KR100678098B1 - Memory access method for transmission apparatus - Google Patents

Abstract

end. The technical field to which the invention described in the claims belongs

The present invention relates to a memory access method of a transmission device in a transmission system consisting of a plurality of transmission devices.

I. The technical problem to be solved by the invention

In a transmission system consisting of multiple transmission devices, it is possible to access the memory of another transmission device that is far from one transmission device.

All. Summary of Solution of the Invention

In a memory access method of the transmission device in a transmission system comprising a plurality of transmission devices, the memory access including the identification information of the transmission device to access the memory of the plurality of transmission devices to any one of the plurality of transmission equipment; Parsing the command when the command is inputted, and referring to the identification information included in the command after parsing, whether the command is for accessing the memory of the transmitting device to which the command is input; Searching whether the memory is to be accessed; if the command is to access a memory of a transmission device to which the command is input, processing the command and outputting a result; If it is to access the memory of the processor, transmitting the command to the corresponding transmission device. And transmitting the processing result to the transmitting device to which the command is input after the corresponding transmitting device receives and processes the command, and outputting the processing result to be received by the transmitting device to which the command is input. It is characterized by including.

la. Important uses of the invention

The present invention is used in a transmission system.

Transmission equipment, memory access

Description

Memory access method of transmission equipment {MEMORY ACCESS METHOD FOR TRANSMISSION APPARATUS}             

1 is a view schematically showing the connection of the CIT to the FLC-D equipment,

2 is a flowchart illustrating a memory access method of a conventional FLC-D device;

3 is a schematic illustration of an FLC-D system;

4 is a process flow diagram in a central office terminal according to a preferred embodiment of the present invention;

5 is a process flow diagram in a remote terminal according to a preferred embodiment of the present invention.

The present invention relates to a transmission system, and more particularly, to a method of accessing a memory in a transmission system.

FLC-D equipment is composed of OPS (optic system) shelf and CHS (channel system) shelf, and the two shelves can control each other. A memory is provided in the OPS shelf and the CHS shelf, and there is a case where a value must be written or read in the memory for debugging.

To this end, conventionally, a craft interface terminal (hereinafter referred to as a CIT) is connected to an OPS shelf and a CHS shelf so that an operator can access the memory of the OPS shelf and the CHS shelf through the CIT.

In this case, "verb-modifier1 [-modifier2]: address [: parameter];" is used as the structure of the command. Each part of the command is separated by a colon. The end is marked with a semicolon. The arguments in [] may be optionally used, and the address has a structure of SID (shelf ID) -CID (circuit slot ID) -LID (lineport ID). In particular, the following command accesses memory for debugging:

SET.B ADDRESS VALUE;

SET.W ADDRESS VALUE;

SET.L ADDRESS VALUE;

SHOW.B ADDRESS RANGE;

SHOW.W ADDRESS RANGE;

SHOW.L ADDRESS RANGE;

The B, W, and L means byte, word, and long, respectively.

As such, in the conventional FLC-D device, a value can be written directly into the size of bytes, words, and long units by using the commands SET.B ADDRESS VALUE; SET.W ADDRESS VALUE; and SET.L ADDRESS VALUE; The commands SHOW.B ADDRESS RANGE ;, SHOW.W ADDRESS RANGE ;, and SHOW.L ADDRESS RANGE; can read values in ranges in bytes, words, and long units. For example, SET.B 650412 1; is a command to write 1 to byte 0 at address 650 412, and SHOW.L 650412 10; is to write an address in long range of size 0 to 650 412 in long range. It is a command to lead.

As such, in the related art, the memory can be directly accessed so that it can be useful when solving unexpected parts of debugging or verifying hardware.

This conventional memory access method will be described with reference to FIGS. 1 and 2.

First, referring to FIG. 1, in which the CIT 200 is connected to an OPS shelf 102 of a shelf of the FLC-D device 100, the control unit 104 of the OPS shelf 102 is configured to control the CIT 200. The memory 106 is accessed according to a command input through the terminal, and the access result is output to the CIT 200. Accordingly, the operator can access the memory 106 through the CIT 200 or be informed of the result of the access.

Referring to FIG. 2, which shows a processing flowchart of the controller 104, the controller 104 searches whether the memory access command is input from the CIT 200. In this case, when a memory access command is input from the CIT 200, the controller 104 proceeds to step 302 for parsing the input command and searches whether the verb part of the input command is grammatically normal. That is, it is searched whether the verb part is SET which is a verb for writing a value in the memory 106 or SHOW which is a verb for reading a value from the memory 106. At this time, if the verb part of the input command is grammatically normal, the controller 104 proceeds to step 304, otherwise proceeds to step 314 to perform error processing. In step 304, the controller 104 searches whether the size of the input command is grammatically normal. That is, it searches whether the size of the input command is B, L, or W, and if so, proceeds to step 306; otherwise, proceeds to step 314 to perform error processing. In step 306, the controller 104 searches whether the address portion of the input command is grammatically normal. In other words, it is checked whether the address portion is in the range of 0 to 0 x FFFFFFFF, which is the address range of the memory 106, or the number represented by hexa, and if there is no error, the process proceeds to step 308; otherwise, step 314 Proceed to perform error handling. In step 308, the controller 104 searches whether the value or range of the input command is grammatically normal. That is, it is searched whether the value or the range part is in the range of 0 to 0 x FFFFFFFF or a number represented by a hexa value. At this time, the controller 104 proceeds to step 310 if the value or range of the input command is grammatically normal, otherwise proceeds to step 314 to process an error. In step 310, the controller 104 processes the input command and then proceeds to step 312. In step 312, the controller 104 displays the input command processing result on the CIT 200.

Typically, the FLC-D system consists of a central office terminal and a plurality of remote terminals. According to the conventional method, an operator of one FLC-D device can access the memory of the FLC-D device but is spaced far apart. The memory of other FLC-D devices that were present could not be accessed. Accordingly, if the operator of the FLC-D system monitors the status of multiple FLC-D devices at the central office terminal and wants to access the memory of one remote terminal, the user directly moves to the location where the remote terminal is located. I had to access it.

As described above, in the conventional transmission system consisting of a plurality of transmission devices, the operator can access the memory of one transmission device through the CIT, but there is a problem that the memory of other transmission devices that are far apart cannot be accessed.

Accordingly, an object of the present invention is to provide a memory access method of a transmission device for accessing a memory of another transmission device spaced apart from one transmission device in a transmission system consisting of a plurality of transmission devices.

In accordance with another aspect of the present invention, there is provided a memory access method of a transmission device in a transmission system including a plurality of transmission devices, wherein any one of the plurality of transmission devices accesses a memory of the plurality of transmission devices. When a command for accessing a memory including identification information of the transmission device is input, parsing the command, and after parsing, referring to the identification information included in the command, the command inputs the memory of the transmission device. Searching for access to the memory of another transmission device, and if the command is to access the memory of the transmission device to which the command was input, process the command and output the result. And if the command is to access a memory of another transmission device, Transmitting a command to a corresponding transmission device, receiving and processing the command by the corresponding transmission device, and transmitting the processing result to the transmission device to which the command is input; And receiving and outputting the processing result.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. While many specific details are set forth in the following description and in the accompanying drawings, to provide a more general understanding of the invention, these specific details are illustrated for the purpose of illustrating the invention and are not meant to limit the invention thereto. And a detailed description of known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted.

One type of transmission system, the FLC-D system, consists of a number of FLC-D devices, which are divided into a central office terminal and a remote terminal. The central office terminal and the remote terminal may be connected in various forms. Hereinafter, a preferred embodiment of the present invention is applied to the central office terminal and the remote terminal connected 1: 1.

Referring first to FIG. 3, which schematically illustrates a FLC-D system to which the present invention is applicable, the FLC-D system 400 is composed of a central office terminal 402 and a remote terminal 404, which is 1: 1. Connected. The CIT 200 may be connected to the central office terminal 402 or the remote terminal 404, and the operator may access the memory of the FLC-D device through the CIT 200 connected to the central office terminal 402 or the remote terminal 404. In particular, in FIG. 3, the CIT 200 is connected to the central office terminal.

The operator of the central office terminal 402 can access the memory of the remote terminal 404 through the CIT 200 connected to the central office terminal 402 according to a preferred embodiment of the present invention.

This flowchart in the central office terminal 402 according to the preferred embodiment of the present invention is described with reference to FIG. The processing according to this flowchart is performed in the control unit of the shelf of the central office terminal 402 to which the CIT 200 is connected.

In operation 500, the controller of the central office terminal 402 searches whether a memory access command is input from the CIT 200. At this time, the structure of the command used is a site ID indicating a central office terminal or a remote terminal in the conventional structure "verb-modifier1 [-modifier2]: address [: parameter];". It can be a structure added. When the memory access command is input, the control unit of the central office terminal 402 proceeds to step 502 to parse the input command and searches whether the verb part of the input command is grammatically normal, that is, SET or SHOW. . At this time, if the verb part of the command is grammatically normal, the control unit of the central office terminal 402 proceeds to step 504, otherwise proceeds to step 524 to process an error. In step 504, the control unit of the central office terminal 402 searches whether the size of the input command is grammatically normal, that is, B, W, or L. At this time, if the size of the input command is B, W, L, the control unit of the central office terminal 402 proceeds to step 506, otherwise proceeds to step 524 to process an error. In step 506, the control unit of the central office terminal 402 searches whether the address portion of the input command is grammatically normal, that is, corresponds to the address area of the real memory. At this time, the control unit of the central office terminal 402 proceeds to step 508 if the address portion of the input command corresponds to the address area of the real memory, otherwise proceeds to step 524 to process the error. In step 508, the controller of the central office terminal 402 searches whether the value or range of the input command is grammatically normal. At this time, the control unit of the central office terminal 402 proceeds to step 510 if the value or range of the input command is grammatically normal, otherwise proceeds to step 524 to process the error. In step 510, the control unit of the central office terminal 402 searches whether the input command is for the remote terminal 404. That is, it searches whether the site ID included in the input command is for the remote terminal 404 or the central office terminal. At this time, the control unit of the central office terminal 402 proceeds to step 516 if the site ID included in the input command is for the remote terminal 404, and proceeds to step 512 for the central office terminal 402. do. In step 512, the controller of the central office terminal 402 processes the input command, and then proceeds to step 514 to output a result of processing the input command to the CIT 514. If the command input in step 510 is for accessing the memory of the remote terminal 404, the control unit of the central office terminal 402 proceeds to step 516 to process the input command in the FLC-D system 400. After conversion to the message format used between the FLC-D equipment of step) to proceed to step 518 and transmits the message to the remote terminal 404 through the DCC channel. In step 520, the controller of the central office terminal 402 searches whether the remote terminal 404 provides a message corresponding to the processing result of the memory access command through the DCC channel. At this time, if the remote terminal 404 provides the message corresponding to the processing result of the memory access command, the control unit of the central office terminal 402 proceeds to step 522 to process the processing result included in the message by the CIT 200. Print it out to guide the operator.

In this way, the central office terminal 402 outputs the result of processing the command to the CIT 200 if the memory access instruction is for the central office terminal 402, and sends the command to the DCC channel if the memory access instruction is for the remote terminal 404. After providing the result to the remote terminal 404 through the remote terminal 404 provides the result and outputs the result to the CIT (200). This allows the operator to access the memory of the remote terminal 404 as well as the memory of the central office terminal 402 from the central office terminal 402.

A process in which the remote terminal 404 processes the command transmitted by the central office terminal 402 and then provides the result to the central office terminal 402 will be described with reference to the flowchart of FIG. 5. The processing flowchart according to the flowchart of FIG. 5 is performed by the controller of the remote terminal 404.

In operation 600, the controller of the remote terminal 404 searches whether the central office terminal 402 provides a message for a memory access command through the DCC channel. When a message for the memory access command is provided, the controller of the remote terminal 404 proceeds to step 602 for parsing the input command. In step 602, the controller of the remote terminal 404 searches whether the verb part of the input command is grammatically normal. At this time, if the verb part of the input command is grammatically normal, the controller of the remote terminal 404 proceeds to step 604 and searches whether the size of the input command is grammatically normal. At this time, if the size portion of the input command is grammatically normal, the controller of the remote terminal 404 proceeds to step 606 to search whether the address portion of the input command is grammatically normal. In this case, if the value or range of the input command is grammatically normal, the controller of the remote terminal 404 proceeds to step 610 to process the input command. After that, the control unit of the remote terminal 404 proceeds to step 612 to convert the processing result of the input command into a message format used between FLC-D devices of the FLC-D system, and then proceeds to step 614 to send a message. It transmits to the central office terminal 402 through the DCC channel.

In the above-described embodiment, the operator accesses the memory of the remote terminal from the central office terminal as an example. However, the CIT may be connected to the remote terminal to access the memory of the central office terminal.

Also, in the above embodiment, one remote terminal is connected to the central office terminal, but a plurality of remote terminals are connected to the central office terminal, and the identification information of the plurality of remote terminals is differently assigned to the central office terminal. It is also possible for an operator to access the memory of multiple remote terminals.

In the above embodiment, although the central office terminal and the remote terminal transmit and receive a message through the DCC channel, the message may be transmitted and received through the LAN when the central office terminal and the remote terminal are closely connected to each other via a LAN. have.

As described above, the present invention has the convenience of accessing the memory of another transmission device spaced apart from any one transmission device in a transmission system composed of a plurality of transmission devices.

Claims (4)

In the method of accessing the memory in a transmission system connected to each other, the transmission system comprising a plurality of transmission equipment including a first terminal and a second terminal each having a memory, Parsing instructions for memory access input from the user through the first terminal; Determining, by the first terminal, whether the command is to access a memory of a plurality of transmission devices, by referring to identification information of the transmission device included in the command; If the command is to access a memory of the first terminal, outputting the processing result after the first terminal processes the command; If the command is to access a memory of the second terminal, sending the command to the second terminal by the first terminal; And after the second terminal processes the command input from the first terminal, outputting the processing result through the first terminal. The method of claim 1, And a command and a processing result transmitted between the transmission devices are converted into a message and transmitted. The method of claim 1, And a command and a processing result transmitted between the transmission devices are transmitted through a DCC channel. The method of claim 1, And a command and a processing result transmitted between the transmission devices are transmitted through a LAN.

Images