KR20010018159A - method for switch over standby processor in switching system - Google Patents

Abstract

PURPOSE: A method for switching a standby processor of an exchange is provided to make a processor loader activate stored programs according to priorities, when the processor loader is activated by an operation system in a state of storing the priorities of the programs loaded into the standby processor, thereby normally operating a system. CONSTITUTION: An operation system suspends all execution programs of an active processor, and makes the activate processor a standby processor, then activates a processor loader only of the standby processor. The operation system informs the processor loader of a standby processor switching completion. The processor loader activates the programs according to priorities. The activated processor loader stores the priorities of the programs loaded into the standby processor. When the processor loader is activated by the operation system, the processor loader activates the programs according to the stored priorities.

Description

Method for switch over standby processor in switching system

The present invention relates to a standby processor switching method of an exchange. Particularly, when a version of a program is changed through standby loading in a redundant processor, the system is activated by activating programs loaded in the standby processor in a specific order when the standby processor is switched. The present invention relates to a standby processor switching method of an exchange that can be operated.

In general, when a program needs to be changed in an exchange operating a system, the program is changed using a standby loading function using a standby processor of a redundant processor as a way to minimize service interruption.

As described above, a method of changing a program of a redundant processor by using the standby loading function may stop the synchronization between the standby processor and the active processor, restart the standby processor, and load the changed program onto the standby processor board. (Standby processor loading process, the execution of all the programs of the active processor to stop the standby processor, the standby processor switching process to activate all the programs of the standby processor to the active processor, the standby processor switching process When a program loaded on a board that has been switched to has been operated normally, it resets and stops the synchronization that has been stopped during the standby processor loading process in order to load a new program into the standby processor. The process consists of a standby processor cloning process that duplicates a program of a creative processor to a standby processor.

As described above, after the changed program is loaded into the standby processor, the standby processor is transferred to execute a new program loaded on the standby processor. FIG. 1 illustrates a standby processor switching structure. As shown in FIG. 1, the standby processor switching structure includes a system restart loader 10, a processor loader 20, and an operating system 30. The system restart loader 10 is mounted on a central processor and is operated by an operator. The standby processor transfer request is performed to the processor loader 20 based on the standby processor transfer command received through the terminal, and the processor loader 20 is mounted in a redundant individual processor and is a standby processor requested from the system restart loader 10. The operating system basic command is called to the operating system 30 according to the transfer command, and the operating system 30 determines whether the standby processor switching is possible, and when the standby processor switching is possible, the operating system 30 receives the call from the processor loader 20. Perform standby processor switching using operating system basic instructions.

2 is a diagram illustrating a conventional standby processor switching process.

When the program loading to the standby processor is completed through the standby processor loading process, the system restart loader 10 receives a standby processor transfer command from the system operator through an operator terminal to execute a new program loaded on the standby processor (S10). The system restart loader 10 that receives the standby processor transfer command through the operator terminal requests the processor loader 20 to perform the corresponding command to perform the corresponding command (S12). Accordingly, the processor loader 20 that receives the changeover command of the standby processor from the system restart loader 10 calls an operating system basic command to the operating system 30 for the standby processor changeover (S14). Here, the operating system 30 manages the file table in the order of the programs loaded in the standby processor during the standby processor loading process. Thereafter, the operating system 30 determines whether the standby processor switching is possible, and if the standby processor switching is not possible, the processor loader 20 notifies that the standby processor switching is impossible (S16, S18), and the operating system 30 The processor loader 20 that is notified that the standby processor switching is impossible is notified to the system restart loader 10 that the standby processor switching is impossible (S20). Here, whether the standby processor switching is possible or not is determined by the state of the standby processor. When all programs are loaded in the standby processor and the standby processor is in the movable state, the standby processor switching is possible.

On the other hand, when the standby processor switching is possible, the standby processor switching is performed by using the operating system basic instructions called by the processor loader 20 in the above-described step S14. In the operating system 30, all the running programs of the active processor are executed. By stopping them, a standby processor is made, and all programs of the standby processor are activated to make an active processor (S22). As such, when making the standby processor the active processor, the operating system 30 activates the programs in the order of the programs loaded in the standby processor loading process.

As described above, in the conventional standby processor switching process, when activating the programs loaded into the standby processor, by activating the programs in the loaded order, a problem may occur in which the system may be abnormally operated. In other words, the programs loaded on the processor are in an organic relationship with each other. In particular, since the shared library is shared and executed by several programs, the shared library must be activated before the general program using the shared library. Otherwise, even if a general program using a shared library is activated, the system may not operate normally because the shared library cannot be used.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problem, and the processor loader stores the priority of programs loaded into the standby processor and activates the program according to the stored priority when activated by the operating system. It is an object of the present invention to provide a standby processor switching method of an exchange which enables the normal operation.

1 is a diagram showing a standby processor switching structure.

2 is a view for explaining a conventional standby processor switching process.

3 is a view for explaining a standby processor switching method of the exchange according to the present invention.

*** Explanation of symbols for the main parts of the drawing ***

10. system restart loader, 20. processor loader,

30. Operating system

In order to achieve the above object, the present invention provides a standby mode of an exchange in which an operating system performs a standby processor switching using an operating system basic instruction called from a processor loader according to a standby processor switching instruction after program loading to a standby processor is completed. In the processor switching method, the standby processor switching is the process of the operating system to stop all running programs of the active processor to make a standby processor, to activate only the processor loader of the standby processor and to notify the processor loader of the completion of the standby processor switching; ; The processor loader activated by the operating system is characterized in that the process of activating the program according to the priority.

The processor loader activated by the operating system stores the priority of programs loaded into the standby processor and activates the program according to the stored priority when activated by the operating system.

Hereinafter, a standby processor switching method of an exchange according to a preferred embodiment of the present invention with reference to the accompanying drawings will be described in detail.

3 is a view for explaining a standby processor switching method of the exchange according to the present invention.

Here, since the standby processor switching structure to which the present invention is applied is the same as the conventional standby processor switching structure shown in FIG. 1, the standby processor switching method according to the present invention will be described with reference to FIG.

However, the operating system 30, which has received operating system basic instructions from the processor loader 20, stops all executable programs of the active processor to make a standby processor, activates only the processor loader 20 of the standby processor, and then activates the processor loader ( 20), the standby processor switching is completed, and the processor loader 20 activates the programs loaded in the standby processor after being activated by the operating system 30 according to priority.

When the program loading to the standby processor is completed through the standby processor loading process, the system restart loader 10 receives a standby processor transfer command from the system operator through an operator terminal to execute a new program loaded on the standby processor (S50). ), The system restart loader 10 that receives the standby processor transfer command through the operator terminal requests the processor loader 20 to perform the corresponding command to perform the corresponding command (S52). Accordingly, the processor loader 20 that receives the changeover command of the standby processor from the system restart loader 10 calls an operating system basic command to the operating system 30 for the standby processor changeover (S54). Subsequently, the operating system 30 that receives the operating system basic command from the processor loader 20 determines whether the standby processor switching is possible, and when the standby processor switching is impossible, the standby processor switching to the processor loader 20 is not possible. The processor loader 20 notified that the standby processor switching is impossible from the operating system 30 is notified (S56, S58), and notifies the system restart loader 10 that the standby processor switching is impossible (S60).

On the other hand, when the standby processor switching is possible, the standby processor switching is performed using an operating system basic instruction called by the processor loader 20 in step S54. The operating system 30 executes all of the active programs of the active processor. After the operation is stopped, the standby processor is made into a standby processor, and only the processor loader 20 of the standby processor is activated, and the processor loader 20 is notified that the standby processor transfer is completed (S63). As described above, the processor loader 20 activated by the operating system 30 activates the programs loaded in the standby processor loading process according to the priority, and the processor loader 20 adjusts the priority of the loaded programs. When activating a program, the memory is first activated (S64).

For example, assuming that programs b and c are shared libraries used by being shared with programs a, d, and e among programs a, b, c, d, e, f, and g loaded in the standby processor. c must be activated before other programs for normal system operation. Therefore, the processor loader 20 of the standby processor stores the priorities (b, c, a, d, e, f, g) of the programs to be loaded, and then stores the priorities stored when activated by the operating system 30. In order to activate the programs according to the ranks, as described above, when programs b and c should be activated first, activate programs b and c before other programs, and activate the remaining programs after activating programs b and c. .

The standby processor switching method of the exchange of the present invention is not limited to the above-described embodiments, and may be variously modified and implemented within the scope of the technical idea of the present invention.

According to the standby processor switching method of the exchange of the present invention as described above, when the processor loader stores the priority of programs loaded into the standby processor and is activated by the operating system, the program is activated according to the stored priority. By doing so, there is an effect that the system can be operated normally.

Claims (2)

In the standby processor switching method of the exchange in which the operating system performs the standby processor switching using the operating system basic instructions called from the processor loader according to the standby processor transfer instruction after the program loading to the standby processor is completed, The standby processor switching is Stopping, by the operating system, all running programs of an active processor to become a standby processor, activating only a processor loader of a standby processor, and notifying the processor loader of completion of standby processor switching; And a processor loader activated by the operating system to activate a program according to priority. The processor loader of claim 1, wherein the processor loader activated by the operating system comprises: And storing the priority of programs loaded into the standby processor and activating the program according to the stored priority when activated by the operating system.