KR950015116A - Intelligent network service data recovery method - Google Patents

Abstract

The present invention relates to a service data recovery method in an intelligent network service. The present invention is applied to a service control transaction processing system having dual processors in a system, so that the service data in each processor can be matched. When a processor becomes abnormal due to a failure, etc., the load of the processor is charged to another normal processor to improve the efficiency and reliability of the entire system. It is effective to provide services.

Description

Intelligent network service data recovery method

Since this is an open matter, no full text was included.

1 is a configuration diagram of an intelligent network service control / management system to which the present invention is applied;

2 is a block diagram of a service data recovery block;

3 is a flowchart of a service data recovery method according to the present invention;

* Explanation of symbols for main parts of the drawings

1, 2: Transactional I / O link device 3, 4: CCP (Common Channel Signaling Processor)

5, 6: LAN (Local Area Network) device 7, 8: SLP (Service logic Processor)

9: Service Management Prcessor (SMP) 10, 13: Service processing memory database

11, 14: service subscriber database 12, l5: service operation database

16: service subscriber master database 17: service operation master database

18: service data management task seat

Claims (1)

First and second Common Channel Signaling Processors (CCPs) 3 and 4, which are front end processors through which transactions are input through the first and second transaction input / output link devices 1 and 2, and the first and second CCPs (3, 4). The result of 4) is again processed through the first and second local area network (LAN) devices 5 and 6 to process the dialogue handler on the protocol in the first and second service logic processors (SLPs) 7 and 8, which are later processors. For the service-specific response, the response is generated by the service-specific logic data in the first and second service processing memory databases 10 and 13 in the first and second SLPs 7 and 8, and the reverse order is generated. In the normal situation, processing of the transaction balances mutual loads at the first and second CCPs 3 and 4, and the first and second SLPs 7, 8, and the first and second SLPs. (7,8), the service logic data is stored in the first and second service processing memory databases (10, 13) and the first and second service operating databases (12, 15) used for service operation management, if present in the form of first and second service subscriber databases (11, 14), and service subscriber data change management and service. Intelligent network service control / which comprises a service data recovery device 9 in an SMP (Service Management Processor) 9 dedicated to operation management and has a service subscriber master database 16 and a service operation master database 17 A data recovery method applied to a management system, the first step (31, 32) of retrieving the corresponding data from the master database of the SMP when a service data recovery request is received from the work seat for service data management: the first step ( After performing the data retrieval, if the data retrieval fails, the second step (33) outputs no data and terminates the retrieval type verification. ; A third step (35, 36) of comparing the SMP data with the first SMP or the second SLP data using the service data verification method after performing the second step 33; After performing the third step (35, 36), if the data of the first and second SLP is the same as the SMP data, if the recovery request type is 'group' or 'all', it returns to the data retrieval process and the recovery request type is single A fourth step 45 of ending; After performing the second and third steps 33 and 35 and 36, the first and second SLPs may be used regardless of the form of the subscriber subscriber data, or if the data of the first and second SLPs are different from the SMP data. A fifth step (37-40) of generating a recovery request message to be transmitted to the first and second SLPs if the data of the data is different from the SMP data, and determining a recovery result; After performing the fifth step (37 to 40), if the received response result in both the first and second SLP, the recovery result is output, and if the recovery request type is 'group' or 'all', the data retrieval process A sixth step (41, 45) of returning and ending if the recovery request type is single; After performing the fifth step (37 to 40), if there is a response from either of the first or second SLP, the data recovery result is output to the corresponding SLP, and if the recovery request type is 'group' or 'all' A seventh step (42, 43, 45) of returning to the data retrieval process and ending if the recovery request type is single; After performing the fifth step (37-40), if the received response result is no response in both the first and second SLP, an error message is output and if the recovery request type is 'group' or 'all', the data search process is performed. An eighth step (44, 45) of returning and ending if the recovery request type is single; After performing the third steps 35 and 36, if the data of the first SLP is different from the SMP data, a recovery request message to be transmitted to the first SLP is generated and transmitted, and the recovery result is received from the first SLP. A ninth step (46 to 49) to wait for; After performing the ninth steps (46 to 49), if a response arrives normally, the data recovery result is output to the first SLP, and if no response is output, an error message is output, and then the operation is terminated or the recovery operation is repeatedly performed. Tenth step (50, 51, 45); After performing the third step (35, 36), if the data of the second SLP is different from the SMP data, and generates and sends a recovery request message to be sent to the second SLP and receives a recovery result from the second SLP result of the recovery response An eleventh step (52 to 55) to wait for; And after performing the eleventh step (52 to 55), if a response is normally received, outputs a data recovery result to the second SLP, if not, outputs an error message and terminates or repeats the recovery operation according to the recovery request form. Intelligent network service data recovery method comprising: a twelfth step (56, 57, 45). ※ Note: The disclosure is based on the initial application.