KR100263380B1 - Control method of fiber loop carrier-curb management system - Google Patents

Abstract

PURPOSE: A method for controlling an FMS(Fiber Loop Carrier-Curb Management System) is provided to unify a message input/output window between a GUI(Graphic User Interface) device configuring the FMS and a system management device. CONSTITUTION: In a GUI(Graphic User Interface) device control step(S200), a message(201) from a GUI processor(111) and a message(202) through IPC(Inter Process Communication) from a manager are received. Contents of the received messages are analyzed and classified according to contents. And each message is outputted to a corresponding destination. A message(301) is received from an agent(131), and a message queue ID is generated. If the generation of the message queue ID becomes a failure, the steps are ended. If the received message is an FMS(Fiber Loop Carrier-Curb Management System) end message, the steps are ended. A message(301) from the agent(131) and a message(203) from the GUI device control step(S200) are received, and contents of the received messages are classified according to contents. If a received message is a system setup request message(302), the system setup request message(302) is outputted to the agent(131). If the received message is a response report message for the system setup request, input/output operations of a database are performed. If the received message is a system initialization message, an initializing operation is performed through the input/output operations of the database. If the generation of a message queue is successful, a message(202) is transmitted to the GUI device control step(S200). If the generation of a message queue is not successful, the FMS control step(S400) is ended.

Description

Control method of Fiber Loop Carrier-Curb Management System

The present invention relates to a method for controlling a management system of a demand-density type optical subscriber transmission device, and more particularly, having a unique processor and operating independently of a demand-density type optical subscriber transmission device (Fiber Loop Carrier-Curb Management System: Hereinafter referred to as a GUI (Graphic User Interface) device and an FLMS control method for collectively controlling the input / output operations of messages generated by the FLC-C system management device. .

The FMS is connected to the actual FLC-C system and the GUI device, which is a device for providing the FMS administrator with graphic-based information about the FLC-C system, to issue control commands to the FLC-C system, or It consists of a system management device that receives various information, and these two devices usually operate independently of each other. Therefore, each device operates with a separate processor, but a system using a plurality of processors has an advantage in that the processing speed is improved, but the debugging process is difficult.

Accordingly, the present invention has been made to solve the above problems, by unifying the message input and output window between the GUI device constituting the FMS and the system management device, the flow of messages between each component constituting the FMS Its purpose is to provide a FMS control method that integrates and controls the.

In order to achieve the above object, the FMS control method of the present invention is a GUI processing unit for providing a graphic screen of the operation status of the FLC-C system to the administrator, a GUI device consisting of its own database, and the agent through the FLC- In the FMS comprising a management unit connected to the C system and a system management unit composed of its own database, when a message from the GUI processing unit and a message via the IPC from the management unit come in, a message is received and the content is analyzed. Analysis step; If the received message is a message to be output to the management unit, sending a message to the management unit via IPC, and if the message to be output to the GUI processing unit, sending a message to the GUI processing unit; And if the received message is a message to be queried for the database, performing an input / output process of recording or retrieving arbitrary information in the database, and then sending the message back to the message analyzing step. ; And generating a message queue ID after receiving the message from the agent. If the message queue identification number generation fails in the above step, terminating all processes; Receiving a message from an Agent when the message queue identification number is successfully generated in the above step; A message classification step of classifying the received message; And an agent message receiving step of terminating all processes when the result of classification in the message classification step is an FMS termination message; Receiving a classification result in the message classification step of receiving the Agent message, a message which is not an FMS termination message, and a message input through IPC from the GUI device control process; Classifying the received message by content; If the received message is a system setting request message, outputting a system setting request message to the agent; The response report message for the system setting request, performing an input / output operation for recording the response contents in a database; And a message processing step of performing a database input / output operation on the message and terminating the present process with respect to the system initialization message. And generating a message queue identification number for the IPC with respect to the result message for the database input / output process. If the message queue generation is successful in the above step, transmitting a message to the GUI device control process through IPC; And if the message queue fails to generate the message queue in the above step, the system managing device control process comprising a message transmission process comprising terminating all processes.

1 is a configuration diagram of an FMS,

2 is a flowchart illustrating a GUI device control process according to the present invention;

3 is a flowchart illustrating a process for controlling a system management apparatus according to the present invention;

4 is a message flow diagram in an FMS control process according to the present invention.

* Explanation of symbols for main parts of the drawings

100: FMS 110: GUI device

111: GUI processing unit 112: Database of GUI processing unit

120: system management apparatus 121: management unit

122: database of the system management unit 131: Agent

132: FLC-C system

With reference to the accompanying drawings, the FMS control method of the present invention will be described in detail.

FIG. 1 is a configuration diagram of an FMS 100, in which a FMS administrator can grasp an operation state of a FLC-C system on a graphic screen through a monitor or the like, and issue a control command, and a FLC-C system. It consists of a system management device 120 to manage the operation of the Agent 131, the GUI device 110 and the system management device 120 operates independently using their respective processors, the message queue (Queue) Send and receive messages to each other by IPC (InterProcess Communication).

