JP2001022530A5 - - Google Patents

Description

[Document name] Statement
[Title of Invention] Input / outputControl device
[Claims]
[Claim 1]
Host computerIn an input / output control device that controls a disk device that provides a logical volume for reading and writing data to a computer via a plurality of controllers.
SaidhostComputerFromThe logical volumeSequential judgment regarding access toThe logical volumeIn charge ofOne of the aboveOnly for access via controllerWhenWithout,Other than thatThe logical volumeNot in charge ofOthers mentioned aboveIncluding access via controllerhand,Make a sequential judgment
Characterized byInput / outputControl device.
2.
1.Input / outputIn the control device
The sequential determination is
Performed for each group based on the result of the grouping in which the user has set the grouping from the plurality of controllers.
Characterized byInput / outputControl device.
3.
2.Input / outputIn the control device
The sequential determination is
Perform for each logical volume set by the user
Characterized byInput / outputControl device.
4.
In the input / output control device according to claim 2,
The one controller in charge of the logical volume is
Receives input / output processing requests sent from the host computer or other controller that is not responsible for the logical volume,
In the case of an input / output processing request for the logical volume in charge, the sequential determination is performed after the input / output processing determination for determining the read processing or the write processing is performed.
An input / output control device characterized by this.
5.
In the input / output control device according to claim 4,
The one controller in charge of the logical volume is
It has a sequential judgment table for making sequential judgments,
After making the input / output processing determination,
Select the logical volume in charge and select
A judgment group based on the necessity of sequential judgment and the result of grouping is judged by referring to the sequential judgment table.
If the command for the input / output processing request is stored in the sequential determination table, the sequential determination is performed.
An input / output control device characterized by this.
Description: TECHNICAL FIELD [Detailed description of the invention]
[0001]
[Technical field to which the invention belongs]
The present invention ensures high performance and high reliability in an input / output control device that controls an input / output request for information from a host device.Input / outputThe present invention relates to a computer system in which a controller / cache in a control device has a redundant configuration.
0002.
[Conventional technology]
Redundancy in storage devices such as controllers, disks, and cachesLogical volume (hereinafter referred to as LUN)Assuming that the controllers in charge of the above are allocated without duplication, as described in Japanese Patent Application Laid-Open No. 9-146842, the cache area is allocated to each controller and the cache area used by each controller is fixed to obtain the cache between the controllers. By eliminating the exclusive control and letting the responsible controller handle the access other than the assigned LUN by the communication between the controllers, the performance deterioration due to the use of multiple controllers was prevented.
0003
[Problems to be Solved by the Invention]
As a recent market trend, there is an increasing demand for higher performance, higher reliability, larger capacity, and lower price of storage devices, and a controller made redundant by a technology such as JP-A-9-146842 described above. , A low-priced, high-performance RAID system was realized with a configuration with a cache.
0004
On the other hand, as a host-side technology, even in a host system such as Oracle Palarel Server, which has been realized in a large-scale mission-critical system, the technology for load-distributed access to the same LUN via multiple ports / controllers is medium-sized or smaller. Now applied. Therefore, even in the low-priced RAID system as described above, the performance for load-distributed access to the same LUN via a plurality of ports / controllers has come to be emphasized.
0005
In addition, a plurality of hosts are connected to share the same LUN, and the performance for individual access to the same LUN from a plurality of ports / controllers has also been emphasized.
0006
However, in Japanese Patent Application Laid-Open No. 9-146842, sequentially to the same LUN via a plurality of ports / controllers (Less than,sequentialThat) When access is distributed, performance assurance for sequential access of individual hosts to the same LUN is not considered, and their performance deterioration has become a problem.
0007
[Means for solving problems]
To solve the above problemsThe present invention relates to an access from the host computer to the logical volume in an input / output control device that controls a disk device that provides a logical volume for reading and writing data to the host computer via a plurality of controllers. Sequential determination does not target only access via the controller that is in charge of the logical volume, and includes other access via the controller that is not in charge of the logical volume. It is a feature.
0008
As a result, for sequential access requests distributed to a plurality of host computers, the sequential order is changed due to the change of the issue time on the host side and the communication time difference in the communication between the controllers in the input / output control device. It is possible to provide a means for making a sequential judgment, and also to provide a means for performing a sequential judgment to the same LUN for each controller connected to a plurality of host computers.
0009
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, of the present inventiononeExample,This will be described with reference to the drawings.
0010
FIG. 1 shows a case where the present invention is applied to a magnetic disk array subsystem having a multi-controller configuration.oneIt is a block diagram.
0011
In FIG. 1, 1000, 1100, and 1200 have a host computer as a central processing unit that processes data, and 2000 has a multi-controller configuration that controls a disk device.Input / outputThe control device, 7000, is a disk device that stores host data. hereInput / outputThe control device 2000 may be inserted into a slot directly connected to the host bus and incorporated into the host housing, may be incorporated into an independent housing as a control device, or may be realized as a housing incorporating a disk device. ..
0012
Input / outputThe control device 2000 includes controllers 3000, 4000, 5000, and 6000 that control data transfer between the host computers 1000, 1100, 1200, and the disk device group 7000.
0013
The controller 3000 includes a host I / F control unit 3100 that controls a protocol with a host computer 1000, a data transfer control unit 3200 that executes data transfer, a microprocessor (hereinafter referred to as a processor) 3300 that controls the entire controller, and a host. It is composed of a computer 1000 and a cache 3400 used for data transfer of a disk device group 7000.
0014.
The controllers 4000, 5000, and 6000 have the same configuration as the controller 3000, and have means for communicating between the controllers.
0015.
Each controller processes the assigned LUN exclusively in advance, and when it receives a processing request for a non-assigned LUN from the host computer, it communicates the processing request with the controller in charge of the LUN and receives the processing result. Later, the processing result is reported to the host computer. The control information for these processes can also be stored in the common management area on the cache memory of each controller.
0016.
Each controller makes a determination with reference to the Read sequential determination table of the responsible LUN as shown in FIG. 3 regarding the processing request of the responsible LUN from the host or another controller, and performs sequential control processing. The sequential determination table can be stored in the common management area on the cache memory of each controller by distinguishing between Read / Write and the LUN in charge. In addition, sequential control processingWhenFor example, in the Read request, the data corresponding to the next expected processing request is read from the disk device group into the cache before the request.
[0017]
Next, the sequential determination of I / O processing from the host computer in the magnetic disk subsystem in this embodiment will be described with reference to FIGS. 2, 3 and 4.
0018
FIG. 2 is a flowchart of I / O processing of each controller. When an I / O request (501) from the host or another controller is received, it is determined whether the I / O processing request is made to the responsible LUN (502), and in the case of a processing request of the non-in charge LUN, the person in charge of the LUN is in charge. The processing request is communicated to the controller / the result is received (507). Here, information indicating the controller received from the host is added to the I / O request (501). In the determination of the I / O processing request to the responsible LUN (502), if the I / O processing request is made to the responsible LUN, the I / O processing determination is performed (503), and it is determined whether the Read processing or the Write processing is performed. Here, the flow in the Read process will be described as an example, but the same applies to the Write process. In the case of the Read process in the I / O process determination (503), the sequential determination process (504) described in detail later is performed. After that, the actual command processing is executed. In the case of Read, the presence / absence of data in the buffer is determined (505), and if there is, the host or the controller of the processing request source makes a response (509) using the data. If there is no data in the buffer, data reading from the disk device group (506) is performed, and a response (509) is performed in the same manner.
0019
FIG. 3 is a Read sequential determination table 8000 of the responsible LUN having the controller 3000. The determination table 8000 includes each element of the controller type 8100, the determination necessity 8200, the determination group 8300, and the command storage area 8400. In addition, each element exists as many as the number of controllers in this configuration, and is associated with each controller.ReIt is a thing.
0020
The controller type 8100 is the controller itself. The determination necessity 8200 is an element that allows the user to set whether or not to perform a sequential determination regarding the Read access to the LUN for each controller. The determination group 8300 is an element in which the user groups the controllers that perform the Read sequential determination and the result is reflected.
