JPS5856058A - Daso common-use control system for virtual computer system cp resident volume - Google Patents

Abstract

PURPOSE:To save DASD resources by allowing an imaginary computer system control program resident volume and an operating system volume to use the same DASD in common. CONSTITUTION:A CPU9 loads the IPL (initial program loading) record of an imaginary computer system (YM) from a DASD12 by IPL as shown by 1 and 2. Then, a VM system is loaded as shown by 4 on the basis of the VM system IPL record by 3. Consequently, the VM system is initialized. When an IPL command is inputted as shown by 5, an IPL simulation program operates as shown by 6 to simulate the loading of an OS system IPL record shown by 7, and then IPL simulation of an OS volume to a virtual storage is performed as shown by 8 and 9. For address assignment of the DASD record shown by 3 and 6, base address adding operation is performed to protect the volumes.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention provides a virtual computer system control program (cp
) D that enables efficient storage of resident polyneem on DAgD such as magnetic disk device to save DA8D resources.
The present invention relates to an A8D management method, and particularly to a method for sharing and managing a CP resident polyneme on an operating system (OS) polyneme.

In the slave virtual computer system (hereinafter referred to as the system), the system volume is configured to exclusively use one DM8D that has a specific device address. . However, the actual capacity used by the DM8D is, for example, 26 cylinders, and considering that one DA8D currently has a capacity of, for example, 404 to 833 cylinders, this is an extremely wasteful use of DA&D resources. It can be said that the present invention is as follows.A8D
This is a turtle that eliminates resource waste and provides an improved storage management method on DAgD for system CP resident volumes.

The present invention conventionally uses a DAaD separate from a CP resident volume.
The above-mentioned problem is solved by storing the data in the O8 (Operating System) volume stored above and merging it into one volume.

The present invention provides a data processing system in which a virtual computer system CP resident volume and an OS volume are stored on a DABD as a configuration for this purpose, in which the CP resident volume is stored on the 08 volume as one data set of the OS volume, and KO? IPL record of resident volume)',! : Swap the position with the IPL record of the 08 volume, perform the IPL operation on the CP resident volume IPI, Fii computer, and set the IP of the 08 volume.
4, which is characterized in that it is performed by IPI and simulation on an L Fi virtual computer.

The present invention will be explained in detail below.

First, the technical background of the present invention will be explained. FIG. 1 shows the configuration of a general virtual computer system (VM), where l is a conventional real computer, and 0812 operating under it are system control programs cp, a to 4.
Virtual machine whose execution is managed under /riCP■■
to VMI.

■In the system, 08 running on each virtual machine
(1) to O8 (31#i) The execution is controlled separately under the OF. It runs on these virtual machines. sFi, the control program CP of the VMV system in each prince
08 can be loaded into each virtual memory by virtual IPIL (IPL transfer) under the control of K.

Therefore, in order for the VM system to operate, first
An IPL of the system's CP resident volume is required.

Furthermore, in the present invention, since the OS volume and the CP resident volume, which are originally stored on separate DASDs, share the DA8D used by a single OS volume, it is necessary to protect these two volumes. and IPL, special measures are required.

Next, the system of the present invention will be explained according to an embodiment.

Figures 2) to (a) show the operating procedure for creating a CP-resident volume of a certain system on fi DAaD using the method of the present invention. The volume is the OS volume to be shared.First, secure area 6 for the system's CP resident polyneme with the volume #08 on this OS volume.In order to secure this area, specify the following. Dangerous.

Day 14 Name: 8Y81. VM CYL Boundary, Continuous Area Next, in the space 1 for the system secured in this manner, store the [2 (shown in &HC)!5KVM7 space?AcP resident polynym (simply indicated as system).

Finally, as shown in Figure 2 (C), the 08 volume I
PL record 7 and ■System CP resident stuttering room IP
Replace with L record 8.

As a result of the above operations, ■ The system is stored as one data set in the OS volume, but the I
Since the PL repudo has been replaced with the IPL of the parent system, LOAD or LOAD (CL magazine R) operation command on the first hardware (on the computer),
■The system IPL record located at the IPL record position of the original OS volume is loaded. This IPL operation is of a normal type. For example, when an IPL command is issued by an IPL switch, an IPL signal is sent from the CPU to the input/output channel, and the device address of the specified volume 08 (Figure 2 (position 8 of C1) K is an IPL signal; - (i.e., in this case ■ system IP
L record) is loaded into the main memory, system initialization is performed by the PEM in the IPL record, and then the system is loaded.

After the system is loaded, I from the virtual console
By entering an IPL command under the parent system that corresponds to a PL switch instruction), FIG.
- Turn the IPL from position 8. As a result, the IPI and record of 08&reume are loaded, and based on the PSW, the OS volume is loaded to make O8 executable.

In the present invention, since one DA8D is shared by the 08 volume and the system, both must not be destroyed by access from others and must be maintained in a mutually exclusive relationship. . When accessing this volume from O8, security against access from O8 is guaranteed by making the system area look like one data set of the 08 volume and disallowing one history of that label.On the other hand, In the case of access from (1), this is ensured by adding a fixed base address value to the address up to the data set and causing the OS volume area to be skipped.

FIG. 3 is an explanatory diagram of the operation of the embodiment. In the figure, 9
is the CPU, 10 is the main memory, ]・ke channel, l
a D A 8 D, ■ to ■ indicate the order of operation.

CPU 9 starts IPL and connects DASD j with ■ and ■.
From o ■ Load the system IPI and record. Next, at ■, ■Based on the system IPL record @, LOAD
Or use the LOAD (CIJjAR) operation to load the VM system in ■.
(2) The system is initialized and the VM is put into operation.

Here, when the IPL command, which is one command under the system, is input at ■, the IPL simulation program works at ■, the loading of the OS system IPL record at ■ is simulated, and then at ■ and ■. IPL loading of the OS volume onto the virtual main memory is simulated.

In the DASD record address specification in (1) and (2), the above-mentioned pace and address addition operations for volume protection are performed.

As described above regarding the present invention, the VM system C
By having the P-resident volume and the OS volume share the same DASD, it is possible to save DA8D resources.

[Brief explanation of the drawing]

@ Figure 1 is a configuration diagram of a general virtual computer system, Figure 2 is an explanatory diagram of an embodiment, and Figure 3 is an explanatory diagram of the operation of the embodiment. In the figure, 9 is a CPU, 10 is a main storage device, 11 is a channel, 12 is a FinA8D, and ① to ① indicate the operation order.

Claims (1)

[Claims] In a data processing system in which a virtual computer system CP resident volume and an OS volume are stored on a DAaD, the CP resident volume is stored on the OS volume as one data set of the OS volume, and the CP resident volume is stored on the OS volume.
Resident volume IPL record 08 Volume I
Swap the position with the PL record, perform the IPL operation on the real computer for the IPI of the CP resident volume, and perform the IPL operation on the 08 volume by IPL simulation on the virtual computer. A DA8D shared management method for a virtual computer system CP resident volume characterized by: