JPH0229843A - Channel path control system - Google Patents

Abstract

PURPOSE:To continue operation without exerting bad influence upon a normal part by sending a command signal to a switching means through a channel path other than the one relating to a failure at the time of detecting the failure and disconnecting the channel with relating to the failure. CONSTITUTION:When a failure relating to an optional channel path is generated in an I/O control device 11, the failure is detected by a failure detecting means 13. When the means 13 detects the failure, a command signal is sent from a command signal sending part 15 through a channel path other than the one relating to the failure and a switching means part 14 switches the channel path relation to the failure from its connection state to a disconnection state. Consequently, the channel path relating to the failure can be automatically disconnected from a body device 10 without manual operation, so that the body device 10 can be prevented from receiving bad influence.

Description

[Detailed Description of the Invention] [Summary] Regarding a method of managing multiple channel paths connecting a main unit and an input/output control device, it is possible to manage channels related to failures without human intervention and without installing separate devices. A detection means for detecting a failure in a part related to an arbitrary channel path, and a switching means for switching the channel path related to the failure from a connected state to a disconnected state based on a command signal, with the purpose of making it possible to disconnect the path. and command signal sending means for sending a command signal to the switching means using a channel path other than the channel path associated with the failure when the detecting means detects a failure.

(Field of Industrial Application) The present invention relates to a method for managing a plurality of channel paths connecting a main unit and an input/output control device in a computer system or the like.

[Conventional technology]

As a conventional channel path management method, for example, an electric computer system in which a plurality of main units are each connected to a shared input/output device via a channel path. When a failure occurs in an input/output control device, etc., the channel switch provided in the input/output control device is manually operated, the channel path related to the failed part is physically cut off, and other normal The input/output device is used by other channel paths with minimal impact on the input/output device. After the broken parts are repaired, they are reattached and used in the same way as before the failure.

Conventionally, as shown in FIG. 4, a dedicated control device 1 is connected via a dedicated interface 2 to input/output control devices 3a and 3b (daisy chain connection), and the above-mentioned failures are avoided. If there is a faulty channel path 8 through this dedicated interface 2
Some have cut off a and 8b. In addition, in the figure,
Reference numeral 4 is a main unit, and reference numerals 5a and 5b are magnetic disk devices.

Furthermore, since the above-mentioned imozuru connection is inferior in high speed, the fifth
As shown in the figure, dedicated interfaces 6a, 6b'
...6n to each input/output control device 7a.

There is also a system in which the circuits are provided every 7b...7n and connected in parallel to increase the speed.

(Problem to be Solved by the Invention) However, in this conventional method, the former method of manually cutting the channel path is inefficient because the work is complicated due to the labor involved. The problem is that it is.

In addition, as in the latter shown in FIGS. 4 and 5, a dedicated control device 1 and dedicated interfaces 2, 6a to 6n
Although the system using the system eliminates manual labor, there is a problem in that the system becomes larger and the cost increases because a separate dedicated device is provided.

SUMMARY OF THE INVENTION An object of the present invention is to make it possible to disconnect a faulty channel path without requiring any human intervention or installing a separate device.

(Means for solving the problem) The technical means of the present invention for solving this problem is the first
As shown in the figure, in a management method for a plurality of channel paths C1 to Cn connecting a main unit 10 and an input/output control device 11, a detection means 13 for detecting a failure in a part related to an arbitrary channel path C, and a command a switching means 14 for switching the channel path associated with the failure from a connected state to a disconnected state based on a signal; and a switching means 14 for switching the channel path associated with the failure from a connected state to a disconnected state when the detection means 13 detects a failure. 14 and a command signal sending means 15 for sending a command signal.

[Effect]

According to this means, when a failure occurs in a part related to an arbitrary channel path, for example, a failure in the input/output control device 11 related to an arbitrary channel path, the detection means 13 detects the failure. When the detection means 13 detects a failure, a command signal is sent from the command signal sending section 15 using a channel path other than the channel path associated with the failure, and this command signal causes the switching means section 14 to switch to the channel path associated with the failure. Switch from connected state to disconnected state. This results in
The channel path associated with the failure is automatically disconnected from the main device 10 without any human intervention, and a situation that adversely affects the main device 10 is prevented. Further, the command signal is transmitted using an existing channel path without providing a separate interface.