In the example of FIG. 3, the controllers 3000 and 4000 are in the same group 1, and the controller 5000 is in another group 2. The command storage area 8400 stores the Read command received via each controller, and each command consists of a request logical address and the number of request blocks.
0021.
Here, R1 to R5 and R7 are sequential Read commands distributed from the controllers 3000 and 4000, and the numerical values indicate the order. The lack of R6 may occur when the request from the controller 4000 has not yet reached the controller 3000 due to a time lag such as inter-controller communication or a delay in the request from the host. r1 to r3 are sequential Read commands from the controller 5000, and the numerical values indicate the order.
0022.
FIG. 4 shows the details of the sequential determination process in the Read command process to the LUN in charge of the controller 3000. The Write sequential determination of the controller 3000 and the sequential determination of other controllers are similarly possible.
[0023]
After the I / O processing determination 503 in FIG. 2, selection in the LUN in charge of the controller 3000 for the processing is performed.901I do. By sorting, the table 8000 to be used for judgment is decided, and whether or not sequential judgment is necessary902To confirm. At this time, from the controller information added to the I / O processing request, refer to the determination necessity 8200 of the corresponding controller in Table 8000, and if yes, the determination group is determined.903If no, this process is exited as it is. Judgment group judgment903With reference to the determination group 8300 in the table 8000, the process proceeds to the processing 904 or 908 of the corresponding group. Here, it is assumed that the command R7 has been received, and the case of group 1 will be described. Proceed to process 904 and belong to judgment group 1.RuIt is determined whether or not there are commands R (N-5) to R (N-1), that is, R2 to R6 in the command storage area 8400. In this case, since R2 to R5 are present, the sequential determination is 905. Then, in the command storage 907, R7ToIt is stored in the command storage area 8400 of the corresponding controller, and this process is exited. If the received command is an access other than R1 to R6 such as R100, the processing 904 does not result in a sequential determination, but a sequential determination of 906.
0024
The determination of this process 904 is an example, and determination by another method is also possible. Further, as a method of using the sequential determination 905 and the non-sequential determination 906, for example, the determination 905 starts the look-ahead process, the determination 906 interrupts the look-ahead process, and other methods of use are also possible.
0025
Further, since the determination table is divided for each LUN in charge and the controller group can be set in the table, sequential determination can be performed for each LUN and each controller group.
0026
【Effect of the invention】
According to the present invention, sequential access requests distributed to a plurality of hosts are issued by switching host-side issuance times, andInput / outputIt provides a means for sequential determination that takes into consideration the change of sequential order due to the communication time difference in communication between controllers in the control device, and also performs sequential determination to the same LUN for each controller connected to multiple hosts. By providing such means, it is possible to prevent deterioration of sequential performance due to the plurality of controllers.
[Simple explanation of drawings]
FIG. 1 shows the present invention.oneOverall configuration diagram showing an embodimentIs..
FIG. 2 shows the present invention.oneOf the I / O processing method in the examplesoneFlowchart showing an exampleIs..
FIG. 3 shows the present invention.oneOf the table used for sequential determination in the examplesoneConceptual diagram showing an exampleIs..
FIG. 4 shows the present invention.oneOf the sequential determination process in the examplesoneFlowchart showing an exampleIs..
[Explanation of symbols]
1000, 1200, 1300 ... Host computer, 2000 ...Input / outputControl device, 3000, 4000, 5000, 6000 ... Controller, 3100, 4100, 5100, 6100 ... Host I / F control unit, 3200, 4200, 5200, 6200 ... Data transfer control unit, 3300, 4300, 5300, 6300 ... Micro Processor, 3400, 4400, 5400, 6400 ... Cache memory, 7000 ... Disk device group, 8000 ... Sequential judgment table, 8100 ... Controller type element, 8200 ... Judgment necessity element, 8300 ... Judgment group element, 8400 ... Command storage area, 501-509 ... I / O processing flow, 901-902 ... Read sequential determination flow.