JPH0642219B2 - Device diagnostic method - Google Patents

Description

DETAILED DESCRIPTION [Outline] In a data processing system in which data transfer control is performed by a proxy polling method for a plurality of devices (for example, terminals) that are connected in cascade, a normal polling is used as the polling code. , And polling with diagnostics are defined, and the polling with diagnostics is executed at the diagnostic timing that occurs in a specific cycle, and the data with the device with the requested data and the diagnostic response with the device without the requested data. By transmitting data to the host, a device that does not transmit any data is diagnosed as a faulty device.

[Industrial application field]

The present invention relates to a device diagnosis method in a data processing system in which data transfer control is performed by a proxy polling method for a plurality of devices (for example, terminals) connected in a cascade.

BACKGROUND ART There is a so-called totalizer system that processes a lot of devices, for example, a data processing system for controlling terminals from the sale of voting tickets to the counting, recording, displaying, and refunding online.

In the totalizer system, reflecting the recent cashless era, at each seat of the customer in the venue, for example,
With cashless cards and the like, customers are now required to freely purchase voting tickets, and the number of terminals is increasing.

As the number of terminals increases, the cost for a one-to-one connection between the host computer and the terminals becomes high, so that a subordinate connection (so-called misconnection) is required. In this subordinate connection, data transmission is usually performed by the polling method, but since idle polling occurs, transmission efficiency is poor,
One way to improve this is to send a proxy poll to the next subsequent terminal after the terminal has transmitted its data or near the end of transmission.

However, with this method, if the terminal has a failure,
Subsequent terminals connected to the same system may not be able to receive the polling code, and in a data processing system adopting such a proxy polling method, how quickly to detect a failure of the terminal is an important issue. Becomes

As a countermeasure, conventionally, a method has been adopted in which a host sends a diagnostic request to each terminal at a fixed cycle and each terminal responds to this, but as will be described later, in this conventional method, Since normal data transfer is kept waiting during the diagnosis, an efficient terminal diagnosis method that eliminates this waiting time has come to be waited.

[Problems to be solved by conventional technology and invention]

FIG. 2 is a diagram showing an example of the connection between the host computer and the terminal, FIG. 3 is a diagram showing an example of the configuration of the transmission control unit of the terminal, and FIG. 4 shows the format of the polling code. FIG. 5 is a diagram for explaining a conventional diagnosis method.

First, in the polling code format of FIG. 4, Dp, D
Each f is 1-byte data, Df is a code designating a specific terminal or all the terminals, and Dp is a code indicating a polling signal. In this description, Df designates all terminals.

2 and 3, the terminals (1 to n) 2 receive the polling code (Dp, Df) from the host computer 1 as a receiver (R).
The signal is received by the transmission control unit (TC) 24 through 21, and is normally sent to the next terminal 2 because the gate G is normally “on”.

When one byte of the polling code (Df) is received, the central control unit (CPU) 25 does nothing if there is no data to be sent to itself, and waits for the next polling code (Df).

On the other hand, when 1 byte of polling code (Df) is received and there is data to be sent to itself, gate G
Is turned off to prevent Dp from being transmitted to the next terminal 2 and sends its own data to the host computer 1 through the driver D223.

When the data sent by the user has 2 bytes remaining, while sending the data to the host computer 1 through the driver D2 23, the polling code (Df, Dp) is sent to the next terminal 2 through the driver D1 22. Send on behalf of.

Since the next terminal 2 also executes the same thing, the host computer 1
It is possible to receive all of the transmission data of all the terminals 2 connected to the same system by one polling.

In the conventional diagnostic method in such a data processing system, a diagnostic request is periodically sent to all the terminal units (1 to n) 2 and a response is sent after the above-mentioned normal data transfer. I was receiving.

FIG. 5 conceptually shows this diagnostic method.
For normal polling P ₁ ~ from the host computer 1,
Data from terminal 2 having transmission data (indicated by)
Has been sent.

Then, for example, when the diagnostic request D ₁ is sent from the host computer 1 at the time when the polling P ₁₀ is completed, the diagnostic response signal (indicated by D∼) from all the terminals (1 to n) 2 is transmitted. .

Therefore, during the diagnosis, even if there is data to be transmitted to a certain terminal device 2, it is said that the terminal device 2 is kept waiting until the diagnosis operation ends and the next normal polling code (Dp) is received. There was a problem.

There has been a problem that the waiting time becomes longer as the number of terminals 2 increases, and becomes longer as the number of diagnoses is increased for the purpose of improving the reliability of the system.

In view of the above-mentioned conventional drawbacks, the present invention has an object to provide a method for realizing an efficient diagnosis with less waiting time by defining a normal polling code and a polling code with diagnosis in the polling code. Is.

[Means for solving problems]

FIG. 1 is a diagram for explaining an example of the configuration of the device diagnosis system of the present invention.

