JPH01195544A - Monitor system for breakdown of duplex system - Google Patents

Abstract

PURPOSE:To improve the system switching reliability in a duplex hot stand-by system by using a working state storing means and a working/stand-by health check means. CONSTITUTION:When a using system (0) has the breakdown, a stand-by system health check means 13 is unable to acquire an answer from a working system health check means 2 against a due request. Then a working state file 6 is read and the contents of the file 6 are stored in a remote side working state memory part 14. Then the means 13 reads again the file 6 after a fixed time and the contents of the file 6 are collated with the contents stored in the part 14. When the coincidence is obtained between both contents, the means 13 decides the breakdown of the using system of the remote side and then carries out a system switching process.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a method for monitoring downtime of a duplex configuration system, and more particularly to a system for monitoring downtime of a duplex configuration system in a duplex configuration hot standby system.

[Conventional technology]

For computer systems that require reliability, such as computer systems used in financial institutions, etc., computer systems with redundant configurations such as duplex configurations are adopted to enable proper recovery in the event of a failure. has been done.

A hot standby system with a duplex configuration, which is one of such computer systems, is composed of two systems called an active system and a standby system. Here, the active system is the system that actually performs the processing, and the standby system is the system that monitors the active system and automatically switches over to the active system and takes over the processing when the active system goes down (the system that goes into the real standby state). some type)
It is.

Conventionally, in the down monitoring method of this type of duplex configuration system (hot standby system with deplex configuration), a transmission means between the two systems is used to communicate from one system (standby system) to the other system (active system). If monitoring was performed and there was no response from the other system for a certain period of time, one system would determine that the other system was down (based on this determination, the standby system of one system would (Switching to the active system was in progress).

[Problem to be solved by the invention]

In the conventional down monitoring method for duplex configuration systems described above, one system uses transmission means to monitor the other system, and if there is no response from the other system for a certain period of time, it is detected that the other system is down. Since a judgment is made to recognize this on one system, if a failure occurs in the transmission means and the response from the other system is no longer transmitted, one system will fail even though the other system is not actually down. The disadvantage is that depending on the system, the opponent's system is judged to be down.

In view of the above points, it is an object of the present invention to prevent a situation in which one system determines that the other system is down even though the other system is not actually down, and to prevent one system from determining that the other system is down. It is an object of the present invention to provide a down monitoring method for a duplex configuration system in which system down monitoring can be appropriately performed.

[Means to solve the problem]

The down monitoring method for a duplex configuration system of the present invention includes a transmission means for transmitting response requests and responses between the active system and the standby system, an operating status storage means for storing the operating status of the active system, and a an active system within the active system that uses the transmission means to send a response back to the standby system in response to a response request from the active system, and updates and stores the operating status of the active system in the operating status storage means at regular time intervals; When a response request is output to the active system using the health check means and the transmission means, and a response to the response request cannot be obtained from the active system, the operating status is determined after the response cannot be obtained. and standby system health check means in the standby system for determining whether or not the active system is in operation based on checking whether the contents of the storage means have been updated.

[Effect]

In the down monitoring method of the duplex configuration system of the present invention, the transmission means transmits response requests and responses between the active system and the standby system, and the operating status storage means stores the operating status of the active system, and In response to a response request from the standby system, the active system health check means sends a response back to the standby system using the transmission means, and updates the operating status of the active system in the operating status storage means at regular time intervals. The standby system health check means in the standby system uses the transmission i stage to output a response request to the active system, and if a response cannot be obtained from the active system to the response request (if It is determined whether or not the active system is in operation based on checking whether the contents of the operating status storage means have been updated since the system became inoperable.

〔Example〕

Next, the present invention will be explained with reference to the drawings.

FIG. 1 is a block diagram showing the configuration of an embodiment of the down monitoring method of the duplex configuration system of the present invention.
The down monitoring method of the duplex configuration system of this embodiment is C20 (Central Processing
g Unit) 0 system 1, disk device 0 system 5, display device 0 system 7, transmission means lO, CPUI system 11, disk! Jt! The system includes a fl system 15 and a display device 1 system 17.

The CPUO system 1 includes an active system health check means 2 and a standby system health check means 3 having a counterpart operation status storage section 4 .

The disk device 0 system 5 is configured to include an operating status storage file 6 that implements an operating status storage means.

The CPU 1 system 11 includes an active system health check means 12,
The system includes a standby health check means 13 having a partner operation status storage section 14.

The disk device I system 15 is configured to include an operating status storage file 16 that implements an operating status storage means.

Here, CPU0 system 1. One system (O system) of the duplex configuration system is composed of the disk device O system 5 and the display device 0 system 7, etc., and the CPU system 1
1. Other systems of the duplex configuration system (1
system) is configured.

In addition, both the disk device 0 system 5 and the disk device 1 system 15 are cross-called by the CPU 0 system 1 and the CP tJ 1 system 11 (also from the CPU O system 1).
It is also accessible from the I system 11).

Next, the operation of the down monitoring method of the duplex configuration system of this embodiment configured as described above will be explained. Note that here, when the θ system is the active system and the 1st system is the standby system (in this case, the O system uses the active system health check means 2 and the operating status storage file 6, and the standby system health check means 3 In the first system, the standby health check means 13 is used and the active health check means 12 and the operating status storage file 16 are not used.

First, we will explain the operation when both the active system (0 system) and standby system (l system) are operating normally (Second
(see figure).

First, the transmission means 10 is used to output a response request from the standby health check means 13 in the standby CPU system 11 to the active health check means 2 in the active CPU0 system 1.

Active system health check means 2 in active CPUO system 1
In response to a response request from the standby health check means 13, the transmission means 10 is used to send back a response.

The response requests from the above-mentioned standby health check means 13 are sent at fixed time intervals 1. (Therefore, the response from the active system health check means 2 is also repeated every t1).

Furthermore, the active system health check means 2 stores the operating status storage file 6 in the disk device 0 system 5 as the active system O.
The operating status of the system is fixed at a certain time interval t! written every time (
The operating status storage file 6 is updated every t2).

The standby system health check means 13 recognizes that the active system is operating normally because the responses from the active system health check means 2 are repeated normally, and switches the system (1
The output of a response request every 1+ is repeated without processing such as switching the system from the standby system to the active system.

Next, we will explain the operation when both the active system (O system) and standby system (1 system) are operating normally, but some kind of failure occurs in the transmission means IO at time T (
(See Figure 3).

In this case, in response to a response request from the standby health check means 13 in the standby CPUI system 11, the active CPU
Even though the active health check means 2 in the PU0 system 1 is returning a response, the standby health check means 1 is returned after time T1 due to a failure in the transmission means 10.
3 no longer receives a response.

The standby system health check means 13 continues to output the response request to the active system health check means 2, reads the operating status storage file 6 in the active system disk device 0 system 5, and checks whether the active system is down or not. It is determined whether a failure has occurred in 10.

That is, when the standby health check means 13 is unable to obtain a response from the active health check means 2 in response to a response request (in the example shown in FIG. 3, a failure in the transmission means IO does not affect the transmission of the response request) Note that the same processing as in this example is performed even if the response request does not reach the active system due to a failure in the transmission means 10), the active system health check means 2 updates the active system every 1. The operation status storage file 6 in which the operation status of is written is read, and its contents (■ in FIG. 3) are stored in the other party's operation status storage section 14.

Furthermore, the standby system health check means 13 reads the operating status storage file 6 again after a certain period of time (more than t, and a reasonable value is set), and its contents (in FIG. (■) is compared with the contents (■) of the operating status storage file 6 at the time of the previous reading, which is stored in the other party's operating status storage unit 13.

As a result of this comparison, the contents of both systems do not match (since the active system is operating normally, the contents of the operating status storage file 6 have been updated from ■ to ■), so the standby system health check means 13 is determined to be in operation, and processing such as system switching is not performed (if necessary, a message indicating that a failure has occurred in the transmission means 10 is displayed on the active system display device ).

Finally, the operation when the active system (0 system) goes down at time T will be explained (see FIG. 4).

In this case, a response request is output from the standby system health check means 13 in the standby system CPU1 system ll to the active system health check means 2 in the active system CPU0 system 1, but the active system is down. Therefore, no response is returned from the active health check means 2 after time T2, and the operating status of the active system is written to the operating status storage file 6 in display device 0 system 5 after time T2. (Update of the operating status storage file 6) is not performed (the contents of the operating status storage file 6 after time T2 are not updated from Φ' in FIG. 4).

When the standby health check means 13 no longer receives a response from the active health check means 2 in response to the response request, the operating status storage file 6 is read and its contents (■') are saved in the other party's operating status storage unit 14. be done.

Furthermore, the standby system health check means 13 reads the operating status storage file 6 again after a certain period of time (time longer than tz), and saves its contents (■') and the other party's operating status storage unit 14. The content (■') of the operating status storage file 6 at the time of the previous reading is compared.

Since the contents of both match in this comparison, the standby health check means 13 determines that the other active system (system 0) is down, and the system switches the system from the standby system to the active system. means (not shown) that performs the switching processing from the standby health check means 13.
(If necessary, display device 1 of system 1
System 17 displays a message indicating that system 1 has been switched to the active system.)

Note that in the above explanation, we have described the case where the θ system is the active system and the 1 system is the standby system, but the same operation can be realized when the 1 system is the active system and the 0 system is the standby system. Needless to say, in this case, standby health check means 3. Opposite party operating status storage unit 4. The active system health check means 12 and the operation status storage file 16 are the standby system health check means 13° and the other party's operation status storage section 14 in the above explanation. It performs the same operations as the active system health check means 2 and the operating status storage file 6.

〔Effect of the invention〕

As explained above, the present invention provides an operating status storage means,
By providing an active system health check means and a standby system health check means, if a failure occurs in the transmission means and a response from the other system is no longer transmitted, even though the other system is not actually down. This prevents a situation in which one system is judged to be down, and allows one system to properly monitor the other system for failure (useless system switching does not occur and system switching is not reliable). This has the effect of improving transferability.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing the configuration of an embodiment of the present invention. FIG. 2 is a block diagram showing the configuration of an embodiment of the present invention. FIG.
Figure 3 is a diagram to explain the operation when the system (system 0) is operating normally.
Figure 4 is a diagram to explain the operation when the system (system) is operating normally and a failure occurs in the transmission means. FIG. 3 is a diagram for explaining the operation when the device goes down. In the figure, 1...CPU 0 system, 2.12. Active system health check means, 3.13. Standby system health check means, 4.14. Opposite operation status storage section, 5.. Disk device 0 system, 6. .16.Operating status storage file, 7..Display device O system, 10..Transmission means, 11..CPUI system, 15..Disk device 1 system, 17..Display device 1 system. .

Claims (1)

[Scope of Claims] Transmission means for transmitting response requests and responses between the active system and the standby system, operating status storage means for storing the operating status of the active system, and response requests from the standby system. an active system health check means in the active system that sends a response back to the standby system using the transmission means, and updates and stores the operating status of the active system in the operating status storage means at regular time intervals; When a response request is output to the active system using a transmission means and a response to the response request cannot be obtained from the active system, the contents of the operating status storage means are updated after the response cannot be obtained. 1. A down monitoring method for a duplex configuration system, comprising: a standby system health check means in a standby system that determines whether or not the active system is in operation based on checking whether the active system is in operation.