JPH06350666A - Gate system between communication protocols - Google Patents

Abstract

PURPOSE:To attain communication processing gated between different communication protocol systems. CONSTITUTION:The system is a gate system between communication protocols for a communication system by using plural different virtual terminal equipments in compliance with plural different kinds of communication protocol systems to make communication between a host device 10 and real terminal equipments 31, 32, and provided with a communication protocol hierarchy selection definition section 25 defining in advance a communication protocol hierarchy of the communication protocol system to be processed for the real terminal equipments 31, 32, a hierarchy selection means 26 selecting a communication protocol hierarchy based on the communication protocol hierarchy selection definition and a communication protocol system conversion means 27 selecting a virtual terminal equipment based on the selected communication protocol hierarchy. Thus, it is possible to gate between the different communication protocol systems for communication processing. Furthermore, a troublesome work such as the increase of a new virtual terminal equipment or modifying of a transmission control means controlling the existing communication protocol system is not required.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a communication system for setting communication between a host device and a real terminal by setting different types of virtual terminals for a plurality of different communication protocol systems, and more particularly to conversion between different communication protocols. The present invention relates to a gate method between communication protocols that realizes.

[0002]

2. Description of the Related Art FIG. 7 shows a configuration of a communication system in which virtual terminals of different types are set for a plurality of different communication protocol systems to perform communication. In this communication system, a host device 60 including a communication application 61 that performs communication processing is connected to a plurality of real terminals 91, 92, 93 by a communication management device 70. Communication management device 70
Are provided with virtual terminals 71, 72, 73 corresponding to different communication protocol systems A, B, C, and the respective virtual terminals 71-73 are connected to the real terminals 91-93. Further, transmission control means 81 for controlling the virtual terminal 71 by the communication protocol system A, and transmission control means 82 for controlling the virtual terminal 72 by the communication protocol system B.
And a transmission control means 83 for controlling the virtual terminal 73 by the communication protocol system C. As a result, the communication application 61 of the host device 60 accesses the virtual terminals 71 to 73 and thereby communicates with the real terminals 91 to 93 and a plurality of different communication protocol systems A to.
Communication is performed based on C.

The communication protocol systems A to C are different protocol systems. The communication protocol system A is protocol layers A1 to Am, the communication protocol system B is protocol layers B1 to Bn, and the communication protocol system C.
Is composed of protocol layers C1 to Cm. In each of the above protocol layers, a layer with a smaller subscript is a higher layer. In traditional systems,
As described above, different types of virtual terminals 71 to 73 are set for each protocol system such as TCP / IP and OSI.
The control of each communication protocol system is independently performed as a process for the corresponding virtual terminal. That is, the processes of the communication protocol system A and the communication protocol system B cannot cross each other. Further, the control within the communication protocol system is performed in the protocol layer unit described above. That is, focusing on the protocol layers of the communication protocol system A, at the time of transmission, the layer A (i-1), the layer Ai, the layer A
(A + 1) is processed in order, and at the time of reception,
The layers A (i + 1), the layer Ai, and the layer A (i-1) are processed in this order.

[0004]

In the conventional communication system, since the control of the communication protocol system is independently performed for each virtual terminal as described above, for example, TCP / I
It has been very difficult to control such that the control by P is switched to the control by OSI and the processing is continued by gated between different communication protocol systems. For example, in order to realize the process of gated between such different communication protocol systems, it is necessary to increase the number of new virtual terminals or modify the transmission control means for controlling the existing communication protocol systems, which is very troublesome. Met.

The present invention has been made in order to solve such a conventional problem, without increasing the number of new virtual terminals or modifying the transmission control means for controlling the existing communication protocol system. An object of the present invention is to provide a gating method between communication protocols that can realize a communication process in which different communication protocol systems are gated.

[0006]

In order to achieve the above object, the gate method between communication protocols of the present invention uses a virtual machine of a plurality of different types corresponding to a plurality of different communication protocol systems and a host apparatus and an actual device. In a communication system for performing communication between terminals, a communication protocol layer selection defining unit that predefines a communication protocol layer of the communication protocol system to be processed for the real terminal, and a communication protocol layer based on the communication protocol layer selection definition. And a communication protocol system conversion unit for switching the virtual terminal and converting between the different communication protocol systems based on the communication protocol layer selected by the layer selection unit. Further, in the inter-communication-protocol gate method according to claim 2, when the processing of the predetermined communication protocol layer defined by the communication protocol layer selection defining unit is completed, the layer selection means processes the next communication protocol layer. When the selected communication protocol layer has a different communication protocol system from the previous communication protocol system, the communication protocol system conversion means is instructed to convert between the communication protocol systems.

[0007]

According to the present invention, when the predetermined virtual terminals are sequentially arranged in a certain communication protocol layer, if a communication protocol layer of another communication protocol system is selected based on the communication protocol layer selection definition, the communication protocol system converting means. Then, switching to a virtual terminal corresponding to the other communication protocol system is performed. As a result, it is possible to perform communication processing in which different communication protocol systems are gated.

[0008]

Embodiments of the present invention will now be described in detail with reference to the drawings. FIG. 1 shows the configuration of an embodiment of a communication system to which the present invention is applied. In this communication system, a host device 10 including a communication application 11 that performs communication processing is connected to a plurality of real terminals 31 and 32 by a communication management device 20 and performs communication.

The communication management device 20 includes virtual terminals 21 of different types corresponding to different communication protocol systems A and B,
22 is provided. The virtual terminals 21 and 22 are connected to the real terminals 31 and 32. Further, the transmission control means 2 for controlling the virtual terminal 21 by the communication protocol system A
3 and the transmission control means 24 for controlling the virtual terminal 22 by the communication protocol system B. As a result, the communication application 11 of the host device 10 accesses the virtual terminals 21 and 22 to communicate with the real terminals 31 and 32 based on a plurality of different communication protocol systems A and B. The virtual terminal 2
The connection between the terminals 1 and 22 and the real terminals 31 and 32 can be freely switched.

Communication protocol system A of the transmission control means 23
Is composed of communication protocol layers A1, A2, ..., Am, and the communication protocol system B of the transmission control means 24.
Is composed of communication protocol layers B1, B2, ..., Bn. Regarding the communication protocol hierarchy, the one with the smaller subscript is the higher hierarchy.

In the communication management device 20 of this embodiment, a communication protocol layer selection defining unit 25 for defining in advance a protocol layer of a communication protocol system for controlling communication with the real terminals 31, 32, and its communication protocol layer selection definition. Communication protocol layer selecting means 26 for selecting a communication protocol layer based on the unit 25, and communication protocol layer selecting means 26
The communication protocol system conversion means 27 is provided for switching between the virtual terminals 21 and 22 and converting between different communication protocol systems based on the communication protocol hierarchy selected in. The virtual terminals 21 and 22 can be switched by the communication protocol system conversion means 27.

The protocol layer selection definition defined in the communication protocol layer selection defining section 25 is defined by the real terminals 31, 32.
It is set for each. Here, examples of the protocol layer selection definition are shown in FIGS. 2 and 3. 2A and 2B are protocol layer selection definitions when conversion between communication protocol systems is not performed. For example, when transmitting to the partner device based on the protocol layer selection definition shown in FIG. 2A, the transmission control means 23 starts control from the protocol layer A1 of the communication protocol system A. After that, the control is transferred to a lower layer, and finally the processing of the protocol layer Am is performed. This completes the transmission.
When receiving from the partner device based on the protocol layer selection definition shown in FIG. 2A, the control starts from the protocol layer Am of the communication protocol system A by the transmission control means 23. After that, the control is transferred to a higher layer, and finally the processing of the protocol layer A1 is performed. This completes the reception. The same applies to the protocol layer selection definition related to the communication protocol system B shown in FIG.

