KR20030013803A - Plural LAN structure and switching method in network system - Google Patents

Abstract

PURPOSE: A multiple LAN device of a network system and a method for the same are provided to minimize an interruption of a service by quickly switching to other LAN port when a LAN port encounters an obstacle. CONSTITUTION: A real time operation system server(100) operates in a real time operation system. A central server(200) provides a service according to a LAN environment to the real time operation system server(100). The real time operation system server(100) includes a plurality of ports(110,120) for a LAN connection. A plurality of hubs(310,320) connect a plurality of ports(110,120) of the real time operation system server(100) to the central server(200). A LAN operation task initializes and activates a LAN which is connected to the ports(110,120). A supervisor monitors a state of a double LAN connected to the ports(110,120) and switches the LAN during transmitting data.

Description

Multiple LAN structure and switching method in network system

The present invention relates to a method for enhancing the stability of a LAN (local area network) environment of a network system, and in particular, by connecting multiple LANs and switching appropriately, it is possible to implement a LAN environment stably without interruption of services even in a real-time operating system. The present invention relates to a multiple LAN structure and a LAN switching method of a network system.

Conventionally, LAN is connected through two lines for stability of a system through a LAN in a real-time operating system environment, so that one LAN can be continuously serviced using the other LAN when service is unavailable due to a failure. It was.

Conventional LAN duplex has a dual LAN structure according to the active (standby) method, as shown in FIG.

1 is a block diagram showing a conventional LAN duplex structure.

Referring to FIG. 1, a real-time operating system server 10 operated by a real-time operating system is dually connected to a central server 20 through one hub 30.

That is, port 1 (11) of the real-time operating system server 10 and port 3 (21) of the central server 20 are connected through the hub 30 ((a), (b)), the real-time operating system server ( Port 2 (12) of 10) and port 4 (22) of the central server 20 are connected to the hub 30 as described above ((c), (d)).

In the redundant LAN structure configured as described above, one of the two lines operates and the other line waits.

That is, any one of a line (a) connecting the port 1 (11) and the hub 30 and a line (b) connecting the port 2 (12) and the hub operates and the other is in a standby state. In the same manner, the line (c) connected to the hub (30) and the port 3 (21), and the line (d) connected to the hub (31) and the port 4 (22) operate one of the other and the other. One works by waiting.

For example, if lines (a) and (d) of the solid line portion are operated as shown in Fig. 1, the lines (b) and (c) represented by the remaining dashed lines are in a standby state, and if the line If (a) fails and the connection is lost, line (b) is activated to continue the LAN service.

However, in the conventional LAN duplex structure, since two LAN lines share one hub, a lot of time is required for LAN switching when a LAN port fails and a connection is changed to another LAN port. Since it is connected to the hub, it takes a long time to recover because all existing network connections must be re-established according to the change of the connection port, and if the hub fails, both lines cannot be used and service may be interrupted.

In order to solve the problems as described above, the present invention provides a conventional redundant LAN structure in which one hub is connected to one hub and when one line is in operation, the other line is independent of each hub in multiple LANs. Multi-LAN structure of network system that allows multiple LANs to operate and multiple LANs use the same IP port address so as to quickly switch to another LAN port to minimize service interruption in case of LAN port failure. The purpose is to provide a LAN switching method.

1 is a block diagram showing a conventional LAN redundancy structure.

2 is a block diagram illustrating a LAN redundancy structure operating as a dual act in a multiple LAN structure of a network system according to an embodiment of the present invention.

FIG. 3 is a block diagram illustrating an internal configuration of a real-time operating system server of a LAN redundancy structure operating in FIG. 2.

4 is a flowchart illustrating a signal flow according to an operation sequence of a LAN switching method operating in dual act according to FIGS. 2 and 3.

