat / hub on the redundant processor board in the hot standby Ethernet connection method.

Claims (7)

One repeater / hub for transmitting and receiving Ethernet data to and from an external network; An activity board that receives the Ethernet data output from the one repeater / hub, calculates a result, and outputs Ethernet data; A standby board which receives the Ethernet data output from the one repeater / hub and calculates a result and does not output the Ethernet data; An Ethernet connection device using a hot standby duplication board and one repeater / hub comprising a back board including a pirom providing the same MAC address and IP address to the activity board and the standby board. According to claim 1, wherein the activity board and the standby board is an Ethernet driver for receiving the Ethernet data received from one repeater / hub and outputs the received data corresponding to the MAC address and IP address stored in the pyrom; A control unit which receives the received data and calculates a result and outputs transmission data to the Ethernet driver; And a buffer configured to determine an output of the transmission data, which is converted into Ethernet data by the Ethernet driver, and an Ethernet connection device using one repeater / hub. The buffer of claim 2, wherein the buffers of the activity board and the standby board are connected to the active terminals of the buffer to determine the activity board and the standby board, and the Ethernet data output from the activity board is output to the repeater / hub side. Ethernet data output from the board is configured not to be output to the repeater / hub side Ethernet standby device using a redundant board and one repeater / hub. The hot signal of claim 3, wherein the signal for determining the activity board and the standby board is configured to be output by a controller for adjusting the timing of the system by using a register value indicating an activity board and a register value indicating a standby board. Ethernet connection with standby redundancy board and one repeater / hub. A first step of receiving Ethernet data corresponding to its own IP address through an Ethernet driver among Ethernet data received by one repeater / hub; A second step of processing the Ethernet data received by the Ethernet driver and outputting the result to a buffer; Ethernet using the hot standby redundant board and one repeater / hub characterized in that the third step of outputting the Ethernet data output to the buffer to the one repeater / hub according to the signal distinguishing the active board and the standby board How to connect. The hot standby duplex board of claim 5, wherein the activity board and the standby board have identical MAC addresses and corresponding IP addresses to receive the same Ethernet data among the Ethernet data received through the repeater / hub. And Ethernet connection using one repeater / hub. 6. The method of claim 5, wherein the third step includes a buffer controlled by a signal representing an activity board outputting Ethernet data to one repeater / hub and a buffer controlled by a signal representing a standby board outputting Ethernet data to one repeater. / Ethernet connection method using a hot standby redundant board and one repeater / hub, characterized in that the output does not output to / hub.