FIGS. 3A and 3B are protocol layer selection definitions for conversion between communication protocol systems. In this definition, conversion between communication protocol systems is executed only once. For example, when transmission is performed to the partner device based on the protocol layer selection definition shown in FIG. 3A, the transmission control means 23 starts control from the protocol layer A1 of the communication protocol system A, and thereafter lower layers. After the control is transferred to and the processing of the protocol layer Ai is completed, the processing is switched to the protocol layer Bj of the communication protocol system B, and finally the processing of the protocol layer Bn is performed. This completes the transmission.
When receiving from the partner device based on the protocol layer selection definition shown in FIG. 3A, the control by the transmission control means 24 starts from the protocol layer Bn of the communication protocol system B. After that, control is moved to a higher layer, and after the processing of the protocol layer Bj is completed, the process is switched to the protocol layer Ai of the communication protocol system A, and finally the processing of the protocol layer A1 is performed. Finally, the processing of the protocol layer A1 is performed. This completes the reception. The same applies to the protocol layer selection definition shown in FIG. 3 (B), so description thereof will be omitted.

Next, the processing for transmitting data according to the above embodiment will be described with reference to the block diagram of FIG. 4 and the flowchart of FIG. Here, in the communication protocol layer selection defining unit 25, it is assumed that the contents shown in FIG. 2A or FIG. 3A are defined as the protocol layer selection definition for the real terminal 31. A transmission process is performed.

First, the communication protocol layer selection defining unit 25
According to the definition of, the virtual terminal 21 is processed in the protocol layer A1 by the transmission control means 23 of the communication protocol system A (step 401). Control is sequentially transferred to the lower protocol layer, and the transmission control means 23 processes the virtual terminal 21 in the protocol layer Ai (step 402).

After the processing of the protocol layer Ai is completed, the communication protocol layer selecting means 26 selects the protocol layer to be transferred next based on the protocol layer selection definition (steps 403, 404). In this example, FIG.
In the case of the protocol layer selection definition of (A), the protocol layer Aj is selected, and in the case of the protocol layer selection definition of FIG. 3 (A), the protocol layer Bj is selected.

When the protocol layer Aj of the same type of communication protocol system A is selected, the transmission control means 23 processes the virtual terminal 21 in the protocol layer Aj (step 405), and the virtual terminal 21 is sequentially processed in the lower protocol layer.
And finally the transmission control means 23 causes the virtual terminal 21
Is processed in the protocol layer Am (step 406).
This completes the transmission process.

When the protocol layers Bj of different types of communication protocol systems B are selected in step 404, the communication protocol layer selecting means 26 issues an instruction to convert the communication protocol systems, and the communication protocol system converting means 2
In step 7, information about the virtual terminal 21 (address for identifying the real terminal 31, transmission data, etc.) is passed to the virtual terminal 22 to switch to the virtual terminal 22 (step 40).
7). Thereafter, the transmission control means 24 processes the virtual terminal 22 in the protocol layer Bj (step 408), sequentially processes the virtual terminal 22 in the lower protocol layer, sequentially processes the virtual terminal 21 in the lower protocol layer, and finally transmits. The virtual terminal 22 is controlled by the control means 24 to the protocol layer Bn.
(Step 409). This completes the transmission process. FIG. 4 shows a state in which the communication protocol system converting means 27 switches from the virtual terminal 21 to the virtual terminal 22.

Next, the processing for receiving in the above embodiment will be described with reference to the flowchart of FIG. Here, the communication protocol layer selection defining unit 25 stores the protocol layer selection definition for the real terminal 31 as shown in FIG.
It is assumed that the contents shown in (A) or FIG. 3 (B) are defined, and the receiving process from the real terminal 31 is performed.

First, the communication protocol layer selection defining unit 25
According to the definition of, the virtual terminal 21 is processed in the protocol layer Am by the transmission control means 23 of the communication protocol system A (step 501). Control is sequentially transferred to the upper protocol layer, and the transmission control means 23 processes the virtual terminal 21 in the protocol layer Aj (step 502).

After the processing of the protocol layer Aj is completed, the communication protocol layer selecting means 26 selects the protocol layer to be transferred next based on the protocol layer selection definition (steps 503 and 504). In this example, FIG.
In the case of the protocol layer selection definition of (A), the protocol layer Ai is selected, and in the case of the protocol layer selection definition of FIG. 3 (B), the protocol layer Bi is selected.

When the protocol layer Ai of the same type of communication protocol system A is selected, the transmission control means 23 processes the virtual terminal 21 in the protocol layer Ai (step 505), and the virtual terminal 21 is sequentially processed in the upper protocol layer.
And finally the transmission control means 23 causes the virtual terminal 21
Is processed in the protocol layer A1 (step 506).
This completes the reception process.

When a protocol layer Bi of a different type of communication protocol system B is selected in step 504, the communication protocol layer selecting means 26 issues an instruction to convert the communication protocol system, and the communication protocol system converting means 2
In step 7, information about the virtual terminal 21 (address for identifying the real terminal 31, transmission data, etc.) is passed to the virtual terminal 22 to switch to the virtual terminal 22 (step 50).
7). Thereafter, the transmission control means 24 processes the virtual terminal 22 in the protocol layer Bi (step 508), sequentially processes the virtual terminal 22 in the higher protocol layer, and finally the transmission control means 24 processes the virtual terminal 22 in the protocol layer B1. Process (step 509). This completes the reception process.

Although the present invention has been described with reference to the preferred embodiments, the present invention is not necessarily limited to the above embodiments. For example, in the embodiment, the communication protocol system A
Although the case where the two protocol systems of the communication protocol system B and the communication protocol system B are gated is shown, it is also possible to perform the gate by switching different virtual terminals between three or more different protocol systems.

[0025]

As described above, according to the gate method between communication protocols of the present invention, it is possible to perform communication processing by gate between different communication protocol systems.
In addition, since switching between different communication protocol systems is performed by switching virtual terminals based on the protocol layer selection definition, new virtual terminals are added or transmission control means for controlling existing communication protocol systems is modified. There is no need for troublesome work.

[Brief description of drawings]

FIG. 1 is a block diagram showing a configuration of an embodiment of a communication system to which a gate method between communication protocols of the present invention is applied.

FIG. 2 is a diagram showing an example of a protocol layer selection definition when conversion between communication protocol systems is not performed.

FIG. 3 is a diagram showing an example of a protocol layer selection definition when converting between communication protocol systems.

FIG. 4 is a block diagram showing a switching state of virtual terminals.

FIG. 5 is a flowchart showing a process for transmitting.

FIG. 6 is a flowchart showing a process when receiving is performed.

FIG. 7 is a block diagram showing a configuration of a conventional communication system.

[Explanation of symbols]

 10 Host Device 11 Communication Application 20 Communication Management Device 21, 22 Virtual Terminal 23, 24 Transmission Control Means 25 Communication Protocol Hierarchy Selection Definition Unit 26 Communication Protocol Hierarchy Selection Means 27 Communication Protocol System Conversion Means 31, 32 Real Terminal

Claims (2)

[Claims] 1. A communication system for performing communication between a host device and a real terminal by using a plurality of different types of virtual terminals corresponding to a plurality of different communication protocol systems, wherein the communication protocol system for processing the real terminal A communication protocol layer selection defining unit for predefining a communication protocol layer, a layer selecting unit for selecting a communication protocol layer based on the communication protocol layer selecting definition, and a communication protocol layer selected by the layer selecting unit. And a gating method between communication protocols, which comprises communication protocol system conversion means for switching the virtual terminal and converting between the different communication protocol systems. 2. The layer selecting means selects a communication protocol layer to be processed next when the processing of a predetermined communication protocol layer defined by the communication protocol layer selection defining section is completed, and selects the selected communication protocol layer. The gate between communication protocols according to claim 1, wherein when the hierarchy has a different communication protocol system from the previous communication protocol system, the communication protocol system conversion unit is instructed to convert between the communication protocol systems. method.