JPH0991233A - Network connection device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To attain the autonomous switching of network connection devices at occurrence of a fault by storing previously the address of a working network in an address information memory when the working network functions as a standby network. SOLUTION: An address acquisition circuit 160 of a network connection device 100 of the standby side acquires the network address from the network connection device of the working side and stores the acquired address in an address information memory 150. A check circuit 140 of the working side has communication with the working network connection device and then decides a fault of the working network connection device as long as no answer is received to the communication. An address replacement circuit 130 replaces the network address of the device 100 stored in memory 150 with that of the working network connection device. Then a device control circuit 120 establishes the communication connection with a general-purpose computer 300 via a general-purpose computer interface 110.

Description

Detailed Description of the Invention

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a network connection device, and more particularly to a network connection device for connecting a local area network and a general-purpose computer.

[0001]

2. Description of the Related Art Conventionally, in this type of technology, when a failure occurs in a duplicated network connection device, the address of the network connection device that has been operating until the failure occurs, with respect to the newly operating network connection device. Is set by an instruction from a general-purpose computer.

For example, Japanese Patent Laid-Open No. 5-210607 discloses a local area network (LA) which receives an address together with an operation command from a general-purpose computer, sets the address by this, and sets an operating bit.
N) The technology of the connection device is described.

[0003]

In the above-mentioned prior art,
Since the address given by the general-purpose computer is used when switching the network connection device, normal switching can be performed when a failure occurs in the interface on the general-purpose computer side or an operating system malfunction occurs. You may not be able to.

An object of the present invention is to autonomously switch the address of a standby network connecting device by reassigning an address when a failure occurs in the operating network connecting device.

[0005]

In order to solve the above-mentioned problems, a network connection device of the present invention connects a network and a computer, and stores a network address of an operating system side in an address information memory when operating as a standby system. It is stored, and when a failure occurs on the active system side, the network address of the active system side is used to switch to the active system.

Another network connection device of the present invention is, in a network connection device for connecting a network and a computer, an operation system check circuit for checking whether or not the communication function of the operation system side is normal, and a standby system side. And an address information memory for storing the network address of the operating system side, and a network address of the standby system side stored in the address information memory when a failure on the operating system side is detected by the operating system check circuit when operating as a standby system And an address reassigning circuit for reassigning the network address on the operating system side.

Another network connection device of the present invention further comprises an address information acquisition circuit for acquiring an address list managed by the active system side via the network and storing it in an address information memory when operating as a standby system. Including.

[0008] In another network connection device of the present invention, the network address uses a medium access control address.

In another network connection device of the present invention, when the operation system check circuit operates as a standby system, it checks by echo reply communication whether or not the communication function on the operation system side is normal.

Another network connection device of the present invention controls a general-purpose computer interface with a general-purpose computer in a duplex system including an active-system network connection device connecting a general-purpose computer to a local area network, and the general-purpose computer. Control means for controlling the operation start as a network connection device by receiving a connection command through the interface and controlling communication connection of the local area network interface, and the standby network connection device with the local area network side of the operation network connection device. Whether or not communication with a general-purpose computer can be performed is periodically performed from the standby network connection device to the host via the local area network using the Internet control message protocol packet. A means to check the system and the standby network connection device issues an address list acquisition request to the active network connection device, the active network connection device passes the address list to the standby network connection device, and the standby network connection device operates. Means for acquiring the address list of the network connection device,
A means for storing the address list acquired by the acquisition means, a network interface control means for controlling and activating and deactivating the network interface, and a means for replacing the network address of the standby network connection device with the network address of the operating system. Including and

[0011]

BEST MODE FOR CARRYING OUT THE INVENTION Next, an embodiment of a network connection device of the present invention will be described in detail with reference to the drawings.

Referring to FIG. 1, network connection devices 100 and 200 according to an embodiment of the present invention are arranged between a local area network 400 and a general-purpose computer 300. Network connection devices 100 and 200
One of them becomes an active system and the other becomes a standby system.
As for the physical configuration, the network connection devices 100 and 200 are equivalent, and their functions differ depending on whether they are operating as an active system or a standby system. Also, terminals 510 and 520 can be connected to the local area network 400. Since these terminals have a communication protocol processing function, no network connection device is required.

Referring to FIG. 2, the network connection device 100 includes a general-purpose computer interface 110 for exchanging data with the general-purpose computer 300, and a network interface 180 for exchanging data with the local area network 400. A device control circuit 120 that controls the network connection device 100 as a whole to control the general-purpose computer interface 110 and the network interface 180; an address replacement circuit 130 that replaces an active network address and a standby network address; Operating system check circuit 140 for checking whether the network connection device on the operating system side is operating normally when operating as
And an address information memory 150 that stores the network address of its own device, the network address of the other network connection device, and the network addresses of terminals connected on the local area network 400 (hereinafter, these are collectively referred to as “address list”). And the address that acquires the network address from the network connection device on the active system side when operating as the standby system, and sends the network address to the network connection device on the standby system side when operating as the active system The information acquisition circuit 160 and the network interface control circuit 170 that controls the network interface 180 are included.

Here, the network address is an address for uniquely identifying the local area network 400 or another network connected thereto. Specifically, an internet protocol (IP) address, a medium access control (MAC) address, etc. are used. In particular, the MAC address is given to a physical device as a device-specific address, but in the present invention, this is forcibly replaced.

The device control circuit 120 establishes a communication connection with the general-purpose computer 300 via the general-purpose computer interface 110 to establish a connection. Further, the device control circuit 120 has a down flag indicating that the network interface 180 is disconnected and a reset prohibition flag indicating that resetting of the network interface control circuit 170 should be prohibited.

The active system check circuit 140, when operating as a standby system, checks the communication function by communicating with the partner network connection device of the active system and checking whether there is a response. To do. The active system check circuit 140 has a failure occurrence flag and sets this failure occurrence flag when a communication function failure occurs in the active system when operating as a standby system. Further, the active system check circuit 140 has an active system flag, which is set when operating as an active system and reset when operating as a standby system.

The address information memory 150 stores the network address of the active network connecting device, the network address of the standby network connecting device, and the network address of the terminal connected on the local area network 400 in different areas. To do.

When the address replacement circuit 130 confirms that both the failure occurrence flag and the down flag are set, it replaces the operating system address information and the standby system address information stored in the address information memory 150.
The address replacement circuit 130 has a replacement end flag, and sets this flag when the network address replacement is completed. This flag is reset by being confirmed by the device control circuit 120.

The address information acquisition circuit 160 acquires an address list from the network connection device on the active side when operating as a standby system, and connects to the network on the standby system side when operating as an active system. Send address list to device. Transmission / acquisition of this address list is performed directly through the local area network 400, not through the general-purpose computer 300. As a result, the network connection device is autonomously switched without depending on the presence / absence of a failure on the side of the general-purpose computer 300.

Although the network connection device 100 has been described here, the network connection device 200 also has the same physical configuration. In the following, the reference numeral 210 of the general-purpose computer interface in the network connection device 200 is referred to and used as that of the network connection device 100.

Next, the operation of the above-described embodiment of the network connection apparatus of the present invention will be described.

Here, in the initial state, the network connection device 100 is set as a standby system, and the network connection device 2
It is assumed that the system is set so that 00 is the active system. Specifically, it is assumed that the operation system flag of the operation system check circuit 240 is set and the operation system flag of the operation system check circuit 140 is reset. Further, it is assumed that each network connection device stores each other's network address in advance in the address information memory.

When the system starts up, the general-purpose computer 30
0 requests the network connection devices 100 and 200 to establish a communication connection. Since the network connection device 200 operates as an active system, the device control circuit 220 opens a communication connection in response to a connection request for a communication connection, and responds to the effect that "the general-purpose computer interface is operating". On the other hand, since the network connection device 100 is operating as a standby system, the device control circuit 120 responds to the connection request of the communication connection by saying "the general-purpose computer interface is suspended", and the communication connection is opened. Absent.

The general-purpose computer 300 starts communication via the network connection device 200 that responded "in operation". On the other hand, with respect to the network connection device 100 that has responded “stopped”, when a failure occurs in the network connection device 200 and a communication timeout of the general-purpose computer interface occurs, a new connection of the communication connection is made as described later. To request.

Further, the standby network connection device 100
The operating system check circuit 140 uses the network address of the operating network connecting device 200 that has already been registered, and sets the network address of the terminal on the local area network 400 to the operating network connecting device 200 at regular time intervals. Request each time. The active network connection device 200 constantly acquires the network address of the terminal on the local area network 400. The standby system network connection device 100 is prepared for a case where switching occurs by acquiring the network address of each terminal from the operation system network connection device 200 as described above.

Next, an operation procedure when a failure occurs and switching of the network connection device occurs will be described.

