JP2007304845A - Virtual computer system and software update method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To switch a processing on the same hardware in update of software for shortening a service interruption time. <P>SOLUTION: In this virtual computer system having redundant configuration virtual hardware for operating software, when software with a redundant configuration is updated, software on standby system virtual hardware is updated, and then, processing of an active system is transferred to the standby system. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a technology in a system in which an application that provides an actual service is realized on virtualized hardware and a redundant configuration is made between virtual hardware.

  Conventionally, even in a system requiring reliability such as a carrier grade application and interruption of service is a fatal problem, it has been realized by a platform using an open hardware and operating system. Conventionally, in such a system, when there is a failure, the hardware is made redundant so that the service is continued by taking over the processing from the active system to the standby system.

  In addition, the importance of software is increasing in order to provide various services.

  In addition, the scale of software development has increased, and the occurrence of failures due to software defects cannot be ignored.

Here, when a plurality of operating systems are started in the virtual machine system, the main memory allocated to each operating system is reduced, thereby reducing the fixed main memory allocated and executing the application program. By requesting and securing resource expansion to the virtual machine monitor, the operating system secures new resources, executes application programs, and builds a hot standby system using the virtual machine system. By reallocating resources to the standby operating system, the resources can be reused, so that a single computer system can be configured with a hot standby configuration to configure multiple operating systems and applications. Technology capable of controlling the emission program efficiently has been proposed (e.g., see Patent Document 1).
JP 2002-041305 A

  However, the conventional example described above has the following problems.

  In the case of redundant configuration with conventional hardware, not only hardware failure but also software failure, when processing is taken over from the active system to the standby system, there is time to transfer necessary data, and the service is interrupted accordingly. It was.

  In addition, the evolution of open hardware is fast and the same hardware cannot be used for a long time. Therefore, it is necessary to update the current software according to the new hardware and update the hardware and software simultaneously. The scale of software tends to increase, and the required cost also increases.

  Apart from that, virtualization technology is currently attracting a great deal of attention, and hardware support is being built into the hardware. For this reason, the demerits such as overhead due to the virtualization of hardware are becoming smaller, and it is now at a stage where the virtualization technology can be used at a practical level even in an open system.

  The present invention has been made in view of the circumstances described above, and an object thereof is to shorten the service interruption time by switching processing on the same hardware even when updating software.

In order to solve the above problems, the present invention is a virtual machine system in which virtual hardware for operating software is configured redundantly,
When updating software in a redundant configuration, a virtual computer system is provided in which software on the standby virtual hardware is updated, and then the processing of the active system is transferred to the standby system.

Further, the present invention is a software update method in a virtual machine system in which virtual hardware for operating software is configured redundantly,
When updating software in a redundant configuration, a software update method is provided in which the software on the standby virtual hardware is updated, and then the active system processing is taken over by the standby system.

  According to the present invention, even when software is updated, it is possible to switch processing on the same hardware and shorten the service interruption time.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

  Referring to the upper part of FIG. 1, the virtual computer system according to the present embodiment implements a plurality of virtual hardware by the virtualization software 3 in the host operating system 2 that operates on the computer hardware 1.

  The software operation system 4 is configured by a guest operating system 4c and an application 4d that operate on the virtual hardware 4a realized by the virtualization software 3, and the software standby system 5 is similarly a virtual operation realized by the virtualization software 3. It is configured by hardware 5a, guest operating system 5c, and application 5d.

  The application 4d of the software operation system 4 cooperates with the application 5d of the software standby system 5 to construct a redundant system on the same computer hardware 1.

  Redundancy is attempted for a failure caused by software in the software operating system 4, that is, the guest operating system 4c and the application 4d.

  The virtual resource 3a realized by the virtualization software 3 is distributed to the resource 4b in the virtual hardware 4a of the software operating system 4 and the resource 5b in the virtual hardware 5a of the software standby system 5, and the virtualization software 3 and the guest operating system guest Exclusive or shared with support of operating system 4c5c.

  Further, referring to the lower part of FIG. 1, in the present embodiment, a combination with redundancy by a plurality of computer hardware on the network 10 is realized. The hardware operating system 12 includes a host operating system 12b on the computer hardware 12a, a software operating system 12c, and a software standby system 12d. The hardware standby system 13 is a host operating system 13b and a software standby system 13c on the computer hardware 13a. Consists of. The hardware operation system 12 and the hardware standby system 13 are constructed as a redundant configuration.

  As a result, redundancy is provided for failures caused by failure of the computer hardware 12a.

  Next, the operation of the present embodiment will be described in detail with reference to the drawings.

  First, processing when a failure occurs will be described. In the upper part of FIG. 1, the software hardware system 4 and the software standby system 5 have a virtual hardware redundant configuration on the computer hardware 1. A resource 4b on the virtual hardware 4a such as a shared memory or a file used by the application 4d is managed as a virtual resource 3a by the virtualization software 3, and is used as a resource 5b on the virtual hardware 5a of the software standby system 5. Also handle.

  When there is a problem in the application 4d of the software operating system 4, the processing is transferred from the software operating system 4 to the software standby system 5. Necessary data (shared memory or file) is shared as the resource 4b and the resource 5b by the software operating system 4 and the software standby system 5, respectively, and it is necessary to copy the data from the software operating system 4 to the software standby system 5. Absent.

  In the lower part of FIG. 1, the hardware operation system 12 and the hardware standby system 13 on the network 10 have a redundant configuration of actual hardware. When a hardware failure occurs in the hardware operation system 12, processing is taken over from the software operation system 12 c of the hardware operation system 12 to the software standby system 13 c of the hardware standby system 13.

  At that time, data (shared memory and file) necessary for the software standby system 13c from the software operation system 12c needs to be transferred from the hardware operation system 12 to the hardware standby system 13 as before. When the processing is taken over by the hardware standby system 13, the software standby system 13c becomes an active system, and therefore the software standby system 3d needs to be woken up as a paired standby system.

  Next, software update will be described. 2 to 4, when updating software (application 4 d and guest operating system 4 c) that provides services, the software update is performed according to the following procedure.

  First, the soft standby system 5 is disconnected from the redundant configuration (step 11).

  Next, the application 5f and the guest operating system 5e are updated (step 12).

  The disconnected soft standby system 5 is incorporated into a redundant configuration (step 13).

  Processing is transferred from the software operation system 4 to the software standby system 5 to switch between the operation system and the standby system (step 14). Service starts with new software.

  The software operating system 4 (current standby system) is disconnected from the redundant configuration (step 15).

  The application 4f and the guest operating system 4e are updated (step 16).

  The disconnected software operation system 4 (current standby system) is incorporated into the redundant configuration (step 17).

  Software update in combination with a redundant configuration by hardware will be described with reference to FIGS.

  First, the software of the hardware operating system 12 is updated according to the procedure described with reference to FIG. A software standby system 2e and a software operating system 2f are formed (step 21).

  The hardware standby system 13 is disconnected from the hardware redundant configuration (step 22).

  The software in the software standby system 13c of the hardware standby system 13 is updated. The software standby system 3d is established (step 23).

  The hardware standby system 13 is incorporated into a hardware redundant configuration (step 24).

  Next, hardware update will be described. The hardware update and the accompanying host operating system update will be described with reference to FIGS.

  The hardware standby system 13 is disconnected from the hardware redundant configuration (step 31).

  The hardware of the hardware standby system 13 is updated. The computer hardware 13a is updated to the new computer hardware 14a, and the host operating system 13b is updated to the new host operating system 14b (step 32).

  The hardware standby system 13 whose hardware has been updated is incorporated into a hardware redundant configuration (step 33).

  The processing is switched from the hardware operating system 12 to the hardware standby system 13 (step 34).

  The hardware operating system 12 (current standby system) is disconnected from the hardware redundant configuration (step 35).

  The hardware of the hardware operating system 12 (current standby system) is updated in the same procedure as in step 32. The new computer hardware 15a and the new host operating system 15b are obtained (step 36).

  The hardware operating system 12 (current standby system) is incorporated into the hardware redundant configuration (step 37).

  In addition, with reference to FIG. 10, the changed part associated with the hardware update in the hardware standby system will be described. Computer hardware 1 is updated to new computer hardware 5. In order to support new hardware, the host operating system 2 needs to be updated to the new host operating system 6. Similarly, new virtualization software 7 corresponding to the new host operating system 6 is required. The software that performs the actual service, the guest operating system 4b and the application 4c are realized on the virtual hardware and are not affected by the change of the actual hardware, and need not be changed.

  According to the present embodiment described above, by switching processing with virtual hardware on the same hardware, the data takeover time can be shortened and the service interruption time can be shortened.

  Further, by constructing the software for performing the service on the virtual hardware, it is not necessary to change the software for performing the service itself with the change of the actual hardware.

  Each of the above-described embodiments is a preferred embodiment of the present invention, and various modifications can be made without departing from the scope of the present invention.

It is a figure which shows the redundant structure of the virtual computer system in embodiment of this invention. It is a figure which shows the operation | movement which updates the software which is performing the service in embodiment of this invention. It is a figure which shows the operation | movement which updates the software which is performing the service in embodiment of this invention. It is a figure which shows the operation | movement which updates the software which is performing the service in embodiment of this invention. It is a figure which shows the operation | movement which performs the software update in the combination with the redundant structure by the hardware in embodiment of this invention. It is a figure which shows the operation | movement which performs the software update in the combination with the redundant structure by the hardware in embodiment of this invention. It is a figure which shows the operation | movement which performs the hardware update in embodiment of this invention. It is a figure which shows the operation | movement which performs the hardware update in embodiment of this invention. It is a figure which shows the operation | movement which performs the hardware update in embodiment of this invention. It is a figure which shows the change part accompanying the hardware update in the hardware standby system in embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Computer hardware 2 Host operating system 3 Virtualization software 4 Software operation system 4a Virtual hardware 4b Resource 4c Guest operating system 4d Application 5 Software standby system 5a Virtual hardware 5b Resource 5c Guest operating system 5d Application 10 Network 12 Hardware operation system 12a Computer hardware 12b Host operating system 12c Software operating system 12d Software standby system 13 Hardware standby system 13a Computer hardware 13b Host operating system 13c Software standby system 13d Software standby system

Claims (6)

A virtual computer system in which virtual hardware for operating software is configured redundantly,
A virtual computer system characterized in that, when software in a redundant configuration is updated, the software on the standby virtual hardware is updated, and then the processing of the active system is taken over by the standby system. A virtual computer system in which virtual hardware for operating software is configured redundantly,
If a virtual software failure on the active virtual hardware occurs, switch to the standby virtual hardware, take over the active system processing to the standby system,
A virtual computer system characterized in that, when software in a redundant configuration is updated, the software on the standby virtual hardware is updated, and then the processing of the active system is taken over by the standby system.   The virtual computer system according to claim 1, wherein the software includes at least an application and a guest OS. A software update method in a virtual machine system in which virtual hardware for operating software is configured redundantly,
A software update method characterized by updating software on a standby virtual hardware when updating software in a redundant configuration, and then taking over the active system processing to the standby system. A software update method in a virtual machine system in which virtual hardware for operating software is configured redundantly,
If a virtual software failure on the active virtual hardware occurs, switch to the standby virtual hardware, take over the active system processing to the standby system,
A software update method characterized by updating software on a standby virtual hardware when updating software in a redundant configuration, and then taking over the active system processing to the standby system.   6. The software updating method according to claim 4, wherein the software includes at least an application and a guest OS.

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