JP2504366B2 - Fault tolerant system - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fault-tolerant system having dual line adapters.

[0002]

2. Description of the Related Art Local Area Network (LAN)
A fault-tolerant system connected to a communication line such as Eq. In a conventional fault-tolerant system of this type (for example, JP-A-1-123545), when a failure occurs in one of the adapters, the other adapter is switched and the operation can be continued. In this switching operation, for example, different addresses are set under the control of the operating system of the fault-tolerant system. This is done by replacing the addresses of these line adapters. As a result, other various devices connected to the communication line do not need to be aware of the switching of the adapter.

[0003]

The above-mentioned conventional fault-tolerant system has a drawback in that the operating system requires complicated switching processing and the overhead increases.

It is an object of the present invention to eliminate the above mentioned drawbacks and to provide a fault tolerant system which does not burden the operating system.

[0005]

A fault-tolerant system of the present invention is a fault-tolerant system having a central processing unit for performing communication via a communication line, wherein first and second line adapters connected to the communication line. And an input / output processor connected to the central processing unit and the first and second line adapters, wherein the input / output processor includes address storage means for storing address information, and the first line adapter. A first process of setting the address information stored in the address storage means, a second process of logically incorporating the first line adapter into the system, and a logical process of incorporating the logical line into the system. When a failure occurs in the first line adapter, the first line adapter is logically disconnected from the system, and the second line adapter is A third process for fetching and setting the same address information as the address information set in the first line adapter from the address storage means, and the second line in which the address information is set in the third process. Switching means for performing a fourth process for logically incorporating the adapter into the system.

Another fault-tolerant system of the present invention is a fault-tolerant system which has a central processing unit and is carried out via a communication line, wherein first and second line adapters connected to the communication line and the central processing unit. An apparatus and an input / output processor connected to the first and second line adapters, wherein the input / output processor includes address storage means for storing address information, and the first and second line adapters. A first process of setting the same address information stored in the address storage means, a second process of logically incorporating the first line adapter into the system, and a logically incorporated first process. When the first line adapter fails, the first line adapter is logically disconnected from the system, and the second line adapter is connected to the system. And a switching means for performing a third process incorporating logically to Temu.

[0007]

The present invention will be described in detail with reference to the drawings.

FIG. 1 is a block diagram showing an embodiment of the present invention.

Referring to FIG. 1, in this embodiment, a fault-tolerant system 1 including a central processing unit (not shown), a LAN path 2 forming a communication network, and N workstations 3-1 to 3-1. It is composed of 3-N.

The fault tolerance system 1 comprises an input / output processor 10 and LAN adapters 20 and 30. One of the LAN adapters 20 and 30
While the AN adapter is in operation, the other LAN adapter
Standing logically disconnected from the system in preparation for being used in place of the failed LAN adapter if the working LAN adapter is logically disconnected from the system due to a failure . Further, the input / output processor 10 has an address storage means 11 and a LAN adapter monitoring switching means 12. The address storage unit 11 holds in advance a LAN address shared by the LAN adapters 20 and 30. The LAN address is a unique address that each of the systems transmitting / receiving data via the LAN path 2 has for transmitting / receiving data.

FIG. 2 is a flow chart showing the processing in the first embodiment of the LAN adapter monitoring switching means 12 shown in FIG.

Referring to FIG. 2, L according to the first embodiment
The processing of the AN adapter monitoring switching means 12 is the operation LA
N adapter address setting step B1, working LAN adapter incorporation step B2, working LAN adapter monitoring step B3, failure detection step B4, failure LA
It comprises an N adapter disconnection step B5, a standby LAN adapter address setting step B6, and a standby LAN adapter incorporation step B7.

Next, the operation of the first embodiment will be described with reference to FIGS.

Now, the fault tolerant system 1 has a LAN path 2
Data is transmitted to and received from the workstations 3-1 to 3-N via the. At this time, in the fault-tolerant system 1, the LAN adapter 20 is operating, and the LAN adapter 30 is separated from the system and is on standby.

First, prior to transmission / reception of data, the LAN
The LAN adapter monitoring switching means 12 in the input / output processor 10 above the adapters 20 and 30 is the LA
A LAN address previously stored in the address storage means 11 is set in the N adapter 20 (step A1).

Next, the LA which has finished setting the LAN address
The N adapter 20 is logically incorporated into the system (step A2). As a result, the fault-tolerant system 1 can transmit / receive data to / from the workstations 3-1 to 3-N via the LAN adapter 20.

While this LAN adapter 20 is in operation, L
The AN adapter monitoring switching means 12 is a LAN in operation.
The adapter 20 is monitored (step A3). Then, the switching means 12 continues the monitoring as long as the LAN adapter 20 has not failed (steps A3 and A4).

After that, if the LAN adapter 20 fails for some reason, the workstations 3-1 to 3-3-
If you cannot continue sending and receiving data with N,
The LAN adapter monitor switching means 12 logically disconnects the LAN adapter 20 from the system (step A).
5).

