KR100327041B1 - Method for attending advanced batch function in an exchange - Google Patents

Abstract

The present invention relates to a method of performing an advanced batch function of an exchange, wherein the instructions of the batch function are stored in a memory for each sequence, the stored batch commands are sequentially executed, and the subsequent sequence numbers are designated according to the execution result of the instructions. To continue processing the instruction execution routine. If the processing result is normal, the station number and area number for each link existing in the plurality of subscriber boards are stored in the database. Therefore, there is an effect that can efficiently test by solving the discontinuity of the batch function.

Description

METHOOD FOR ATTENDING ADVANCED BATCH FUNCTION IN AN EXCHANGE}

The present invention relates to a method of performing an advanced deployment function of an exchange, and more particularly, to an asynchronous transmission mode main processor assembly board (hereinafter referred to as AMPA) and a subscriber board, and a state of a subscriber board link and a database. The present invention relates to a method of enabling a layout function of a memory structure that continuously processes the instruction execution routine by designating a subsequent sequence number in order to identify the sequence.

Typically, an exchange is connected with an operator terminal to receive a status request command from the operator terminal to determine the status of AMPA and multiple subscriber boards, subscriber board links, and the like, and then sends a result message corresponding to the received status request command. Notify operator terminal.

This status request instruction is performed by a batch function consisting of a file structure, which simply processes the various instructions listed in the batch file sequentially.

At this time, if the result message corresponding to the command of the scenario listed in the batch file, for example, the status request command of the subscriber board link, and the result message indicating that an error (NOK) occurred on the subscriber board link, the batch function is terminated by itself. As a result, subsequent instructions that must be executed sequentially cannot be executed, and thus there is a problem that the batch function does not have meaning.

Accordingly, the present invention has been made in view of the above-described problems, and an object thereof is to designate a sequence of execution of the instruction by designating a subsequent sequence number to grasp the status of AMPA and a plurality of subscriber boards, subscriber board links, databases, and the like. It is an object of the present invention to provide a method for performing an advanced placement function of an exchange that can perform a placement function of a memory structure that is continuously processed.

In order to achieve the above object, in the present invention, a method for performing an advanced batch function of an exchange includes: a first process of storing instructions of a batch function in a memory for each sequence; A second step of sequentially executing instructions of a batch function stored in a memory, and continuously processing an instruction execution routine by designating a subsequent sequence number corresponding to the execution result of the instruction; And a third process of storing a station number and an area code for each link existing in the plurality of subscriber boards in a database when the command execution result is normal.

1 is a block diagram illustrating a method for performing an advanced batch function of an exchange according to the present invention;

2 is a detailed flowchart illustrating a method of performing an advanced batch function of an exchange according to the present invention;

FIG. 3 is a diagram illustrating a table of performance of placement functions for first and second subscriber boards according to an embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

10: operator terminal 12: memory

20: AMPA 30: first subscriber board

30-1: second subscriber board 40: database

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

1 is a block diagram for performing a method for performing an advanced deployment function of an exchange according to the present invention, comprising an operator terminal 10, an AMPA 20, a plurality of subscriber boards 30, ... Database 40.

The operator terminal 10 has a memory 12 internally and is a terminal which is operated by an operator. The operator terminal 10 stores instructions according to the execution of a batch function in the memory 12 and then performs a sequence according to a request to perform a batch function from an operator. The command corresponding to the number is transmitted to the AMPA 20. Thereafter, the command execution result is received from the AMPA 20, and the command of the subsequent sequence number is transmitted to the AMPA 20 in response to the result.

The AMPA 20 receives the command corresponding to the sequence number from the operator terminal 10 to determine the state of the command, and according to the result of the determination, the first subscriber board 30 and the second subscriber board 30-1. ) And the state of the database 40, and transmits the result to the operator terminal (10). And when the state of the first and second subscriber boards 30 and 30-1 is normal, for the first and second subscriber board links existing in the first and second subscriber boards 30 and 30-1. The station number and the telephone number are transmitted to the database 40.

The database 40 stores the station number and telephone number for the first and second subscriber board links received from the AMPA 20 only when the status of the first and second subscriber board links is normal.

Referring to the flowchart of Fig. 2, a method for performing an advanced batch function according to the present invention having the above-described configuration will be described.

First, the operator uses the operator terminal 10 to test the status of the AMPA 20 and the first and second subscriber boards 30 and 30-1 and the subscriber board link (not shown). Do this. Here, the first and second subscriber boards (30, 30-1) is the capacity of the resource to write the subscriber board link for each board (for example, when the total capacity of the first subscriber board 30 is 155mega) For example, there are 75 subscriber board links because one link is 2mega at E1 level, and there are 3 subscriber board links because one link is 45mega at STM1 level.) ) Stores an area code and a station number in the database 40.

In addition, the operator terminal 10 sequentially reads various instructions stored in the memory 10 according to the sequence number according to the execution of the batch function from the operator and transmits the corresponding command to the AMPA 20. Perform.

A detailed description will be given with reference to the arrangement function performance table for the first subscriber board 30 and the second subscriber board 30-1 according to an embodiment of the present invention shown in FIG. 3.

Referring to FIG. 3, the AMPA 20 determines the state of the AMPA 20 according to a status request command of the AMPA 20 corresponding to sequence number 1 received from the operator terminal 10 (201).

If the state of the AMPA 20 is abnormal in the state grasp 201, a sequence indicating an error occurrence, for example, -1, is transmitted to the operator terminal 10 (step 202). On the other hand, if the state of the AMPA 20 is normal in the state grasp 201, a sequence, for example, 2, for executing subsequent instructions is transmitted to the operator terminal 10 (step 203).

When the operator terminal 10 receives the sequence received from the AMPA 20, that is, -1, it recognizes that an error has occurred in the AMPA 20, terminates the batch function, and receives 2, the sequence 2 The status request command of the corresponding first subscriber board 30 is transmitted to the AMPA 20 (step 204).

The AMPA 20 determines the state of the first subscriber board 30 received from the operator terminal 10 (step 205).

If the state of the first subscriber board 30 is abnormal in the state check 205, a sequence, for example, 3, for requesting the state check of the second subscriber board 30-1 is transmitted to the operator terminal 10. (Step 206). On the other hand, if the state of the first subscriber board 30 is normal in the state check 205, a sequence for requesting the state check of the first subscriber board link existing in the first subscriber board 30, for example, 4 Is sent to the operator terminal 10 (step 207).

When the operator terminal 10 receives a sequence for requesting the status of the second subscriber board 30-1 from AMPA 20, that is, 3, the operator terminal 10 corresponds to sequence 3. Transmits a status request command of AM) to AMPA 20, and receives 4, sends a status request command of the first subscriber board link existing in the first subscriber board 30 corresponding to sequence 4 to AMPA 20. Transmit (step 208).

The AMPA 20 determines the state of the second subscriber board 30-1, which is a command corresponding to sequence 3 received from the operator terminal 10 (step 209).

If the state of the second subscriber board 30-1 is abnormal in the state check 209, an error occurrence message of the second subscriber board 30-1 is transmitted to the operator terminal 10 to terminate the batch function. (Step 210). On the other hand, if the state of the second subscriber board (30-1) is normal in the state check 209, and transmits a sequence, for example, 6 to the operator terminal 10 requesting the state of the second subscriber board link. (Step 211).

When the operator terminal 10 receives the sequence 4 from the AMPA 20, the operator terminal 10 transmits a status request command of the first subscriber board link corresponding to the fourth to the AMPA 20, and receives the sequence 6, and corresponds to the sixth. And sends a status request command of the second subscriber board link to the AMPA 20 (step 212).

The AMPA 20 first grasps the state of the first subscriber board link corresponding to number 4 of the sequence numbers received from the operator terminal 10 (step 213). If the first subscriber board link is abnormal in the state check 213, the state of the next first subscriber board link is determined (step 214). On the other hand, if the first subscriber board link is normal in the status check 213, a sequence for transmitting an asynchronous transmission mode (ATM) cell to the first subscriber board 30 to test whether the transmitted cell returns to normal. For example, 8 is sent to the operator terminal 10 (step 215).

Next, the AMPA 20 determines the state of the second subscriber board link corresponding to the sequence 6 (step 216). If the state of the second subscriber board link is abnormal in the state check 216, the state of the next second subscriber board link is determined (step 217). On the other hand, if the state of the second subscriber board link is normal in the state check 215, a sequence for testing whether the cell returns to normal by transmitting an ATM cell to the second subscriber board 30-1, for example, 9 is sent to operator terminal 10 (step 218).

When the operator terminal 10 receives the sequence 8 from the AMPA 20, the operator terminal 10 transmits an ATM cell test request command looped at the first subscriber board 30 corresponding to the number 8 to the AMPA 20 (step 219). When receiving the sequence 9, the second subscriber station 30-1 corresponding to the number 9 transmits the looped ATM cell test request command to the AMPA 20 (step 220).

The AMPA 20 determines, among the sequence numbers received from the operator terminal 10, the state of the ATM cell looped at the first subscriber board 30 according to the instruction corresponding to No. 8 (step 221). If the ATM cell state is abnormal in the state check 221, the batch function is terminated (step 222). On the other hand, if the ATM cell state is normal in the state grasp 221, a sequence for storing the station number and area code in the database 40 is transmitted to the operator terminal 10 (step 223).

Next, the AMPA 20 determines the ATM cell state looped at the second subscriber board 30-1 according to the command corresponding to No. 9 (step 224). If the ATM cell state is abnormal in the state grasp 224, the batch function ends (step 225). On the other hand, if the ATM cell state is normal in the state grasp 224, a sequence for storing the station number and area code in the database 40 is transmitted to the operator terminal 10 (step 226).

When the operator terminal 10 receives the sequence 10 received from the AMPA 20, the operator terminal 10 transmits a station number and area code storage request command for the first subscriber board link corresponding to 10 to the AMPA 20 (step 227). . When receiving the sequence 12, a station number and area code storage request command for the second subscriber board link corresponding to 12 is transmitted to the AMPA 20 (step 228).

The AMPA 20 grasps the state of the database 40 to store the station number and telephone number for the first and next subscriber board links corresponding to number 10, first of the sequence numbers received from the operator terminal 10. (Step 229). If the state of the database 40 is abnormal in the state grasp 229, the batch function is terminated (230). On the other hand, if the state of the database 40 is normal in the state grasp 229, the station number and telephone number for the first and next subscriber board links are stored in the database 40 (step 231).

Next, the AMPA 20 determines the state of the database 40 to store the station number and telephone number for the second and next subscriber board links corresponding to sequence 12 (step 232). If the state of the database 40 is abnormal in the state grasp 232, the batch function is terminated (233). On the other hand, if the state of the database 40 is normal in the state grasp 231, the station number and telephone number for the second and next subscriber board links are stored in the database 40 (step 234).

As described above, the arrangement function for a plurality of subscriber boards is possible in the same manner as the arrangement function for the first subscriber board 30 and the second subscriber board 30-1.

As described above, the present invention continues the instruction execution routine by designating a subsequent sequence number to determine the state of an asynchronous transfer mode main processor assembly board (AMPA) and a plurality of subscriber boards, subscriber board links, and databases. By performing the batch function of the memory structure to be processed, the discontinuity of the batch function can be solved and the test can be efficiently performed.

Claims (4)

In the method of performing a batch function of the exchange having a plurality of subscriber board, A first step of storing the instructions of the batch function in a memory for each sequence; A second step of sequentially executing instructions of a batch function stored in the memory, and continuously processing the instruction execution routine by designating a subsequent sequence number corresponding to the execution result of the instruction; And And if the result of the command execution is normal, storing a station number and area code for each link existing in the plurality of subscriber boards in a database. The method of claim 1, wherein the command is: Requesting understanding of the state of the subscriber board, the subscriber board link existing within the subscriber board, the asynchronous transfer mode main processor assembly board (AMPA), and a database. The method of claim 1, wherein the command is: A method of performing an advanced placement function of an exchange comprising a memory structure. The method of claim 1, And if the execution result of the command is abnormal, ending the batch function.