KR19990070117A - M Interface Protocol Method for Network Matching in Switching System - Google Patents

Abstract

The present invention relates to a protocol method for matching M interfaces using a TCP / IP protocol to transmit all output messages generated at an exchange to a network management center managing a plurality of exchanges.

In the present invention, in order to centrally manage all output messages generated from various exchange stations by subdividing tasks for statistics, configuration information, failures, etc. in the network management center, the network management center establishes a TCP socket connection to the exchange. Check the port type and preparation of message transmission and reception between management application processes for the corresponding socket port, and instruct the exchange to send and receive messages by instructing the type of message to be sent and received on the corresponding port and the start of transmission, and the corresponding type being transmitted and received from the exchange. Instructs the centralized management system of the switching network to instruct the operator to stop sending / receiving input / output messages and to terminate the TCP socket which commands the sending / receiving of all messages before releasing the TCP socket connection from the network management center to the exchange. .

Description

M Interface Protocol Method for Network Matching in Switching System

The present invention relates to an M interface protocol method for network matching in an exchange system. In particular, the M interface is used using a TCP / IP protocol to transmit all output messages generated at an exchange to a network management center managing a plurality of exchanges. It relates to a matching protocol method.

Existing electronic switchboards were operated mainly for currency, and system management was managed by each exchange in its own country and self-measured in case of failure. Therefore, because the problems of the various exchanges are managed differently, there is a problem that it is difficult to take corrective action in the event of a failure and that the overall problem of the system is not accurately understood, so that the actions and recovery of the failure of the exchange system are not possible.

Therefore, it was required to develop a system that could centrally manage all output messages generated from multiple exchanges by subdividing tasks such as communication, configuration information, and faults in the network management center.

Accordingly, an object of the present invention is to provide an M interface protocol method for matching a network using a TCP / IP protocol so that a network management center can manage a plurality of switching stations.

1 is a block diagram of a system for centralized network management according to an embodiment of the present invention

2 is a flowchart illustrating a port type and a message transmission / readiness preparation confirmation between management application processes according to an embodiment of the present invention.

3 is a flowchart illustrating a message transmission and reception start procedure according to an embodiment of the present invention.

4 is a flowchart illustrating a procedure for interrupting message transmission / reception according to an embodiment of the present invention.

5 is a flowchart illustrating an operator output message transmission procedure according to an embodiment of the present invention.

6 is a flowchart illustrating a process state checking procedure according to an embodiment of the present invention.

7 is a flowchart illustrating a procedure for releasing a TCP socket connection according to an embodiment of the present invention.

8 is a flowchart illustrating an operator command processing procedure according to an embodiment of the present invention.

9A, 9B, 9C, and 9D are table configuration diagrams in the form of definition data for parameters.

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

1 is a block diagram of a system for centralized network management according to an embodiment of the present invention.

The MSC switch 100 includes network management applications such as an IPC program and an MMS program to communicate with the network management center 120. The External Network Interface Processor (ENIP) 110 is used as an ultra SUN workstation, connected to the MSC switch 100, and converts data received through IPC (Inter Processor Communication) to the TCP / IP protocol for transmission to the network management center 120. It plays a role. The network management center 120 has a center program for managing multiple exchanges.

2 is a procedure flow diagram for checking port type and message transmission and reception preparation between management application processes according to an embodiment of the present invention;

3 is a flowchart illustrating a message transmission start instruction procedure according to an embodiment of the present invention.

4 is a flowchart illustrating a procedure for interrupting message transmission and reception according to an embodiment of the present invention.

5 is a flowchart showing an operator output message transmission procedure according to an embodiment of the present invention.

6 is a flowchart illustrating a process state checking procedure according to an embodiment of the present invention.

7 is a flowchart illustrating a procedure for releasing a TCP socket connection according to an embodiment of the present invention.

8 is a flowchart illustrating an operator command processing procedure according to an embodiment of the present invention.

9A, 9B, 9C, and 9D are table configuration diagrams in the form of definition data for parameters.

The operation of the preferred embodiment of the present invention will be described in detail with reference to FIGS. 1 to 8 and FIGS. 9A, 9B, 9C, and 9D.

In order to manage each switching center in the network management center 120 according to the present invention, a protocol between the network management center 120 and the MSC exchanger 100 is required, and this protocol uses the M interface protocol, and the M interface protocol is the MSC exchanger 100 and the network. In order to transfer information between management centers 120, data is exchanged using ENIP 110.

Referring to the operation of the M interface protocol for exchanging data with each other using ENIP 110 for information transfer between the MSC switch 100 and the network management center 120,

First, the connection establishment procedure is a procedure for the network management center (NMS) 120 to establish a TCP socket connection to the MSC switch 100, and then to confirm the port type and preparation for sending and receiving messages between management application processes for the socket port. Referring to FIG. 2, the network management center 120 requests a TCP socket connection establishment to ENIP 110 (Socket Connect request), and the ENIP 110 transmits a TCP socket connection establishment acceptance signal to the network management center 120 (Socket accaept). Send) Then, when the socket connection setting is completed, the network management center 120 sends a port type confirmation signal (Port Type Confirm) to confirm the type of the connected socket port among the various types of ports and the preparation for sending and receiving messages of the management application process as shown in FIG. 9A. Send to MSC exchange 100 via ENIP 110. In this case, the MSC switch 100 receives a Port Type Confirm signal and, when the management application is ready to send or receive a message, sends a Port Type Confirm ACK to the Network Management Center through ENIP 110. Send to 120 to respond. At this time, the network management center 120 retransmits the port type confirmation request signal if the MSC switch 100 does not receive a response within t1 hours after sending the port type confirmation signal. If there is no response even though the value of the retransmission counter c1 has been set as many times as the retransmission, the network management center 120 releases the TCP socket connection and generates an alarm. The procedure for instructing the start of message transmission after preparing the message transmission and reception is described with reference to FIG. 3, and the network management center 120 transmits the start message transmission start signal (Start MsgTransmission) including the message type to the MSC switch 100 through ENIP 110. If so, the MSC switch 100 responds to the network management center 120 with a start MsgTransmission ACK in response to the start MsgTransmission. The MSC exchange 100 then sends an operator output message of the specified type to the ENIP 110, which collects the message into a meaningful message and sends it to the network management device. However, if the MMS 120 does not receive a start MsgTransmission ACK from the MSC switch 100 within t2 hours after the start of the message transmission start signal (Start MsgTransmission), the network management center 120 retransmits the start MsgTransmission. If there is no response despite the retransmission counter c2 being set by the retransmission, the network management center 120 generates an alarm.

In addition, the procedure of instructing transmission / reception of a message is a procedure for instructing transmission / reception of an operator input / output message of a corresponding type being transmitted / received from the MSC switch 100. Referring to FIG. If the StopMsgTransmission message is sent to the MSC exchange 100, the MSC exchange 100 immediately stops sending the designated output message and backs up the execution time output message to the disk provided in the MSC exchange 100. Then, the MSC exchange 100 transmits an operator output message (OutputMsg) of the type designated by the exchange among the message types shown in FIG. 9B to the network management center 120 through ENIP 110. If the transmission of the specified output message from the MSC switch 100 does not stop after the set t3 hours when the network management center 120 transmits the message StopMsgTransmission including the message type, the message stop signal including the message type (StopMsgTransmission). If the retransmission counter c3 is not interrupted even though the value of the retransmission counter c3 has been set, the network management center 120 generates an alarm. The procedure of transmitting the operator output message will be described with reference to FIG. 5. In the MSC switch 100, the operator output message in the form of a string is transmitted to the network management center 120. The size of the operator output message is the maximum transmission size of a single OutputMsg. If exceeded, output message is divided into maximum size unit of single OutputMsg and transmitted sequentially. At this time, if the MSC switch 100 sends the operator output message of the specified type to the ENIP 110, the ENIP 110 collects the message as a meaningful message and sends it to the network management center 120. The network management center 120 periodically performs a process status check procedure to confirm that the management application process of the MSC exchange 100 is normal. At this point, the MSC exchange 100 continues to send operator output messages if the process is normal. Referring to FIG. 6, the network management center 120 performs a status check signal to check the status of the management application process of the MSC switch 100 at a set t5 hour (for example, 1 minute) period. (AppStatusCheck) is sent to MSC exchange 100 via ENIP 110. At this time, the MSC switch 100 sends the status check response signal (AppStatusCheck ACK) to the network management center 120, and then empties the already transmitted output message stored in the queue for the temporary data storage and retransmission mechanism. Reset the t7 timer (eg 5 minutes) set for data storage. When the network management center 120 does not receive the status check response signal (AppStatusCheckACK) from the MSC switch 100 for a set t6 hours, the network management center 120 retransmits the status check signal (AppStatusCheck). The network management center 120 generates an alarm when there is no response even though the value of the retransmission counter c6 has been set by repeatedly transmitting the status check signal (AppStatusCheck). If the MSC switch 100 does not receive the status check signal (AppStatusCheck) from the network management center 120 during the set t7 hours, the MSC switch 100 sequentially outputs the output messages generated during the set t7 hours and the output messages generated in real time through the backup port. Resend with. As described above, referring to FIG. 7, a TCP procedure for terminating a TCP socket after instructing transmission and reception of all messages after connecting and receiving a message by connecting and receiving a TCP socket is performed. Send a ClosePortConnection command to MSC switch 100 to stop sending or receiving all messages before disconnecting. Then, the MSC switch 100 stops the transmission of all operator output messages and transmits a ClosePortConnectionACK command in response to the command to stop sending and receiving messages to the network management center 120 and backs up all the data on the disk. The network management center 120 receives the ClosePortConnectionACK in response to the command to stop transmitting or receiving the message and releases the TCP socket. However, the network management center 120 retransmits the ClosePortConnection command for stopping the transmission and reception of the message if it does not receive the ClosePortConnectionACK command within the set t8 hours after sending the ClosePortConnection command for stopping the transmission and reception of the message. In this case, if there is no response despite the retransmission counter c8 being set the number of times by retransmitting the command for ClosePortConnection to stop the transmission and reception of the message, the network management center 120 generates an alarm and releases the TCP socket connection.

In addition, the operation of processing the command input from the operator to the network management center 120 will be described with reference to FIG. 8. When the request command is input from the operator, the network management center 120 places a steering input operator input message in an InputCommand message. Send to 100. Receiving an Input Command InputCommand The MSC switch 100 responds to the network management center 120 by parsing the message in the InputCommandACK in the form of SyntaxCheckFlag and ASCII string as shown in FIGS. 9C and 9D. After that, the MSC switch 100 transmits the command execution result in the form of ASCII string, and ENIP 110 collects the meaningful message and puts it in the output message OutputMsg to the network management center 120 and transmits it to the network management center 120 through the corresponding port. However, if the network management center 120 does not receive an InputCommandACK command from the MSC switch 100 after the set time t4 hours after transmitting the input command InputCommand, the network management center 120 resends the input command InputCommand and does not respond even though the value of the retransmission count c4 has been set. Network management center 120 generates an alarm.

If each operation command is defined as shown in Table 1 below.

Action name Parameter timer Retransmission Counter CloseProtConnectionCloseProtConnectionACKAppStusCheckAppStusCheckACKInputCommandInputCommandACKOutputMsgPortTypeConfirmPortTypeConfirmACKStartMsgTransmissionStartMsgTransmissionACKStopMsgTransmission None None None InoutString SyntaxCheckFlag, InoutString InoutStringPORTtype None MSGtype None t8-t6-t4--t1-t2-t3 c8-c6-c4--c1-c2-c3

Table configurations of the definition data type for the parameters of Table 1 are shown in FIGS. 9A, 9B, 9C, and 9D. 9A shows a port type, FIG. 9B shows a message type, FIG. 9C shows an operator input / output string, and FIG. 9D shows a flag indicating a parsing result of an input command.

As described above, the present invention, since the M / interface to the TCP / IP protocol to centrally manage the switching network in the centralized network management system can be quickly acted in the network management center in the event of a system failure, by calling a number of exchange stations There is an advantage to manage.

