KR20000018954A - Processing management method of a hlr(home location register) system in mobile communications - Google Patents

Abstract

PURPOSE: A processing management method of a HLR(Home Location Register) system in mobile communications is provided to check the state of application processors, which exist corresponding to the HLR system in mobile communications HLR system, and perform appropriate processing according to abnormal situations. CONSTITUTION: A processing management method of a HLR system in mobile communications comprises the steps of: outputting a health check message to the processor, operating a health check counter simultaneously, and calculating health check time; comparing the health check time and predetermined time, when the health check calculating time passes a health check limit in the state of an answering message about the health check message not being inputted; reoperating after stopping the processor according to the result, or performing processing functions.

Description

Processor Management Method in Mobile Communication ETEL System

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to processor management in a mobile communication HLR system. In particular, when an abnormal situation occurs by checking a state of application processors existing in the corresponding HLR system, appropriate processing may be performed according to the abnormal situation. The present invention relates to a processor management method in a mobile communication HLR system.

In general, there are many application processors in the mobile communication HLR system, and there are processor management blocks for managing the corresponding application processors. The processor management blocks have their own processor management functions, operator terminal management functions, and network management center management functions. Its own processor management functions include periodic processor health check, lock file check, program startup status monitoring, overload status check and clear of queue, It refers to functions such as processor recovery in case of failure, management of HLR local subsystem, etc. The operator terminal management function refers to functions such as processor status reporting, processor shutdown and startup, and reporting on processor failure and recovery. Report processor status, report on processor failure and recovery Such as function.

For example, the overall operation of the processor management block will be described as an example. First, the existence and validity of application processors related to the system are verified through an initialization process. Then, a health check is performed every two seconds for periodic application processor management. It performs overload check, lock file check, and message management every second. If the application processors do not respond until a certain time has elapsed, the timeout is restarted and the application processors are restarted.

Meanwhile, in the mobile communication HLR system, an abnormal situation may occur in the system due to various causes for operation. In the related art, the health check processing unit of the processor management block checks the health of various application processors existing in the system and processes them when a failure occurs. Checks the health of each application processor.

First, the health check processor outputs a health check message to the application processor to check the health of the application processor, and if the response message for the health check message is not input even after a predetermined time from the application processor, the application processor. Will be judged to be abnormal.

Accordingly, the processor management block solves the abnormal situation by stopping and restarting the application processor determined to be abnormal.

In this case, however, during the operation of the system, the application processor may be overloaded or processing a message, and thus a response message may not be sent for a while, and the health check message or response message may be lost due to a system abnormality condition. Since the situation may occur, it is difficult to solve the situation by stopping and restarting the application processor unnecessarily.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and an object thereof is to manage application processors existing in a mobile communication HLR system. In the case of no response to a health check message in the application processor, the system is overloaded or applied. It is to check the message processing state of the processor to perform a corresponding processor management function.

A feature of the present invention for achieving the above object is, in the processor management method in a mobile communication HLR system, the process of outputting a health check message to the processor and at the same time operating a health check counter to count the health check time and; Comparing the health check counting time with a predetermined time when the health check counting time passes the health check limiting time without a response message to the health check message being input; The method may include stopping and restarting the processor or performing a processor processing function according to the comparison result.

1 is a block diagram of a mobile communication HLR system according to the present invention;

2 is a flowchart illustrating processor management in a mobile communication HLR system according to the present invention.

Explanation of symbols on the main parts of the drawings

10: operator terminal 20: processor management means

21: health check processing unit 22: overload control unit

23: processor processor 30-1 ~ 30-n: application processor

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The configuration of the mobile communication HLR system according to the present invention, as shown in the accompanying drawings, Figure 1, has an operator terminal 10, processor management means 20 and a plurality of application processors (30-1 ~ 30-n) It is done by

The operator terminal 10 manages the processor management means 20.

The processor managing means 20 performs a state processing function by checking the states of the application processors 30-1 to 30-n, but therein, the health check processing unit 21, the overload control unit 22, and the processor processing unit ( 23, the health check processor 21 periodically determines the state of the application processors 30-1 to 30-n by using the health check message, and performs a corresponding state processing function. The overload controller 22 periodically checks the message queues of the application processors 30-1 to 30-n to perform corresponding processing functions, and the processor processor 23 performs the application processors 30-1 to 30-n. ) Checks the presence and normal operation and performs the corresponding processing function.

Each application processor 30-1 to 30-n processes functions related to the location and service rights of the mobile subscriber, call processing, additional services, external interfaces, and the like.

The processor management operation in the mobile communication HLR system according to the present invention configured as described above will be described with reference to FIG. 2.

First, the health check operation for the application processors 30-1 to 30-n is performed by the processor processor 23 through the initialization process in the processor management unit 20 of the corresponding mobile communication HLR system. When the presence and validity of 1 to 30-n are verified, the health check processing unit 21 is performed by the health check processing unit 21. The health check processing unit 21 periodically generates a health check message to presently present an application processor 30-1. 30-n) and outputs its own health check counter to start time counting, and if a response message for a health check message is input from the corresponding application processor 30-1 to 30-n, the corresponding health The check counter is controlled to terminate the time count and initialize the health check counter.

At this time, the processor management means 20 of the mobile communication HLR system performs processing for the state of the processor. First, the health check processing unit 21 of the processor management means 20 counts in its own health check counter. The present time hc_cnt is compared with the health check limit time HEALTH_LIMIT (step S21).

If the health check count time hc_cnt has passed the health check limit time HEALTH_LIMIT, that is, the response message is not inputted from the application processors 30-1 to 30-n that received the health check message. When the check count time hc_cnt continues to count after the health check limit time HEALTH_LIMIT, the overload control unit 22 of the processor managing means 20 confirms whether the corresponding system is in an overload state (step S22). The overload controller 22 examines the message queues of the respective application processors 30-1 to 30-n so that the message storage amount of each message queue is the first limit message amount (the limit message storage amount of the message queue for each application processor). In the case of a system that exceeds 65,535 bytes, or the sum of the message storages stored in the message queue of all application processors 30-1 to 30-n, the second limit message amount (messages of all application processors). Overload condition if the total amount of limit messages for the system exceeds approximately 120,000 bytes for the current system or if the number of messages exceeds the limit number of messages (2,400 for the current system, the number of messages that can be stored in the message queue). Will be set.

In step S22, if the system is overloaded, the health check processor 21 responds to the health check message because the health check message is not smoothly exchanged with the application processors 30-1 to 30-n. The message must be waited for more time than usual, i.e., more than the health check timeout (HEALTH_LIMIT), where the processor management means 20 deletes the message queue in the message queue due to the overload or its own queue. An overload process such as deleting the message stored in the storage device is performed (step S23).

Then, the health check processing unit 21 compares the time hc_cnt counted by its own health check counter with the overload control time OVERLOAD_LIMIT according to the overload (step S24), and the corresponding health check counting time hc_cnt is determined. If the overload control time OVERLOAD_LIMIT has not elapsed, the operation is terminated. If the corresponding health check count time hc_cnt has passed the overload control time OVERLOAD_LIMIT, that is, the application processor receiving the health check message 30- If the response check message is not inputted from 1 to 30-n and the corresponding health check counting time hc_cnt continues to count after the overload control time OVERLOAD_LIMIT, the processor processor 22 of the processor managing means 20 It is confirmed whether the application processors 30-1 to 30-n are operating for message processing (step S25).

On the other hand, if the system is not in an overloaded state in step S22, the operation of step S25 is performed to check whether the corresponding application processors 30-1 to 30-n are operating for message processing.

In operation S25, when the corresponding application processors 30-1 to 30-n are operating, the corresponding application processors 30-1 to 30-n are processing a message having a long processing time, and thus, the health check message is determined. Since the response message may not be transmitted, the health check processing unit 21 compares the time counted by its own health check counter (hc_cnt) with the processor operating time (WORKING_LIMIT) according to the processor's message processing (step S26). ), If the corresponding health check count time hc_cnt has passed the processor operating time WORKING_LIMIT, that is, a response message is not inputted from the application processors 30-1 to 30-n receiving the health check message. When the health check counting time hc_cnt continues to count after the processor operating time WORKING_LIMIT, the processor managing means 20 indicates that the corresponding application processors 30-1 to 30-n operate abnormally. In response to the determination, the application processors 30-1 to 30-n are stopped (step S27) and then restarted (step S28), thereby terminating the processor management operation in the mobile communication HLR system.

However, in step S25, if the corresponding application processors 30-1 to 30-n are not operating, the operation of step S27 is performed to stop the corresponding application processors 30-1 to 30-n.

On the other hand, in step S26, if the corresponding health check count time hc_cnt does not pass the processor operating time WORKING_LIMIT, that is, the processor operating time from the application processors 30-1 to 30-n receiving the health check message. When the response message is input in a state in which (WORKING_LIMIT) has not elapsed, the health check processing unit 21 controls the health check counter to end the corresponding health check count time hc_cnt, and at this time, the processor processing unit 23 After performing a processor processing function such as flushing messages existing in the application processors 30-1 to 30-n (step S29), the processor management operation in the corresponding mobile communication HLR system is terminated.

As described above, the present invention periodically repeats the health check operation, and in case of no response to the health check message in the corresponding mobile communication HLR system, unconditionally whether the system is overloaded and the application without stopping and restarting the application processor. By taking the appropriate response according to the operation of the processor, it is possible to minimize the failure of the system, it is possible to minimize the downtime of the application processor to increase the available time of the system.

As described above, the present invention manages the application processors existing in the mobile communication HLR system, in the case of the non-response to the health check message in the application processor checks the overload state of the system or the message processing state of the application processor to respond By performing the processor management function, the downtime of the processor can be minimized, thereby minimizing the failure of the system and improving the available time.

Claims (5)

In the processor management method in a mobile communication HLR system, Counting a health check time by outputting a health check message to the processor and operating a health check counter; Comparing the health check counting time with a predetermined time when the health check counting time passes the health check limiting time without a response message to the health check message being input; And stopping or restarting the processor or performing a processor processing function according to the comparison result. The method of claim 1, Comparing the health check count time with a predetermined time, the step of overloading by checking whether the mobile communication HLR system is overloaded; And comparing the health check count time with the overload control time. The method of claim 2, Comparing the health check counting time with the overload control time and ending the operation when the health check counting time does not pass the overload control time; If the health check count time passes the overload control time, checking whether the processor is in operation and comparing the health check count time with the processor operation time, the processor management method in a mobile communication HLR system, further comprising: . The method of claim 1, Comparing the health check counting time with a predetermined time, the processor management in the mobile communication HLR system, characterized in that further comprising the step of comparing the health check counting time and the processor operating time by checking whether the processor is in operation Way. The method of claim 4, wherein Comparing the health check count time with the processor operation time and ending the operation when the health check count time does not pass the processor operation time; Checking whether the mobile communication HLR system is overloaded when the corresponding health check count time passes the processor operation time, and comparing the health check count time with an overload control time. Processor management methods