JPH04175857A - Trouble information transfer system - Google Patents

Abstract

PURPOSE:To easily analyze and search trouble by storing gathered trouble information in the data buffer of a channel device to transfer it to a main storage device in the case of the occurrence of trouble in a subchannel. CONSTITUTION:A central processing unit 1, a main storage device 2, an input/ output processing device 3, and a trouble processing device 4 are connected. Plural channel devices 5 are connected to the input/output processing device 3, and input/output controllers 6 are connected to channel devices 5 through I/O interfaces 8, and input/output devices 7 are connected to input/output controllers 6. If trouble occurs in a subchannel, trouble information is stored in a data buffer 51 of the channel device 5, and thereby, a large quantity of detailed trouble information is transferred. Thus, trouble analysis and search are easily performed in a short time.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a channel device in an information processing system, and particularly relates to transfer of subchannel failure information.

[Conventional technology]

Conventionally, when a failure occurs in a channel, only the failure information of the sister, which can be read from the firmware of the input/output processing unit, is collected.

[Problem to be solved or improved by invention]

The above-mentioned conventional fault information transfer method reads the fault information from the firmware of the input/output processing device and collects the fault information, and the amount of information is small depending on the amount of information collected.

Therefore, if it is difficult to analyze and search for failures, there will be drawbacks.

[Means for Solving the Problems] The method of the present invention is a method for transferring fault information in an information processing system consisting of a central processing unit and a group of input/output devices connected to the central processing unit via a volume interface. The method includes: a first means for storing subchannel information; a second means for buffering data divided into subchannels and sent from a main storage device or an input/output device; and an input/output device. When a data transfer request is received by the first means, the second means refers to the state of the subchannel corresponding to the input/output device that made the transfer request from among the subchannel information stored. 11) transfer the data to the storage device or recorder output device, and detect the failure of the channel. a fourth means for collecting information and a fourth means for suspending the interface with the input/output device; and a sixth means for saving data in the data buffer of the second means; A seventh means for storing the failure information collected by the fourth means in the datum sofa of the second means and transferring it to the 1F storage device.

Example] Next, the present invention will be explained with reference to the drawings.

FIG. 1 is a schematic diagram of one embodiment of the present invention.

In FIG. 1, a central processing unit 1, a main storage device 2, an input/output processing device 3, and a failure processing device 4 are connected to a system bus. The input/output processing device 3 includes a plurality of channel devices 5.
A human output control device 6 is connected to the channel device 5 via an I/'0 interface, and an input/output device 7 is connected to the input/output control device 6.

In FIG. 1, reference numeral 0 represents a channel control circuit, 5] represents a data buffer, 52 represents a subchannel memory, 53 represents a fault measurement circuit, and 54 represents a transmitting/receiving circuit.

When an input/output command is issued from the central processing unit to the input/output processing unit 3, the input/output processing unit 3 reads the channel program word stored in the main storage device 2. The input/output processing device 3 decodes the channel program word and sends control information to the channel device 5. The control information input through the signal line 501 in the channel devices is sent to the transmitter/receiver circuit 5.
4 through the signal line 502 to the channel control circuit 50, and the channel control circuit 50 transmits the control information to the signal line 502.
08 and stored in the subchannel memory 52,
Decipher the control information to generate access information. Access information passes through signal lines 02, transmitting/receiving circuit 54, and signal line 5.
01- to the input/output processing device 3. Based on the access information, the input/output processing device 3 takes the channel programmer 1-. After disassembly, the control information is transferred to the channel device 5.

The read transfer operation will be explained below.

Channel control circuit 50 stores control information in subchannel memory 52. Hit in parallel and hit 1.10 interface ace 8
, receives a data transfer request from the input/output control device 6 via the signal line 509. Furthermore, the channel control circuit 5
When 0 receives a data transfer request from the two-person output control device 6, it reads the corresponding subchannel information from the subchannel memory and sends a data transfer request to the input/output control device 6 via the I10 interface 8 and signal line 509. The reception is notified that the reception has been accepted, and furthermore, the area of the corresponding subchannel is indicated to the data buffer 51.

The data buffer γ5] takes in the transfer data via the ■/'0 interface 8 and the signal line 50/1. Subsequently, the channel control circuit 50 returns to the data transfer request acceptance state 4, and this operation continues until the data transfer is completed.
The data inside is passed through the signal line 507.

The input/output processing device 3 reads the corresponding subchannel information from the subchannel memory 52, generates access information for the main storage device 2, and sends it to the input/output processing device 3 together with the transfer data. is written to the main storage device 2.

Next, the operation at the time of failure will be explained.

When a fault occurs in a certain subchannel, the channel control circuit N50 notifies the input/output processing device 3 of the fault occurrence via the signal line 502 via the transmission/reception circuit 54, and the input/output processing device 3 informs the fault processing device 4 of the fault. Notify of occurrence.

In parallel, the channel control circuit 50 suppresses reception of the I10 interface. All other transfer data is stored in the subchannel memory 52 via signal lines 507 and 508.

Furthermore, the channel control circuit 50 has a fault detection concave iitg:N.
3 to detect and collect fault information through a signal line 506, and the fault information is passed through a signal line 505 to 1. The subchannel transfer and data saving are completed, and the data is stored in the data buffer 51.

The failure processing device 1 that has been notified of the occurrence of a failure instructs the input/output processing device 3 to transfer the failure information.The input/output processing device 3 that has received the instruction instructs the channel device 5 to transfer the failure information. . In the channel device, a transmission/reception circuit 54 receives a fault information transfer instruction and is set to a channel control circuit 50 via a signal line 502. The channel control circuit 50 takes out the fault information in the data buffer 5 through the signal line 507, reads the subchannel information that caused the NIF from the subchannel memory 52, and provides access information for storing the fault information in the main storage device 2. The fault information is generated and transmitted along the signal line 502 along with the fault information, and N damage information is transferred to the input/output processing device 3 by the transmitting/receiving circuit 54, and the input/output processing device 3 writes the fault information to the main storage device 2.

When all of the fault information in the data buffer 51 is sent out, the channel control circuit 50 sends the signal to the transmitter/receiver circuit 5 via the signal line 502.
4, the input/output processing device 3 is notified of the completion of the transfer in the channel device 5, and the input/output processing device 3 receives the notification.
returns that the transfer of the failure information to the input/output processing device 3 has been completed, and notifies the channel control circuit 50. The channel control circuit 50 transfers the transfer data of each subchannel stored in the subchannel memory 52 to a determined area of the data buffer 51 based on the subchannel information of the subchannel memory 52 via signal lines 507 and 508. Store. Furthermore, the I10 interface is opened and a request from the input/output control device 1F6 is received via the signal line 509, and the corresponding subchannel information is read from the subchannel memory, and based on that information, the subchannel that has not caused the fault is Continue data transfer.

〔Effect of the invention〕

As explained below, in the present invention, when a fault occurs in a subchannel, by storing the fault information in the data buffer within the channel device, it is possible to transfer a large amount of fault information. It has the effect of making fault analysis and searching easier and faster.

[Brief explanation of the drawing]

FIG. 1 shows an embodiment of the invention. ]...Central processing unit, 2...Main storage device, 3...
Input/output processing device, 4... Failure processing device, 5... Channel device, 6... Input/output control device, 7... Input/output device, 8... I10 interface, 9... Signal line ,
50...Channel control circuit, 5]...Data buffer, 52...Subchannel memory, 53...Failure detection circuit, 54...Transmission/reception circuit.

Claims (1)

[Scope of Claims] In a failure information transfer method in an information processing system comprising a central processing unit and a group of input/output devices connected to the central processing unit via an input/output interface, first means for storing subchannel information. and a second means for buffering the data sent from the main storage device or the input/output device, which is divided into subchannels; and the first means when a data transfer request is received from the input/output device. The data buffered by the second means is transferred to the main storage device or the input/output device by referring to the state of the subchannel corresponding to the input/output device that made the transfer request from among the subchannel information stored by the second means. a fourth means for detecting a fault in a subchannel and collecting fault information; a fifth means for suspending an interface with an input/output device; and a third means for transferring the data of the second means. a sixth means for saving data in the buffer; and a seventh means for storing the failure information collected by the fourth means in the data buffer of the second means and transferring it to the main storage device. A data transfer device characterized by having: