JP3093614B2 - Dynamic Pair Change System for Duplicated Virtual Disk Unit in Extended Storage - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a computer system in which each constituent unit of an extended storage mechanism is used as a virtual disk device, and two virtual disk devices are used as one duplicated virtual disk device. dynamic pair changing the duplex virtual disk device in the storage mechanism Shi
Regarding the stem .

[0002]

2. Description of the Related Art Conventionally, in the case of a redundant virtual disk device of this type, a definition at the time of system generation must be changed in order to change a duplex device pair. Therefore, it is necessary to change the pair during operation. When this occurred, the system had to be stopped, the pair definition changed, and the system restarted. That is, the pair change of the duplicated virtual disk device involves interruption of the system operation, and the pair change cannot be performed dynamically in parallel with the system operation.

An alternative device used for dynamic pair change of a duplex disk device is disclosed in JP-A-63-175938 ("duplex system", Nippon Telegraph and Telephone Corporation, Eiji Fujiwara). Under the condition that the duplexing device itself must be an adjacent device, it is necessary to previously define a specific device determined by a predetermined procedure as an alternative device.

[0004]

As described above, in the conventional virtual disk device duplication control in the extended storage mechanism, when the duplication pair is changed, the system is stopped and restarted, and the operability is lacking. Was. Therefore, when the redundant virtual disk device is in a single system blocked state due to a failure or the like, if the system cannot be stopped immediately, the redundant virtual disk device must continue to operate in only one system. During that time, there has been a problem that it is difficult to maintain and guarantee the high reliability of the system that can be provided by introducing the dual virtual disk device.

In the conventional duplex system disclosed in the above-mentioned Japanese Patent Application Laid-Open No. 63-175938, since a substitute device needs to be defined in advance according to a specific procedure, the system configuration including the substitute device is large. There was a drawback that it became scale.

[0006]

According to the present invention, a dynamic pair change system for a duplicated virtual disk device in an extended storage mechanism is provided.
Beam has an expanded storage, the respective constituent units of the expanded storage used as a virtual disk device further two single virtual disk device during the operation of the computer system for use as a single redundant virtual disk device I / O operation inhibiting means for temporarily inhibiting I / O operations to a target duplicated virtual disk device and any alternative non-redundant virtual disk device when it becomes necessary to change a duplicated virtual disk device pair And temporarily suppresses the reference update process so that the virtual disk device control structure entries managing the primary and secondary systems and the substitute virtual disk device of the target dual virtual disk device are not simultaneously referenced and updated by other functions. Virtual disk device control structure entry access inhibiting means, and duplex status flags respectively corresponding to the switching device and the replacement device Duplex state flag exchange means for exchanging the duplex state of the exchange apparatus and the non-duplex state of the substitute apparatus by exchanging, and simultaneously linking the pair entry link corresponding to each of the exchange apparatus and the substitute apparatus and simultaneously linking the substitute apparatus to the base apparatus Pair entry link exchange means for establishing information, pair entry update means for changing the pair entry link corresponding to the base device from link information to the exchange device to link information to the alternative device, and a pair entry update device corresponding to the exchange device and the alternative device By exchanging link information to the virtual disk device input / output control structure entry held by the virtual disk device control structure entry, the device number value held in the device number area in the virtual disk device input / output control structure entry I / O entry link exchange means for changing the correspondence between a disk and a virtual disk device A virtual disk device control structure entry access suppression means for canceling entry access suppression performed by the virtual disk device control structure entry access suppression means, and an input / output operation suppression performed by the input / output operation suppression means. By providing the input / output operation suppression canceling means, the pair of duplicated virtual disk devices is dynamically changed during system operation.

[0007]

Next, embodiments of the present invention will be described with reference to the drawings.

FIG. 1 is a flowchart showing an embodiment of the present invention.

FIG. 2 is a diagram showing the correspondence between a virtual disk device, a virtual disk device control structure for managing the virtual disk device, and an input / output control structure for managing input / output operations for the virtual disk device.

Referring to the virtual disk device 1 in FIG. 2, a virtual disk device control structure entry 10 which is a component of the virtual disk device control structure 4 corresponds to the virtual disk device 1. The virtual disk device control structure entry 10 includes a duplex status flag 11 indicating identification information as to whether the corresponding virtual disk device 1 is in a duplex status, and the virtual disk device 1 is in a duplex status by the duplex status flag 11. Pair entry link 12 that holds link information to a virtual disk device control structure entry that manages a virtual disk device that forms a duplicated pair when the virtual disk device 1 is identified, and a virtual disk device input / output control structure that also corresponds to the virtual disk device 1. And an input / output entry link 13 for holding link information to the body entry. Similarly, the virtual disk device control structure entry 20 including the duplication status flag 21, the pair entry link 22, and the input / output entry link 23 in the virtual disk device 2
But the virtual disk device 3 has a duplex status flag 3
1, pair entry link 32, input / output entry link 3
3 corresponds to the virtual disk device control structure entry 30 including “3”. If it is assumed that the virtual disk device 1 is a duplicated primary system, the virtual disk device 2 is a duplicated secondary system, and the virtual disk device 3 is in a non-duplexed state, the duplicated state flag 11 and the duplicated state flag 21 are duplicated states. , The duplication state flag 31 indicates a non-duplication state. Further, the pair entry link 12
The virtual disk device control structure entry 20 and the pair entry link 22 have link information to the virtual disk device control structure entry 10, respectively, and the link information of the pair entry link 32 is invalid.

On the other hand, when the input / output entry link 13 has link information to the virtual disk device input / output control structure entry 60, the device number area 61 is stored in the virtual disk device 1
Is stored as the device number value 1. Similarly, the input entry link 23 is a device number value 2 indicating the virtual disk device 2.
The link information to the virtual disk device input / output control structure entry 70 including the device number area 71 holding the virtual disk device 3 and the virtual information including the device number region 81 holding the device number value 3 indicating the virtual disk device 3 are stored. The link information to the disk device input / output control structure entry 80 is held. The I / O operation to the duplicated virtual disk device in which the virtual disk device 1 is the duplicated primary system and the virtual disk device 2 is the duplicated secondary system is processed as the I / O operation to the device having the device number value 1, and the non-duplexed virtual disk The input / output operation for the device 3 is processed as the input / output operation for the device with the device number value 3.

Now, as shown in FIG. 1, dynamic pair change of a duplicated virtual disk device in the extended storage mechanism of the present invention.
The system includes an I / O operation inhibiting unit 101 that temporarily inhibits an I / O operation to and from a redundant primary and secondary system to be dynamically changed and an alternative virtual disk device, and a redundant primary and secondary system to be subjected to a dynamic pair change method. Virtual disk device control structure entry access inhibiting means 10 for temporarily inhibiting reference update processing from another function to a virtual disk device control structure entry managing a virtual disk device and an alternative device
2, a duplex status flag exchange means 103 for exchanging the duplex status and the non-duplex status by exchanging the duplex status flags respectively corresponding to the exchange device and the substitute device, and exchanging the pair entry links respectively corresponding to the exchange device and the substitute device. Entry exchange means 104 for establishing link information from the alternative device to the pair device, and updating the pair entry for changing the pair entry link corresponding to the pair device from the link information to the exchange device to the link information to the alternative device Means 105, an input / output entry link exchange means 106 for updating the correspondence between the virtual disk device and the device number value by exchanging virtual disk device input / output control structure entries corresponding to the exchange device and the substitute device, and a virtual disk The entry made by the device control structure entry access suppression means 102 Virtual disk device control structure entry access inhibit release means for releasing the access suppression 107
And an input / output operation inhibition release unit 108 for releasing the input / output operation inhibition performed by the input / output operation inhibition unit 101.

[Embodiment] Next, as one embodiment of the present invention,
A case will be described in which the virtual disk device 1 is replaced with the virtual disk device 3, and the virtual disk device 3 is operated as a duplicate primary system, the virtual disk device 2 is operated as a duplicated secondary system, and the virtual disk device 1 is operated as a non-duplicated device. Here, the virtual disk device 1 is called a replacement device, the virtual disk device 2 is called a base device, and the virtual disk device 3 is called a substitute device.

In the dynamic pair change method of the duplicated virtual disk device, as an initial operation, the input / output operation suppressing means 101 causes the virtual disk device 1 as a replacement device, the virtual disk device 2 as a base device, and the virtual disk device as an alternative device. 3 is temporarily suppressed. The virtual disk device control structure entry 1 managing each device by the structure entry access inhibiting means 102
0, the reference update operation for the virtual disk device control structure entry 20 and the virtual disk device control structure entry 30 is temporarily suppressed.

When the input / output operation and the inhibition of the structure entry access are completed, the duplex state flag exchange means 10
3. The pair entry link exchange means 104 and the pair entry update means 105 are sequentially executed. As a result, the duplex status flag 11 becomes non-duplex, the duplex status flag 31 becomes duplex, the pair entry link 12 becomes invalid, the link information of the virtual disk device control structure entry 20 is stored in the pair entry link 32, and the pair entry link 22 Since each of the virtual disk device control structures has the link information of the virtual disk device control structure entry 30, the duplication state is exchanged on the virtual disk device control structure. That is, on the virtual disk device control structure, the virtual disk device 3 recognizes that the virtual disk device 2 is the duplicated primary system, the virtual disk device 2 the duplicated secondary system, and the virtual disk device 1 that is not duplicated.

Next, the input / output entry link exchange means 10
6, the exchange processing is performed so that the input / output entry link 13 holds the link information to the virtual disk device input / output structure entry 80 and the input / output entry link 33 holds the link information to the virtual disk device input / output structure entry 60. As a result, the device number value 1 in the device number area 61 in the virtual disk device input / output structure entry 60 has the device number value 1 in the virtual disk device 3 and, conversely, the device number region 81 in the virtual disk device input / output structure entry 80 has. The device number value 3 indicates the virtual disk device 1.

Thereafter, the structure entry access inhibiting means 1 is used by using the structure entry access inhibiting releasing means 107.
02: Virtual disk device structure entry 1 suppressed
0, the virtual disk device structure entry 20 and the virtual disk device whose reference / update operation to the virtual disk device structure entry 30 is suppressed by the input / output operation suppression means 101 using the input / output operation suppression release means 108 1. The input / output operation to the virtual disk device 2 and the virtual disk device 3 can be restarted.

The input / output operation suppression canceling means 108
When restarting the I / O operation that has been canceled, the I / O operation to the duplex device is requested to be executed as an I / O operation to the device with the device number value 1 that is the duplicated primary system.
At the time when the suppression is released, the device number value 1 indicates the virtual disk device 3 which is the duplicated primary system, so that the input to the duplicated virtual disk device in which the virtual disk device 3 is the duplicated primary system and the virtual disk device 2 is the duplicated secondary system. Performed as an output operation. The input / output operation for the device having the device number value 3 is also executed for the non-redundant virtual disk device 1.

Further, in the case of the present invention, the pairs of the duplexers are adjacent to each other as in the conventional duplex pair changing technique as disclosed in the above-mentioned Japanese Patent Application Laid-Open No. 63-175938. Since there is no necessity, it is possible to maintain the use of the duplexer and maintain and assure high reliability without using a large-scale system configuration in which an alternative device adjacent to the operating device is prepared in advance.

[0020]

As described above, the dynamic pair change of the redundant virtual disk device in the extended storage system of the present invention.
In the case where a pair change is required during system operation, the system dynamically continues to operate normally without stopping the system, dynamically using any non-redundant device as an alternative device to create a redundant virtual disk device. It is possible to change pairs.

[Brief description of the drawings]

FIG. 1 is a flowchart of an embodiment of the present invention.

FIG. 2 is a diagram showing correspondence between a virtual disk device and a virtual disk device control structure for managing the virtual disk device in the embodiment of FIG. 1, and an input / output control structure for managing input / output operations for the virtual disk device; FIG.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Virtual disk device 2 Virtual disk device 3 Virtual disk device 4 Virtual disk device control structure 10 Virtual disk device control structure entry 11 Duplication status flag 12 Pair entry flag 13 I / O entry link 20 Virtual disk device control structure entry 21 Duplication Status flag 22 Pair entry flag 23 I / O entry link 30 Virtual disk device control structure entry 31 Duplex status flag 32 Pair entry flag 33 I / O entry link 5 Virtual disk device I / O control structure 60 Virtual disk device I / O control structure Entry 61 Device number area 70 Virtual disk device input / output control structure entry 71 Device number area 80 Virtual disk device input / output control structure entry 81 Device number area 101 Input / output operation inhibiting means 102 Control Control structure entry access inhibiting means 103 duplex state flag exchanging means 104 pair entry link exchanging means 105 pair entry updating means 106 input / output entry link exchanging means 107 control structure entry access inhibiting releasing means 108 input / output operation inhibiting releasing means

Claims (1)

(57) [Claims] An operation of a computer system having an extended storage mechanism, using each constituent unit of the extended storage mechanism as a virtual disk device, and further using two virtual disk devices as one duplicated virtual disk device. When it is necessary to change the redundant virtual disk device pair during
I / O operation inhibiting means for temporarily inhibiting input / output operations to a target redundant virtual disk device and an optional non-redundant virtual disk device, and a primary / sub system and a substitute virtual disk device of the target redundant virtual disk device Virtual disk device control structure entry access inhibiting means for temporarily inhibiting reference update processing so that the virtual disk device control structure entry managing the virtual disk device control structure is not simultaneously referenced and updated by another function; When a duplex state flag exchange means for exchanging a duplex state of an exchange apparatus and a non-duplex state of an alternative apparatus by exchanging a duplex state flag corresponding to each apparatus, and exchanging a pair entry link corresponding to each of the exchange apparatus and the alternative apparatus, At the same time, a pair entry link exchange that establishes link information from the alternate device to the base device Means, a pair entry update means for changing a pair entry link corresponding to the base device from link information to the replacement device to link information to the replacement device, and a virtual disk device control structure entry corresponding to the replacement device and the replacement device. By exchanging the link information to the virtual disk device input / output control structure entries to be retained,
I / O entry link exchange means for changing the correspondence between the device number value held in the device number area in the virtual disk device I / O control structure entry and the virtual disk device, and virtual disk device control structure entry access inhibiting means By providing a virtual disk device control structure entry access release canceling means for releasing the performed entry access suppression and an input / output operation suppression releasing means for releasing the input / output operation suppression performed by the input / output operation suppressing means A dynamic pair change system for a dual virtual disk device in an extended storage mechanism, wherein a pair of virtual disk devices is dynamically changed during system operation.