JP2638184B2 - Protocol processing device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Summary of the Invention] The present invention relates to a protocol processing apparatus for performing protocol conversion when a computer and an exchange are connected. The purpose of the present invention is to make it possible to easily change a protocol by changing a program. Switch (1) and computer (3)
Protocol processing device for performing protocol conversion between devices (6)
And the exchange (1) is connected to the protocol processing device (6).
And an interface (61) connected to the computer (3) and an interpreter (62) connected to the interface (61). The interface (61) is provided between the exchange (1) and the protocol processing device and for protocol processing. Equipment and computer (3)
The interpreter (62) translates and exchanges messages exchanged between the exchange (1) and the computer (3) so as to conform to the protocol of the receiving side. The procedure of translating the protocol and translating and translating the message by the interpreter (62) is characterized by being described using a command sequence of a programming language.

[Industrial applications]

The present invention relates to a protocol processing device that performs protocol conversion when connecting a computer and an exchange.

In recent years, computers have been used in various fields, and the types of devices controlled by the computers have been increasing. As a computer control method, there is a method such as incorporating a microprocessor for relatively small-scale control, but a general-purpose computer needs to be connected for control that requires complicated and huge data. . For example, a general-purpose computer needs to be connected to an exchange in order to provide various services to the exchange. In this case, a method of connecting the exchange and the general-purpose computer is an issue. As one of the methods, there is a method of installing a protocol processing device and connecting them, and if the protocol processing device is provided, a change on the equipment side (exchange and / or computer side) can be minimized.

[Conventional technology]

Interfaces are standardized as a method for connecting different types of computers, and OSI (Open System Interconnection) is a typical example. However,
There are few examples of connections between exchanges and computers except for small computers such as APs (application processors), and no standardization of interfaces has been performed. Of course, it is not possible to connect a computer and an exchange using an inter-computer interface such as OSI.

FIG. 8 shows an example in which a modem is connected between a computer (AP) and a private branch exchange using a dedicated line. In the figure, 1 is a private branch exchange (PBX), 2 is an adapter (DCC), and 3 is an application processor (AP). A plurality of telephones 4 and the like are connected to the PBX. A modem is connected between the adapter 2 and the AP 3 by a private leased line 5. This switching system is used, for example, in a hotel, and the AP performs billing and a wake-up call service when an outside line is placed from the room. Various messages are sent / received between PBX1 and AP3, and this message is as shown in the table below, taking a wake-up call as an example.

The messages in the above table are data exchanged between PBX1 and AP3, while the wake-up call sent from PBX1 to telephone 4 is a voice signal. FIG. 9 shows a wake-up call service sequence. Wake up call is PBX
The PBX calls the telephone at the scheduled time, wakes up, and notifies the AP of the result.

[Problems to be solved by the invention]

In the conventional method, fixed protocol conversion is performed in which a message to be transmitted is defined in response to reception of a certain message. However, when the devices connected to the computer become complicated or when a plurality of computers are connected to control the device, such a fixed response cannot be enough. Also, a significant change in the protocol processing device is required for a change in the protocol.

When a computer is connected to a switch, it is necessary to modify the interface of one or both devices to eliminate the gap between the interfaces of both devices, and as a result, it becomes increasingly difficult to respond to protocol changes. ing.

The present invention considers a programming language for controlling a protocol processing device in a connection between an exchange and a computer, programs a protocol conversion procedure using the programming language, and executes and operates the same by an interpreter (language processing system).
The purpose is to be able to deal with protocol changes only by changing programs.

[Means for solving the problem]

Figure 1 is a principle illustration of the present invention, 3 ₁ to 3 _N is a plurality of computers, 6 protocol processing unit, 3 is a switch. The computer 3 and the protocol processor 6 are connected by the international standard OSI7. The protocol processor 6 and the exchange 1 are connected by an interface 8 having a unique protocol specification.
The protocol is specified in accordance with the mechanism of the exchange 1. In defining the protocol between the protocol processing device 6 and the equipment (exchange), it is desirable to determine an interface so as to minimize changes on the equipment side, but the following message is required as an interface on the exchange 1 side. Become.

Controlling the exchange Notifying the state of the exchange Reading / writing internal data in the exchange In the protocol processing device 6, a request to the exchange 1, a notification / request to the computer 3, and a read / write to a table in the device 6 Etc. are commands. In addition, commands for controlling programs such as conditional branching and repetition are added to form a programming language, an interpreter for translating and executing these is implemented on the protocol processing device, and the programmed translation procedure is executed.

FIG. 2 shows the details of the protocol processing device 6, in which 61 is an input / output interface, 62 is an interpreter, 63 is a sequence table, and 64 is various tables such as a destination table.

[Action]

In the present invention, the protocol conversion procedure is registered in the protocol processing device 6 in advance. When a message is received, access to the table, transmission of the message, and other operations are performed by the conversion procedure. With this method, it is possible to not only transmit a message whose format has been converted to a received message, but also to perform an operation such as checking a transmission condition for transmitting the message. In addition, according to the interpreter method, a change in protocol can be dealt with by a change in protocol, so that the conversion procedure can be programmed and the structure of the computer can be improved even when the function of control is improved.

〔Example〕

When the exchange 1 in FIG. 1 is a private branch exchange (PBX) and does not have a connection interface with the computer 3, the exchange with the computer 3 is performed using an interface used for connection such as a console. The following languages (commands) describe the conversion procedure.

Controls PBX1 Sends message to computer 3 Reads and writes data in table in protocol processor 6.

Interfaces on the PBX1 include call control, notification of call status, reading / writing of table information in the PBX1, control of terminals (telephones, etc.) connected to the PBX1, and status notification messages when the PBX1 starts up. Is prepared. The protocol processing device 6 includes a destination of the message, conditions for transmitting the message,
The type of data that can be transmitted to the telephone is stored in a table. Describe the conversion procedure using these commands and commands (conditional branching, repetition) that control the command sequence,
Providing an interface to a plurality of computers 3 ₁ to 3 _N.

The protocol conversion procedure is the sequence table shown in Fig. 2.
When a message is received, it refers to the sequence table corresponding to the message, and executes the conversion procedure registered therein. The operation of the protocol processing device 6 will now be described by way of a simple example.

The message received by the interface 61 is converted into a format that can be processed by the interpreter 62.

The interpreter 62 analyzes the received message and searches the sequence table 63 for a corresponding sequence.

The command is taken out of the sequence table 63, and translated and executed.

The command is taken out of the sequence table 63, and translated and executed. (Here, the transmission destination table 64i is searched to check the transmission destination of the message.) The command is extracted from the sequence table 63, and translated and executed. (In this case, the message is transmitted to the corresponding computer 3.) The interface 61 converts the transmission message into the format of the computer 3.

FIG. 3 is a block diagram showing the system configuration of the present invention.
1 private branch exchange (PBX), 2 adapter (DCC), 3 ₁ ~3 _N
Is a plurality of application processors (APs) or computers, and 6 is an interface processor (IP) or protocol processing device. It is connected by OSI7 between IP6 and AP3.

As shown in FIG. 4, the PBX 1 includes a network (NW) 11, a control device (CC) 12, and a memory 13. The telephone 4 is connected to the network 11, and the adapter 2 is connected to the control device 12. In FIG. 3, a plurality of APs 3 can be connected. FIG. 5 (a) shows the service sequence.
In this method, PBX1 has only a function of transmitting a wake-up call by voice message, and service control is performed from AP3.

FIG. 5 (b) shows a sequence when a wake-up call is registered from a telephone by a special number. The operation of the protocol converter according to the present invention will be described based on this sequence. If the requester dials with a special number (for example, when requesting a wake-up call at 7:00 (0700), if the wake-up call special number is 70, then dial 700700 with the special time 70 followed by the time 0700 ), The PBX 1 transmits the dialed number as it is to the protocol converter as shown in FIG. 6 (a). Protocol converter provides wake-up call service from special number
The AP is checked from the table (steps S1 and S2), and the designated extension number and call time are notified to the corresponding AP by a message (device output notification) (step S3). The AP registers the designated extension number and the call time (FIG. 5 (b)), and sends a wake-up call request message (device output request) at that time. In response to this, PB
X calls the telephone, makes a wake-up call, and notifies the AP of the result.

In order to notify the requester that the wake-up call request has been registered in the AP, as shown in FIG. 6 (b), a response from the AP is waited in step S4, and the result is displayed in step S5.
And the requester may be notified by outputting the tone (service tone or busy tone) in steps S6 and S7 according to the determination result. This change can be easily made, which is a feature of the interpreter system.

FIG. 7 is an example of a notification destination table showing a correspondence between a special number and a notification destination AP.
It can be considered as a subscript i of 3i.

〔The invention's effect〕

As described above, according to the present invention, the protocol conversion method is described in the programming language, so that the protocol can be easily changed by changing the program. Also, as the processing becomes more complex and sophisticated, the processing of the protocol device increases, but by converting each command describing the conversion procedure into a microprogram, it is possible to naturally implement hardware and speed up the processing. Can be expected.

Further, since functions that cannot be supported by the exchange are supplemented by the protocol processing device, changes on the exchange can be minimized.

[Brief description of the drawings]

FIG. 1 is a diagram showing the principle of the present invention, FIG. 2 is an explanatory diagram of the operation of the protocol processing device of the present invention, FIG. 3 is a block diagram showing the system configuration of the present invention, FIG. FIG. 5 is an explanatory diagram exemplifying a service sequence of the present invention, FIG. 6 is a flowchart showing processing of the present invention, FIG. 7 is an explanatory diagram of a notification destination table of the present invention, FIG. FIG. 9 is an explanatory diagram of an example of a conventional service sequence.

Continued on the front page (72) Inventor Hiromi Hasegawa 1015 Kamiodanaka, Nakahara-ku, Kawasaki City, Kanagawa Prefecture Inside Fujitsu Limited

Claims (1)

(57) [Claims] A protocol processing device (6) for performing protocol conversion between an exchange (1) and a computer (3) having different protocols, wherein the protocol processing device (6) includes an exchange (1) and a computer (3). 3) An interface (61) connected to the interface (61) and an interpreter (62) connected to the interface (61) are provided. The interface (61) is provided between the exchange (1) and the protocol processing device and between the protocol processing device and the computer. The message is transmitted / received based on the protocol between (3) and the interpreter (62) exchanges the exchange (1) and the computer (3)
A protocol exchange is performed by translating a message exchanged between the protocol and the message so as to conform to the protocol of the receiving side. The procedure for translating and translating the message by the interpreter (62) is described using a command sequence of a programming language. A protocol processing device characterized by being performed.