JP3434311B2 - Electronic exchange - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electronic exchange which can take over old subscriber data as new subscriber data when updating an old system program to a new system program. . FIG. 6 is a block diagram illustrating the configuration of an electronic exchange. The electronic exchange has a duplex configuration in order to maintain high reliability, and is generally provided in a duplicated central processing unit (shown as CPU in the figure) 11, 12, a network 20, and a central processing unit 11, 12. It is composed of main storage devices (indicated as MM in the drawing) 31 and 32, duplicated external storage devices (indicated as FM in the drawing) 41 and 42, and an external auxiliary storage device (indicated as MTU in the drawing) 50. ing. T is a terminal connected to the network 20. [0003] In the drawing, "0" after each symbol indicates a "0" system having a duplicated structure, and "1" indicates a "1" system having a duplicated structure. For example, when the “0” system is operated as the active system, the “1” system is a standby system. The external storage devices 41 and 42 are connected in a confounding manner so that the external storage devices 41 and 42 can be accessed from either the central processing unit 11 or the central processing unit 12. In such an electronic exchange, a system program or office data may need to be changed due to addition or change of a function. At this time, it is necessary to transfer subscriber data to the new system. FIGS. 7 and 8 show system configurations (1) and (2) at the time of exchanging files in an electronic exchange. (A) shows the state of normal operation with the old file. Here,
Driving using the “0” system, the external storage device 41,
The old file is written in both 42. (Old) and (New) in the figure indicate that the contents of the external storage devices 41 and 42 are an old file and a new file. FIG. 2B shows a state in which a new file is loaded. Under the control of the central processing unit 11, a new file is loaded from the external auxiliary storage device 50 to the external storage device 42. At this time, the old file has been written in the external storage device 41, and the call processing has been executed with the old file. FIG. 2C shows a state of starting a new file. The new file loaded in the external storage device 42 is written in the main storage device 32, and the central processing unit 12 controls the network 20 by the new file. Perform call processing. At this time, the contents of the external storage device 41 remain the old file, but are separated from the central processing unit 12. FIG. 2D shows a state of the normal operation using the new file. The new file loaded in the external storage device 42 is also copied to the external storage device 41. At the time of such file replacement, it is necessary to transfer the subscriber data to the new system, and there is a demand for an electronic exchange that can transfer the subscriber data online and in real time. FIG. 9 is a diagram for explaining the transfer of subscriber data in a conventional example. The figure shows an example of an electronic exchange having a duplex configuration, where 11 and 12 are a central processing unit, 20 is a network, 31 and 32 are main storage devices, 41 and 42 are external storage devices, 50 is an external auxiliary storage device, and 60 is an external auxiliary storage device. An external conversion system for converting the subscriber data, T is a terminal. FIG. 1 shows an example of converting subscriber data off-line, in which subscriber data of the old system written in the external storage device 41 is dumped to a magnetic tape in the external auxiliary storage device 50 and the external conversion system 60 is converted. After performing the conversion processing to convert the data into the subscriber data of the new system, the data is loaded into the external storage device 41 through the external auxiliary storage device 50. As another conversion processing, the following processing can be performed. Convert the subscriber data with the old system program,
This is the subscriber data of the new system. In the restart processing at the time of the restart processing, the new system reads out the subscriber data of the old system and performs the conversion processing. In the conventional example described above with reference to FIG. 9, the subscriber data is converted off-line. Therefore, even during the conversion process, since the subscriber data is constantly updated, all the subscriber data cannot be taken over with the latest data. The conversion of the subscriber data by the old system program, which has been described in the conventional example, is performed by predicting a new system which may be changed in the future when the old system program is created. It is necessary to prepare a conversion program, and it is impossible to prepare a subscriber data conversion program that anticipates such future changes. Further, the conversion of the subscriber data during the restart processing of the new system described in the conventional example requires a long time for the restart processing because a large amount of subscriber data is sequentially read and converted. An object of the present invention is to realize an electronic exchange which can take over subscriber data online and in real time when a system program is changed. FIG. 1 is a block diagram for explaining the principle of the present invention. In the figure, 100 is an electronic exchange, 10 is a central processing unit for controlling exchange connection, 20 is a network that executes connection processing under the control of the central processing unit 10, and 30 is a system that is executed by the central processing unit 10. This is the main storage device into which the program has been written. Also, 41 and 42 are system programs,
A duplicated external storage device in which subscriber data is written, 50 is an external auxiliary storage device, and T is a terminal. 10A and 10B are provided in the central processing unit 10 according to the present invention, and 10A is a temporary conversion processing unit for temporarily converting old subscriber data to new subscriber data.
A permanent conversion processing unit B permanently converts all the subscriber data from the old subscriber data to the new subscriber data. The permanent conversion processing unit B is written in the external storage device 41 of the operating electronic exchange 100 with updating the system program. When replacing the existing file, the program of the new system executes the transfer of the subscriber data. When the system program is updated in the electronic exchange 100, the new system program is loaded from the external auxiliary storage device 50 to, for example, the external storage device 42 under the control of the central processing unit 10. The new system program is provided with a permanent conversion processing unit 10B for permanently converting all subscriber data from old subscriber data to new subscriber data, and by inputting a subscriber data conversion command. All old subscriber data can be converted to new subscriber data, and the subscriber data can be taken over online and in real time. In the case where connection processing by the new system program is performed during the conversion of the subscriber data, the subscriber data is read, and it is determined whether or not the subscriber data has been converted to the new subscriber data. If it has been converted, it will be output as it is as new subscriber data. If it has not been converted,
The read subscriber data is temporarily stored in a temporary conversion processing unit 10.
By converting the data to the new subscriber data and outputting the data, the new system program can normally execute the call processing. FIG. 2 is a diagram for explaining the transfer of old subscriber data according to the present invention. Now, the central processing unit 10 performs call processing using the old system program and the old subscriber data in the external storage device 41. Here, in order to operate with the new system program, the central processing unit 10 loads the new system program from the external auxiliary storage device (not shown) into the external storage device 42. Then, the old subscriber data is loaded into the subscriber data area of the external storage device 42 to take over the subscriber data. At this time, a status display area 42A as shown in FIG.
Is provided, “0” indicates an initial value indicating that the subscriber data has not been converted,
A subscriber data conversion command is set to “1” by input, a conversion process is executed, and when all the subscriber data conversion processes are completed, “2” is set. The data in the state display area 42A is intended to reduce the number of steps of the conversion process when reading the subscriber data, and to input the subscriber data command until all the subscriber data conversion is completed. It is for prohibition. Further, as shown in (C), a status display area 42B is also provided for each individual subscriber data so that "0" indicates that conversion has not been performed, "1" indicates that conversion is in progress, and "2" indicates that conversion has been completed. I do. This is used in the call processing to determine whether or not conversion processing of the read subscriber data is necessary. FIG. 3 is a flowchart for reading out the temporary conversion processing unit according to the present invention. 10a is a temporary conversion processing unit 10.
6 is a flowchart of a reading process of A. The operation of reading subscriber data will be described below with reference to a flowchart. It is determined whether or not the display of the status display area 42A has been converted. If the display of the status display area 42A has not been converted, the designated subscriber data is read. It is determined whether or not the display of the read subscriber data status display area 42 B has been converted. If the display of the status display area 42B has not been converted, the read data is old subscriber data, so that it is converted to new subscriber data and output. If the display of the status display area 42A has been converted, and if the display of the status display area 42B has been converted, the subscriber data has been converted to new subscriber data. Read. FIG. 4 shows a writing flowchart of the temporary conversion processing section of the present invention. 10a 'in FIG.
It is a write processing flowchart of 0A. The operation of writing subscriber data will be described below with reference to a flowchart. It is determined whether or not the display of the status display area 42A has been converted. If the display of the status display area 42A has not been converted, the designated subscriber data is read. It is determined whether or not the display of the read subscriber data status display area 42 B is being converted. Since the subscriber data to be read is in the process of being converted, it is returned as an error and waits until the conversion process is completed. If the subscriber data is not being converted, it is further determined whether or not the conversion has been completed. If it is determined that the conversion of the subscriber data has not been performed in -1,
Since the read data is old subscriber data, it is converted to new subscriber data. -2 Update new subscriber data (for example, add a new service). -3 Since the read subscriber data is read from the unconverted area, the new subscriber data of -2 is converted into the old subscriber data and written. If the display of the status display area 42A has been converted, and if the display of the status display area 42B has been converted, the subscriber data has been converted to new subscriber data. (For example, adding a new service). Since the read subscriber data is read from the converted area, the changed new subscriber data is written as it is. By the processing of the temporary conversion processing unit 10A shown in FIGS. 3 and 4, the call processing by the new system program can be normally executed even during the conversion of the subscriber data. FIG. 5 shows a flowchart of the processing of the permanent conversion processing unit of the present invention. 10b is a permanent conversion processing unit 10.
6 is a processing flowchart of B. The operation of the subscriber data conversion process will be described below with reference to a flowchart. This conversion processing is started by inputting a subscriber data conversion command. The display of the status display area 42 A is set during conversion. -1 The status is also displayed on the external storage device 42. This takes into account that some kind of failure occurs during the conversion process and the restart process occurs. It is determined whether or not the conversion of all the subscriber data has been completed. If the conversion has been completed, the process proceeds. If the conversion of all subscriber data has not been completed, the next subscriber data is read. It is determined whether or not the subscriber data has already been converted. If the display of the status display area 42B of the subscriber data is not already converted at -1, the status "converting" is set and written in the status display area 42B. -2 Convert the read old subscriber data to new subscriber data. (3) Set “converted” in the status display area 42B of the subscriber data, and write all related data to the external storage device. If it is determined that the conversion of all the subscriber data has been completed, the status display area 42A is set to "converted". The status display is also set in the external storage device 42. The old subscriber data can be transferred to the new subscriber data on-line and in real time by the processing of the permanent conversion processing unit described above. According to the present invention, the provision of the temporary conversion processing unit and the permanent conversion processing unit in the central processing unit of the electronic exchange makes it possible to take over the subscriber data online and in real time. Since the handover process is executed on the new system side, data conversion that cannot be predicted when the old system program is created can be handled on the new system side.
It does not affect the resumption process, and can immediately follow the declaration of change of subscriber data,
Serviceability can be maintained high.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram illustrating the principle of the present invention. FIG. 2 is a diagram illustrating handover of old subscriber data according to the present invention. FIG. 3 Reading of a temporary conversion processing unit according to the present invention. Flow chart [FIG. 4] Writing flow chart of temporary conversion processing unit of the present invention [FIG. 5] Flow chart of permanent conversion processing unit of the present invention [FIG. 6] Block diagram explaining configuration of electronic exchange [FIG. 7] File exchange of electronic exchange System configuration at the time of (1) FIG. 8 System configuration at the time of exchanging files of the electronic exchange (2) FIG. 9 illustrates handover of subscriber data in the conventional example [Description of reference numerals] 100 Electronic exchanges 10, 11 , 12 Central processing unit 10A Temporary conversion processing unit 10B Permanent conversion processing unit 20 Network 30, 31, 32 Main storage devices 41, 42 External storage devices 42A, 42B Status display Rear 50 external auxiliary storage device 60 conversion system T terminal

Continued on the front page (72) Inventor Miki Iwasa 3-5-5 Ichibancho, Aoba-ku, Sendai-shi, Miyagi Prefecture Inside Fujitsu Tohoku Communication Systems Co., Ltd. (58) Field surveyed (Int. Cl. ⁷ , DB name) H04Q 3/54-3/56

Claims (1)

(1) An electronic exchange for taking over subscriber data when a system program is updated from an old one to a new one, wherein the central processing unit executes a call process according to the system program. If, and an external storage device which is duplicated the system program and the compatible subscriber data to the system program is written, one of the duplexed external storage device, a new system program is the duplicated Old subscriber data loaded from the other of the external storage devices and conforming to the old system program, the new system program storing the one external storage device
Converts all old subscriber data held by
And a conversion by the permanent conversion processing unit.
Perform connection processing by the new system program during replacement
The specified subscriber data has not been converted
Temporarily stores the specified subscriber data in the new subscriber data.
Temporary conversion processing with read processing for converting to and outputting data
Electronic exchange, characterized in that it comprises a part.