Claims (8)

In the M interface protocol method for transmitting and receiving data to manage a plurality of exchanges in the network management center through the ENIP during the exchange period with the network management center, Establishing a TCP socket connection from the network management center to the exchange and confirming a port type between the management application process and a message transmission / readiness preparation for the corresponding socket port; Confirming that the message is ready to be transmitted and received and instructing the exchange to transmit and receive a message by instructing the type of message to be transmitted and received to a corresponding port and a transmission start; Instructing a transmission / reception of an operator input / output message of a corresponding type being transmitted and received from the exchange; M interface protocol method for network matching in the switching system, characterized in that the network socket to terminate the TCP socket command to stop the transmission and reception of all messages before the TCP socket connection to the exchange. According to claim 1, wherein the message transmission and reception preparation confirmation process, Requesting a TCP socket connection establishment from the network management center and receiving a TCP socket connection establishment accept signal (Socket accaept) from the network management center; Transmitting a port type confirmation signal to the exchange to confirm the type of the socket port connected among the various types of ports and the message transmission / readiness of the management application process when the socket connection setup is completed; In the exchange receiving the port type confirmation request signal, when the management application process is ready to send and receive a message, the exchange system comprising a process of sending a response to the port type confirmation request (Port Type Confirm ACK) network management center to respond M interface protocol method for network registration in. The method of claim 2, wherein the message transmission start instruction process is performed. Sending a message transmission start signal (Start MsgTransmission) including a message type from the network management center to a switch, and receiving a response signal (Start MsgTransmission ACK) for the transmission transmission signal from the exchange; M interface protocol method for network matching in the switching system comprising the step of receiving the message from the network management device by collecting a message through the ENIP as a meaningful message when sending the operator output message of the specified type in the exchange. The method of claim 3, wherein the sending / receiving instruction of the message is Transmitting, by the network management center, a message transmission and reception stop signal (StopMsgTransmission) including a message type to the exchange through the ENIP; Immediately stopping transmission of the designated output message at the exchange and backing up the real-time output message generated on the disk to the disk provided at the exchange; And backing up the real-time output message to a disk and transmitting an operator output message of a type specified through the ENIP to a network management center. The method of claim 4, wherein the operator output message transmission process, Dividing by a maximum size unit of the single operator output message and sequentially transmitting the same; Collecting the operator output message of the type specified by the exchange into a meaningful message through ENIP 110 and transmitting it to the network management center; M interface protocol method for network matching in the switching system, characterized in that the process of performing a process status check periodically to check whether the management application process of the exchange when the operator output message received in the network management center. The method of claim 5, wherein the process status checking process comprises: Transmitting a status check signal (AppStatusCheck) to the exchange through the ENIP at a time period set by the network management center; After receiving the status check signal from the exchange, the status check response signal (AppStatusCheck ACK) is transmitted to the network management center, and the already transmitted output message stored in the queue for temporary data storage and retransmission mechanism is emptied from the retransmission queue, An M interface protocol method for network matching in a switching system, characterized in that the process of resetting the timer set for temporary data storage. In the M interface protocol method for transmitting and receiving data to manage a plurality of exchanges in the network management center through the ENIP during the exchange period with the network management center, Processing a command requested from an operator of the network management center; Establishing a TCP socket connection from the network management center to the exchange and confirming a port type between the management application process and a message transmission / readiness preparation for the corresponding socket port; Confirming that the message is ready to be transmitted and received and instructing the exchange to transmit and receive a message by instructing the type of message to be transmitted and received to a corresponding port and a transmission start; Instructing a transmission / reception of an operator input / output message of a corresponding type being transmitted and received from the exchange; M interface protocol method for network matching in the switching system, characterized in that the network socket to terminate the TCP socket command to stop the transmission and reception of all messages before the TCP socket connection to the exchange. The method of claim 7, wherein the operator input command processing process, When the request command is input from the operator, in the network management center, sending a steering input operator input message to the input command InputCommand to the exchange; Transmitting, by the exchange, a result of parsing the received input command InputCommand in SyntaxCheckFlag and ASCII string form in an InputCommandACK to the network management center; When the exchange transmits the command execution result in the form of ASCII string, the exchange consists of collecting meaningful messages through the ENIP and transmitting an output message to the network management center through the corresponding port to the network management center. M interface protocol method for network registration in a system.