JPS62164150A - Program load system for terminal controller - Google Patents

Abstract

PURPOSE:To eliminate the need of replacement of programs in a terminal controller and a center device when a new terminal equipment for a peculiar processing is connected, by loading a program for the peculiar processing from the terminal equipment to the terminal controller. CONSTITUTION:In a terminal equipment 3 for the peculiar processing out of plural terminal equipments connected to a terminal controller 2, a command sent from the controller 2 is stored in a storage device 15. When a microprocessor 13 discriminates that an extended command or a terminal command to which an identifier is added is supplied, this command is used to retrieve a hard disc device 17, and a corresponding program is read out and is stored in the device 15 if it is found. Therefore, the response of program load request is sent to the controller 2. When a program load command is transmitted from the controller 2 thereby, it is received, and the peculiar program stored in the device 15 is read out and is transmitted to the controller 2 and is loaded into the controller 2. Thus, the peculiar processing is executed in the equipment 3 by the control of the controller 2.

Description

[Detailed description of the invention]

(Field of Application of the Invention) The present invention relates to a program loading method for a terminal control device, and particularly to a terminal device that performs specific processing such as a personal computer or an intelligent terminal. The present invention relates to a block system of a terminal control device which is particularly suitable for use in programming. [Effect of the invention] As a conventional program loading method for a terminal control device,
A first method is generally used in which a program is stored in a disk device connected to a terminal control device and then loaded into the terminal control device. There is also a second method in which a program is held in a central unit and the program is loaded from the central unit to the terminal control 21I device or terminal device when the system is powered on. This method is a type of download method, and examples of related to this type of method include JP-A-53-2051 and JP-A-58-149528. For example, a conventional terminal device without a microprocessor may be connected to a terminal control device, and a new terminal device such as a personal computer or an intelligent terminal with a microprocessor may be additionally connected to this terminal control device. . In such a case, the new terminal device number is enhanced to perform unique processing in addition to the basic fixed processing performed by the conventional terminal device. Therefore, when adding such a new terminal device, it is necessary to replace the program executed by the terminal control device in accordance with the enhanced functionality of the terminal device. Further, even when an intelligent terminal or the like is already connected to the terminal control device and the unique processing of this intelligent terminal is changed, it is necessary to replace the program executed by the terminal control device in accordance with the change. When the system configuration changes in this way, in the first conventional method, the program of the disk device connected to the terminal control device must be changed, and in the conventional second method, the program is stored in the central device. There was a problem in that the program had to be changed and it could not be solved by simply adding or changing the terminal device. [Object of the Invention] The object of the present invention is to add or change a new terminal device that performs specific processing to the terminal control device by loading a program that performs processing specific to the terminal device from the terminal device to the terminal control device. Terminal control when connecting! (!An object of the present invention is to provide a program loading method for a terminal control device that does not require replacing the programs of the device and the central device. [Summary of the Invention] In the present invention, the central device and the terminal control device A system is composed of an m device and one or more terminal devices connected to the terminal control device, and the non-volatile storage medium of the terminal device that performs specific processing behind the one or more terminal devices is A program that performs the above processing is stored. When the above-mentioned specific processing is requested, the program that performs the specific processing is read from the nonvolatile storage medium and loaded into the terminal control device. After that, the terminal control l Unique processing is executed in the installation. (Embodiment of the invention) Fig. 1 shows a system configuration diagram of an embodiment of a system to which the method of the present invention is applied.

