KR20000038085A - Method for recovering status inconsistency after loading standby side in atm switching system - Google Patents

Abstract

PURPOSE: A method for recovering a status inconsistency after loading a standby side in ATM switching system is provided to solve a status inconsistency between an operation side processor and a standby side processor of a dual processor. CONSTITUTION: A method for recovering a status inconsistency after loading a standby side in ATM switching system comprises the following steps. A state of an operation side processor is transmitted and checked. A loading flag of a standby side is deleted and restarted if the operation side processor is abnormal. The operation side processor receives and checks a state of the standby side processor if the operation side processor is normal. The loading flag of the standby side is deleted and restarted if the state of the standby side processor does not coincide with the state of the operation side processor.

Description

Processor status recovery method after standby loading in ATM switch

The present invention relates to a method for recovering an abnormal state that may occur when managing a state related to a standby loading procedure among the states of a redundant processor of an asynchronous transfer switch. The present invention relates to a method for restarting by redundantly deleting a flag indicating a loading state of a processor when there is a mismatch between the state of the processor and the duplex state of the operating processor and the standby processor managed by the standby processor. .

That is, an object of the present invention is that the channel connecting the operating side and the standby side is disconnected during the loading of the standby side, so the state of each other cannot be monitored at the operating system level, so that even if a state abnormality occurs, the state change of each other can be detected. Because of this, serious state inconsistencies can occur, which can be detected and resolved quickly.

The prior art has prevented the processor state from falling into an abnormal state, or preventive monitoring or reporting the state mismatch to the operator to recover. However, the state of the operation maintenance processor and the processor that can be monitored by the operator is only the state of the operating processor, and when there is a mismatch between the state of the standby processor and the actual standby processor detected by the operating side, there is a different way to recover. There was no.

Accordingly, if a duplication mismatch occurs during standby loading, in which the operating processor and the standby processor cannot detect each other, the processor duplication structure installed for the stability of the system becomes unusable. A problem occurs.

The present invention has been made to solve the problems of the prior art as described above, when managing the state of the redundant processor, the operating side can normally monitor and control the state of the standby side, the information of the operating side You only need to manage it, but during the waiting-side loading, different packages are loaded and operated independently on the operator and the standby, and the status of each other is unknown at the operating system level. The present invention relates to a method of resolving a state of inconsistency through restarting when a state of inconsistency is identified through each other.

1 is a block diagram showing the configuration of an asynchronous transport exchange system to which the present invention is applied,

2a to 2d is a view showing an overview of the standby-side loading procedure of the asynchronous transfer mode switching system to which the present invention is applied,

3 is a flowchart illustrating a method of recovering a state mismatch when waiting loading of an asynchronous transfer switching system is completed according to an embodiment of the present invention.

According to the present invention for achieving the above object, a method for resolving an inconsistency between the operating state and the standby side after the standby loading of an Asynchronous Transfer Mode (ATM) exchange configured with processor duplication. The method may further include, after the waiting-side loading is completed, requesting and receiving a state of an operating processor from the operating side, and determining whether the operating processor is in a normal state; A second step of restarting after deleting the loading flag on the standby side when the state of the processor on the operation side is abnormal as a result of the determination in the first step; A third step of receiving a status of the standby processor from the management side and receiving a status of the standby processor from the standby side if it is determined that the state of the operating processor is normal; Wow; A fourth step of restarting after deleting the loading flag of the standby if the state of the standby processor received from the management side and the status of the standby processor received from the standby do not match as a result of the determination in the third step; Provided is a method for recovering a state mismatch after a waiting-side loading, comprising the steps of:

In addition, a computer-readable recording medium capable of eliminating inconsistency between the operating state and the standby state after the standby loading of an Asynchronous Transfer Mode (ATM) exchange configured with processor duplication. The method may further include, after the waiting-side loading is completed, requesting and receiving a state of an operating processor from the operating side, and determining whether the operating processor is in a normal state; A second step of restarting after deleting the loading flag on the standby side when the state of the processor on the operation side is abnormal as a result of the determination in the first step; A third step of receiving a status of the standby processor from the management side and receiving a status of the standby processor from the standby side if it is determined that the state of the operating processor is normal; Wow; A fourth step of restarting after deleting the loading flag of the standby if the state of the standby processor received from the management side and the status of the standby processor received from the standby do not match as a result of the determination in the third step; Steps; As a result of the determination in the third step, when the state of the standby processor received from the operation side and the state of the standby processor received from the standby side coincide with each other, after the sleep state for a predetermined time, the first A fifth step of repeating from the step; After the loading of the standby side is completed, if the operating state requests the state of the processor of the operating side and does not receive it for a predetermined time, the program deletes the loading flag of the standby side and records a program capable of executing the sixth step of restarting. A computer readable recording medium is provided.

In the following, with reference to the accompanying drawings, a preferred embodiment according to the present invention will be described in detail.

1 is a configuration diagram showing a configuration of an asynchronous transmission and switching system to which the present invention is applied.

The externally produced software package 101 is a system disk 107 via an input device such as a tape drive 105 or an optical disk drive 106 of an operator terminal 102 or directly via an externally connected Ethernet [103]. It is loaded into the switch and transmitted back into the switch via Ethernet 108, which is connected to an asynchronous transfer switch.

The transmitted software package is stored on a system disk 112 connected to the SCSI 111 (SCSI) to the operation maintenance processor 110 which oversees the operation and maintenance of the exchange. The operation maintenance processor reads the software package from the system disk and transmits the software package to its memory and the remaining processor 114 through the asynchronous transfer switch 113.

On the other hand, each processor is redundant in order to increase the reliability of the system, by using this can perform the loading on the standby side to shorten the software package replacement time.