In the standby system network connection device 100, the operation system check circuit 140 communicates with the operation system network connection device 200 and checks whether or not a response is returned (step S501). Communication for this check is called echo reply communication. When there is no response to the echo reply communication, the operation system check circuit 140 performs the echo reply communication again after a certain period of time. If there is still no response (step S
502), in order to confirm that it is not a failure of its own device,
Echo reply communication is performed with respect to the other terminals 510 and 520 (step S503). As a result, if there is a normal response from another terminal, the operational network connection device 200
If a failure has occurred in the operating system check circuit 14
After setting the failure occurrence flag to 0, the following switching operation is performed. If there is no normal response from the other terminal, it is determined that there is a failure in the standby network connection device 100 itself, and the processing is stopped (step S504).

On the other hand, the operational network connection device 200
2, the device control circuit 220 periodically monitors the network interface control circuit 270 to determine whether or not a frame interrupt has occurred. By this frame interrupt, the network interface control circuit 2
At 70, it is determined whether or not any frame is received, and if no frame is received within a certain period, it can be determined that some failure has occurred in the communication function. If the frame reception interrupt does not occur within a predetermined period, the device control circuit 220 sets the reset prohibition flag so that the network interface control circuit 270 is not reset, and then the operation system is restored to restore the communication function. Network connection device 20
Reset 0. If the communication function is not restored even after this reset is repeated a prescribed number of times, the device control circuit 220
Instructs the network interface control circuit 270 to bring down the network interface 280. Therefore, in this state, even if the above-mentioned echo reply communication is performed with respect to the active network connection device 200, a normal response will not be given.

When it is determined that a failure has occurred in the active network connection device 200, the network interface control circuit 170 brings down the network interface 180 (step S505). At this time, the device control circuit 120 sets the down flag. When it is confirmed that both the failure occurrence flag and the down flag are set, the address reassignment circuit 130 causes the network address of the standby network connection device 100 and the network of the operation network connection device 200 stored in the address information memory 150. The address is changed (step S506). The address replacement circuit 130 sets a replacement end flag when the network address replacement is completed. When the device control circuit 120 confirms that the replacement end flag is set, it sets the operation system flag of the operation system check circuit 140 (step S50).
7) Instruct the network interface control circuit 270 to activate the network interface 280 (step S508). Then, the device control circuit 120
Establishes a communication connection with the general-purpose computer 300 via the general-purpose computer interface 110 (step S5).
09). As a result, the network connection device 100 starts operating as an active system.

As described above, according to the network connection device of the embodiment of the present invention, when a failure occurs in the active network connection device 200, the address reassignment circuit 130 of the standby network connection device 100 causes the address information to be transferred. By changing the network addresses of the active system and the standby system in the memory 150, it is possible to autonomously switch the network connection device without using the general-purpose computer 300.

[0031]

As is apparent from the above description, according to the present invention, a general-purpose computer can be configured by automatically disconnecting a faulty active network connection device and replacing the active and standby network addresses. It is possible to autonomously switch network connection devices without intervention.

[Brief description of drawings]

FIG. 1 is a block diagram showing a configuration of an embodiment of a system including a network connection device of the present invention.

FIG. 2 is a block diagram showing a configuration of an embodiment of a network connection device of the present invention.

FIG. 3 is a diagram showing an operation of a network connection device according to an embodiment of the present invention.

[Explanation of symbols]

 100,200 Network connection device 110,210 General purpose computer interface 120,220 Device control circuit 130,230 Address replacement circuit 140,240 Operation system check circuit 150,250 Address information memory 160,260 Address information acquisition circuit 170,270 Network interface Control circuit 180,280 Network interface 300 General-purpose computer 400 Local area network 510,520 Terminal

Claims (5)

[Claims] 1. When a network is connected to a computer and the system operates as a standby system, the network address of the operating system is stored in the address information memory, and when a failure occurs on the operating system side, the network of the operating system side is stored. A network connection device characterized by switching to an active system using an address. 2. In a network connection device for connecting a network and a computer, an operation system check circuit for checking whether the communication function on the operation system side is normal, and a network address for the standby system side and the operation side are provided. Address information memory to be stored, and when operating system check circuit detects a failure on the operating system side when operating as a standby system, the network address of the standby system and the network address of the operating system stored in the address information memory A network connection device comprising: an address replacement circuit that replaces the address. 3. An address information acquisition circuit for acquiring an address list managed on the operating system side through the network and storing the address list in an address information memory when operating as a standby system. 2. The network connection device according to 2. 4. The network connection device according to claim 3, wherein the network address is a medium access control address. 5. The network connection according to claim 4, wherein the operating system check circuit checks whether or not the communication function on the operating system side is normal by echo reply communication when operating as a standby system. apparatus.