JP2601324B2 - Channel path management device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Overview] Regarding a method of managing a plurality of channel paths connecting a main device and an input / output control device, a channel related to a failure without man-hours and without providing a separate device. Aiming to be able to disconnect the path, detecting means for detecting a failure of a portion related to an arbitrary channel path, switching means for switching the channel path related to the failure from a connected state to a disconnected state based on a command signal, Command signal transmitting means for transmitting a command signal to the switching means using a channel path other than the channel path relating to the failure when the detection means detects the failure.

[Industrial applications]

The present invention relates to a method of managing a plurality of channel paths connecting a main device and an input / output control device in an electronic computer system or the like.

[Conventional technology]

As a conventional channel path management method, for example, a computer system in which a plurality of main units are respectively connected to input / output units shared via channel paths will be described. If a failure occurs in the input / output control device, etc., manually operate the channel switch provided in the input / output control device,
The channel path associated with the failed part is physically disconnected, and the input / output device is continuously used by another channel path with a minimum effect on other normal parts. The cut faulty part is repaired and then recombined to be used as before the fault.

Conventionally, as shown in FIG. 4, a so-called daisy-chain connection is made between the input / output control devices 3a and 3b through the dedicated interface 2 using the dedicated control device 1 and the above-mentioned failure occurs. If there is, the channel paths 8a, 8
Some have omitted b. In the figure, reference numeral 4
Denotes a main unit, and reference numerals 5a and 5b denote magnetic disk devices.

In addition, since the speed of the above connection is poor, the dedicated interfaces 6a, 6b... 6n are used as shown in FIG.
Are provided for each of the input / output control devices 7a, 7b... 7n and connected in parallel to increase the speed.

[Problems to be solved by the invention]

By the way, in this conventional method, in the former method of cutting the channel path manually, there is a problem that the work is complicated and the efficiency is low because of the troublesome work.

In addition, as in the latter case shown in FIGS. 4 and 5, in the system using the dedicated control device 1 and the dedicated interfaces 2, 6a to 6n, it is free from the trouble of manual operation. Since a dedicated device or the like is provided separately, there is a problem that the system becomes larger and the cost increases accordingly.

Therefore, an object of the present invention is to be able to cut off a channel path related to a failure without manual operation and without providing a separate device.

[Means for solving the problem]

The technical means of the present invention for solving this problem is, as shown in FIG. 1, provided in the main unit in a device for managing a plurality of channel paths connecting the main unit and the input / output control unit. Failure detecting means for detecting a failure in a portion related to the channel path, and switching means connected to the main unit only via each channel path, for switching the channel path related to the failure from a connected state to a disconnected state based on a command signal. Command signal transmitting means connected to the switching means only via each channel path, and transmitting a command signal to the switching means using a channel path other than the channel path related to the failure when the detection means detects a failure It is provided with.

[Action]

According to this means, when a failure of a portion relating to an arbitrary channel path, for example, a failure of the input / output control device 11 relating to an arbitrary channel path occurs, the detection means 13 detects the failure. When the detecting unit 13 detects the failure, a command signal is transmitted from the command signal transmitting unit 15 using a channel path other than the channel path related to the failure, and the switching unit unit 14 switches the channel path related to the failure according to the command signal. Switch from the connected state to the disconnected state. As a result, the channel path related to the failure is automatically disconnected from the main device 10 without any manual operation, and a situation that adversely affects the main device 10 is prevented. The transmission of the command signal is performed using an existing channel path without providing an interface.

〔Example〕

Hereinafter, a channel path management method according to an embodiment will be described in detail with reference to the accompanying drawings.

In the computer system shown in FIG.
Denotes a main unit, and 11 denotes an input / output control unit, which includes two sets of channel adapters 16a and 16b and device adapters 17a and 17b respectively associated with the channel adapters 16a and 16b.
One main unit 10a is connected to both channel adapters 16a and 16b via channel paths 20a and 20b, and the other main unit 10b is connected to both channel adapters 16a and 16b via channel paths 21a and 21b. ing. Reference numerals 18 and 19 denote magnetic disk devices which are connected to device adapters 17a and 17b via connection paths 22a and 22b.

Each of the main units 10a and 10b is connected to each of the channel paths 20a and 20a.
Detectors 13a, 13b for detecting failures of parts related to b, 21a, 21b
It has. The detection units 13a and 13b are connected to one main unit 1
For example, the main unit 10a
As a part related to the channel path 20a, the function of detecting a failure of the channel path 20a, the channel adapter 16a, the device adapter 17a and the connection path 22a is provided. Further, the detection units 13a and 13b are mutually connected to the main units 10a and 10b.
It has a function to detect the failure of This detection is performed based on, for example, not receiving a signal to be received or receiving a signal that does not conform to the format.

Further, as shown in FIG.
On the paths of b, 21a, and 21b, the channel paths 20a, 20b, 21a, and 21b are respectively set to the "connected state (Normal state)", the "disconnected state (Disable state)", and the "diagnosis state (S
switching unit 14 for switching to three states (FIG. 3)
Is interposed. Here, the “connected state” is a state in which the input / output device can execute all the channel commands defined conventionally, and the “disconnected state” is a state in which the input / output device is physically connected to the main units 10a and 10b. The “diagnosis state” is a state in which the connection with the device 11 is disconnected, and the “diagnosis state” is a state for a channel port in a standby state or a recovery sequence state. Command for sense) can be executed,
If any other channel command is received, it is rejected (responds to command reject).

In addition, channel command transmission units 15a and 15 as command signal transmission units for issuing channel management commands (Path Management Control commands) to the switching unit 14 (transmitting channel commands as command signals) to the switching units 14 are provided to the main units 10a and 10b.
b is provided. In this channel management command, 1
The “diagnosis”,
One of the operations of “disconnect”, “online”, “offline”, and “diagnostic test and write” is specified. The path group identification information (the identification information of the path group composed of one path or a plurality of paths) of the channel path to be controlled is specified by the remaining bytes, and the "failure inspection writing" is performed by the main units 10a and 10b. Specify the diagnostic data to be transferred to the I / O device using the remaining bytes.

Then, as shown in FIG. 3, the channel command transmitting units 15a and 15b use the other channel paths (other paths) that do not belong to the channel path to be designated for the operation (the channel path related to the failure) to perform the above-described operations. A channel management command of “diagnosis” is issued, and the switching unit 11 switches the channel path of which operation is specified from “disconnected state” to “diagnosis state”.

In addition, the path group for which the operation is specified from the channel command transmission units 15a and 15b (channel path related to the failure)
A channel management command of “disconnection” is issued using another channel path (other path) that does not belong to the group, and the switching unit 11 switches the channel path designated for operation from “connected state” to “disconnected state” or “diagnosis”. From the “state” to the “disconnected state”. In this case, if the channel path for which the operation is specified can be used effectively, the channel management command of “disconnection” can be performed using an arbitrary channel path (own and other paths) including the channel path for which the operation is specified. May be issued.

Furthermore, the channel command sending units 15a and 15b issue an “online” channel management command using their own channel paths (own paths) for which operation has been designated, and the switching unit 11 While switching the path from the "diagnosis state" to the "connection state", the channel command transmission units 15a and 15b issue an "offline" channel management command using their own channel paths (own paths) for which operation is specified. Then, the switching unit 11 changes the channel path designated for operation from the “connection state” to the “diagnosis state”.
Switch to.

Therefore, according to the channel path management method according to this embodiment, the following operation is performed.

Now, for example, as shown in FIG.
It is assumed that a failure has occurred in 16b, the device adapter 17b, or the connection path 22b. In this case, the detection unit 13a of the main device 10a detects the failure.

When the detecting unit 13a detects a failure, a “disconnect” channel management command for the failed channel path 20b is issued from the channel command transmitting unit 15a via the channel path 20a.

In response to the “disconnected” channel management command, the switching unit 14 sets the failed channel path 20b to the “connected state”.
Is switched to the "disconnected state". Thereby, the channel path 20b is physically disconnected from the main device 10a. Therefore, a situation in which the main unit 10a is adversely affected is prevented.

Then, in this state, the part that caused the failure may be repaired.

When this restoration is completed, the channel command sending unit 15
From “a”, a “diagnosis” channel management command for the channel path 20b is issued via the channel path 20a, whereby the channel path 20b is switched from “disconnected state” to “diagnosis state”.

In this state, a channel management command of "failure inspection write" is issued using its own path, and test data is written and test data is read.
The normality of b is confirmed. That is, it is diagnosed whether or not the repair or active maintenance of the failed part has been performed normally.

After the normality is confirmed, an “online” channel management command is issued using the own channel path 20b, and the channel path 20b is switched from the “diagnosis state” to the “connection state”. Then, the channel path 20b is connected to the main unit 10a again.

On the other hand, for the failed channel path 21b, disconnection, diagnosis, and reconnection of the channel path 21b are performed by the detection unit 13b and the channel command transmission unit 15b of the main device 10b in the same manner as described above (-).

Further, for example, when a failure occurs in the main device 10b, the failure is detected by the detection unit 13a of the main device 10a. By this detection, the channel command sending unit 15a
Issues a "disconnect" channel management command for the failed channel paths 21a and 21b using the channel path 20a or 20b. In response to this command, the switching unit 14 switches the channel paths 21a and 21b from the “connected state” to the “disconnected state”. Therefore, the main unit 10b is physically separated from the input / output control device 11, thereby preventing a situation in which the input / output control device 11 and the magnetic disks 18, 19 are adversely affected. Thereafter, as described above, the channel paths 21a, 21b
Is diagnosed and reconnected.

In the above-described embodiment, the function of diagnosing the portion related to the channel path when the failed channel path is connected after the repair of the failed portion is provided, but this function is not necessarily provided. However, in order to perform dynamic reconfiguration of the input / output system at a high speed and to improve the reliability of the input / output system, it is desirable to have this diagnostic function.

〔The invention's effect〕

As described above, according to the present invention, when the main unit or the input / output control unit has a failure, the channel path related to the failure is automatically cut off without obtaining,
The complexity of the cutting operation can be eliminated, and the operation can be continued without affecting the normal part.
Further, since the transmission of the command signal is performed using the existing channel path, there is no need to provide a separate interface as in the prior art, so that the system does not become large and the cost does not increase. Therefore, the economic efficiency can be improved.

[Brief description of the drawings]

FIG. 1 is a diagram showing the principle of the channel path management system of the present invention.
FIG. 3 is a diagram showing a channel path management system according to an embodiment of the present invention together with a computer system to which the system is applied.
FIG. 1 is a schematic diagram showing the state of a channel path together with its switching action, and FIGS. 4 and 5 are diagrams showing examples of a conventional channel path management system. 10 ...... main unit 11 ...... output control device C ₁ -C _n ...... channel path 13 ...... detector 14 ...... switch 15 ...... command signal transmitting means

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Nobuyuki Kikuchi 1015 Uedanaka, Nakahara-ku, Kawasaki-shi, Kanagawa Prefecture Inside Fujitsu Co., Ltd. (72) Inventor Satoru Kaneko 1015 Uedanaka, Nakahara-ku, Kawasaki City, Kanagawa Prefecture Inside Fujitsu Limited (56) References JP-A-62-128346 (JP, A)

Claims (1)

(57) [Claims] An apparatus for managing a plurality of channel paths connecting a main unit and an input / output control unit, comprising: a fault detecting means provided in the main unit for detecting a failure of a portion relating to an arbitrary channel path; Switching means connected to the main unit only through the channel signal and switching the failed channel path from the connected state to the disconnected state based on the command signal; and A channel path management device comprising: a command signal transmitting unit that transmits a command signal to the switching unit using a channel path other than the channel path related to the failure when the failure is detected.