2A to 2D are diagrams illustrating an outline of a waiting side loading procedure of an asynchronous transfer mode switching system to which the present invention is applied.

FIG. 2A is a general state in which normal redundancy is maintained, in which a package (a) is loaded in an operating processor 206, and a standby processor 207 is also copied to a storage location through an operating processor to standby channel 208. FIG. The same software package is loaded, and only the operating side processor communicates with entities including the operation maintenance processor 205 via the external inter-processor communication 201 (202, 203).

In FIG. 2B, when the standby loading starts, the connection 214 is established with the external communication network 211 of the standby processor 217, and the communication channel 218 with the operating processor 216 is disconnected to operate independently. The software package (b) is received from the operation maintenance processor 215 and loaded into its own storage location. Of course, during the operation side processor 216 is operating normally and the communication with the outside 213 is also normally performed.

In FIG. 2C, when the loading of the standby side is completed and the standby side and the operating side are interchanged with each other, a new operating side 227 having the package (b) loaded is operated and communicating with the outside (224), and the functional side is being verified. In the disconnected state 228, the new standby side 226 keeps the old package (a) while the communication with the outside 223 remains in the standby state with the disconnected state. If the newly loaded package (B) is not verified in this state, it can be returned to its initial state.

In FIG. 2D, when package (B) is verified, package (A) must be discarded, so the standby processor 236 gives up the package (A) and copies and maintains the operating side storage through the channel 238. This state is the same as the initial state except that the positions of the operation and standby sides have been changed, resulting in a package replacement with the shortest service interruption.

3 is a flowchart illustrating a method of recovering a state mismatch when waiting loading of an asynchronous transfer switching system is completed according to an embodiment of the present invention.

First, when waiting side loading is completed in step S301, in step S302, after requesting an operation state, a response timer is set in step S303.

Subsequently, when the operation side state is received in step S304, the state of the operation side transmitted from the operation side is checked in step S305, and it is determined whether or not it is normal in step S306.

If the determination result in step S306 is not normal, in step S309, the operation side is abnormal but the standby side is inconsistent state which cannot be normal, and thus the waiting side loading flag is deleted and then terminated.

If the determination result in step S306 is normal, in step S307, the standby side state transmitted from the operating side is compared with the standby side state read from the standby side, and in step S308, the standby side state and standby transmitted from the operating side are compared. It is determined whether the standby state read from the side is identical.

If the result of the determination in step S308 does not match, the process proceeds to the step S309. If there is a match, the process proceeds to the step S302 after being rested for a predetermined time in step S311.

On the other hand, in step S310, if the operating side does not receive a state, the operation is stopped and only the standby side is operated, so the flow advances to step S309.

On the other hand, the present invention as described above is recorded on a computer-readable recording medium, it can be processed by a computer.

The present invention provides a method of resolving state inconsistencies that occur during standby loading of an asynchronous transfer type exchange, thereby resolving state inconsistencies that may occur in the standby loading situation in the state management function of both sides. By sending a message as a message, the system can be restarted in a serious state mismatch so that the system instability caused by the state mismatch can be solved.

The technical spirit of the present invention has been described above with reference to the accompanying drawings. However, the present invention has been described by way of example only, and is not intended to limit the present invention. In addition, it is obvious that any person skilled in the art may make various modifications and imitations without departing from the scope of the technical idea of the present invention.

Claims (4)

In a method for resolving an inconsistency between an operating state and a standby state after waiting loading of an Asynchronous Transfer Mode (ATM) exchange configured with processor duplication, After waiting loading is completed, requesting and receiving a state of an operating processor from the operating side, and then determining whether the operating processor is in a normal state; A second step of restarting after deleting the loading flag on the standby side when the state of the processor on the operation side is abnormal as a result of the determination in the first step; A third step of receiving a status of the standby processor from the management side and receiving a status of the standby processor from the standby side if it is determined that the state of the operating processor is normal; Wow; A fourth step of restarting after deleting the loading flag of the standby if the state of the standby processor received from the management side and the status of the standby processor received from the standby do not match as a result of the determination in the third step; A method for recovering a state mismatch after waiting-side loading, comprising the steps of: The method of claim 1, If the state of the operating processor is not received for a predetermined time, the standby state after the loading flag is deleted, and restarting the standby state after loading, characterized in that the method further comprises the step of restarting. The method of claim 1, As a result of the determination in the third step, when the state of the standby processor received from the operation side and the state of the standby processor received from the standby side are inconsistent, after the sleep state for a predetermined time, the first A method for recovering a state mismatch after waiting-side loading, further comprising: repeatedly performing the step. A computer-readable recording medium capable of executing a method of eliminating an inconsistency between an operating state and a standby state after waiting loading of an Asynchronous Transfer Mode (ATM) exchange configured with processor duplication, After waiting loading is completed, requesting and receiving a state of an operating processor from the operating side, and then determining whether the operating processor is in a normal state; A second step of restarting after deleting the loading flag on the standby side when the state of the processor on the operation side is abnormal as a result of the determination in the first step; A third step of receiving a status of the standby processor from the management side and receiving a status of the standby processor from the standby side if it is determined that the state of the operating processor is normal; Wow; A fourth step of restarting after deleting the loading flag of the standby if the state of the standby processor received from the management side and the status of the standby processor received from the standby do not match as a result of the determination in the third step; Steps; As a result of the determination in the third step, when the state of the standby processor received from the operation side and the state of the standby processor received from the standby side coincide with each other, after the sleep state for a predetermined time, the first A fifth step of repeating from the step; After the loading of the standby side is completed, if the operating state requests the state of the processor of the operating side and does not receive it for a predetermined time, the program deletes the loading flag of the standby side and records a program capable of executing the sixth step of restarting. Computer-readable recording media.