The GUI device 110 is composed of a GUI processing unit 111 that provides a graphic screen of the operation status of the FLC-C system to the FMS 100 administrator, and the database 112 of the GUI device 110 itself, the system management The device 120 controls the FLC-C system 132 through the Agent 131 or receives the status information from the FLC-C system 132 and transmits the state information to the GUI device 110. ), And the database 122 of the system management apparatus 120 itself. In addition, message transmission and reception in the GUI device 110 and the system management device 120 is performed between the GUI processing unit 111 and the database of the GUI device 110, and the database 122 of the management unit 121 and the system management device 120. ) And between the GUI processing unit 111 and the management unit 121.

4 is a message flow diagram in the FMS control process (S400) according to the present invention, the messages (201, 205) input and output from the GUI processing unit 111 and the messages (301, 302) input and output from the Agent 131 is FMS control process (S400) It is integrated and managed by. In the GUI device control process (S200) and the system management device control process (S300), input and output to its own database (112, 122), respectively, as necessary, GUI device control process (S200) and system management device control process ( S300 exchanges messages with each other via IPC.

2 is a flowchart illustrating a GUI device control process (S200), and includes a message receiving / analyzing step S210, classifying a message by content S220, and an input / output step S230 for a database.

GUI device control process (S200), when the message 201 from the GUI processing unit 111 and the message 202 through the IPC from the management unit 121, receives the message, and analyzes the content of the message (step S210), the message is classified by its contents (step S220). As a result of the classification in step S220, if the message is to be output to the management unit 121, the message 203 is sent to the management unit via the IPC, and if the message is to be output to the GUI processing unit 111, the message 205 to the GUI processing unit 111. Send it. In addition, if the message is to be queried for the database, after performing the input and output process (step S230) for recording or retrieving arbitrary information in the database, the result is sent back to the message analysis step (S210).

3 is a flowchart of a system management apparatus control process (S300), and includes an agent message receiving process (S310), a message processing process (S320), and a message transmitting process (S330).

Agent message receiving process (S310) after receiving the message 301 from the Agent 131, generating a message queue identification (massage queue ID) (S311), if the message queue identification number generation fails in step S311 Terminating the FMS control process (S400) (S314), if the message queue identification number is successfully generated in step S311, receiving the message 301 from the agent 131 (S312), from step S312 Classifying the received message according to the content (S313), and if the result of the classification in step S313, the FMS end message, the step of terminating the FMS control process (S400) (S314).

The message processing process S320 receives a message that is not a classification result FMS end message in step S313 of the agent message receiving process S310, and a message 203 input through IPC from the GUI device control process S200. In step S321, classifying the message received from step S321 by content (S322), and if the received message is a system setting request message, the system setting request message 302 is sent to the agent 131. Outputting (S323), if the result of classification in step S322 is a response report message for the system setting request, performing an input / output operation for recording the response contents in the database 122 (S323), and classifying in step S322. As a result, if it is a system initialization message, a step of performing a database 122 input / output operation for this message and terminating the system management apparatus control process (S300) is performed (S324).

The message transmission process (S330) generates a message queue identification number for the IPC with respect to the result message of the database 122 input / output process in step S323 (S331). Sending the message 202 to the GUI device control process (S200) (S333), and if it fails to create a message queue in step S331, the step of terminating the FMS control process (S400) (S332).

Using the FMS control method (S400) according to the present invention, since each device constituting the FMS 100 can unify the input and output window of the message sent and received, there is an effect of improving the speed and strength debugging of each device. .

Claims (1)

The FLC-C system 132 through the GUI device 110 composed of the GUI processing unit 111, its own database 112, and the agent 131, which provides the administrator with a graphic screen of the operation status of the FLC-C system. In the FMS (100) consisting of a management unit 121 and a system management unit (120) composed of its own database (122) connected to, from the message 201 and the management unit 121 from the GUI processing unit 111 A message analysis step of receiving a message and analyzing its contents when a message 202 is received through IPC; If the received message is a message to be output to the management unit 121, sending a message 203 to the management unit via IPC, and if the message to be output to the GUI processing unit 111, sending a message 205 to the GUI processing unit 111; And If the received message is a message to be inquired of the database, performing an input / output process of recording or retrieving arbitrary information in the database, and then sending the message back to the message analyzing step as a result; And Generating a message queue ID after receiving the message 301 from the agent 131; If the message queue identification number generation fails in the above step, terminating all processes; Receiving a message 301 from the Agent 131 when the message queue identification number is successfully generated in the above step; A message classification step of classifying the received message; And Receiving agent message comprising the step of terminating all processes, if the result of the classification in the message classification step, FMS end message; Receiving a result of classification in the message classification step of receiving the Agent message, a message which is not an FMS termination message, and a message 203 input through IPC from the GUI device control process; Classifying the received message by content; If the received message is a system setting request message, outputting a system setting request message 302 to the Agent 131; For the response report message for the system setting request, performing an input / output operation for recording the response contents in the database 122; And The system initialization message may include: a message processing step of performing a database 122 input / output operation on the message and terminating the present process; And Generating a message queue identification number for the IPC with respect to the result message for the input / output process of the database 122; If the message queue creation is successful in the above step, transmitting the message 202 to the GUI device control process via IPC; And And failing to create a message queue in the above step, including a step of controlling a system management device comprising a message transmitting step of terminating all processes.

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