According to the present invention, in a data processing system in which data transfer control is performed by a proxy polling method for a plurality of devices (2) connected in a cascaded manner, the normal polling (P _i : i is the number of times of polling is used as the polling code. ) And polling with diagnosis (PD _i : i is the number of polls), the host (1) executes the polling with diagnosis (PD _i ) at the diagnostic timing that occurs in a specific cycle. If the device (2) receiving the polling code with the diagnosis has request data, the request data (~) is transmitted to the host (1) side, and if there is no request data, a diagnostic response is sent. The data (D to) is transmitted to the host (1) side, and the device (2) that does not transmit any data is recognized as a faulty device.

[Action]

That is, according to the present invention, in a data processing system in which data transfer control is performed by a proxy polling method for a plurality of devices (for example, terminals) that are connected in cascade,
Two types of normal polling and polling with diagnosis are defined as the polling code, and the polling with diagnosis is executed at a diagnostic timing that occurs in a specific cycle, and a device with request data requests the data. In a device without data, a device that does not send any data is diagnosed as a faulty device by sending diagnostic response data to the host, so a device that has data to be sent even at the diagnostic timing. Then, there is an effect that the data can be transmitted and an efficient apparatus diagnosis method can be realized.

〔Example〕

 Embodiments of the present invention will be described in detail below with reference to the drawings.

FIG. 1 described above is a diagram for explaining a configuration example of the device diagnosis method of the present invention. As the polling code, a normal polling code (Pi) and a polling code with diagnosis (PDi) are defined, and proxy polling is performed. A mechanism for controlling data transfer by the method is a means necessary for carrying out the present invention.
The same reference numerals indicate the same objects throughout the drawings.

First, in normal polling, as in the conventional method, when a normal polling code (P _i : i = the number of times of polling) is transmitted, the terminal 2 having the transmission data transmits the transmission data ~ and there is no transmission data. The terminal 2 does not send anything, and polls the next terminal 2 with the polling code.

When this normal polling is repeated m times (10 times in this example) to reach the diagnostic timing, in the present invention, instead of the normal polling code, the above-mentioned polling code with diagnosis (PD _i : I is the number of polls) to poll the terminal 2.

When the terminal 2 receives this polling code, if there is data to be transmitted, it performs normal operation and transmits normal data (indicated by ~), and if there is no transmission data,
The terminal device 2 that has the function of transmitting the diagnostic response data (denoted by D to D) as the transmission data and has the transmission data can transmit the data even at the diagnostic timing.

With this configuration, since the abnormal terminal does not respond, the terminal can be immediately recognized.

As described above, the present invention defines two types of polling code, that is, normal polling and polling with diagnosis, and at the timing of diagnosis, the polling with diagnosis is executed, and the terminal having transmission data transmits the data. The terminal having no transmission data is characterized in that by transmitting the diagnostic response data to the host computer, the terminal not transmitting any data is set as the faulty terminal.

In addition, in the present embodiment, as the device, a terminal device connected in a subordinate manner has been described as an example, but it goes without saying that the device is not limited to the terminal device.

〔The invention's effect〕

As described above in detail, in the device diagnosis method of the present invention, in a data processing system in which data transfer control is performed by a proxy polling method for a plurality of devices (for example, terminals) that are connected in cascade, Two types of normal polling and polling with diagnosis are defined as the polling code, and the polling with diagnosis is executed at a diagnostic timing that occurs in a specific cycle, and a device with request data requests the data. In a device without data, a device that does not send any data is diagnosed as a faulty device by sending diagnostic response data to the host, so a device that has data to be sent even at the diagnostic timing. Then, there is an effect that the data can be transmitted and an efficient apparatus diagnosis method can be realized.

[Brief description of drawings]

FIG. 1 is a diagram for explaining a configuration example of a device diagnosis method of the present invention, FIG. 2 is a diagram showing a connection example between a host computer and a terminal device, and FIG. 3 is a configuration example of a transmission control unit of the terminal device. FIG. 4 is a diagram showing the format of the polling code, and FIG. 5 is a diagram explaining the conventional diagnostic method. In the drawings, 1 is a host or host computer, 2 is a terminal, or a terminal (1 to n) or device, 21 is a receiver (R), 22 is a driver (D1), 23 is a driver (D2), 24 is Transmission control unit (TC), 25 is a central processing unit (CPU), Df and Dp are polling codes, ... is transmission data, D is diagnostic response data, P _i , PD _i , D _i is i-th polling code, Are shown respectively.

Claims (1)

[Claims] 1. A data processing system in which data transfer control is performed by a proxy polling method for a plurality of subordinately connected devices (2), wherein the polling code is normal polling (P _i : i is the number of polling times). ) And polling with diagnosis (PD _i : i is the number of polls), the host (1) executes the polling with diagnosis (PD _i ) at the diagnostic timing that occurs in a specific cycle. If the device (2) receiving the polling code with the diagnosis has request data, the request data (~) is transmitted to the host (1) side, and if there is no request data, a diagnostic response is sent. A device diagnostic method characterized in that data (D to) is transmitted to the host (1) side, and a device (2) that does not transmit any data is recognized as a faulty device.