<Brief description of the main parts of the drawings>

10, 100: real-time operating system server 20, 200: central server

30, 310, 320: Hub 101: Supervisor

102: LAN operation task 103: Application Layer

11, 12, 110, 120: ports 1, 2, 10, 20

21, 22, 210, 220: ports 3, 4, 30, 40

The multi-LAN structure of the real-time operating system according to the present invention,

A real-time operating system server running on a real-time operating system,

A central server providing a service according to a LAN environment to the real-time operating system;

A plurality of ports for LAN connection included in the real-time operating system server;

And a plurality of hubs connected one by one for each port to connect the multiple ports of the real-time operating system server and the central server.

Preferably, the real-time operating system server,

A plurality of ports for respectively connecting multiple LANs;

A LAN operation task generated at boot time to initialize and activate multiple LANs connected to the multiple ports;

And a supervisor for checking a plurality of LAN states connected to the multiple ports and controlling LAN switching.

In addition, the LAN switching method of the network system according to the present invention,

Generating a LAN operation task as the real-time operating system server is started, the LAN operation task initializing a LAN operation connected to multiple ports, and activating a LAN connected to each port;

Selecting a random LAN from among the plurality of activated LANs to check a link state and perform a ping test with a central server;

If the link state and the ping test pass are normal, attempting to transmit data to a central server via the random LAN;

While attempting to transmit data to the random LAN, the supervisor checks the random LAN status, and if a certain number of errors occur, change the routing information setting to another LAN to transfer the LAN to transmit data, And continually enabling data transmission.

Preferably, the data received by the real-time operating system server is characterized in that it is received through the plurality of LANs.

Referring to the accompanying drawings, a LAN structure and a switching method of a dual LAN structure and a LAN switching method of a network system according to the present invention configured as described above will be described below.

2 is a block diagram illustrating a LAN redundancy structure operating as a dual act in a multiple LAN structure of a network system according to an exemplary embodiment of the present invention.

Referring to FIG. 2, a hub 1 for connecting each LAN line to an external server in order to dually connect a real-time operating system server 100 operating as a real-time operating system and the real-time operating system server 100 and an external server, 2 (310, 320), and the hub 1, 2 (310, 320) comprises a central server 200 connected to the real-time operating system server 100 and the LAN environment.

In this case, the real-time operating system server 100 and the central server 200 has two ports, respectively, the real-time operating system server 100 has a port 10, a port 20 (110, 120), the central server 200 Port 30, port 40 (210, 220).

The port is connected to port 10 (110) and hub 1 (310), and hub 1 (310) and port 30 (210) are connected (c) to form a LAN environment, and port 20 (120) And hub 2 (320) are connected (b), hub 2 (320) and port 40 (220) is connected (d) to form a single LAN environment to form a dual LAN environment.

In the dual LAN structure connected as described above, the real-time operating system server 100 has the following configuration to monitor and switch each LAN environment connected to the two ports 10 and 20 (110, 120) internally. It works.

FIG. 3 is a block diagram illustrating an internal configuration of a real-time operating system server of a LAN redundancy structure operating in FIG. 2.

Referring to FIG. 3, the real-time operating system server 100 is a LAN operation task 102 for initializing and activating a LAN that is generated at system boot and connected to the ports 10 and 20 (110 and 120) and the port 10. And a supervisor 101 for monitoring the state of the dual LAN connected to the 20 (110, 120) to perform the LAN switching operation during data transmission.

The real-time operating system server 100 configured as described above generates the LAN operation task 102 when the system is booted internally, initializes the LAN connected to the ports 10, 20 (110, 120), and activates each of the data. Receiving is possible through both LANs. When data is transmitted, one of the two LANs is selected to transmit the data, and if the supervisor 101 checks the LAN status and there is an error, it switches to another LAN. This allows the data transmission to continue without interruption.

4 is a flowchart illustrating a signal flow according to an operation sequence of a LAN switching method operating in dual acts according to FIGS. 2 and 3.

Referring to FIG. 4, when the real-time operating system server 100 is initially started, a LAN operation task 102 is generated (S101) to initialize and activate a LAN connected to the port 10 110 and the port 20 120. (S102). At this time, the initialization and activation process goes through the process of attaching the port to the TCP / IP stack.

After initialization and activation of the LAN connected to the two ports 10 and 20 (110 and 120), the supervisor 101 sets routing information for the LAN line connected to the port 10 110 and checks the LAN environment. (S103).

As a result of the environmental check, if the LAN connected to the port 10 110 operates normally, the real-time operating system server 100 transmits data to the external central server 200 through the port 10 110.

However, if the LAN connected to the port 10 (110) does not operate normally as a result of the environmental check, the supervisor 101 changes the routing information to the LAN connected to the port 20 (120), and sets the LAN environment. Will be

When the port 10 110 operates normally and the real-time operating system server 100 operates, the supervisor 101 periodically monitors the LAN environment connected to the port 10 110 to check whether an error occurs. Data is transmitted to the external central server 200 through the port 10 (110) where the routing information is set (S105), and data can be received from both ports 10 and 20 (110, 120) (S106). .

The supervisor during the process of transmitting data to the central server 200 through the port 10 (110), and receiving data from the central server 200 through the ports 10, 20 (110, 120) as described above ( 101 continuously checks the port 10 (110) periodically to check for errors, and if a certain number of errors continues, it is determined that a failure has occurred in the LAN connected to the port 10 (110) (S107). In the embodiment of the present invention, when the error occurs five times consecutively, the LAN failure is determined as a reference.

Therefore, if an error occurs five times consecutively, the supervisor 101 determines that the LAN connected to the port 10 110 has failed, and changes routing information to the LAN connected to the port 20 120, and the LAN environment. Check and perform the process of switching (S108).

Since the LAN environment connected to the port 10 110 and the port 20 120 is configured to use the same IP address as the upper level, the real-time operating system server 100 sends data to the central server through the port 10 110. 200, even if it is transmitting, the data can be continuously transmitted to the central server 200 through the port 20 (120) without interruption (S109), if the data reception is also restored to the port 10 (110), two ports All can be received from (S110).

By repeating the above-described operation, the real-time operating system server 100 may use a stable LAN environment in data reception and transmission, and in addition to the embodiments of the present invention, a more stable LAN environment may be constructed. Can be.

As described above, in the multiple LAN structure and LAN switching method of the network system according to the present invention, in a conventional dual LAN structure, a single LAN is connected to each other by using a single hub, and another LAN is operated while the other LAN is in operation. It is necessary to keep one LAN in a standby state and to configure a hub for each LAN independently of the fact that it was difficult to use continuous services due to a lot of time and effort due to the need to restart the initial initialization operation when the LAN was switched. When all LANs are operated at system startup, data can be received from multiple LANs, and data transmission can be arbitrarily selected by one LAN. It is possible to secure the stability of the LAN environment by transferring the data continuously. .

Claims (4)

A real-time operating system server running on a real-time operating system, A central server providing a service according to a LAN environment to the real-time operating system; A plurality of ports for LAN connection included in the real-time operating system server; And a plurality of hubs connected one by one for each port to connect the plurality of ports of the real-time operating system server and the central server. The method of claim 1, wherein the real-time operating system server, A plurality of ports for respectively connecting multiple LANs; A LAN operation task generated at boot time to initialize and activate multiple LANs connected to the multiple ports; And a supervisor for checking a plurality of LAN states connected to the multiple ports and controlling LAN switching. Generating a LAN operation task as the real-time operating system server is started, the LAN operation task initializing a LAN operation connected to multiple ports, and activating a LAN connected to each port; Selecting a random LAN from among the plurality of activated LANs to check a link state and perform a ping test with a central server; If the link state and the ping test pass are normal, attempting to transmit data to a central server via the random LAN; While attempting to transmit data to the random LAN, the supervisor checks the random LAN status, and if an error occurs a predetermined number of times, change the routing information setting to another LAN to transfer the LAN to transmit data. And continually enabling data transmission. 4. The method of claim 3, wherein the data received by the real-time operating system server is received through the plurality of LANs.