JPH07234808A - System dump acquisition system - Google Patents

Abstract

PURPOSE:To provide a system dump acquisition system which can acquire a system dump without making the restarting processing of a computer system wait. CONSTITUTION:The computer system constituted by having doubled main storage devices 3 is equipped with a means which disconnects the doubled main storage devices 3 from each other and makes them function as individual main storage devices 4a-4b if the computer system ends abnormally, a means which restarts the computer system by using only one disconnected main storage device 4a, and a means which holds the stored information at the time of the abnormal end in the other main storage device 4b. Therefore, the stored information at the abnormal end can be acquired without making the restarting processing of the computer system wait.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a system dump collecting method suitable for application to a computer system such as a fault tolerant computer.

[0002]

2. Description of the Related Art In a computer system using a conventional system dump collection method, it is impossible to collect memory information at the time of abnormal termination, that is, to collect a system dump in parallel with the restart of the computer system. If the computer system ends abnormally due to a system failure, first save the storage information on the main storage device at the time of the abnormal end as a system dump to an external storage device such as a magnetic tape device. The recovery work was performed by the procedure of waiting for the completion of the evacuation process and restarting the computer system.

Therefore, there is a problem that the computer system cannot be restarted until the system dump has been saved in the external storage device, that is, the computer system cannot be immediately recovered after abnormal termination. It was

[0004]

As described above, in the conventional system dump collection method, it is impossible to collect the system dump in parallel with the restart of the computer system, which causes a failure of the operating system. In the case where the computer system is abnormally terminated due to occurrence or the like, there is a problem that the restarting process of the computer system is made to wait until the saving of the system dump to the external storage device is completed.

The present invention has been made in view of the above circumstances, and when a computer system abnormally ends, it is possible to collect a system dump without waiting for a restart process of the computer system. The purpose is to provide a sampling method.

[0006]

The system dump collection method according to the present invention includes means for separating the duplicated main storage devices to function as individual main storage devices when the computer system terminates abnormally. , A means for restarting the computer system using only one of the separated main storage devices and a means for holding the stored information at the time of abnormal termination in the other main storage device, and restarting the computer system It is characterized in that the stored information at the time of abnormal termination is collected without waiting for.

Further, in the system dump sampling method according to the present invention, after the restart of the computer system is completed and the memory information at the time of abnormal termination is collected, the storage information of the main storage device allocated to the restart of the computer system is stored. Copy to the main memory allocated to hold the memory information at abnormal end,
It is characterized by further comprising means for returning the main storage device functioning as an individual main storage device to the duplicated state again. Further, the system dump collection method according to the present invention is characterized by comprising a main storage device duplicated by at least two or more main storage devices.

[0008]

According to the above configuration, when the computer system is abnormally terminated due to a failure of the operation system or the like, the disconnecting means separates the duplicated main memory devices so that they function as individual main memory devices. Further, the computer system is restarted by using only one main storage device separated by the restarting means by the disconnecting means. Then, the holding unit holds the storage information at the time of abnormal termination in the other main storage device separated by the separation unit.

Thus, when the computer system ends abnormally, it is possible to collect a system dump without waiting for the restarting process of the computer system. Further, according to the above configuration, after the restart of the computer system is completed and the storage information at the time of abnormal termination is collected, the storage information of the main storage device allocated to the restart of the computer system is stored at the time of abnormal termination. To the main memory allocated to hold the Then, the main storage devices functioning as respective individual main storage devices are restored to the redundant state and operated again.

As a result, it becomes possible to improve the reliability of the operation of the computer system. Further, according to the above configuration, since the main storage device is duplicated by at least two or more main storage devices, it is possible to further improve the reliability of the operation of the computer system.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram showing a schematic configuration of a computer system to which a system dump collecting method according to an embodiment of the present invention is applied.

As shown in FIG. 1, a computer system to which a system dump collecting method according to an embodiment of the present invention is applied is duplicated based on a processor 1 and main memory management information 2 managed by the processor 1. The redundant main memory 3 is composed of main memory devices 4a-4b and input / output processors 5a-5b. The input / output processors 5a-5b have magnetic tape devices 6a-6b and magnetic disk devices 7a-7b. Are connected respectively.