[, 1 is a central device. The terminal control device 2 is arranged between the central device 1 and the terminal device 3, and is connected to both. The terminal control device 2 is a disk controller that controls a transmitting/receiving circuit 4 connected to the central device 1, a transmitting/receiving circuit 5 to which a plurality of terminal devices are connected, a microprocessor 6, a main memory bag FI7, a flexible disk device 9, etc. It is composed of a circuit 8 and a control storage device 10. Further, the terminal device 3 is
It is composed of a transmitting/receiving circuit 12, a microprocessor 13, a screen buffer 1/I, a disk control circuit 16 for controlling a storage device 15, a hard disk device 17, etc., and a CRT 19. '' The storage medium of the flexible disk device 9 stores a program for the terminal control device 2 to execute processing common to a plurality of terminal devices connected to the terminal control device 2 (hereinafter referred to as "standard processing"). . Further, the storage medium of the hard disk device 17 of each terminal device 3 stores a program for the terminal control device 2 to execute processing specific to the terminal device 3. The suitable program here is, of course, the Nizab [1 program, not the Mike [1 program]. First, the operation of the terminal control device 2 will be explained. When the terminal control I device 2 is powered on, first the terminal a+I+
The 1211 device 2 reads a fixed-form processing program from the flexible disk device 9 and stores it in the control storage device 10. Here, the fixed form processing is expansion/editing of compressed data received from the central device 1, central bag rl! These processes include compressing and editing data to be sent to i1, polling multiple terminal devices, and transferring screen data to each terminal device. The program for the above-mentioned fixed form processing [Yoko no later control storage device 1
Resident at 0. After this, the terminal 2+control device 2 starts the operation shown in FIG. Commands and data are sent from the central device 1,
When this is received by the transmitting/receiving circuit 4, the microprocessor 6 of the control device 2 receives this command and data and stores it in the main storage device 7 (step 21). The microprocessor 6 determines whether the command is a command that instructs a routine process common to all terminal devices and whether or not it is a routine process based on whether there is an identifier to be described later at the beginning of the data. 22), if it is the fixed form processing 1111, the process moves to step 23 and the fixed form processing is performed. In this fixed form processing, the microblosset+16 expands and edits data (character data), for example, and sends the screen data 1!7 together with a command common to all terminal devices (hereinafter referred to as "terminal command J") to the transmitting/receiving circuit. 5 to the specified terminal device. Of course, each terminal device is specified by an address in the data. Next, a case where it is determined in step 22 that G, i is not determined by the fixed form t8 principle will be explained. Commands from the central device 1 include, in addition to commands for instructing fixed-form processing, extended commands, and commands in which an identifier is provided at the beginning of the γ-code following the command. The above-mentioned extended commands and commands with identifiers are commands that cannot be processed by a fixed-form processing program, and are unique to a given terminal device 3.
This is to instruct the fl management. This unique processing includes, for example, hard disk device read and write processing, screen data processing, and the like. If the command and data from the central device 1 are not the above-mentioned fixed form processing, the process moves to step 24. , in step 24, the t, t Jz extended command or the t31 identifier is transmitted to the predetermined terminal device 3. This invasion, micropro tree 6
is extended to a given terminal device i! which is supplied with a terminal command with 7 commands or an identifier added by 41! ? 3, it is determined whether a program load request is sent (step 25).
). If there is this program load request, the microprocessor issues a program load command to the predetermined terminal V device 3, and the memory device 'i?' of the predetermined terminal device 3 is issued.
115 is read out, and stored in the overlay area 11 in the control storage device 10 (step 26). Next, the microprocessor starts the program for specific processing stored in the overlay area (step 27), and performs this specific processing (step 28). In the specific processing, the microprocessor 6G decompresses and edits data (compressed screen data) from the central device 1, for example, and transmits the obtained screen data to a predetermined terminal device 3. In this case, the program loaded into the terminal control device 2 includes 21 commands (hereinafter referred to as "extended terminal commands") specific to the predetermined terminal device 3, and the terminal control device 2 This extended terminal command is sent to the device 3 together with the F2 screen data. As a result, even if the format 1 to 74 of screen data on a predetermined terminal device 3 is different from 74-mat on another terminal device, the terminal control device 2 can output double-sided data in a format corresponding to this predetermined terminal device 3. It is possible to edit. When Step 23 or 28 of F is completed, Softub 2
9, the terminal control device f2 reports the completion to the central device 1 and ends the process. In addition, if there is no program load request from the predetermined terminal device 3 within a certain period of time in step 25, the process moves to step 30, and two command rejection notifications are sent to the central device 1 from the terminals all+control device 12i. Perform f1 and end the process.仝i: When the terminal control ill device 2 sends the message 21, the non-device 3 starts the operation shown in FIG. 3. The Madi Micro Broselli 13 receives the transmitted command and records it in the storage device 15 (step 31). The microprocessor 13 determines whether or not a fixed format process is instructed by this command in step 32), and if it is a fixed format process, it confirms that the command was received normally using the terminal system i! II device 2
(Step 33). Thereafter, the screen data supplied from the terminal control device 2 is stored in the screen buffer 14, and the screen data in the double-sided buffer 171 is sequentially read out to perform snow regularization processing to be displayed on the CRT 19. End cover. Next, if it is determined in step 32 that it is not a fixed-format process, and if a terminal command with a cloak or identifier added 'that is, terminal control device; extended from N2' is supplied, the microphone or multiple blocks stored in the disk device 17 using an identifier.
] Plum 18 is inspected (step 35). Microphone [1
B[■Hira 1st 13 is Toki 1 Hirohari] Cloak 发G, L
Step 3 (3): Determine whether or not Gusom has been born. If it is found, copy the program to the hard disk drive.
Read from 7 and memorize 1! 15 (step 37). Thereafter, a response to the program load request is sent to the terminal control device 2 (step 38). As a result, the terminal control device 2 sends a program load command (
i+, the microprocessor 13 receives this program load command (step 39), reads out the specific processing program that has been read out from the hard disk drive 17 and is stored in the storage device 15, and sets the terminal control vt location. 2 (step 40). Thereafter, the microprocessor 13 of the terminal product 3 receives extended terminal commands and screen data sent from the terminal control device 2 (step 41). Furthermore, the microprocessor 13 stores the screen data received in response to the extended terminal command in the screen buffer 14, and performs specific processing such as sequentially reading out the screen data from the screen buffer 14 and displaying it on the CRT 19 (step 42), the process ends. - Or, if no program corresponding to the extended command or identifier is found in step 36, step 1
The process moves to the knob 43, sends a command rejection response to the terminal control device 2, and ends the process. Figure 4 [, 1 central neck 1. Terminal control device 2. Terminal device 3
represents the processing sequence of In the figure, central device 1
When commands and data (data not including an identifier) are transmitted, the terminal control device 2 transmits the terminal commands and screen data to the terminal device 23, and fixed-form processing is performed. In addition, when data including recommands and identifiers or extended commands and data are transmitted from the central device 1, the terminal UIm
The device 2 sends an extended command or a terminal command with an identifier added to the terminal device 3, and thereby the hard disk device 17 sends the extended command or 1. A unique processing program corresponding to the i identifier is read out and loaded into the terminal control device 2. Thereafter, the terminal control device 2 transmits extended terminal commands and screen data to the terminal device 3, and specific processing is performed. In this way, the flexible disk device 9 connected to the terminal system 611 device 2 stores only programs for standard processing, and programs for specific processing to be performed on a predetermined terminal device 3 are stored in the flexible disk device 9 connected to the terminal system 611 device 2. The program is stored in the hard disk drive 17, and only when specific processing is to be performed, a program for specific processing is sent from the terminal device 3 to the terminal control 1H! Loaded into location 2. Therefore, another new terminal device that performs specific processing is set to 1- terminal control device 2.
There is no need to replace the program stored in the flexible disk device 9 of this terminal control device 2, or it is not necessary to replace the program of the terminal control device 2 stored in the central device 1 when additionally connecting to the terminal control device 2. Terminal system a
It is easy to change or add a terminal device connected to the t+ device 2. :Usually, the microphone 113 of the terminal control device 2 is of higher performance than the microcontroller 113 of the terminal device 3. For this reason, processing is faster when the terminal 1 and the control device 3 perform the processing as in the present invention, rather than when the terminal device 3 performs its own processing. In addition, if dedicated hardware such as an image data compression/decompression circuit is installed in the terminal control device 2, there is no need to install the dedicated hardware in each terminal device, resulting in faster processing. can be measured. Note that a hard disk device may be used instead of the flexible disk device 9, and a flexible disk device may be used instead of the hard disk device 17. Furthermore, a dedicated processor may be used in place of the microprocessor 6.13, and the main memory 7, control memory 111, screen buffer 14, and memory device 15 may each use a single memory divided into C. It is not limited to the above embodiments. In the above embodiment, the program for fixed processing is stored in the flexible disk device 9 connected to the terminal control device 2. One gram of the fixed processing program is stored when the terminal control device 2 is turned on. For example, loading may be performed from the central device 1, and the invention is not limited to the above embodiment. [Effects of the Invention] As described above, the terminal control wave Y program loading method according to the present invention (a new <L When adding or changing a terminal device to a terminal-based tall device and connecting it, there is no need to replace the block I-gram of the terminal control device and the central device, and it is unique to a high-performance terminal control device for the terminal device. It has features such as being able to speed up processing FI+ because it executes processing programs.

[Brief explanation of drawings]

FIG. 1 is a system configuration diagram of an embodiment of a system to which the method of the present invention is applied, and FIGS. 2 and 3 are flowcharts for explaining the operation of an embodiment of the terminal control device and terminal device of the method of the present invention, respectively. , FIG. 4 is a processing sequence of one embodiment of each device shown in FIG. 1... Central device, 2... Terminal υ control device, 3...
Terminal device, 9...Flexible disk device, 17.
...Hard disk device, 21-43...step. Figure 2 Figure 3 Figure 4

Claims (1)

[Claims] a central device; a terminal control device connected to the central device;
In a program loading method of a terminal control device in which a program is loaded to the terminal control device of a system consisting of one or more terminal devices connected to the terminal control device, a terminal that performs specific processing among the one or more terminal devices. A program for performing the specific processing is stored in a non-volatile storage medium of the device, and when the specific processing is requested, the program for performing the specific processing is read from the non-volatile storage device and loaded into the terminal control device. A program loading method for a terminal control device characterized by executing the program.