JP6265435B2 - Platform software operation management system, platform software operation management apparatus, control method and program - Google Patents

Description

  The present invention relates to a technique for updating the version of base software.

  In recent years, it has been desired to apply patches distributed from vendors to software, update the software version, and bring the software to the latest security state. For this reason, there is a technique for applying a patch to software and updating the version of the software.

  For example, Patent Literature 1 (Japanese Patent Laid-Open No. 2010-250749) discloses a technique that enables a patch application method and application time to be flexibly changed in accordance with a machine situation.

  In Patent Document 1, the load status of a patch application target machine is acquired, and the application timing and application method of the patch are determined based on the urgency level of the patch and the load status of the patch application target machine. Then, a patch application job network is created on a schedule such that the patch is applied at the determined application time, and the created patch application job network is executed to apply the patch.

JP 2010-250749 A

  If a new patch is applied to the base software such as the server OS or middleware and the version of the base software is updated, it will operate on the updated base software and may have some effect on the application that provides the service. There is sex. For this reason, an application administrator, an application user, and the like need to verify the operation of the application on the updated base software.

  Up to now, when applying a new patch to the base software, the server administrator who provides the above server works with the application administrator, application user, etc. to adjust the schedule for applying the new patch To update the version of the base software. For this reason, there has been a problem that the number of work steps for updating the version of the base software increases.

  An object of the present invention is to reduce the man-hours for updating the version of the base software.

The basic software operation management system according to the present invention is:
A production machine running the application,
An operation verification machine for verifying the operation of the application installed in the production machine;
A base software operation management device that manages version information of the base software applied to the production machine and version information of the base software applied to the operation verification machine;
The infrastructure software operation management device is:
Control means for controlling the version of the base software of the production machine to be updated to the same version as the version of the base software at the time of operation verification of the operation verification machine.

  According to the present invention, it is possible to reduce the man-hours for updating the version of the base software.

It is a figure which shows the system configuration example of the basic | foundation software operation management system of this embodiment. It is a figure which shows the structural example of a base software operation management apparatus. It is a figure which shows the example of information memorize | stored in a version information storage part. It is a 1st figure which shows the example of information memorize | stored in an operation verification condition memory | storage part. It is a 2nd figure which shows the example of information memorize | stored in an operation verification condition memory | storage part. It is a 1st figure which shows the example of a processing operation of the basic | foundation software operation management system of this embodiment. It is a 2nd figure which shows the example of a processing operation of the basic | foundation software operation management system of this embodiment. It is a 3rd figure which shows the example of a processing operation of the basic | foundation software operation management system of this embodiment. It is a figure which shows another system configuration example of the basic | foundation software operation management system of this embodiment. It is a figure which shows the example of a processing operation of the basic | foundation software operation management system of 2nd Embodiment. It is a figure which shows the example of a processing operation of the basic | foundation software operation management system of 3rd Embodiment. It is a figure which shows the system configuration example of the basic | foundation software operation management system of 4th Embodiment. It is a 1st figure which shows the example of a processing operation of the basic | foundation software operation management system of 4th Embodiment. It is the 2nd figure showing the example of processing operation of the basic software operation management system of a 4th embodiment. It is a 3rd figure which shows the example of a processing operation of the basic | foundation software operation management system of 4th Embodiment.

(Outline of basic software operation management system according to one aspect of the present invention)
First, an outline of a basic software operation management system according to an aspect of the present invention will be described with reference to FIG. FIG. 1 shows a system configuration example of a base software operation management system according to an aspect of the present invention.

  A base software operation management system according to an aspect of the present invention is applied to a production machine 10 that executes an application, an operation verification machine 12 that performs operation verification of an application installed in the production machine 10, and the production machine 10. And a base software operation management apparatus 5 for managing the version information of the base software and the version information of the base software applied to the operation verifier 12.

  The base software operation management apparatus 5 according to an aspect of the present invention controls to update the version of the base software of the production machine 10 to the same version as the version of the base software at the time of operation verification of the operation verifier 12.

  Thereby, the base software operation system according to one aspect of the present invention can automatically update the version of the base software of the production machine 10. As a result, the man-hours for updating the version of the base software can be reduced. Hereinafter, a basic software operation management system according to an aspect of the present invention will be described in detail with reference to the accompanying drawings.

(First embodiment)
<System configuration example of infrastructure software operation management system>
First, a system configuration example of the base software operation management system of this embodiment will be described with reference to FIG. FIG. 1 is a diagram showing a system configuration example of the base software operation management system of this embodiment.

  The basic software operation management system of this embodiment includes a plurality of virtualized hypervisors 1 and 2, repository device 3, hypervisor management device 4, basic software operation management device 5, and application manager terminal 6. Each device is connected to the operation network NW.

  The virtual hypervisors 1 and 2 realize virtual machines that are virtual machines (also referred to as virtual servers). The virtualization hypervisors 1 and 2 can create a virtual machine that behaves like computer hardware by software, and can operate various types of OSs and middlewares such as middleware in the virtual machine. The virtualization hypervisor 1 includes a production machine 10, an evaluation machine 11, and an operation verification machine 12 that are virtual machines. In FIG. 1, a plurality of production machines 10 are provided, but one production machine 10 may be provided.

  The production machine 10 is a virtual machine in which various applications are installed and various services are operated to provide various services via a network such as the Internet. The application installed in the production machine 10 is executed on the base software applied to the production machine 10 and performs each operation. The base software is software that becomes a base for constructing an advanced application, and means an OS, middleware, or the like.

  The evaluation machine 11 is a virtual machine to which the basic software of the same environment as the basic software applied to the production machine 10 is applied, and the application is evaluated on the basic software of the same environment. The same platform software environment as the production machine 10 means that the version of the foundation software applied to the evaluation machine 11 and the version of the foundation software applied to the production machine 10 are the same. Since the evaluation machine 11 is the same version of the basic software as the basic software applied to the production machine 10, it is possible to evaluate the application under the same environment as the production machine 10. In FIG. 1, the evaluator 11 is connected to a network such as the Internet, but may not be connected.

