JPH09223079A - Data transfer system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To use data again without lowering the transfer performance of a data transfer system even when a fault is generated. SOLUTION: When a fault is reported from a fault detecting function 25-1 and another data transfer device is connected to the system, a disconnecting function 24-1 disconnects a present device from a central processing unit(CPU) 1 and a peripheral device 4. After that disconnection, a data transfer device 201 resets and reintegrates an interface. When the data transfer device 2-1 is disconnected, the CPU 1 performs retry to the other data transfer device. When another data transfer device is not connected to the system, the disconnecting function 24-1 reports that fault from a fault reporting function 23-1 to the CPU 1. When the fault is reported, the CPU 1 performs retry to that data transfer device 2-1 and when the retry is failed, the peripheral device 4 is disconnected.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a data transfer system, and more particularly to a retry method upon detecting a failure in data transfer.

[0002]

2. Description of the Related Art Conventionally, as a retry method of this type, when a failure is detected in data transfer, a retry is performed a preset number of times, and even if the retry is performed a prescribed number of times, the data transfer is normally performed. If not, there is a method to display a failure and suppress the use of the transfer route.

In the case of this method, in the data transfer system, as shown in FIG. 4, the transfer control unit 51, the path activation control unit 52, and the transfer status monitor are provided in the transmission device 5 which transfers data to the reception device 6. A section 53, a retry counter 54, and a transfer failure history display section 55 are provided.

The transfer control section 51 selects a data transfer path and controls the data transfer, the path activation control section 52 controls whether or not the data transfer path is valid, and the transfer status monitoring section 53 controls the normal data transfer. To see if done.

The retry counter 54 is a counter for retrying the data transfer a prescribed number of times when the data transfer process is not normally performed. Transfer failure history display section 5
Reference numeral 5 indicates the failure when the data is not transferred normally even after the data transfer is retried a prescribed number of times using the retry counter 54.

The transfer control unit 51 of the transmitting device 5 configured as described above selects an effective route for data transfer based on the contents of the route activation control unit 52, and transfers the data by the route. The transfer status monitoring unit 53 monitors the status of data transfer, and when the transfer status monitoring unit 53 detects that the data transfer is not normally performed, the transfer control unit 51.
Retries the data transfer a specified number of times using the retry counter 54.

When the data transfer is not normally performed even after the retries are performed the specified number of times, the transfer control section 51 displays a failure on the transfer failure history display section 55, and the path activation control section 52.
Data transfer is performed by selecting another valid route based on the contents of.

When the data transfer is normally performed by another effective route, the transfer control unit 51 causes the transfer failure history display unit 5
5, it is determined whether or not the fault display information of the faulty route has already been registered. If the fault display information of the faulty route is already registered in the transfer fault history display unit 55, the transfer control unit 51 suppresses the use of the route.

[0009]

In the above-described conventional retry method, if the data transfer is not normally performed even if the data transfer is retried a prescribed number of times when a failure occurs in the route, another effective method is obtained. Data transfer is performed by selecting a different route. Therefore, even if the failure of the route is fixed, the data transfer is retried a prescribed number of times, so that the transfer performance of the system is reduced by the time of the retry.

Further, if the data transfer is not normally performed even if the data transfer is retried a predetermined number of times and the failure display information of the route is already registered, the use of the route remains suppressed. Becomes

Therefore, an object of the present invention is to solve the above problems and provide a data transfer system which can be reused even when a failure occurs without deteriorating the transfer performance of the system. .

[0012]

A data transfer system according to the present invention is a data transfer system in which a data transfer device controls data transfer between a main memory device and a peripheral device in accordance with an instruction from a central processing unit. Detecting means provided in the data transfer device for detecting a failure in data transfer between the main storage device and the peripheral device; and failure in the data transfer provided in the data transfer device by the detecting means. And a means for reporting the fault to the central processing unit when the fault is detected, and means for instructing the data transfer device to retry when the fault is reported from the reporting unit and provided in the central processing unit. And means for disconnecting the peripheral device provided in the central processing unit and when the retry fails.

Another data transfer system according to the present invention is
A data transfer system for controlling data transfer between a main memory device and a peripheral device by one of a plurality of data transfer devices according to an instruction from a central processing unit, wherein Detecting means that is provided and that detects a failure in data transfer between the main storage device and the peripheral device; and a detecting means that is provided in each of the plurality of data transfer devices and that detects the data transfer failure A disconnection means for disconnecting the own device from the central processing unit and the peripheral device at times, and an own device provided in each of the plurality of data transfer devices and disconnected from the central processing unit and the peripheral device by the disconnection unit. And means for resetting the interface between the central processing unit and the peripheral device and re-installing the device into the system,
Means for retriing the data transfer by another device of the plurality of data transfer devices provided in the central processing unit when the failure occurs.

Another data transfer system according to the present invention is
A data transfer system for controlling data transfer between a main memory device and a peripheral device by one of a plurality of data transfer devices according to an instruction from a central processing unit, wherein the main memory device and the peripheral device Between the data transfer device and the data transfer device other than the self device and the data transfer device other than the own device is not connected to the central processing unit. Reporting means for disconnecting, and a disconnecting means for disconnecting the own device from the central processing unit and the peripheral device when a failure of the data transfer is detected by the detecting means and the data transfer device other than the own device is connected, Resetting the interface between the self-device and the central processing unit and the peripheral device when separated from the central processing unit and the peripheral device by the disconnecting means A first retry for instructing the data transfer apparatus to retry when the failure is reported from the reporting means, each of the plurality of data transfer apparatuses being provided with means for reincorporating the own apparatus into the system. Means, a means for disconnecting the peripheral device when the retry by the first retry means fails, and a retry of the data transfer by another device of the plurality of data transfer devices when the failure occurs. The second central processing unit is provided with a second retry means for performing the above.

[0015]

DESCRIPTION OF THE PREFERRED EMBODIMENTS First, the operation of the present invention will be described below.

In a data transfer system for controlling data transfer between a main memory device and a peripheral device by one of a plurality of data transfer devices in response to an instruction from a central processing unit, the main memory device and the peripheral device are If a data transfer failure between the data transfer devices is detected and no other data transfer device is connected, the data transfer device reports the failure to the central processing unit, and the central processing unit reports from the data transfer device. Disconnect the peripherals when the retries based on the above fails.

When a data transfer failure is detected and a data transfer device other than the data transfer device is connected, the data transfer device is disconnected from the central processing unit and the peripheral device, and then the data transfer device and the central device are disconnected. The interface between the processing device and the peripheral device is reset and the data transfer device is re-installed in the system.

As a result, when another data transfer device is connected to the system, the data transfer device is disconnected from the system without retrying the data transfer device that was connected when the failure occurred. Therefore, the transfer performance of the system is not deteriorated.

Further, since the interface between the central processing unit and the peripheral device is reset and the data transfer device is re-installed in the system for the data transfer device separated from the system due to the occurrence of the error, the failure occurs. The data transfer device can be reused when it occurs.

Next, an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram showing the configuration of one embodiment of the present invention. In the figure, a data transfer system according to an embodiment of the present invention includes a central processing unit (CPU) 1,
The data transfer devices 2-1 to 2-n and the main memory device (MM
U) 3 and peripheral device 4.

Each of the data transfer devices 2-1 to 2-n is arranged between the central processing unit 1 and the peripheral device 4 and has transfer control functions 21-1 to 21-n (transfer control function 21-2). ~
21-n is not shown), and end reporting functions 22-1 to 22
-N (end reporting functions 22-2 to 22-n are not shown)
And the failure reporting functions 23-1 to 23-n (failure reporting function 2
3-2 to 23-n are not shown) and a separating function 24-
1 to 24-n (separation functions 24-2 to 24-n are not shown) and failure detection functions 25-1 to 25-n (failure detection functions 25-2 to 25-n are not shown) It is configured.

The transfer control functions 21-1 to 21-n control the transfer start instructed by the central processing unit 1, and the peripheral device 4
Send a transfer request to. End reporting function 22-1 to 22-
n reports the end report from the peripheral device 4 to the central processing unit 1.

The fault reporting functions 23-1 to 23-n report to the central processing unit 1 the fault notifications transmitted from the disconnecting functions 24-1 to 24-n. Separation function 24-1 to 24
When a failure is notified from the failure detection functions 25-1 to 25-n, -n disconnects itself from the central processing unit 1 and the peripheral unit 4 if another data transfer device is connected, and the central processing unit 1 Also, after disconnecting from the peripheral device 4, the interface between the central processing unit 1 and the peripheral device 4 is reset and the device is re-installed in the system.

The fault detecting functions 25-1 to 25-n detect a fault during data transfer between the peripheral device 4 and the main memory 3. The main memory 3 is provided beforehand with a configuration information area for storing configuration information indicating the configuration of the data transfer system according to this embodiment.

FIG. 2 shows the data transfer devices 2-1 to 2- of FIG.
3 is a flowchart showing the processing operation of n, and FIG.
3 is a flowchart showing the processing operation of the central processing unit 1. The operation of the embodiment of the present invention will be described with reference to FIGS.

The central processing unit 1 refers to the configuration information stored in the configuration information area of the main memory 3 and instructs the data transfer devices 2-1 to 2-n connected to this system to transfer data. (Steps S21 and S22 in FIG. 3).

When the transfer start is issued from the central processing unit 1 to the data transfer devices 2-1 to 2-n (step S in FIG. 2).
1), transfer control functions 21-1 to 21-n to peripheral device 4
The transfer request is transmitted to (step S2 in FIG. 2).

The peripheral device 4 is a data transfer device 2-1 to 2-.
Data is transferred to and from the main storage device 3 in accordance with the transfer request from n, and when the data transfer is completed, an end report is sent to the data transfer devices 2-1 to 2-n. When the end report is sent from the peripheral device 4 to the data transfer devices 2-1 to 2-n (step S4 in FIG. 2), the end report is sent to the central processing unit 1 by the end report functions 22-1 to 22-n. The data is transmitted (step S5 in FIG. 2), and the process ends.
When the central processing unit 1 also receives the end report from the end report functions 22-1 to 22-n (step S24 in FIG. 3), the process ends.

During the data transfer between the peripheral device 4 and the main memory device 3, the data transfer devices 2-1 to 2-n are provided with fault detection functions 25-1 to 25-n according to the fault information from the peripheral device 4. When a failure is detected (step S3 in FIG. 2), the failure is separated from the failure detection functions 25-1 to 25-n and the function 2
Notify 4-1 to 24-n.

When the failure detecting functions 25-1 to 25-n notify the disconnecting functions 24-1 to 24-n of the failure, the configuration information of the main storage device 3 is generated regardless of whether the failure is an intermittent failure or a fixed failure. The configuration information stored in the area is confirmed (step S6 in FIG. 2), and it is determined whether the system has a plurality of data transfer devices (step S7 in FIG. 2). still,
The disconnection functions 24-1 to 24-n are failure report functions 23-
The failure occurrence is notified to the central processing unit 1 via 1 to 23-n.

If the data transfer devices other than the own device are connected to the system, the disconnection functions 24-1 to 24-n
Disconnect the device from the central processing unit 1 and the peripheral device 4,
The information of its own device is deleted from the configuration information stored in the configuration information area of the main storage device 3 to update the configuration information, and the system is not connected to the system (step S8 in FIG. 2).

When the data transfer devices 2-1 to 2-n are disconnected from the central processing unit 1 and the peripheral device 4 by the disconnecting functions 24-1 to 24-n, the interface between the central processing unit 1 and the peripheral device 4 is established. To reset the peripheral device 4, re-install the peripheral device 4, and register the information of its own device in the configuration information stored in the configuration information area of the main storage device 3 to update the configuration information (step S9 in FIG. 2). As a result, the data transfer devices 2-1 to 2-n can execute the transfer instruction from the central processing unit 1 from the next time onward.

When the central processing unit 1 is notified of the occurrence of a failure (step S23 in FIG. 3), that is, the data transfer device 2-1.
.. 2-n are disconnected from the central processing unit 1 and the peripheral device 4 by the disconnecting functions 24-1 to 24-n, the configuration information stored in the configuration information area of the main memory 3 is confirmed (step S25 in FIG. 3). ), It is determined whether the system has a plurality of data transfer devices (step S26 in FIG. 3).

The central processing unit 1 reissues (reissues) a transfer start to another data transfer device if a data transfer device other than the separated data transfer devices 2-1 to 2-n is connected to the system. Trial) (step S27 in FIG. 3).

On the other hand, the disconnection functions 24-1 to 24-n, when a data transfer device other than the own device is not connected to the system, when the end report is received from the peripheral device 4 (step S10 in FIG. 2), Fault reporting function 23
The central processing unit 1 is notified via -1 to 23-n (step S11 in FIG. 2).

When the failure is notified (step S23 in FIG. 3), the central processing unit 1 confirms the configuration information stored in the configuration information area of the main memory 3 (step S2 in FIG. 3).
5), it is determined whether or not the system has a plurality of data transfer devices (step S26 in FIG. 3).

The central processing unit 1 includes the data transfer units 2-1 to 2-1.
Since the data transfer devices other than 2-n are not connected to the system, reissue (retry) of the transfer activation is performed for the data transfer devices 2-1 to 2-n (step S2 in FIG. 3).
8).

The central processing unit 1 is a data transfer device 2-1 to 2-1.
If the retry for 2-n fails (step S2 in FIG. 3).
9), assuming that the peripheral device 4 has failed, the data transfer device 2-
The peripheral device 4 instructed to transfer to 1 to 2-n is disconnected (closed) (step S30 in FIG. 3). In this case, the peripheral device 4 is disconnected by the data transfer devices 2-1 to 2-
Similar to the separation of n, it is performed by deleting the information of the peripheral device 4 from the configuration information stored in the configuration information area of the main storage device 3 and updating the configuration information.