Next, the LAN adapter 30 currently on standby
Then, the same LAN address used by the LAN adapter 20 and held in the address storage means 11 is set (step A6), and the LAN adapter 30 is logically incorporated into the system (step A7). As a result, the fault-tolerant system 1 can transmit / receive data to / from the workstations 3-1 to 3-N via the LAN adapter 30.

After that, the LAN adapter monitor switching means 12 monitors the LAN adapter 30 which is in operation as in the case of the LAN adapter 20 (step A).
3). Subsequent processing is exactly the same as the above-described processing when the LAN adapter 20 is in operation.

Therefore, if the LAN adapter 20 is repaired or replaced before the LAN adapter 30 fails, even if the LAN adapter 30 fails, this time it will be repaired or new. The LAN adapter 20 is switched to, and data transmission / reception with the workstations 3-1 to 3-N is continued.

Next, LAN adapter monitoring switching means 1
A second embodiment of No. 2 will be described.

Referring to FIG. 3, the processing of the switching means 12 according to the second embodiment is performed by a LAN adapter address setting step B1, an operating LAN adapter incorporating step B2, an operating LAN adapter monitoring step B3, and a failure detecting step. B4, step B5 for disconnecting the faulty LAN adapter, and step B6 for incorporating the standby LAN adapter
Consists of

The second embodiment is different from the first embodiment in that both LAN adapters 20 and 30 are LAN-enabled beforehand.
The difference is that the address is set.

The operation of the second embodiment will be described with reference to FIGS.

As in the first embodiment, the fault-tolerant system 1 is now connected to the workstation 3-through the LAN path 2.
It is assumed that data is transmitted / received to / from 1 to 3-N.

At this time, in the fault tolerance system 1, the LA
N adapter 20 is operating, LAN adapter 30
Is logically disconnected from the system and is waiting.

First, prior to data transmission / reception, the LAN
The LAN adapter monitoring switching means 12 in the input / output processor 10 above the adapters 20 and 30 is the LA
The same LAN address held in the address storage means 11 is set in both the N adapter 20 and the LAN adapter 30 (step B1).

Next, the LA which has finished setting the LAN address
LAN adapter 20 of the N adapters 20 and 30
Only logically into the system (step 20).
2). As a result, the fault-tolerant system 1 can transmit / receive data to / from the workstations 3-1 to 3-N via the LAN adapter 20.

While this LAN adapter 20 is in operation, L
The AN adapter monitoring switching means 12 is a LAN in operation.
The adapter 20 is monitored (step B3). Then, the switching means 12 connects the monitor unless a failure occurs in the LAN adapter 20 (steps B3 and B4).

Then, if the LAN adapter 20 fails for some reason, the workstations 3-1 to 3-3-
If you cannot continue sending and receiving data with N,
The LAN adapter monitoring switching means 12 is logically separated from the system of the LAN adapter 20 (step B5).
Then, the LAN adapter 30 is logically incorporated into the system (step B6). As a result, the fault tolerance system 1 is L
Workstations 3-1 to 3-1 via the AN adapter 30
It becomes possible to send and receive data to and from 3-N.

After that, the LAN adapter monitor switching means 12 monitors the LAN adapter 30 which is in operation, as in the case of the LAN adapter 20 (step B).
3). Subsequent processing is exactly the same as the above-described processing when the LAN adapter 20 is in operation.

Therefore, if the LAN adapter 20 is repaired or replaced before the LAN adapter 30 fails, even if the LAN adapter 30 fails, the repaired or new LAN is now available. The data is exchanged with the workstations 3-1 to 3-N by switching to the adapter 20.

With the above procedure, it is possible to switch between the LAN adapter 20 and the LAN adapter 30.

[0035]

As described above, according to the present invention,
By providing the input / output processor with the LAN adapter switching means, not only does the workstation or the like that transmits / receives data to / from the fault-tolerant system via the LAN path not need a function conscious of LAN adapter switching, but also the fault-tolerant system Even its own operating system does not require complicated processing in consideration of switching LAN adapters, and it is possible to easily construct a highly reliable system.

[Brief description of drawings]

FIG. 1 is a block diagram showing one embodiment of the present invention.

FIG. 2 is a flow chart showing the operation of the LAN adapter monitoring switching means in the first embodiment.

FIG. 3 is a flow chart showing the operation of the LAN adapter monitoring switching means in the second embodiment.

[Explanation of symbols]

 1 Fault Tolerant System 2 LAN Path 3-1 to 3-N Workstation 10 Input / Output Processor 11 Address Storage Area 12 LAN Adapter Monitoring Switching Unit 20, 30 LAN Adapter

Claims (1)

(57) [Claims] 1. A fault-tolerant system having a central processing unit for communicating via a communication line, comprising: first and second line adapters connected to the communication line; the central processing unit; and the first and second line adapters. An input / output processor connected to a second line adapter is provided, wherein the input / output processor stores an address storage unit storing address information shared by the first and second line adapters, and the address storage unit. The same ad that has been
Reply information to both the first and second line adapters
A first process that is preset, a second process that logically incorporates the first line adapter into the system, and a first process that occurs when a failure occurs in the logically incorporated first line adapter. One line adapter is logically disconnected from the system and the second line adapter is
A fault-tolerant system including: a switching unit that executes a third process logically incorporated in the system.