  The operation verification machine 12 is a virtual machine to which the version of the base software to be newly applied to the production machine 10 is applied, and the operation verification of the application is performed on the new version of the base software. The operation verification machine 12 is applied with the latest patch stored in the repository device 3, and the operation verification machine 12 is installed in the production machine 10 on the base software to which the latest patch is applied. Run the application and verify if any impact on the operation of the application occurs. If there is no influence even if the application installed in the production machine 10 is operated on the latest base software applied to the operation verification machine 12, the version of the base applied to the operation verification machine 12 Even if the software is applied to the production machine 10, there is no problem. In this case, the base software operation management apparatus 5 applies the patch applied to the operation verification machine 12 to the production machine 10 as well. In FIG. 1, the operation verification machine 12 is connected to a network such as the Internet, but may not be connected.

  The virtualization hypervisor 2 includes a work machine 20 that is a virtual machine. The work machine 20 is a virtual machine that is a copy of the basic software of the production machine 10 and the applications running on the basic software as they are, and is a virtual machine used when updating the version of the basic software of the production machine 10. When the hypervisor management device 4 receives a migration command from the infrastructure software operation management device 5, the work machine 20 is created in the virtualized hypervisor 2 under the management of the hypervisor management device 4.

  The repository device 3 stores the latest patch of the base software. However, the repository apparatus 3 stores not only the latest patch but also past patches stored in the past. The operation verifier 12 acquires the latest patch stored in the repository device 3 and applies the latest patch. The repository device 3 is realized by, for example, a server or NAS (Network Attached Storage).

  The hypervisor management device 4 manages the virtualized hypervisors 1 and 2. The hypervisor management device 4 is realized by a server or a personal computer, for example.

  The base software operation management device 5 manages the version information of the base software of each virtual machine existing in the virtualization hypervisors 1 and 2 and manages the operation of the base software of each virtual machine. The base software operation management apparatus 5 is realized by, for example, a server or a personal computer.

  The application manager terminal 6 is used by an application manager. The application manager terminal 6 is connected to the operation network NW via, for example, VPN. The application manager terminal 6 is realized by, for example, a personal computer or a smartphone.

  Agent software 7 is installed in each virtual machine existing in the virtualization hypervisors 1 and 2 constituting the basic software operation management system of this embodiment, and the agent software 7 is executed on each virtual machine. Perform each operation. In the present embodiment, a production machine 10, an evaluation machine 11, and an operation verification machine 12 exist in the virtualization hypervisor 1, and agent software 7 is installed in each of the machines 10, 11, and 12. In addition, the work machine 20 exists in the virtualization hypervisor 2 and the agent software 7 is installed in the work machine 20. In this embodiment, when the virtualization hypervisors 1 and 2 create a virtual machine, the agent software 7 is installed in the created virtual machine.

<Configuration example of base software operation management apparatus 5>
Next, a configuration example of the base software operation management apparatus 5 of the present embodiment will be described with reference to FIG. FIG. 2 is a diagram illustrating a configuration example of the base software operation management apparatus 5 of the present embodiment.

  The base software operation management apparatus 5 of this embodiment includes a network interface 50, an input / output unit 51, a control unit 52, and a storage unit 53.

  The network interface 50 is an interface for connecting to the operation network NW.

  The input / output unit 51 inputs and outputs various types of information. For example, a GUI is provided to the application manager terminal 6, various screens are displayed on the application manager terminal 6, and various types of information input from the various screens are acquired.

  The control unit 52 controls each unit by executing a program.

  The storage unit 53 stores various information and programs.

  The storage unit 53 of this embodiment has a version information storage unit 54 and an operation verification status storage unit 55.

  As shown in FIG. 3, the version information storage unit 54 stores version information of the base software of each virtual machine existing in the virtualization hypervisors 1 and 2. The version information is information including at least the version of the base software. In FIG. 3, the server name, the type, name, and version of the base software are stored in association with each other. The server name is information for uniquely identifying each virtual machine. The type of base software is information for specifying the type of OS or middleware. The name is information for identifying the name of the base software. The version is information for specifying the version of the base software. Here, the version may be not only an identifier composed of a number indicating the version of the software, but also the name of an applied patch program.

  As illustrated in FIG. 4, the operation verification status storage unit 55 stores information on the operation verifier 12 at the time of operation verification. In FIG. 4, as in FIG. 3, the server name, the type of the basic software, the name, and the version are stored in association with each other. Further, as shown in FIG. 5, the operation verification status storage unit 55 stores information on the production machine 10 that performs the operation verification. In FIG. 5, the server name, application name, and verification end information are stored. The server name is information for uniquely identifying the production machine 10. The application name is information for uniquely identifying an application installed in the production machine 10. The verification end is information for specifying whether or not the operation verification of the application has ended. Unfinished means that the operation verification has not been completed, and completed means that the operation verification has been completed. In FIG. 5, when the operation verification is completed, it is updated from not completed to completed. The information shown in FIG. 4 and the information shown in FIG. 5 stored in the operation verification status storage unit 55 are stored in association with each other, and the application of the production machine 10 that performs the operation verification by the operation verification machine 12 is managed.

<Examples of processing operations of infrastructure software operation management system>
Next, a series of processing operation examples of the base software operation management system of this embodiment will be described with reference to FIGS. FIG. 6 shows a processing operation example for making the patch of the operation verification machine 12 the latest patch. FIG. 7 shows a processing operation example in which the version information of the base software of each virtual machine is stored in the version information storage unit 54. Each virtual machine means the production machine 10, the evaluation machine 11, the operation verification machine 12, and the work machine 20 shown in FIG. In the present embodiment, since the work machine 20 is newly created by the process shown in FIG. 8, at the stage of the process shown in FIG. 54 is stored. FIG. 8 shows an example of processing operation when upgrading the base software of the production machine 10.

<Example of processing operation for making the patch of the operation verification machine 12 the latest patch>
First, an example of processing operation for making the patch of the operation verification machine 12 the latest patch will be described with reference to FIG.

  The operation verifier 12 connects to the repository apparatus 3 at a predetermined timing, and checks whether there is a latest patch that has not been applied to the base software of the operation verifier 12 (step A1). If there is a latest patch, the operation verification unit 12 downloads the latest patch (step A2), and applies the latest patch to the operation verification unit 12 (step A3). Thereby, the patch of the operation verification machine 12 can always be the latest patch. The patch includes not only correction of the base software but also version upgrade of the base software. The operation verification machine 12 updates the version of the base software by applying a new patch.

  The timing at which the operation verifier 12 confirms the patch is not particularly limited. For example, it can be performed at regular intervals or at a predetermined time.

  When the latest patch is applied, the operation verifier 12 notifies the application manager terminal 6 that the patch has been updated (step A4). For example, the operation verifier 12 stores in advance the mail address of the application manager terminal 6 and notifies the application manager terminal 6 of the update based on the mail address. As a result, the application manager using the application manager terminal 6 can grasp that the latest patch has been applied to the operation verifier 12.

<Example of Processing Operation for Storing Version Information of Base Software of Each Virtual Machine in Version Information Storage Unit 54>
Next, an example of processing operation for storing the version information of the base software of each virtual machine in the version information storage unit 54 will be described with reference to FIG.

  The base software operation management apparatus 5 transmits a version acquisition request to each virtual machine existing in the virtualization hypervisors 1 and 2 at a predetermined timing (step B1). Each virtual machine that has received the version acquisition request transmits the version information of the base software applied to its own virtual machine to the base software operation management apparatus 5 (step B2). As a result, the base software operation management apparatus 5 can acquire version information from each virtual machine and store and manage it in the version information storage unit 54 as shown in FIG. 3 (step B3). The timing at which the base software operation management apparatus 5 transmits the version acquisition request to each virtual machine is not particularly limited. For example, it can be performed at regular intervals or at a predetermined time. .

  In FIG. 5, the base software operation management apparatus 5 transmits a version acquisition request to each virtual machine and acquires version information from each virtual machine. However, for example, the agent software 7 installed in each virtual machine may transmit version information to the base software operation management apparatus 5 at a specified timing. Also in this case, the base software operation management apparatus 5 can acquire the version information of the base software applied to each virtual machine from each virtual machine, and store it in the version information storage unit 54 for management.

<Example of processing operation when upgrading the base software of the production machine 10>
Next, a processing operation example when upgrading the base software of the production machine 10 will be described with reference to FIG.

  The application manager transmits a verification request from the application manager terminal 6 to the base software operation management apparatus 5 when the operation verifier 12 performs the operation verification of the application installed in the production machine 10 (step C1).

  When receiving the verification request from the application manager terminal 6, the base software operation management apparatus 5 gives the user of the application manager terminal 6 the right to access the operation verifier 12 (step C2). As a result, the application manager terminal 6 can access the operation verifier 12 and use the operation verifier 12 to verify the operation of the application installed in the production machine 10.

  Further, when receiving the verification request, the basic software operation management apparatus 5 acquires the version information of the basic software applied to the operation verifier 12 at that time from the operation verifier 12, and the operation verification status storage unit 55. (Step C3). As a result, the base software operation management apparatus 5 can store the information of the operation verifier 12 at the time of operation verification in the operation verification status storage unit 55 as shown in FIG.

  When the base software operation management apparatus 5 stores the version information of the base software applied by the operation verification unit 12 in the operation verification status storage unit 55, the base software operation management device 5 transmits an instruction to stop the automatic patch application to the operation verification unit 12. The automatic patch application in the operation verification machine 12 is prohibited (step C4). As a result, the operation verifier 12 temporarily stops a series of processing operations shown in FIG. 6 for acquiring the latest patch from the repository device 3. As a result, the patch of the operation verifier 12 is not updated to the latest patch while the application administrator is performing the operation verification with the operation verifier 12. The operation of each application will be verified.

  Note that the basic software operation management apparatus 5 receives the verification request from the application administrator terminal 6 in step C1, and if there are a plurality of production machines 10 in the virtual hypervisor 1, the production target to be verified for operation verification is performed. A selection screen for selecting the machine 10 is transmitted to the application manager terminal 6 and displayed on the application manager terminal 6. Thereby, the application administrator can select the production machine 10 to be verified from the plurality of production machines 10 on the selection screen. Information on the production machine 10 selected by the application manager terminal 6 is stored in the operation verification status storage unit 55, and the information on the production machine 10 to be verified is managed as shown in FIG. In FIG. 5, the server name of the production machine 10 to be verified is stored in the operation verification status storage unit 55.

  In addition, when there are a plurality of applications installed in the verification target production machine 10, the base software operation management apparatus 5 displays a selection screen for selecting the verification target application for operation verification on the application manager terminal 6. It is transmitted and displayed on the application manager terminal 6. Thereby, the application manager can select an application to be verified from a plurality of applications on the selection screen. Information on the application selected by the application manager terminal 6 is stored in the operation verification status storage unit 55, and information on the verification target application is managed. As a result, the base software operation management apparatus 5 can store and manage information on the verification target application in the operation verification status storage unit 55 as shown in FIG. In FIG. 5, the application name of the verification target application is stored in the operation verification status storage unit 55.

  The application manager terminal 6 verifies the operation of the application with the operation verifier 12 (step C5), and when the operation verification is completed, transmits a verification completion notification to the basic software operation management apparatus 5 (step C6).

  When the base software operation management apparatus 5 receives the verification end notification, the base software operation management apparatus 5 transmits an automatic patch application start command to the operation verifier 12 to enable automatic patch application (step C7). As a result, the operation verifier 12 can restart the series of processing operation examples shown in FIG. 6 and acquire the latest patch from the repository device 3.

  When receiving the verification end notification, the base software operation management apparatus 5 stores the version information of the production machine 10 to be verified stored in the version information storage unit 54 and the operation verification status storage unit 55. The version information of the existing operation verifying machine 12 is compared (step C8). If the version of the base software of the operation verification machine 12 is newer than the version of the base software of the production machine 10 to be verified, the base software operation management apparatus 5 is a copy of the production machine 10 to be verified. A migration command for creating the work machine 20 is transmitted to the hypervisor management device 4 (step C9).

  When the hypervisor management device 4 accepts the migration command, the hypervisor management device 4 creates a work machine 20 that is a copy of the relevant production machine 10 to be verified (step C10). As a method for creating the work machine 20 that is a copy of the production machine 10, for example, the hypervisor management device 4 issues a creation command for the work machine 20 that is a duplicate of the production machine 10 to be verified to the virtualization hypervisor 1. . Then, the virtualization hypervisor 1 copies the information of the production machine 10 on the memory of the physical server where the virtualization hypervisor 1 itself exists to the memory of the physical server where the virtualization hypervisor 2 exists, and the production machine A work machine 20 that is a duplicate of 10 is created in the virtualization hypervisor 2. In addition, the hypervisor management device 4 issues a creation command for the work machine 20 that is a copy of the production machine 10 to be verified to the virtual hypervisor 2. Then, the virtualization hypervisor 2 copies the information of the production machine 10 on the memory of the physical server where the virtualization hypervisor 1 exists to the memory of the physical server where the virtualization hypervisor 2 exists, and A work machine 20 that is a duplicate is created in the virtualized hypervisor 2. As a result, the work machine 20 that is a copy of the production machine 10 to be verified is created in the virtualized hypervisor 2. The method for creating the work machine 20 that is a copy of the production machine 10 is not particularly limited, and can be arbitrarily created using a migration function that can be executed by the virtualization system. When the work machine 20 is created, the hypervisor management device 4 generates a server name for uniquely identifying the work machine 20. Application services are continued on the production machine 10.

  When the work machine 20 that is a copy of the production machine 10 is created, the hypervisor management apparatus 4 transmits a migration completion notification together with the server name of the work machine 20 to the basic software operation management apparatus 5 (step C11). The base software operation management apparatus 5 can store and manage the version information of the base software of the work machine 20 in the version information storage unit 54 by acquiring the server name of the work machine 20 from the hypervisor management apparatus 4. .

  When receiving the migration completion notification, the platform software operation management apparatus 5 reads the version of the platform software of the operation verification machine 12 from the version information of the operation verification machine 12 stored in the operation verification status storage unit 55, and the platform A patch application instruction including the software version is transmitted to the work machine 20 (step C12).

  When the work machine 20 receives the patch application instruction, the work machine 20 connects to the repository apparatus 3 to check the patch of the repository apparatus 3 (step C13), and sets the version of the base software of the operation verification machine 12 included in the patch application instruction. The corresponding patch is downloaded (step C14), and the patch corresponding to the version of the base software is applied to the work machine 20 (version C15). As a result, the work machine 20 is updated to the same version of the base software as the operation verification machine 12 that has performed the operation verification. When the application of the patch is completed, the work machine 20 transmits a patch application end notification to the base software operation management apparatus 5 (step C16).

  When receiving the patch application end notification, the base software operation management apparatus 5 determines that the version of the base software of the work machine 20 has been updated to the same version as the base software of the operation verification machine 12, and from the work machine 20 to the production machine The migration command to 10 is transmitted to the hypervisor management device 4 (step C17).

  When the hypervisor management device 4 receives a migration command from the work machine 20 to the production machine 10, it copies at least the base software of the work machine 20 to the production machine 10 (step C18). As a method of copying at least the base software of the work machine 20 to the production machine 10, for example, the hypervisor management device 4 sends a copy command for copying at least the base software of the work machine 20 to the production machine 10 to the virtualized hypervisor 2. The virtualization hypervisor 2 causes at least the base software of the work machine 20 to be copied to the production machine 10. As a result, the production machine 10 is updated to the same version of the base software as the operation verification machine 12 that has performed the operation verification. Note that the method of copying the base software of the work machine 20 to the production machine 10 is not particularly limited, and can be arbitrarily copied using a migration function that can be executed in the virtualization system.

  The hypervisor management device 4 transmits a migration completion notification to the base software operation management device 5 after copying at least the base software of the work machine 20 to the production machine 10 (step C19).

  When receiving the migration completion notification, the base software operation management apparatus 5 transmits a patch application work completion notification to the application administrator terminal 6 (step C20). Thereby, the application administrator can grasp that the version of the base software of the production machine 10 has been updated.

  Here, the base software operation management apparatus 5 may transmit a delete command for the work machine 20 to the hypervisor management apparatus 4 so that the hypervisor management apparatus 4 deletes the work machine 20. Further, the hypervisor management device 4 may delete the work machine 20 after copying at least the base software of the work machine 20 to the production machine 10 in step C18. As a result, the work machine 20 that has become unnecessary after copying the base software of the work machine 20 to the production machine 10 can be deleted.

  The base software operation management apparatus 5 updates the base software of the evaluation machine 11 to the same version as that of the production machine 10 when the base software of all the production machines 10 existing in the virtualization hypervisor 1 is upgraded. become. In this case, when the base software operation management apparatus 5 refers to the version information storage unit 54 and determines that the base software of all the production machines 10 existing in the virtualized hypervisor 1 has been upgraded, the base software operation management apparatus 5 On the other hand, a patch application instruction including the version of the base software of the production machine 10 is transmitted, and the base software of the evaluation machine 11 is updated to the same version as the production machine 10 (version upgrade).

<Operation and effect of the base software operation management system of this embodiment>
In the base software operation management system of this embodiment, the base software operation management apparatus 5 stores and manages the version information of the base software of the production machine 10 in the version information storage unit 54. Further, the base software operation management apparatus 5 stores and manages the version information of the base software of the operation verifier 12 at the time of operation verification in the operation verification status storage unit 55. Then, the base software operation management apparatus 5 compares the version information of the production machine 10 stored in the version information storage unit 54 with the version information of the operation verification machine 12 at the time of operation verification stored in the operation verification status storage unit 55. When the version of the base software included in the version information of the operation verification machine 12 is a newer version than the version of the base software included in the version information of the production machine, the work machine that is a copy of the production machine 10 A migration command for creating 20 is transmitted to the hypervisor management apparatus 4 to create the work machine 20. Further, the base software operation management apparatus 5 applies the patch of the repository apparatus 3 to the work machine 20 and updates the version of the base software of the work machine 20 to the same version as the version of the base software of the operation verification machine 12. Then, the base software operation management apparatus 5 transmits a migration command for copying the base software information of the work machine 20 to the production machine 10 to the hypervisor management apparatus 4, and at least the base software information of the work machine 20 is sent to the real machine. Copy to machine 10. Thereby, the base software of the production machine 10 can be upgraded.

  In the base software operation management system of the present embodiment, the operation verifier 12 to which the latest patch of the repository apparatus 3 is applied is installed, and the base software operation management apparatus 5 includes the version information of the base software of the operation verifier 12 and The version information of the base software of the production machine 10 that actually executes the application is managed. The base software operation management apparatus 5 controls the hypervisor management apparatus 4 when the version of the base software of the operation verification machine 12 is newer than the version of the base software of the production machine 10, and The version of the base software of the machine 10 is upgraded to the same version as the operation verification machine 12. For this reason, a server administrator who provides virtual servers such as the production machine 10, the evaluation machine 11, and the operation verification machine 12 does not perform work such as schedule adjustment regarding new patch application with the application manager or the like. The version of the base software of the production machine 10 can be updated to the same version as the operation verification machine 12. Accordingly, it is possible to reduce the man-hours for updating the version of the base software.

  In the embodiment described above, as shown in FIG. 8, the application manager terminal 6 transmits a verification end notification to the base software operation management apparatus 5 when the operation verification of the application is completed ( Step C6).

  In this case, the application administrator terminal 6 may transmit a verification end notification to the base software operation management apparatus 5 after the operation verification of all applications is completed, or the operation verification of each application ends. Each time, a verification end notification including an application identifier for specifying the application may be transmitted to the base software operation management apparatus 5. When the application manager terminal 6 transmits a verification end notification each time the operation verification of each application ends, the infrastructure software operation management device 5 ends the operation verification based on the application identifier included in the verification end notification. The application verification end stored in the operation verification status storage unit 55 is updated from unfinished to finished. Then, the base software operation management apparatus 5 determines that the verification of all the verification target applications has been completed when the verification completion of all the applications stored in the operation verification status storage unit 55 has been completed. The version information of the production machine 10 to be verified stored in the version information storage unit 54 and the version information of the operation verification machine 12 stored in the operation verification status storage unit 55 may be compared. (Step C8).

  In the above-described embodiment, as illustrated in FIG. 8, when the basic software operation management apparatus 5 receives a verification end notification from the application administrator terminal 6, the verification target stored in the version information storage unit 54 The version information of the production machine 10 is compared with the version information of the operation verification machine 12 stored in the operation verification status storage unit 55 (step C8).

  However, when the base software operation management apparatus 5 receives a patch application request for requesting the application of a patch to the production machine 10, the version information of the production machine 10 to be verified stored in the version information storage unit 54 is received. And the version information of the operation verification machine 12 stored in the operation verification status storage unit 55 may be compared (step C8).

  In the above-described embodiment, the work machine 20 is created in a different virtual hypervisor 2 different from the virtual hypervisor 1, and the work machine 20 is created in a different physical server. However, as shown in FIG. 9, the virtualization hypervisor 1 and the virtualization hypervisor 2 may be the same physical server, and the work machine 20 may be created in the same physical server. The infrastructure software operation management system shown in FIG. 9 shows a case where the virtualization hypervisors 1 and 2 shown in FIG. 1 are made the same physical server and configured with one virtualization hypervisor 1. Alternatively, the virtualization hypervisors 1 and 2 may be configured as one virtualization hypervisor 1 and the virtualization hypervisor 1 may be configured on a plurality of physical servers.

(Second Embodiment)
Next, a second embodiment will be described.

  In the first embodiment, a work machine 20 that is a copy of the production machine 10 is created, a patch for making the same base software version as the operation verification machine 12 is applied to the created work machine 20, The version of the base software of the machine 20 is updated to the same version as the version of the base software of the operation verification machine 12. Then, at least the base software of the work machine 20 after applying the patch is copied to the production machine 10. As a result, the base software of the production machine 10 is updated (upgraded) to the same base software version as the operation verification machine 12.

  In the second embodiment, a work machine 20 that is a copy of the production machine 10 is created, a patch for making the same base software version as the operation verification machine 12 is applied to the created work machine 20, The base software version of the machine 20 is updated to the same version as the base software version of the operation verification machine 12. Then, the work machine 20 itself after applying the patch is changed to a new production machine 10. Also in this case, the base software of the production machine 10 is updated (upgraded) to the same base software version as the operation verification machine 12. Hereinafter, the basic software operation management system of this embodiment will be described in detail with reference to FIG. The system configuration of the base software operation management system of this embodiment is the same as that of the first embodiment shown in FIGS. In the present embodiment, description of the same processing as that of the first embodiment is omitted.

  In the second embodiment, similarly to the first embodiment, a work machine 20 that is a copy of the production machine 10 is created (step C10), and the same base as the operation verification machine 12 is created for the created work machine 20 A patch for making the software version is applied (step C15). As a result, the work machine 20 is updated to the same version of the base software as the operation verification machine 12. When the application of the patch is completed, the work machine 20 transmits a patch application end notification to the base software operation management apparatus 5 (step C16).

  In the present embodiment, when receiving a patch application end notification from the work machine 20, the base software operation management apparatus 5 issues a migration command for changing the work machine 20 itself to the new production machine 10 to the hypervisor management apparatus 4. (Step D1).

  When the hypervisor management device 4 accepts the migration command, the hypervisor management device 4 changes the work machine 20 to the new production machine 10 (step D2). As a method for changing the work machine 20 to the new production machine 10, for example, the hypervisor management device 4 issues a change instruction for changing the work machine 20 to the new production machine 10 to the virtualization hypervisor 2 to perform virtualization. The hypervisor 2 changes the work machine 20 itself to the new production machine 10. Thereby, the work machine 20 can be changed to the new production machine 10. When the work machine 20 is changed to a new production machine 10, the work machine 20 is connected to a network such as the Internet in the same manner as the production machine 10. Note that the method of changing the work machine 20 itself to the new production machine 10 is not particularly limited, and can be arbitrarily changed using a migration function that can be executed in the virtualization system. When the work machine 20 is changed to the new production machine 10, the hypervisor management device 4 notifies the production machine 10 of a change notification that the work machine 20 has been changed to the new production machine 10. (Step D3). In this case, the hypervisor management device 4 starts the application service on the work machine 20 changed to the new production machine 10 and stops the application service performed on the production machine 10. At this time, the hypervisor management device 4 may be configured not to connect the production machine 10 to a network such as the Internet or to delete the production machine 10.

  The base software operation management system of the present embodiment changes the work machine 20 itself after applying a patch for making the same base software version as the operation verification machine 12 to the new production machine 10, and the new production machine. The service of the application is continuously performed by the work machine 20 set to 10. Further, the base software operation management apparatus 5 manages version information of the work machine 20 as the new production machine 10 in the version information storage unit 54.

(Third embodiment)
Next, a third embodiment will be described.

  In the first embodiment, as shown in FIG. 8, a migration command (step C9) for creating a work machine 20 that is a copy of the production machine 10 to be verified, and the same base software version as the operation verification machine 12 The patch application instruction (step C12) for applying the patch for setting to the work machine 20 is performed separately.

  In the third embodiment, as shown in FIG. 11, a migration command for creating a work machine 20 that is a copy of the production machine 10 to be verified and a version of the same base software as the operation verification machine 12 are used. A patch application instruction for applying the patch to the work machine 20 is simultaneously performed (step E1). As a result, the work machine 20 that is a copy of the production machine 10 is created, and the time required to apply the same base software version as the operation verification machine 12 to the created work machine 20 is shortened. be able to. Hereinafter, the basic software operation management system of this embodiment will be described in detail with reference to FIG. The system configuration of the base software operation management system of this embodiment is the same as that of the first embodiment shown in FIGS. In the present embodiment, description of the same processing as that of the first embodiment is omitted.

