JPH11296397A - Received message recovery system in hot stand-by system and method therefor and recording medium for storing received message processing program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent the loss of a received message unrelated with the failure due to software in a hot stand-by system. SOLUTION: A master system central processing unit 4 stores a received message in a recovery file 6, and operates processing of this message. At the time of detecting an abnormal end state due to software when processing the received message, the master system central processing unit 4 obtains the revision of a load module in an executing state and an abnormal end address, and communicates this information to a slave system, and then operates down processing. At the time of detecting the down state of the master system central processing unit 4, a slave system central processing unit 5 moves to a new master system, and processes unprocessed received messages other than the received message being the cause of the abnormal end among unprocessed received messages stored in the recovery file based on the revision of the load module and the abnormal end address communicated from the master system central processing unit 4.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a method for recovering a received message in a hot standby system.

[0002]

2. Description of the Related Art Conventionally, in this type of hot standby type online system, when a failure occurs in a master central processing unit (hot system) due to software during processing of a received message, a slave central processing unit is processed. (Standby system) becomes the new master system. And then,
If the new master recovers a pending message including the received message that caused the failure, the same failure occurs again, resulting in total downtime.If the cause is software, the received message is not restored. All had been erased.

[0003]

According to the above-described conventional received message recovery method, when a failure occurs in a master central processing unit due to software during processing of a received message, a slave central processing unit (standby system) is used. )
When the master became the new master system, all messages waiting to be processed including the received message that caused the failure were deleted, so if a message was lost due to deletion, the sender of the message must be resent. There was a disadvantage that it had to be done.

[0004] The present invention provides a received message recovery method capable of solving the above-mentioned drawbacks and preventing loss of a received message unrelated to the failure even when a failure caused by software occurs. is there.

[0005]

According to a first aspect of the present invention, there is provided a received message recovery system in a hot standby system in which a master system and a slave system are in a hot standby relationship. After processing this message after storing it in the recovered file, and when detecting an abnormal end state due to software while processing the received message, obtain predetermined failure information of the executing load module. And a master central processing unit for performing a down process after notifying the failure information to the slave system. In the slave system, the master central processing unit monitors the state of the master central processing unit, and When a down state is detected, the system shifts to the new master system and is notified by the master system central processing unit. A slave central processing unit that processes the unprocessed received messages other than the received message that caused the abnormal termination among the unprocessed received messages stored in the recovery file based on the failure information of the load module It is characterized by having.

According to a second invention of the present application, the failure information in the first invention is a revision and an abnormal end address of the running load module.

According to a third aspect of the present invention, in the slave central processing unit of the second aspect, the revision and abnormal end address of the load module and the revision and abnormal end address of the received message stored in the recovery file. And processing is performed on the unprocessed received message that is not the same as a result of the comparison.

According to a fourth aspect of the present invention, there is provided a method for recovering a received message in a hot standby system in which a master system and a slave system are in a hot standby relationship. If the software detects an abnormal end state due to software while processing the received message after processing the received message, it obtains predetermined failure information of the load module being executed and replaces the failure information with the failure information. After notifying the slave system, perform down processing,
In the slave system, when the state of the master system is monitored and a down state of the master system is detected, the slave system itself shifts to a new master system and performs the recovery based on the failure information of the load module notified from the master system. Processing the unprocessed received message other than the received message that caused the abnormal termination among the unprocessed received messages stored in the file.

In a fifth aspect of the present invention, the fault information in the fourth aspect is a revision and an abnormal end address of the running load module.

In a sixth aspect of the present invention, in the fifth aspect, the slave system compares the revision and the abnormal end address of the load module with the revision and abnormal end address of the received message stored in the recovery file. Processing is performed on the unprocessed received message that is not the same as a result of the comparison.