(Example) Hereinafter, a channel path management method according to an example will be described in detail based on the accompanying drawings.

In the electrical computer system shown in FIG.
0b is a main unit, 11 is an input/output control device, and two sets of channel adapters 16a.

16b, and device adapters 17a, 17b associated with each channel adapter 16a, 16b, respectively.

One main device 10a is connected to both channel adapters 16a, 16b via channel paths 20a, 20b, and the other main device 10b is connected to channel paths 20a, 20b.
1a.

dual channel adapter 16a via 21b.

16b. 18 and 19 are magnetic disk devices connected to device adapters 17a and 17b via connection paths 22a and 22b.

Further, each main body bag ft1oa, 10b includes detection units 13a, 13b for detecting a failure in a portion related to each channel path 20a, 20b, 21a, 21b. These detection units 13a and 13b are the detection unit 1 of one main body device 10a.
3a, for example, the channel path 20a, the channel adapter 16a, and the device adapter 1 are related to the channel path 20a of the main device 10a.
7a and the connection path 22a. Moreover, each detection unit 13a.

13b has a function of detecting a failure in the main body devices 10a and 10b of each other. This detection is performed, for example, on the basis of not receiving a signal to be received or receiving a signal that does not match the format.

Furthermore, as shown in FIG. 2, the channel path 20a,
On the path of 20b, 21a, and 21b, the channel path 20a is connected based on the command signal.

20b, 21a, and 21b respectively in the "connected state"
l state)", "Disconnected state (Disable state)", "
3 states of “diagnosis state (Standby state)” (Figure 3)
A switching section 14 is provided to switch between the two. Here, the "connected state" is a state in which the input/output device can execute all conventionally defined channel commands, and the "disconnected state" is a state in which the input/output device is physically connected to the main devices 10a, 10b and input/output control. The "diagnostic state" is a state for a channel port that is in standby or in a recovery sequence, where the connection to the device 11 is disconnected, and the input/output device performs a specific channel command (testing the state). This is a state in which only channel commands (sensing commands) can be executed, and when other channel commands are received, they are rejected (a command reject is responded).

Further, in the main devices 10a and 10b, a channel management command (Path Management command) is sent to the switching unit 14.
Channel command sending units 15a and 15b are provided as command signal sending units that issue (send channel commands as command signals) a control command. In this channel management command, "diagnosis", "disconnection", and "online" are determined by the first byte of the 16-byte data transferred from the input/output channel of the main unit to the input/output device.

“Offline” and “Failure inspection writing (Diagnost)”
icTest and Write) j, and when specifying the "diagnosis" and "disconnect" operations, the path group identification information (one path or multiple paths) of the channel path related to the failure (the channel path to be controlled) is specified. The remaining bytes are used to specify the diagnostic data to be transferred from the main device 10a, 10b to the input/output device in "Failure Check Writing".

Then, as shown in FIG. 3, the channel command sending units 15a and 15b use other channel paths (other buses) that do not belong to the channel path for which the operation is specified (the channel path related to the failure). A "diagnostic" channel management command is issued, and the switching unit 11 switches the channel path for which the operation is specified from the "disconnected state" to the "diagnostic state."

In addition, the channel command sending units 15a and 15b use other channel paths (other paths) that do not belong to the path group (channel path related to the failure) to be specified for operation.
The switching unit 11 issues a channel management command to disconnect.
, change the channel path specified for operation from "connected state" to "disconnected state" or from "diagnosis state" to "disconnected state".
Switch to In this case, if the channel path that is the target of the operation specification can be used effectively, any channel path (self-other path) including the channel path that is the target of the operation specification can be used.
may be used to issue a "disconnect" channel management command.

Furthermore, a channel command sending unit 15a.

15b issues an "online" channel management command using its own channel path (own path) that is the target of the operation designation, and the switching unit 11 changes the channel path of the operation designation from the "diagnosis state" to the "diagnosis state". While switching to the "connected state", the channel command sending units 15a and 15b issue an "offline" channel management command using its own channel path (own path) that is the target of operation specification, and the switching unit 11 Switch the channel path specified for operation from "connection state" to "diagnosis state".