  In the present embodiment, as shown in FIG. 11, the base software operation management apparatus 5 performs a migration command and a patch application command simultaneously (step E1). Specifically, the base software operation management apparatus 5 reads the version information of the operation verifier 12 at the time of operation verification stored in the operation verification status storage unit 55 and includes the version of the base software, A migration & patch application command for requesting copy creation and patch application for making the same base software version as the operation verification machine 12 is transmitted to the hypervisor management device 4 (step E1).

  When receiving the migration & patch application command, the hypervisor management device 4 creates a work machine 20 that is a copy of the production machine 10 to be verified (step E2). The work machine 20 created in step E2 can be created in the same manner as the work machine 20 created in step C10 shown in FIG. Next, the hypervisor management apparatus 4 connects the work machine 20 to the repository apparatus 3, causes the work machine 20 to check the patch of the repository apparatus 3 (step E3), and the operation verification machine 12 included in the migration & patch application command. The patch corresponding to the version of the base software is downloaded (step E4), and the work machine 20 is applied with the patch for making the same base software version as the operation verification machine 12 (step E5). Thereby, the base software of the work machine 20 can be updated (version up) to the same base software version as the operation verification machine 12.

  When the hypervisor management device 4 applies a patch to the work machine 20 and updates the base software of the work machine 20 to the same base software version as that of the operation verification machine 12, a migration & patch application completion notification is sent to the base software operation management. It transmits to the apparatus 5 (step E6).

  When receiving the migration & patch application completion notification, the base software operation management apparatus 5 determines that the base software of the work machine 20 has been updated to the same base software version as the operation verification machine 12. When receiving the migration & patch application completion notification, the base software operation management apparatus 5 performs the process of step C17 shown in FIG. 8 and copies at least the board software of the work machine 20 after applying the patch to the production machine 10. (Step C18). Alternatively, the process of step D1 shown in FIG. 10 is performed, and the work machine 20 itself after applying the patch is changed to a new production machine 10 (step D2).

  In this embodiment, in order to apply to the work machine 20 a migration command for creating a work machine 20 that is a copy of the production machine 10 to be verified, and a patch for making the same base software version as the operation check machine 12 The patch application instruction is performed at the same time. As a result, the work machine 20 that is a copy of the production machine 10 is created, and the time required to apply the same base software version as the operation verification machine 12 to the created work machine 20 is shortened. be able to.

  In the processing operation example illustrated in FIG. 11, the hypervisor management device 4 creates a work machine 20 that is a copy of the production machine 10 to be verified when a migration & patch application command is received. And the patch for making the same base software version as the operation verification machine 12 is applied to the work machine 20 after the creation. However, when the hypervisor management device 4 receives a migration & patch application command, the hypervisor management device 4 uses the same base software version as the operation verification machine 12 as well as the migration that creates the work machine 20 that is a copy of the production machine 10. A working machine 20 to which a patch for applying the patch is applied may be created.

(Fourth embodiment)
Next, a fourth embodiment will be described.

  Since the evaluator 11 and the operation verifier 12 are used when performing the operation verification, it is useless to always start the evaluator 11 and the operation verifier 12 when the operation verification is not performed. For this reason, the evaluation machine 11 and the operation verification machine 12 may be activated and used when performing the operation verification.

  In the fourth embodiment, information obtained by converting the virtual machines of the evaluator 11 and the operation verifier 12 into a disk image is stored in the network storage unit 8 shown in FIG. Then, when performing operation verification, information stored in the network storage unit 8 is acquired, and the evaluator 11 and the operation verifier 12 are created and started using the information. Thereby, when performing operation verification, the evaluation machine 11 and the operation verification machine 12 can be created and used. Hereinafter, the basic software operation management system of this embodiment will be described in detail with reference to FIGS. In the present embodiment, description of the same processing as in the first embodiment is omitted. The network storage unit 8 is realized by, for example, an HDD (Hard Disk Drive) or an SDD (Solid State Drive) or NAS (Network Attached Storage) incorporated in / external to the physical server device.

<System configuration example of infrastructure software operation management system>
First, a system configuration example of the base software operation management system of this embodiment will be described with reference to FIG. FIG. 12 is a diagram showing a system configuration example of the base software operation management system of this embodiment.

  The base software operation management system of the present embodiment is configured to have a network storage unit 8. The network storage unit 8 stores information obtained as a disk image of a virtual machine existing in the virtualization hypervisor 1. The network storage unit 8 stores information of the evaluator 11 and the operation verifier 12 as a disk image. By creating a disk image and storing it, it is possible to create and activate the evaluator 11 and the operation verifier 12 using the information stored in the network storage unit 8. The information stored in the network storage unit 8 is not particularly limited as long as the virtual machines of the evaluator 11 and the operation verifier 12 can be created and started, and can be stored in various file formats. . Making a virtual machine a disk image is also called template.

<Examples of processing operations of infrastructure software operation management system>
Next, a series of processing operation examples of the base software operation management system of this embodiment will be described with reference to FIGS. 13 and 14. FIG. 13 shows a processing operation example for making the patch of the operation verification machine 12 the latest patch. FIG. 14 shows a processing operation example when upgrading the base software of the production machine 10.

<Example of processing operation for making the patch of the operation verification machine 12 the latest patch>
First, an example of processing operation for making the patch of the operation verification machine 12 the latest patch will be described with reference to FIG.

  The base software operation management apparatus 5 connects to the repository apparatus 3 at a predetermined timing, and checks the patches stored in the repository apparatus 3 (step F1). If there is a new patch that is not applied to the basic software of the operation verification machine 12 in the repository apparatus 3, the basic software operation management apparatus 5 creates the operation verification machine 12 that is converted into a disk image and starts it up Is transmitted to the hypervisor management device 4 (step F2).

  When the hypervisor management device 4 receives the activation command of the operation verifier 12, the hypervisor management device 4 acquires the disk image information of the operation verifier 12 from the network storage unit 8, creates the operation verifier 12, and starts it (step) F3). After starting the operation verification machine 12, the hypervisor management device 4 transmits a startup completion notification to the base software operation management device 5 (step F4).

  When receiving the activation completion notification, the base software operation management apparatus 5 transmits a patch application instruction for causing the operation verifier 12 to apply the latest patch to the operation verifier 12 (step F5).

  When receiving the patch application instruction, the operation verification machine 12 connects to the repository device 3 to check the patch stored in the repository device 3 (step F6), download the latest patch (step F7), and verify the operation. The latest patch is applied to the machine 12 (step F8).

  After applying the latest patch to the operation verification unit 12, the operation verification unit 12 transmits a patch application end notification to the base software operation management apparatus 5 (step F9).

  When receiving the patch application end notification from the operation verifier 12, the base software operation management apparatus 5 transmits a disk image conversion command of the operation verifier 12 to the hypervisor management apparatus 4 (step F10).

  When the hypervisor management device 4 receives the disk imaging command, the hypervisor management device 4 converts the operation verification unit 12 into a disk image and stores the information of the operation verification unit 12 converted into a disk image in the network storage unit 8 (step F11).

  When the hypervisor management apparatus 4 stores the information of the operation verifier 12 converted into a disk image in the network storage unit 8, the hypervisor management apparatus 4 transmits a disk image formation completion notification to the base software operation management apparatus 5 (step F12).

  The base software operation management system of this embodiment can make the patch of the operation verification machine 12 the latest patch by performing the above processing.

  In the above processing operation, when the latest patch is applied to the operation verifier 12 in the process of step F8, the operation verifier 12 transmits a disk image formation command to the hypervisor management device 4 to create a disk image. Information of the verifier 12 may be stored in the network storage unit 8.

  Further, in the above processing operation, when the operation verification machine 12 is activated in the process of step F3, the agent software 7 installed in the operation verification machine 12 is connected to the repository apparatus 3 and the operation verification machine 12 adds a new one. A patch may be applied.

<Example of processing operation when upgrading the base software of the production machine 10>
Next, a processing operation example when upgrading the base software of the production machine 10 will be described with reference to FIG.

  When the application manager terminal 6 sends a verification request to the basic software operation management apparatus 5 (step G1) and the basic software operation management apparatus 5 receives the verification request, the activation starts the operation verifier 12 that has been converted into a disk image. The command is transmitted to the hypervisor management device 4 (step G2).

  When the hypervisor management device 4 receives the activation command of the operation verification machine 12, the hypervisor management device 4 acquires the disk image information of the operation verification machine 12 from the network storage unit 8, creates the operation verification machine 12, and starts it ( Step G3). After starting the operation verification machine 12, the hypervisor management device 4 transmits a start completion notification to the base software operation management device 5 (step G4).

  When receiving the activation completion notification, the infrastructure software operation management apparatus 5 gives the user of the application administrator terminal 6 the access right to the operation verifier 12 (step G5). As a result, the application manager terminal 6 can access the operation verifier 12 and use the operation verifier 12 to verify the operation of the application installed in the production machine 10.

  Also, when receiving the activation completion notification, the basic software operation management apparatus 5 acquires the version information of the basic software applied to the operation verifier 12 at that time from the operation verifier 12, and the operation verification status storage unit (Step G6). As a result, the base software operation management apparatus 5 can store the information of the operation verifier 12 at the time of operation verification in the operation verification status storage unit 55 as shown in FIG.

  The processes in steps G7 to G20 shown in FIG. 14 are the same as those in FIG. 8 described in the first embodiment. As a result, the base software of the production machine 10 is updated (upgraded) to the same version as the base software of the operation verification machine 12.

  When receiving the migration completion notification from the hypervisor management device 4, the base software operation management device 5 transmits a disk imaging command of the operation verification machine 12 to the hypervisor management device 4 (step G21).

  When the hypervisor management device 4 receives the disk imaging command, the hypervisor management device 4 converts the operation verification unit 12 into a disk image and stores the information of the operation verification unit 12 converted into a disk image in the network storage unit 8 (step G22).

  When the hypervisor management device 4 converts the operation verifier 12 into a disk image, the hypervisor management device 4 transmits a disk image conversion completion notification to the base software operation management device 5 (step G23).

  When receiving the disk imaging completion notification, the base software operation management apparatus 5 transmits a patch application work completion notification to the application manager terminal 6 (step G24). Thereby, the application administrator can grasp that the version of the base software of the production machine 10 has been updated.

  In FIG. 13 and FIG. 14 described above, an example has been described in which the information on the operation verifier 12 converted into a disk image is acquired from the network storage unit 8, the operation verifier 12 is created, and activated. However, the evaluator 11 also acquires the information of the evaluator 11 that has been converted into a disk image from the network storage unit 8 in the same manner as the operation verifier 12 described above, creates the evaluator 11 and starts it.

  For example, the application manager transmits an evaluation request from the application manager terminal 6 to the infrastructure software operation management apparatus 5 when the evaluation of the application is performed by the evaluator 11 (step H1).

  When receiving the evaluation request from the application manager terminal 6, the base software operation management apparatus 5 transmits an activation command for activating the evaluator 11 in the form of a disk image to the hypervisor management apparatus 4 (step H2).

  When the hypervisor management device 4 receives the activation command for the evaluator 11, the hypervisor management device 4 acquires the information of the evaluator 11 from the network storage unit 8, creates the evaluator 11, and activates it (step H3). After starting the evaluator 11, the hypervisor management device 4 transmits a start completion notification to the base software operation management device 5 (step H4).

  The base software operation management apparatus 5 gives the right of access to the evaluator 11 to the user of the application manager terminal 6 when receiving the activation completion notification (step H5). Thereby, the application manager terminal 6 can access the evaluator 11 and use the evaluator 11 to evaluate the application.

  The application manager terminal 6 evaluates the application with the evaluator 11 (step H6), and when the evaluation is completed, transmits an evaluation completion notification to the infrastructure software operation management apparatus 5 (step H7).

  When receiving the evaluation end notification from the application manager terminal 6, the base software operation management apparatus 5 transmits a disk image conversion command of the evaluator 11 to the hypervisor management apparatus 4 (step H8).

  When the hypervisor management device 4 receives the disk imaging command, the hypervisor management device 4 converts the evaluation machine 11 into a disk image, and stores the information of the evaluation machine 11 converted into a disk image in the network storage unit 8 (step H9).

  When the hypervisor management device 4 converts the evaluator 11 into a disk image, the hypervisor management device 4 transmits a disk image conversion completion notification to the base software operation management device 5 (step H10).

  When receiving the disk imaging completion notification, the base software operation management apparatus 5 transmits a work completion notification to the application manager terminal 6 (step H11). As a result, in the same way as with the operation verification machine 12, the evaluation machine 11 obtains the information of the disk-like evaluation machine 11 from the network storage unit 8 to create and start the evaluation machine 11. Can be evaluated.

  The base software operation management apparatus 5 also converts the base software of all the production machines 10 existing in the virtualized hypervisor 1 to the same base software version as the operation verification machine 12 (version upgrade). The evaluator 11 is acquired from the network storage unit 8 and the evaluator 11 is created and activated, and the base software of the evaluator 11 is set to the same base software version as the operation verifier 12 in the same manner as the production machine 10. It will be updated (version up).

  The above-described embodiment is a preferred embodiment of the present invention, and the scope of the present invention is not limited to the above-described embodiment alone, and various modifications are made without departing from the gist of the present invention. Implementation is possible.

  For example, the control operation in each device constituting the basic software operation management system of the above embodiment can be executed using hardware, software, or a composite configuration of both.

  In the case of executing processing using software, it is possible to install and execute a program in which a processing sequence is recorded in a memory in a computer incorporated in dedicated hardware. Alternatively, it can be installed in a memory in a general-purpose computer capable of executing various processes and executed.

  For example, the program can be recorded in advance on a hard disk or a ROM (Read Only Memory) as a recording medium. Alternatively, the program can be stored (recorded) temporarily or permanently in a removable recording medium. Such a removable recording medium can be provided as so-called package software. Examples of the removable recording medium include various recording media such as a magnetic disk and a semiconductor memory.

  The program is installed in the computer from the removable recording medium as described above. In addition, it is wirelessly transferred from the download site to the computer. In addition, it is transferred to a computer via a network by wire.

  The program can be used from a server on the network such as in the cloud. There may be a form in which only a part of the program is transferred to the computer.

  In addition, each device constituting the basic software operation management system of the above embodiment is not limited to performing processing in time series according to the processing operation described in the above embodiment. For example, it is possible to construct the processing capability of a device that executes processing, or to execute processing in parallel or individually as necessary.

DESCRIPTION OF SYMBOLS 1, 2 Virtualization hypervisor 3 Repository apparatus 4 Hypervisor management apparatus 5 Base software operation management apparatus 6 Application administrator terminal 7 Agent software 8 Network storage part 10 Production machine 11 Evaluation machine 12 Operation verification machine 20 Work machine 50 Network interface 51 Input / output unit 52 Control unit 53 Storage unit 54 Version information storage unit 55 Operation verification status storage unit

Claims (9)

A production machine running the application,
An operation verification machine for verifying the operation of the application installed in the production machine;
A base software operation management device that manages version information of the base software applied to the production machine and version information of the base software applied to the operation verification machine;
The infrastructure software operation management device is:
Operation verification status storage means for storing verification status information for specifying whether or not the operation verification of the application is completed;
When the verification status information of all applications stored in the operation verification status storage means indicates the end of the operation verification, the version of the base software of the production machine is the version of the base software at the time of the operation verification of the operation verification machine And a control means for controlling to update to the same version. A repository device for storing patches;
The operation verification machine is
Obtaining a patch stored in the repository device, applying the obtained patch, updating a version of the base software of the operation verifier,
2. The infrastructure software operation management system according to claim 1, wherein operation verification of the application installed in the production machine is performed on the infrastructure software of the operation verification machine. The operation verification machine is
Check whether there is a patch that has not been applied to the basic software of the operation verifier at a predetermined timing, and notify the application administrator terminal that is the terminal used by the application administrator when the patch is applied And
The infrastructure software operation management device is:
When a verification request for requesting operation verification of the application using the operation verifier is received from the application administrator terminal, the version information of the base software applied to the operation verifier at the time of the operation verification Store in the status storage means, temporarily stop the process of checking the patch of the operation verification machine,
The control means includes
The version of the base software of the production machine is controlled to be updated to the same version as the version information of the action verification machine stored in the operation verification status storage unit after the operation verification. The basic software operation management system according to 1 or 2. The infrastructure software operation management device is:
Having version information storage means for storing version information of the base software applied to the production machine;
The control means includes
Compare the version information of the production machine stored in the version information storage means with the version information of the operation validation machine stored in the operation verification status storage means, and compare the version information of the production machine When the version information of the operation verifier is new, control is performed so that the version of the base software of the production machine is updated to the same version as the version information of the operation verifier stored in the operation verification status storage unit. The infrastructure software operation management system according to claim 3. A hypervisor management device for creating a virtual machine;
A storage unit that stores the disk image information of the operation verification machine;
The infrastructure software operation management device is:
At a predetermined timing, it is confirmed whether there is a patch that is not applied to the basic software of the operation verification machine. If there is a patch that is not applied, the hypervisor management device is controlled and stored in the storage unit Based on the disk image information of the operation verification machine that is, create the operation verification machine,
The infrastructure software operation management system according to claim 1, wherein the created operation verification machine applies the patch after activation. The operation verification machine is
Check if there is a patch that has not been applied to the basic software of the operation verifier at a predetermined timing.
The infrastructure software operation management device is:
Pause the process of checking the patch of the operation verification machine at the time of operation verification,
The infrastructure software operation management system according to claim 1 or 2, wherein processing for confirming the patch of the operation verifier is started after the operation verification. And operation verification status storage means for storing the verification status information for specifying whether or not operation check before Symbol Application Te operation verification machine smell verify the operation of the applications installed on the production machine is completed to run the application ,
When the verification status information of all applications stored in the operation verification status storage means indicates the end of the operation verification, the version of the base software of the production machine is the version of the base software at the time of the operation verification of the operation verification machine And a control means for controlling to update to the same version. Operation verification status storage means for storing the verification status information for specifying whether or not operation check before Symbol Application Te operation verification machine smell verify the operation of the applications installed on the production machine is completed to run the application A control method of a base software operation management apparatus having
When the verification status information of all applications stored in the operation verification status storage means indicates the end of the operation verification, the version of the base software of the production machine is the version of the base software at the time of the operation verification of the operation verification machine A control method comprising a control step of controlling to update to the same version. And operation verification status storage means for storing the verification status information for specifying whether or not operation check before Symbol Application Te operation verification machine smell verify the operation of the applications installed on the production machine is completed to run the application Connected computers
When the verification status information of all applications stored in the operation verification status storage means indicates the end of the operation verification, the version of the base software of the production machine is the version of the base software at the time of the operation verification of the operation verification machine A program for executing control processing to control to update to the same version.

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