According to a seventh aspect of the present invention, in a master system, a received message is stored in a recovery file prepared in advance, and then the message is processed. When the status is detected, the revision and abnormal end address of the load module being executed are obtained and notified to the slave system, and then the down process is performed. In the case of the slave system, the status of the master system is monitored and the down of the master system is performed. When the state is detected, the system is transferred to a new master system, and the revision and abnormal end address of the load module notified from the master system are stored in a work area in a memory, and coincide with the revision and abnormal end address of the load module in the recovery file. Receive message processing to process the unprocessed message Characterized in that it is a recording medium storing programs.

[0012]

Next, a first embodiment of the present invention will be described in detail with reference to the drawings.

FIGS. 1 to 3 are system state transition diagrams showing a received message recovery system in the hot standby system of the present invention. Here, FIG. 1 shows a connection state in a normal state, FIG. 2 shows a connection state in a failure occurrence,
FIG. 3 shows the connection state after switching. Further, blocks having the same names and the same reference numerals in the respective drawings are the same.

Description of components in each drawing Line switching device-Outputs a message from a line to communication processing devices 2 and 3 of both systems (master system and slave system).

Communication processing device Transmits / receives a message to / from a partner system in accordance with a prescribed communication procedure.

In both systems, the received message is sent to the central processing unit (master system).

Receiving a message is performed in both systems, but transmission is performed only in the master system.

Central processing unit The central processing unit (master system) processes the received message and, when a message to be transmitted to the partner system is generated,
Requests transmission to the communication processing device (master system).

The received message is stored in the recovery file 6 and deleted when the processing is completed.

The central processing unit (slave system) monitors the state of the central processing unit (master system), and when a failure is detected, becomes the master system and resumes processing.

Recovery file-Stores messages received by the central processing unit (master system) until the processing is completed.

Next, the operation of the embodiment of the present invention will be described with reference to the drawings (FIGS. 1 to 3).

Referring to FIG. 1, a message is received by a communication processing device (master system) 2 and a communication processing device (slave system) 3 via a line switching device 1, and the two communication processing devices respectively receive the messages. Output to the central processing unit (master system) 4.

The central processing unit (master system) 4 processes the received message after storing it in the recovery file. Usually, this message is deleted from the recovery file when the central processing unit (master system) completes the processing.

The central processing unit (slave system) 5 monitors the state of the central processing unit (master system) in order to shift to a new master system when the central processing unit (master system) 4 goes down.

Next, referring to FIG. 2, when the central processing unit (master system) 3 detects an abnormal termination state due to software while processing the received message, the revision of the load module being executed and the abnormal termination are detected. The address is acquired and notified to the central processing unit (slave system) 5, and the central processing unit (master system) performs down processing and ends the processing.

The central processing unit (slave system) 5 stores the revision of the load module and the abnormal end address notified from the central processing unit (master system) 4 in a work area in the memory (not shown).

Next, referring to FIG. 3, the central processing unit (slave system) 5 detects the down state of the central processing unit (master system) 4, shifts to the new master system, and transfers the recovery file 6 to its own system. Starts processing of unprocessed messages.

The same process is performed for a message that has caused a down in the old master system in the new master system, but this time, a comparison is made using the load module revision and the abnormal end address stored in the work area in the memory. .

As a result of the comparison, if they are the same, the down processing is not performed (that is, the message is discarded), the next message is obtained from the recovery file, and the processing is continued.

Next, a second embodiment of the present invention will be described in detail with reference to the drawings.

Referring to FIG. 4, the second embodiment of the present invention includes a recording medium 61 storing a message processing program. This recording medium 61 may be a magnetic disk, a semiconductor memory, or another recording medium.

The message processing program is stored in the recording medium 61
Is read into the data processing device 60 to control the operation of the data processing device 60. In the case of the master system, the data processing device 60
After processing this message, if the software detects an abnormal termination status while processing the received message, obtain the revision and abnormal termination address of the load module being executed and notify the slave system. After performing the down process, monitor the status of the master system in the slave system, and when the down status of the master system is detected, shift to the new master system and update the load module notified by the master system and terminate abnormally The address is stored in the work area in the memory, the recovery file 62 is loaded into the own system, and an unprocessed message that does not match the stored revision and abnormal end address of the load module is processed.

[0034]

As described above, according to the present invention, when a failure occurs in the central processing unit (master system), the message causing the failure is received by the new master system which has been transferred from the central processing unit (slave system). However, by starting the processing of the next message without bringing it down, it is possible to prevent the same failure from occurring again and to prevent the loss of other received messages waiting for processing.

[Brief description of the drawings]

FIG. 1 is a diagram showing a normal system connection state for showing a received message recovery method in a hot standby system of the present invention.

FIG. 2 is a diagram showing a system connection state at the time of occurrence of a failure for illustrating a received message recovery method in the hot standby system of the present invention.

FIG. 3 is a diagram showing a system connection state after switching to show a received message recovery method in the hot standby system of the present invention.

FIG. 4 is a configuration diagram showing a second embodiment of the present invention.

[Explanation of symbols]

 REFERENCE SIGNS LIST 1 line switching device 2 communication processing device (master system) 3 communication processing device (slave system) 4 central processing device (master system) 5 central processing device (slave system) 6,62 recovery file 60 data processing device 61 recording medium

Claims (7)

[Claims] In a received message recovery system in a hot standby system in which a master system and a slave system are in a hot standby relationship, the master system stores a received message in a recovery file provided in advance, and then stores the received message in the recovery file. If the software detects an abnormal end state due to software while processing the received message and obtains predetermined failure information of the executing load module, and notifies the slave system of the failure information. A master central processing unit that performs down processing is provided. In the slave system, the state of the master central processing unit is monitored, and when the down state of the master central processing unit is detected, the slave system shifts to the new master system. Based on the fault information of the load module notified from the master central processing unit. A slave central processing unit that processes the unprocessed received message other than the received message that caused the abnormal termination among the unprocessed received messages stored in the recovery file. Message recovery method in a hot standby system. 2. The received message recovery method in a hot standby system according to claim 1, wherein said failure information is a revision and an abnormal end address of said executing load module. 3. The slave central processing unit compares the revision and abnormal end address of the load module with the revision and abnormal end address of the received message stored in the recovery file. 3. The received message recovery method in the hot standby system according to claim 2, wherein the received message is processed. 4. A method for recovering a received message in a hot standby system in which a master system and a slave system are in a hot standby relationship, wherein the received message is stored in a recovery file provided in advance in the master system. If the software detects an abnormal end state due to software while processing the received message and obtains predetermined failure information of the load module being executed, and notifies the slave system of the failure information. In the slave system, the slave system monitors the state of the master system, and when the master system detects the down state, the slave system shifts to a new master system and the failure of the load module notified by the master system is performed. Of the unprocessed received message stored in the recovery file based on the information A received message recovery method in a hot standby system, wherein the unprocessed received message other than the received message that caused the abnormal termination is processed. 5. The received message recovery method in a hot standby system according to claim 4, wherein said fault information is a revision and an abnormal end address of said load module being executed. 6. The slave system compares the revision and abnormal end address of the load module with the revision and abnormal end address of the received message stored in the recovery file, and as a result of the comparison, the unprocessed unprocessed reception is not the same. 6. The received message recovery method in a hot standby system according to claim 5, wherein processing is performed on the message. 7. The master system stores a received message in a recovery file prepared in advance, processes the received message, and detects an abnormal end state due to software during processing of the received message. After obtaining the revision and abnormal end address of the load module being executed and notifying the slave system, the slave system performs a down process. In the case of the slave system, the status of the master system is monitored. The unprocessed message that does not match the revision and abnormal end address of the load module in the recovery file, storing the revision and abnormal end address of the load module notified to the master system and notified from the master system in the work area in the memory. Stored the received message processing program that performs the processing of recoding media.