Therefore, the channel path management method according to this embodiment has the following effects.

Now, as shown in Figure 2, for example, channel adapter 1
6b or device adapter 17b or connection path 22
Suppose that a failure occurs in b. In this case, (1) the failure is detected in the detection unit 13a of the main device 10a.

■ When the detection unit 13a detects a failure, the channel command sending unit 15a sends a “disconnect” channel management command to the channel path 20b related to the failure.
Issued via a.

(2) In response to this "disconnect" channel management command, the switching unit 14 switches the failed channel path 20b from the "connected state" to the "disconnected state". As a result, the channel path 20b is physically disconnected from the main device 10a. Therefore, a situation that adversely affects the main body device 10a is prevented.

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

■ When this repair is completed, the channel command sending section 1
5a to channel path 20 via channel path 20a.
A "diagnosis" channel management command is issued for channel b, thereby switching the channel path 20b from the "disconnected state" to the "diagnosis state."

(2) In this state, a channel management command of "failure check write" is issued using its own path, test data is written and test data is read, and the normality of the channel path 20b is confirmed. That is, it is diagnosed whether or not the repair and active maintenance of the part related to the failure have been performed normally.

(2) After 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". The channel path 20b is then connected to the main device 10a again.

On the other hand, regarding the faulty channel path 21b, the detection unit 13b and channel command sending unit 1 of the main device 10b
5b, the channel path 21b is disconnected, diagnosed, and reconnected (■ to ■) in the same manner as described above.

Further, for example, if a failure occurs in the main body device 10b, the failure is detected by the detection unit 13a of the main body device 10a. By this detection, the channel command sending section 15a sends the channel path 20a or the channel path 2.
0b is used to issue a "disconnect" channel management command for the channel paths 21a and 21b associated with the failure.

According to this command, the switching unit 14 selects the channel path 21a,
21b from the "connected state" to the "disconnected state". Therefore, the main device 10b is physically separated from the input/output control device 11, and the input/output control device 11 and the magnetic disk 1
Situations that would have a negative impact on 8.19 will be prevented. after that,
Diagnosis and reconnection of channel paths 21a, 21b are performed in the same manner as described above.

In the above embodiment, when connecting a channel path related to a fault after repairing a faulty part, there is a function for diagnosing a part related to this channel path, but this function does not necessarily have to be provided. Yes, however, it is desirable to have this diagnostic function in order to perform dynamic reconfiguration of the input/output system at high speed and to improve the reliability of the input/output system.

〔Effect of the invention〕

As explained above, according to the present invention, when a failure occurs in the main unit or input/output control device, the channel path related to the failure is automatically disconnected without human intervention, thereby reducing the complexity of the disconnection work. This can be resolved and the operation can be continued without adversely affecting normal parts. In addition, since the command signal is sent using the existing channel path, there is no need to provide a separate interface as in the past, which means that the system does not become larger and the cost does not increase. Therefore, economical efficiency can be improved.

FIG. 3 is a schematic diagram showing the channel path status along with its switching action; FIG. 4 and FIG. 5 are diagrams showing examples of conventional channel path management methods. It is.

1o...Main device 11...I/O control device C~Cn...Channel path 13...Detection means 14...Switching means 15...Command signal sending means

[Brief explanation of the drawing]

Fig. 1 is a principle diagram of the channel path management method of the present invention;
The figure shows a channel pathner according to an embodiment of the present invention.
I award the award to the Agency.''G Figure 38 From Tsuki to A, off the coast of Tsuki, Buried Map Figure 1

Claims (1)

[Claims] A method for managing a plurality of channel paths connecting a main unit and an input/output control device, comprising: a detection means for detecting a failure in a part related to an arbitrary channel path; a switching means for switching a channel path from a connected state to a disconnected state; and a command signal sending means for sending a command signal to the switching means using a channel path other than the channel path associated with the fault when the detecting means detects a fault. A channel path management method characterized by comprising: