JPH0414938A - Execution system for multi-link procedure - Google Patents

Abstract

PURPOSE:To save the program development cost and the memory quantity of a procedure execution section by retrieving a conversion table so as to extract a multi-link identifier corresponding to a single link identifier and giving the received information to the multi-link indicated by the identifier. CONSTITUTION:A multi-link procedure execution section 13a stores a cross reference table between a single link identifier and a multi-link identifier and notice information from a single link procedure execution section 12 is converted into notice information to the relevant multi-link procedure execution section 13a based on the information of the table. Thus, the multi-link is implemented without remodeling of the single link procedure execution section 12 developed already. Thus, the program development cost is saved and the memory capacity of the procedure execution sections 12,13a is saved.

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to a communication control device that executes data communication with a partner device via a communication line according to a communication control procedure.
The present invention relates to a multi-link procedure execution method that can be executed by using the single-link procedure execution unit as is.

[Conventional technology]

The frame level protocol is CCIT Recommendation X, 25.
It is defined as a transmission control procedure and is called a link access procedure (LAP).

Link control procedures are broadly classified into single-line procedures (single-ring procedures) and multiple-line group procedures (multi-link procedures).

The multilink procedure integrates multiple single links and presents them as a single data link to the upper layer, thereby creating a data link that is highly reliable, can set any transmission capacity, and can be dynamically changed. This is what we provide. A plurality of single links are accommodated under one multilink.

Regarding this multi-link procedure, the international standard Is○7
478, specified by JIS C6372, etc., and CC
ITT Recommendation X, 25 provides additional provisions from the 1984 Recommendation.

Various types of single link communication control procedures have existed in the past, and some have already been implemented in communication control equipment.
Used for data communication.

Transmission and reception information is exchanged between the single link procedure execution unit that executes the single link procedure and the multilink procedure execution unit that executes the multilink procedure, but in that case, the single link identifier is sent to the single ring, and the has multi-ring identifiers, and it is necessary to notify information about the rings of each corresponding identifier.

The single-link procedure execution unit and the multi-link procedure execution unit are generally composed of a processor and a program module executed by the processor.

FIG. 5 is a block diagram of a conventional communication control device, and FIG. 6 is a format diagram of a conventionally used command format.

A communication line 2 is accommodated in the communication control device 1 shown in FIG. In addition, the communication system #device 1 includes a line interface unit 11 that controls information exchange with the line, a single link procedure execution unit 1i12 that executes a single link procedure, and a multilink procedure execution unit that executes a multilink procedure. Part 13
and a higher-level interface unit 14 that controls information exchange with higher-level devices. 132 is a procedure processing circuit (processor) that is installed in the multilink procedure execution unit 13 and processes the multilink procedure.

The commands handled by this communication control device 1 are 3 in Fig. 6.
2 and 33 are used. 32
is an example of a command format for exchanging data and control information between the single link procedure execution unit 12 and the multilink procedure execution unit 13, and includes the command length, command code, single link identifier, and multilink identifier. , and a data section. Further, 33 is an example of a command format between the single link procedure execution unit 12 and the upper layer in the case where only the single link procedure is used without using the multilink procedure, in which the command length, command code, single Contains a link identifier and data portion.

The single link procedure execution unit 12 has information indicating which multilink a single link belongs to, that is, multilink identifier information, and notification of received data to the multilink procedure execution unit 13 is performed using the command shown in FIG. Use format 32.

The multilink procedure execution unit 13 knows which multilink information should be used to process the received data based on the multilink identifier information in the command format 32 notified from the single link execution unit 12.

[Problems to be Solved by the Invention] As described above, in the conventional method, when executing a multi-link procedure using an already developed single-link procedure execution unit, it is difficult to determine which multi-link from a certain single link. Information indicating whether the information is to be notified, that is, multilink identifier information, is held in the single link procedure execution unit 12, and the command format for notifying the multilink procedure execution unit 13 from the single link procedure execution unit 12 is a single link. A multilink identifier was added in addition to the identifier.

To do so, it was necessary to modify the single link procedure execution unit 12, and it was also necessary to add and change the notification command format for notifying the upper layer.

The purpose of the present invention is to solve such conventional problems and to provide a multi-link procedure execution unit that can execute a multi-link procedure by using an already developed single-link procedure execution unit as it is without modification. The goal is to provide a method.

[Means for Solving the Problems] In order to achieve the above object, a multi-link procedure execution method according to the present invention includes a plurality of single-link procedure executions that execute a single-link compatible procedure uniquely identified by a single-link identifier. and a multilink procedure execution means for executing a multilink compatible procedure that is subordinate to a single link and is uniquely identified by a multilink identifier. A conversion table is provided for associating link identifiers with multi-link identifiers, and the multi-link procedure execution means searches the conversion table based on the single link identifier included in the information received from any single-link procedure execution means. , is characterized in that it extracts a multilink identifier corresponding to a single link identifier and delivers the received information to the multilink indicated by the identifier.

[For production]

In the present invention, the multi-link procedure execution unit maintains a correspondence table between single-link identifiers and multi-link identifiers, and based on the information in this table, notification information from the single-link procedure execution unit is used to execute the corresponding multi-link procedure. Convert to notification information to the department. This makes it possible to execute multi-link procedures without modifying the developed single-link procedure execution unit. the result,
It is possible to reduce the cost of developing a program, avoid deterioration in the quality of the single-link procedure execution section when multi-link is applied, and significantly reduce the memory capacity of the execution section.

〔Example〕

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

FIG. 1 is a block configuration diagram of a communication control device showing an embodiment of the present invention, in which (a) is an overall configuration diagram, and (b) is a detailed block diagram of the inside of a converting section in (a).

The communication control device 1a shown in FIG. 1 has almost the same configuration as the conventional communication control device 1 shown in FIG. 5, but a conversion section 131 is newly added to the multilink procedure execution section 13a. . That is, in addition to the procedure processing section 132, the multilink procedure execution section 13a is provided with a conversion section 131 that includes a table for converting a single ring identifier into a corresponding multilink identifier. Note that the procedure processing unit 132 has a function of processing a multilink procedure, similar to the conventional function.

As shown in FIG. 1(b), this conversion unit 131 consists of a control unit 1311 that controls the entire conversion unit 31, and an identifier correspondence table 1312 that holds correspondence information between single link identifiers and multilink identifiers. Become. When the control unit 1311 receives notification information from the single link procedure execution unit 12, it accesses the identifier correspondence table 1312, searches for the single link identifier stored in the notification information as a keyword, and searches for the single link identifier stored in the notification information as a keyword. The multilink identifier corresponding to the corresponding single link identifier is read and converted from the single link identifier to the multilink identifier.

FIG. 2 is a diagram showing an example of a command format exchanged between the single-link procedure execution section and the multi-ring procedure execution section in FIG. 1.

When data and control information are exchanged between the single link procedure execution section 12 and the multi-ring procedure execution section 13a, the exchange is performed in the command format shown at 31 in FIG.

This format is the same as the command format 33 in FIG. 6, which has conventionally been used only for single links, and includes a command length, command code, single link identifier, and data section. That is, the command format 31 is also a command format for exchanging data and control information with an upper layer when using only a single link procedure without using a multilink procedure. Here, the command length indicates the total length of the header section and the data section. Further, the data portion exists only during data reception and data transmission.

The command code indicates a data reception or transmission request, a control instruction, or a status notification. The single link identifier is identification information for uniquely distinguishing a plurality of single links controlled by the communication control device.

FIG. 3 is a diagram showing a specific example of the conversion process of the conversion unit in FIG. It is a figure showing an example of a table.

In Figure 3 (a, ), single links s1, S2
is under multilink M1, and single link S3
．． S4. S5 is under the multilink M2, and an example of the identifier correspondence table 1312 in this case has the contents shown in FIG. 3(b). Now, with respect to the data frame received from the single link S2, the control unit 131 in the conversion unit 131
1 learns by searching the identifier correspondence table 1312 that the single link S2 is under the multilink M1. As a result, the control unit 1311 of the conversion unit 131
The procedure processing unit 132 is notified to process this data as information on the multilink M1.

FIG. 4 is an operation flowchart of the single link procedure execution section and the multilink procedure execution section in FIG. 1.

First, it is determined whether the data frame arriving from the communication line 2 has been received by the single link procedure execution unit 12 via the line interface unit 11 (step 41).
). The single link procedure execution unit 12 checks the received data frame ↓ and performs protocol checks on the frame format, frame check sequence, order control, etc.
Step 42) If normal (Step 43), the multilink procedure execution unit 13a is notified of data reception using the command format 31 (Step 44).

In the multilink procedure execution unit 13a, first, the conversion unit 131
The controller 1311 in the converter 131 checks whether or not it has received the command from the single link procedure execution unit 12 (step 45), and if it has received the command, the control unit 1311 in the converter 131 executes the single link procedure based on the information of the single link identifier of the command. The identifier correspondence table 1312 indicating which multilink belongs to is searched (step 46). Identifier correspondence table 1
As shown in FIG. 3(b), 312 shows the correspondence between the single link identifier and the multi-link identifier, so the multi-ring identifier corresponding to the single link identifier of the command is detected and read out. As a result, the multi-ring to which the command received from the single link procedure execution unit 12 is delivered is determined (step 47).

The control unit 1311 of the conversion unit 131 notifies the procedure processing unit 132 to process the data of this command as information addressed to the multilink with this multilink identifier (step 48). Section 131
Processing as a multi-link procedure is performed on the data notified from (step 49).

In this way, when executing a multilink procedure using the developed single link procedure execution part, the single link procedure execution part under the multilink can be executed as is without modifying the single link procedure execution part. It becomes possible to apply it as a part. In addition, it can be applied as the same single link procedure execution unit to users who use it as a single link in the same communication control device.
There is no need to change the interface.

In addition, although the single link procedure execution unit exists to support communication control procedures, it is possible to apply various communication control procedures as a single ring under multilink without modifying the various single link procedure execution units that have been developed. It is possible.

As a result, it is possible to reduce program development costs, avoid the problem of deterioration in the quality of the single link procedure execution part when applying multi-links, and furthermore, the same procedure execution part can be applied to users as a single link. , the memory capacity of the procedure execution unit can be significantly reduced.

Furthermore, even if a single link procedure execution unit is newly developed when executing a multilink procedure, if the present invention is applied, the command format for the upper layer of the single link procedure execution unit can be changed when multilink is applied and when only a single link is used. Since the same format may be used in both cases, the configuration of the single ring procedure execution unit does not become more complicated than in the past.

[Effects of the Invention] As explained above, according to the present invention, the single link procedure execution unit that has already been developed can be implemented without modification.

Since the multi-link procedure can be executed by using it as is, it is possible to reduce the program development cost and the memory amount of the procedure execution unit.

[Brief explanation of drawings]

FIG. 1 is a block configuration diagram of a communication control device showing an embodiment of the present invention, FIG. 2 is a diagram showing an example of the format of the single link command format applied in FIG. 1, and FIG.
4 is an operation flowchart of the communication control device in FIG. 1, FIG. 5 is a block diagram of a conventional communication control device, and FIG. 6 is an example of a conventional command format. FIG. 1, la: communication control device, 2: communication line, ]l; line interface section, 12 co-single link procedure execution section, 1
3, 13a: multi-link procedure execution unit, 14: upper interface unit, 131/conversion unit, 132: procedure processing unit,
1311: Control unit, 131.2: lll Separate packaging correspondence table 3
1: Command format, 32.31 Conventional command format. Figure (Part 2) Command Format Figure (al) Ngle Link Multilink (b) Identifier Correspondence Table Figure

Claims (1)

[Claims] (1) A plurality of single link procedure execution means for executing a single link compatible procedure uniquely identified by a single link identifier, and a multi link compatible that places the single link under the single link and is uniquely identified by a multi link identifier In the communication control device, the multilink procedure execution means is provided with a conversion table for associating the single link identifier with the multilink identifier, and the multilink procedure execution means is provided with a conversion table for associating the single link identifier with the multilink identifier. The means searches the conversion table based on the single link identifier included in the information received from the arbitrary single link procedure execution means and extracts the multilink identifier corresponding to the single link identifier,
A multilink procedure execution method characterized by passing received information to the multilink indicated by the identifier.