In this computer system, an interrupt signal is transmitted to the processor 1 when an abnormal end occurs. Here, management of duplication of the main storage device will be described with reference to FIG.

FIG. 2 is a conceptual diagram for explaining the main storage device management information. The main storage devices 4a to 4b, which are the duplicated main storage devices 3, are managed by the main storage device management information 2. Further, the main storage device management information 2 includes the main storage devices in the computer system. Thus, it holds information indicating whether or not it has a redundant configuration.

That is, the main storage device management information 2 is a shadow of the primary main storage device information 8 (PMI) that stores the number of the main storage device assigned as the primary of the two main storage devices that are duplicated. Shadow main storage device information 9 (SMI) that stores the assigned main storage device number, system dump that stores the main storage device number that stores the system dump information by canceling the duplexed state when the computer system abnormally ends The storage main storage device information 10 (SDI) is provided.

Then, duplication management of the main storage device is performed by updating these information according to the operating status of the computer system. Next, the memory map of the main storage device will be described with reference to FIG.

FIG. 3 is a conceptual diagram for explaining the memory map of the main storage device. Each of the main storage devices 4a and 4b has a memory having a predetermined capacity, a work area 11 for storing instruction codes and data, processor information,
The system dump information area 12 stores information indicating the system status and the like.

The operation of this embodiment will now be described with reference to FIGS. 4 and 5. 4 and 5 are a flow chart for explaining the operation of the embodiment and a diagram showing the contents of the main storage device management information.

For example, the configuration of the duplicated main storage device 3 is such that the main storage device 4a (1) is the primary storage device and the main storage device 4 is the primary storage device 4a.
It is assumed that b (2) is registered as a shadow in the main storage device management information 2 ((a) in FIG. 4).

When this computer system is abnormally terminated due to a failure of the operating system (step A1 in FIG. 4), an interrupt signal is transmitted to the processor 1.

Upon receiving the interrupt signal, the processor 1 updates the main storage device management information 2 managed by itself, and the main storage device 4a and the main storage device 4b configured as the duplicated main storage device 3 are respectively controlled by the system. For restarting and for holding stored information at abnormal end (step A2 in FIG. 4).

Here, it is assumed that the primary main memory 4a is allocated for restarting the system, and the shadow main memory 4b is allocated for collecting a system dump.

As a result, the main storage device management information 2 is updated as shown in FIG. 4 (b). After that, the processor 1 stores the system dump information such as the status of the processor 1, the system information, and the system trace in the system dump information area 12 of the main memory 4b allocated for collecting the system dump (step A3 in FIG. 4).

After storing the system dump information, the processor 1 resets the entire computer system and removes the data state of the main memory 3 at the time of abnormal termination of the computer system and the main memory 4b in which the system dump information is stored. After initializing the entire computer system, an operating system reload request including the main storage device management information 2 is transmitted to the input / output processors 5a-5b.

The input / output processors 5a-5b that have received the reload request read the operating system from the magnetic disk devices 6a-6b, etc., and the primary main storage device of the main storage device management information 2 transmitted at the time of the reload request. Based on the information 8, the shadow main memory device information 9 and the system dump storage main memory device information 10, the main memory device 4a which has no system dump information and is allocated for restart is written.

After loading the operating system, the processor 1 restarts the operating system on the computer system and terminates the restarting process of the computer system (step A4 in FIG. 4).

When the computer system is restarted, the processor 1 carries out a plurality of process processes, and in parallel with this, all the data stored in the main memory 4b is transferred to the magnetic tape via the input / output processors 5a-5b. It is evacuated to the devices 6a-6b and the like (step B1 in FIG. 5).

After the saving process, the contents of the main storage device 4a currently used for operating the computer system are copied to the main storage device 4b allocated for storing the system dump, and the main storage device management information is copied. The state of No. 2 is updated to the state of the initial setting (step B2 in FIG. 5).

Then, the main storage devices of the computer system functioning as individual main storage devices are returned to the duplicated state during normal operation. As a result, even if the computer system is abnormally terminated due to a failure of the operating system or the like, the restarting process of the computer system is not put on standby until the completion of the system dump collection process, and quick recovery can be realized.

The above-mentioned processing including the system dump information saving process and the re-duplication process may employ an operation involving the operation of an operator, or a magnetic tape for saving may be mounted in advance. A fully automated operation may be adopted by predefining a magnetic disk for use in recording.

Next, an application example of the system dump collecting method according to the present invention will be described with reference to FIG. FIG. 6 is a conceptual diagram for explaining an application example of the system dump collection method according to the present invention.

As shown in FIG. 6, an application example of the system dump collecting method according to the present invention is one of the processors 1a-1c.
It is applied to a fault tolerant computer consisting of two processors.

Further, the main memory device is also tripled by the main memory devices 4a to 4c. In this system, the remaining one processor continues to operate until the failure of two of the three processors 1a to 1c, and this last processor abends due to the failure before the other processors are restored. Only in case of failure, the computer system is restarted and the stored information at the time of abnormal termination is collected by the above processing.

At this time, also in the main storage devices 4a-4c, two main storage devices among the three main storage devices 4a-4c are allocated for restarting the computer system, and the remaining one main storage device is allocated. Allocate a device to hold storage information at abnormal termination.

This makes it possible to improve the reliability of the operation of the computer system, and since the main storage device is duplicated by the two main storage devices even during the collection of the system dump, the system in the meantime. It will also improve the reliability of operation.

[0036]

As described above in detail, according to the system dump collecting method of the present invention, when the computer system is abnormally terminated due to a failure of the operating system or the like, the duplicated main storage devices are separated from each other. It functions as an individual main memory, restarts the computer system using only one main memory that has been separated, and holds the memory information at the time of abnormal termination in the other main memory.

As a result, even when the computer system is abnormally terminated, the restarting process of the computer system is not made to wait for the collection of the stored information at the time of abnormal termination, and a quick recovery can be realized.

[Brief description of drawings]

FIG. 1 is a block diagram showing a schematic configuration of a computer system to which a system dump collection method according to an embodiment of the present invention is applied.

FIG. 2 is a conceptual diagram for explaining main storage device management information according to the embodiment.

FIG. 3 is a conceptual diagram for explaining a memory map of a main memory device according to the first embodiment.

FIG. 4 is a view for explaining the operation of the embodiment and a diagram showing the contents of main storage device management information.

FIG. 5 is a flowchart for explaining the operation of the embodiment and a diagram showing the contents of main storage device management information.

FIG. 6 is a conceptual diagram for explaining an application example of the system dump collection method according to the present invention.

[Explanation of symbols]

1, 1a, 1b, 1c ... Processor, 2 ... Main memory management information, 3 ... Duplicated main memory, 4a, 4b, 4c ... Main memory, 5a, 5b ... I / O processor, 6a, 6b
... Magnetic tape device, 7a, 7b ... Magnetic disk device, 8
... primary main memory information, 9 ... shadow main memory information, 10 ... system dump storage main memory information, 11
… Work area, 12… System dump information area.

Claims (3)

[Claims] 1. In a computer system having a duplicated main memory device, when the computer system terminates abnormally, the duplicated main memory devices are separated from each other to function as individual memory devices. Means, a means for restarting the computer system using only one of the separated main storage devices, and a means for holding the storage information at the time of abnormal termination in the other main storage device. A system dump collection method that collects stored information at abnormal termination without waiting for startup. 2. After the restart of the computer system is completed and after the storage information at the time of abnormal termination is collected, the storage information of the main storage device which is assigned to restart the computer system and is in operation is stored at the time of abnormal termination. 2. A means for copying to a main storage device assigned to hold each of the main storage devices and returning the main storage device functioning as an individual main storage device to the duplicated state again. System dump collection method. 3. The system dump collection method according to claim 1, wherein the main storage device comprises a main storage device duplicated by at least two or more main storage devices. .