KR100440578B1 - The Method of Operator Message Process between the Internal Functional Processors in High Speed Router - Google Patents

Abstract

The method of processing an operator message between internal function processors of a router of the present invention is to enable each router operation related functions for router operation to be operated independently from other function processors when performing instructions and changing functions related to the corresponding function processor. To this end, the present invention provides a method for processing operator messages between internal function processors of a router which transmits an operator message to a corresponding function processor through an operator interface and transmits a result message transmitted from the corresponding function processor to the operator. A first step of generating a transmission and reception message queue for transmitting and receiving a message, a second step of receiving an operator message from an operator and transmitting the message to the transmission message queue, and checking the transmission message queue and the operator message if the operator message exists. A third step of receiving and transmitting the received result message to the corresponding function processor, a fourth step of receiving a performance result message for the operator message in the corresponding function processor and delivering the received result message to the received message queue, and checking the received message queue. Message exists If a fifth step of receiving the result message transmitted to the operator.

Description

The method of operator message process between the internal functional processors in high speed router

The present invention relates to a method of processing an operator message between internal function processors of a router. More specifically, each of the functions related to the operation of the router for the operation of the router is independent of other function processors when performing instructions and changing functions related to the corresponding function processor. The present invention relates to a method of processing an operator message between internal functions of a router to be operated, and a computer-readable recording medium having recorded thereon a program for executing the same.

In general, a router is a core communication equipment that provides a route setting for transmitting information in a communication network operated by different protocols. In addition to a bridge function that simply connects a communication network, a router may be configured according to a route assignment table. Recognizes and assigns a path, and determines a destination (node) in another communication network or a communication network to which it is connected based on the received packet, and selects the most efficient path among several paths, and sends the packet. In addition, it controls the communication flow and performs various communication network management functions such as configuring various auxiliary communication networks in the communication network.

In order to perform such a function, a command or a request message is received from an operator and delivered to each function processor to perform a function, and the result of the execution is transmitted back to the operator. As described above, the conventional method of transmitting and receiving a router command in transmitting and receiving a message of an operator is characterized in that each processor operates in the form of a function function composed of one module, thereby transmitting and receiving commands. However, the function of each of these processors is not independent, and there is a disadvantage in that a process of stopping other functions or recompiling the entire program due to modification, addition, or deletion of one processor function is required.

In addition, in the designation and execution method of the command for performing the function of each function, when the command is changed for one function, the additional function should be modified according to the interruption of the execution of the other function and the change of the command format. There was a problem in that it was necessary to change the unmodified function module again when adding to.

On the other hand, as a prior patent for the method of processing or executing the operator command, in the Republic of Korea Patent Application No. 1999-66098 by using the operator command multi-control function and the signal mapping method using the operation code by dividing the operator command by serial number ID Disclosed are a method for controlling operator commands of an operator command processor that can be processed even when multiple operator commands are required at the same time and can effectively use a limited exchange I / O port. However, the method shows a control method for a plurality of operator commands, but does not provide a method for independently performing a function for another operator command when performing a function for one operator command when operating a function in a router. One problem did not solve.

In addition, Korean Patent Application No. 2000-0001727 uses an instruction database in the form of memory and a shared object and PRN LIB in an intelligent network system operating in a mobile communication network to shorten the execution time of instructions input by an operator. In addition, an apparatus and method for executing a command using a shared object, which can omit a plurality of intermediate procedures in applying changed command input / output information, are disclosed. However, the apparatus and method are integrated management of the files for command processing, changing them into a database file, collecting the command output function to form a collection of functions in the form of shared objects, and executes the input command. It did not suggest how to perform functions independently between function processors.

In this way, the program module can be written separately for each function processor in the router or a common interface can be used to maintain the independence between the function modules by allowing other functions to be reused without modification even if other function processors are modified. There was a need.

Accordingly, the present invention enables each router operation related functions for operating a router to be operated independently of other functions when executing a command related to the corresponding function, and also adds another processor according to the function change of each processor. It is an object of the present invention to provide a method of processing an operator message between internal processor processors so that each function can be performed independently without modification, and a computer-readable recording medium recording a program for executing the same.

1 is a block diagram of a router operator message processing according to an embodiment of the present invention.

2 is a block diagram of an operator message transmission and reception system according to an embodiment of the present invention.

3 is an operator message processing flow diagram generated in an operator message transmission and reception processor according to an embodiment of the present invention.

4 is an operator message processing flowchart generated by a functional processor message transmission / reception processing unit according to an embodiment of the present invention.

5 is a structural diagram of an operator and a result message format according to an embodiment of the present invention;

Explanation of symbols on the main parts of the drawings

101: operator terminal 102: operator interface unit

103: message transmission and reception unit 104: function processor unit

105: configuration management processor 106: statistical management processor

107: failure management processor 108: network management processor

109: protocol management processor 110: RMON processor

202: Send message queue 203: Receive message queue

In order to achieve the above object, the present invention, in the operator message processing method between the internal function processor of the router for transmitting the operator message to the function processor through the operator interface and the result message transmitted from the function processor,

A first step of generating transmit and receive message queues for transmitting and receiving respective functional processors and operator messages;

Receiving an operator message from an operator and transmitting the operator message to the transmission message queue;

Checking the transmission message queue and receiving the operator message and transmitting the received operator message to the corresponding function processor if an operator message exists;

Receiving a performance result message for the operator message in the corresponding function processor and transmitting the received result message to the reception message queue; And

And a fifth step of checking the received message queue and receiving the result message and transmitting the result message to the operator if the result message exists.

In addition, to achieve the above object, the present invention provides a router system,

A first function of generating transmit and receive message queues for transmitting and receiving respective functional processors and operator messages;

A second function of receiving an operator message from an operator and transmitting the operator message to the transmission message queue;

A third function of checking the transmission message queue and receiving and transmitting the operator message to a corresponding function processor if an operator message exists;

A fourth function of receiving a performance result message for the operator message from the corresponding function processor and delivering the result message to the reception message queue; And

And a computer readable recording medium having recorded thereon a program for executing a fifth function of receiving the result message and transmitting the result message to the operator if the result message exists.

Hereinafter, a method for transmitting and receiving an operator message between internal processor processors of a router according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a functional block diagram illustrating a process of transmitting and receiving a message between internal processors in a router to which the present invention is applied. As shown in FIG. 1, the router internal configuration according to the present invention includes an operator terminal 101, an operator interface unit 102, a message transmission / reception processing unit 103, and a function processor unit 104 inside the router. The function processor unit 104 is composed of function processors 105, 106, 107, 108, 109, 110 which are each independently performed.

The operator terminal 101 receives an operator message related to the operation of the router from the user as an input and transmits it to the operator interface unit 102. The operator interface unit 102 parses the operator message input from the operator to perform parsing and error analysis of the message, and transmits the operator message to the message transmission / reception unit 103 when there is no error. Deliver an error message to the operator. In addition, the operator interface unit 102 provides a means for the operator to connect with the router system.

The message transmission / reception processing unit 103 classifies an operator message received from the operator interface unit 102 and transmits the message to the corresponding function processors 105 to 110 of the function processor unit 104 and the corresponding function of the function processor unit 104. The processor 105, 106, 107, 108, 109, 110 receives the processing result message for the operator message and transmits the result to the operator interface unit 102. In addition, if a processing result message is not received from the corresponding function processor 105, 106, 107, 108, 109, 110 within a predetermined time, a failure message is generated and transmitted to the operator interface unit 102.

As described above, the function processor unit 104 is composed of independent function processors 105, 106, 107, 108, 109 and 110, and the result of the execution after the corresponding function processor received from the message transmission and reception unit 103 performs the operator message. In order to transmit the result to the operator interface unit 102, the message transmission / reception unit 103 delivers the result of the execution.

2 is a functional block diagram of a message transmission and reception unit according to an embodiment of the present invention, and shows a process of transmitting and receiving an operator message according to a corresponding function. As shown in FIG. 2, the operator message transmission and reception processing unit 201 classifies the operator messages connected to the operator interface unit 102 and transmitted from the operator interface unit 102 by functions, and the operator messages classified by the functions. Is sent to the transmit message queue 202. In addition, a reception result message for the operator message is received from the reception message queue 205 and transmitted to the operator interface unit 102. Meanwhile, when a result message does not arrive from the reception message queue 205 within a set time, a failure message is generated and transmitted to the operator interface unit 102.

The function processor message transmission / reception unit 203 checks whether an operator message is transmitted from the transmission message queue 202 and, when there is an operator message, transmits the operator message to the function processor 206 of the function processor unit 204. It receives the result of the execution and delivers it to the reception message queue 205. In addition, when a result message is not received from the function processor 204 within a set time, a failure message is generated and delivered to the reception message queue 205.

Meanwhile, the transmission message queue 202 is generated at the initialization of the operator message transmission / reception processing unit 201 and operates as a priority queue for delivering the operator message transmitted from the operator to the function processor unit 204. The format of the internal message has the form of FIG. 5 to be described below, and includes a function processor ID 501, an instruction reference ID 502, and an input DATA 503.

The reception message queue 205 is generated at the initialization of the operator message transmission / reception processing unit 201, and has a priority for receiving a result message from the function processor message transmission / reception processing unit 203 and delivering the result message to the operator message processing unit 201. It acts as a queue. The internal message format takes the form of FIG. 5 to be described below and includes an operator processor ID 504, an instruction reference ID 505, and a result DATA 506.

3 is a flowchart illustrating an operator message processing generated by an operator message transmission / reception processor according to an embodiment of the present invention. Referring to Figure 3 will be described the operator message processing in the operator message transmission and reception processing unit 201.

First, the operator message transmission and reception processing unit 201 generates transmit and receive message queues 202 and 205 for transmitting and receiving operator messages at first execution (S301). And waits to receive an operator message from the operator interface unit 102 (S302). When the operator message is received from the operator interface unit 102 (S303), the operator message is classified by the corresponding function (S304), and the classified operator message is transmitted to the generated transmission message queue 202 (S305). .

Thereafter, the reception message queue 205 is monitored and waits to receive a result message from the function processor 206 (S306). When a message arrives at the reception message queue 205 within a set response time (S307), it is received as a result message (S308) and then transmitted to the operator interface unit 102 to output the result message (S309). ), And returns to the above-described operator message reception standby state (S302).

However, if a message does not arrive in the reception message queue 205 within the set response scheduled time (S307), a failure message due to exceeding the scheduled response time is created (S310) and the generated failure message is transmitted to the operator interface unit 102. In step S311, the process returns to the above-described operator message reception waiting state (S302).

4 is a flowchart illustrating an operator message processing generated by a functional processor message transmission / reception processor according to an embodiment of the present invention. Referring to Figure 4 will be described the operator message processing in the function processor message transmission and reception unit 203.

First, the function processor message transmission / reception unit 203 is initialized at the first execution, prepares to receive a message from the transmission message queue 202 and delivers it to the corresponding function processor 206, and simultaneously receives a result message from the function processor 206. It prepares to deliver to the transmission message queue 205 (S401). If it is determined that there is an operator message from the transmission message queue 202 and it is determined that an operator message exists (S403), and receives the operator message (S404), if it is determined that the operator message does not exist (S403) Wait until the operator message is received (S402).

On the other hand, if the operator message is received in step S404, the corresponding function processor ID 504 is determined and the received operator message is transmitted to the corresponding function processor 206 (S405). As such, when it is determined that a result message is received within a predetermined time after delivering the operator message to the corresponding function processor 206 (S406), the result message is received (S407) and the received message is received. After transmitting to the queue 205 (S408), the operation returns to the above-described operator message reception waiting state (S402).

However, if it is determined in step S406 that a result message has not been received within the set time, a failure message due to response timeout is created (S409) and the delivered failure message is transmitted to the reception message queue 205 (S409). S410), the mobile station returns to the standby state for receiving a message (S402).

5 illustrates an embodiment of a format structure diagram of an operator message and a result message according to the present invention, and illustrates an embodiment of a message format including an operator message used in the present invention and a format of an execution result message of the operator message. Indicates.

The message format including the operator message consists of the function processor ID 501, the instruction reference ID 502, and the input DATA 503. The function processor ID 501 indicates in which function processor 206 an operator message should be executed, and the instruction reference ID 502 indicates what operation to perform in the function processor, and the input DATA 503 to perform The variable values for the operation are stored so that the operator can perform the detailed operation.

In addition, the operator message execution result message format includes an operating processor ID 504, an instruction reference ID 505, and a result DATA 506. The operating processor ID 504 is used to inform the operator interface unit 102 that transmits the result message from the function processor 206 that has received the operator message and performed the operation. The command reference ID 505 indicates which operator message has been performed, and the result DATA 506 stores the execution result message of the operator message.

In the detailed description and drawings of the present invention, a preferred embodiment for describing the present invention has been disclosed. Those skilled in the art may substitute the above-described embodiment by using the concept of the present invention. Or you can change it.

Accordingly, the scope of the present invention should be determined by the appended claims rather than by the foregoing description.

By using the method of transmitting and receiving messages between processors in the router according to the present invention, it is possible to unify the interface between the internal processors and to configure the independent function module. Router functions can be performed independently.

In addition, it is easy to add and remove the router function module regardless of the operation of other functions.

Claims (6)

In the method of processing an operator message between internal function processors of a router which transmits an operator message to a corresponding function processor through an operator interface and transmits a result message transmitted from the corresponding function processor to an operator. A first step of generating transmit and receive message queues for transmitting and receiving respective functional processors and operator messages; Receiving an operator message from an operator and transmitting the operator message to the transmission message queue; Checking the transmission message queue and receiving the operator message and transmitting the received operator message to the corresponding function processor if an operator message exists; Receiving a performance result message for the operator message in the corresponding function processor and transmitting the received result message to the reception message queue; And And a fifth step of inspecting the received message queue and receiving the result message and transmitting the result message to the operator if the result message exists. The method of claim 1, wherein the second step, The operator message processing method between internal function processors of a router, characterized in that the received operator message is classified by the corresponding function and transmitted to the transmission message queue. The method according to claim 1 or 2, The send and receive message queue is a method for handling operator messages between internal function processors of a router, characterized in that it operates as a priority queue for delivering the operator message. The method of claim 1, wherein the third step, And determining a corresponding function processor ID in the operator message and transferring the operator message to the corresponding function processor. The method of claim 1, wherein the fourth step, Determining whether a result message is received from the function processor within a set time; And And forwarding the result message to the reception message queue if the result message is received within the set time, and if the result message is not received within the set time, as a result of the determination. How to process operator message between processors. On the router system, A first function of generating transmit and receive message queues for transmitting and receiving respective functional processors and operator messages; A second function of receiving an operator message from an operator and transmitting the operator message to the transmission message queue; A third function of checking the transmission message queue and receiving and transmitting the operator message to a corresponding function processor if an operator message exists; A fourth function of receiving a performance result message for the operator message from the corresponding function processor and delivering the result message to the reception message queue; And A fifth function of checking the received message queue and receiving the result message and transmitting the result message to the operator if the result message exists; A computer-readable recording medium having recorded thereon a program for executing the program.