As described above, data transfer between the main memory 3 and the peripheral device 4 is performed by one of the plurality of data transfer devices 2-1 to 2-n according to the instruction from the central processing unit 1. In the data transfer system to be controlled, when a failure in the data transfer between the main memory device 3 and the peripheral device 4 is detected and no data transfer device other than the data transfer device is connected, the failure is transferred from the data transfer device to the The peripheral device 4 is disconnected when the retry performed by the central processing unit 1 based on the report from the data transfer device fails, the peripheral device 4 is disconnected, and the failure of the data transfer is detected and other than the data transfer device. When the data transfer device is connected to the central processing unit 1 and the peripheral device 4, the data transfer device is separated from the central processing unit 1 and the peripheral device 4, and If another data transfer device is connected to the system by resetting the interface between them and re-installing the data transfer device in the system, the data transfer device connected when the failure occurred Since the data transfer device is disconnected from the system without retrying, the transfer performance of the system is not deteriorated.

Further, the interface between the central processing unit 1 and the peripheral device 4 is reset and the data transfer device is re-installed in the system for the data transfer device separated from the system due to the occurrence of a failure. ,
The data transfer device can be reused even when a failure occurs.

[0041]

As described above, according to the present invention, the data transfer between the main memory device and the peripheral device is controlled by one of the plurality of data transfer devices according to the instruction from the central processing unit. In the data transfer system, when a failure in data transfer between the main storage device and the peripheral device is detected and no data transfer device other than the data transfer device is connected, the failure is transferred from the data transfer device to the central processing unit. When a retry is made by the central processing unit reporting based on the report from the data transfer device fails, the peripheral device is disconnected, a data transfer failure is detected, and the data transfer device is connected to a device other than the data transfer device. If so, disconnect the data transfer device from the central processing unit and the peripheral device before the interface between the data transfer device and the central processing unit and the peripheral device. By performing the re-integration of over scan reset to the system of the data transfer device, without lowering the transfer performance of the system, there is an effect that it is possible to enable even reused in the event of a failure.

[Brief description of drawings]

FIG. 1 is a block diagram showing the configuration of an embodiment of the present invention.

FIG. 2 is a flowchart showing a processing operation of the data transfer device of FIG.

FIG. 3 is a flowchart showing a processing operation of the central processing unit of FIG.

FIG. 4 is a block diagram showing a configuration of a conventional example.

[Explanation of symbols]

 1 Central Processing Unit 2-1 to 2-n Data Transfer Device 3 Main Storage Device 4 Peripheral Device 21-1 Transfer Control Function 22-1 End Report Function 23-1 Fault Report Function 24-1 Separation Function 25-1 Fault Detection Function

Claims (3)

[Claims] 1. A data transfer system for controlling data transfer between a main storage device and a peripheral device by a data transfer device in response to an instruction from a central processing unit, the data transfer system being provided in the data transfer device and comprising: Detecting means for detecting a failure in data transfer between the storage device and the peripheral device; and the central processing unit, which is provided in the data transfer device and detects the failure in the data transfer by the detecting means. Reporting means for reporting to the central processing unit, means for instructing the data transfer apparatus to retry when the failure is reported from the reporting means, and the retry processing provided for the central processing unit And a means for disconnecting the peripheral device when the data transfer fails. 2. A data transfer system for controlling data transfer between a main memory device and a peripheral device by one of a plurality of data transfer devices in response to an instruction from a central processing unit. Detection means provided in each data transfer device and for detecting a failure in data transfer between the main memory device and the peripheral device; and detection means provided in each of the plurality of data transfer devices and used by the detection means. Disconnection means for disconnecting itself from the central processing unit and the peripheral device when a failure is detected, and disconnection means provided in each of the plurality of data transfer devices and separated from the central processing unit and the peripheral device by the disconnection means. Means for resetting an interface between the self-device and the central processing unit and the peripheral device and reincorporating the self-device into the system, A data transfer system, which is provided in a central processing unit, and has means for retrying the data transfer by another device of the plurality of data transfer devices when the failure occurs. 3. A data transfer system for controlling data transfer between a main memory device and a peripheral device by one of a plurality of data transfer devices according to an instruction from a central processing unit, wherein the main memory Detecting means for detecting a failure in data transfer between the device and the peripheral device, and detecting the failure when the failure in the data transfer is detected by the detecting means and the data transfer device other than the own device is not connected. The reporting means for reporting to the central processing unit, and disconnecting the self processing apparatus from the central processing unit and the peripheral apparatus when the data transfer failure is detected by the detecting means and the data transfer apparatus other than the self processing apparatus is connected. Separating means for separating, and an interface between the device itself and the central processing unit and the peripheral device when separated from the central processing unit and the peripheral unit by the separating unit. Each of the plurality of data transfer devices has means for resetting the memory device and reincorporating the device into the system, and instructs the data transfer device to retry when the failure is reported from the reporting means. A first retry means, a means for disconnecting the peripheral device when the retry by the first retry means fails, and another device of the plurality of data transfer devices when the failure occurs. A data transfer system comprising: a second retry means for retrying data transfer, in the central processing unit.