WO2014006739A1 - Management computer, infrastructure provision method and program - Google Patents

Abstract

The objective of the present invention is to achieve a computer, method, and program which provide an infrastructure which reflects the state of a business system in operation. The present invention is a management computer which manages a business system which has been constructed upon an infrastructure which provides a computer system which executes a business application. The present invention retains infrastructure information and a policy, and in a case in which there is a need to generate distribution-use infrastructure information for constructing, upon a second infrastructure, a first object business system which has been constructed upon a first infrastructure which has been provided by the first infrastructure information, acquires business infrastructure information of the first object business system, generates difference information using the business infrastructure information and the first infrastructure information, and using the difference information and a policy for generating second infrastructure information in order to provide the second infrastructure, generates parameter information. On the basis of the parameter information and the second infrastructure information, distribution-use infrastructure information for constructing the first object business system upon the second infrastructure is generated.

Description

Management computer, base providing method and program

The present invention relates to a computer system that provides a system environment capable of executing services. In particular, the present invention relates to a computer, a method, and a program that provide a system environment that reflects the state of an operating business system.

A platform-provided cloud service such as PaaS (Platform as a Service) provides a platform (environment) that can operate a business such as a network application and a Web service as a service.

In the present invention, what is configured and set as follows is called a base.

First, hardware such as servers, network devices, and storage systems is provided by virtualization technology. Secondly, an OS and middleware such as a DBMS and an application server are installed in the virtual machine. Third, OS kernel parameters are set according to the hardware configuration. Fourth, various middleware parameters are set in consideration of the arrangement of middleware.

Currently, products aimed at supporting PaaS operations are known. For example, there are products that can provide an infrastructure by managing an image (file) that includes infrastructure information necessary to provide the infrastructure and deploying the image (file).

When operating PaaS using products such as those described above, users involved in the operation can be broadly classified into service providers and service users.

The service provider is a user who manages the image (file) and provides the infrastructure by deploying the image (file). A service user is a user who builds a business system on the provided infrastructure and operates the business system.

In the following explanation, the infrastructure provided by the service provider is described as the standard infrastructure, and is distinguished from the infrastructure on which the business system operated by the service user is constructed. The infrastructure information indicates parameters that can be dynamically changed by the service user after the service provider provides the infrastructure. Specifically, OS kernel parameters and middleware parameters are shown.

In recent years, there is an increasing need for PaaS to operate mission-critical business systems.

After providing the standard infrastructure, the service provider is required to provide a standard infrastructure having a hardware configuration different from the provided standard infrastructure in response to a request from the service user. For this reason, various techniques for newly providing a standard infrastructure to service users have been considered (see, for example, Patent Document 1).

Patent Document 1 discloses a virtual environment construction support system in which a user can passively configure an optimal virtual environment by selecting a business system that is close to the operating business system from business systems that have been used in the past. Is disclosed.

JP 2011-242964 A

However, in the invention described in Patent Document 1, when a new standard infrastructure is provided, the service user needs to set the standard infrastructure in consideration of the requirements of the operating business system. In other words, when a new standard infrastructure is changed, it is necessary for the service user to appropriately reset the infrastructure information set from the infrastructure on which the business system is constructed.

This is a burden on the service user due to the adjustment work of the business system and impairs usability. In addition, manual adjustment of the business system by a service user or the like may induce human error.

The present invention has been made in view of the above-described problems. In other words, one of the purposes is to dynamically reflect the operating state of the business system that has been operated so far on the changed standard infrastructure.

A typical example of the invention disclosed in the present application is as follows. That is, a management computer that manages a business system built on a platform that provides a computer system that executes business applications, the management computer being connected to a processor, a storage medium connected to the processor, and the processor A computer system provided by the infrastructure is configured by virtual computer resources generated from a group of physical computer resources, and the management computer is configured to connect the business system via the network interface. Is connected to the physical computer resource group constructed, and the management computer generates the base information indicating the base configuration and the conversion rule for generating the base information of the base providing the computer system having a different configuration The policy that defines the A platform information acquisition unit that acquires business platform information, which is information related to the configuration of the platform in the system, and generates difference information based on the business platform information and the platform information provided at the time of building the business system A difference information acquisition unit, and a distribution base information generation unit that generates distribution base information for building the business system on a new base based on the difference information and the base information, When it is necessary to generate the distribution infrastructure information for constructing the first target business system constructed on the first infrastructure provided by the first infrastructure information on the second infrastructure, The business base information of the first target business system is acquired, difference information is generated using the business base information and the first base information, and the generated difference information and the second Parameter information is generated using the policy for generating the second base information for providing the base, and the second base information is generated on the second base based on the generated parameter information and the second base information. Distribution base information for constructing the first target business system is generated.

According to one aspect of the present invention, since the distribution base information reflecting the state of the operating business system base is generated, the base reflecting the operating business system can be dynamically provided. it can.

It is a block diagram which shows the structure of the computer system in 1st Example of this invention. It is a block diagram explaining the hardware constitutions of the management computer in 1st Example of this invention. It is explanatory drawing which shows an example of the system related table | surface in 1st Example of this invention. It is explanatory drawing which shows an example of the image relation table in 1st Example of this invention. It is explanatory drawing which shows an example of the correspondence between the image files in 1st Example of this invention. It is explanatory drawing which shows an example of the basic | foundation information in 1st Example of this invention. It is explanatory drawing which shows an example of the description information in 1st Example of this invention. It is explanatory drawing which shows an example of the description information in 1st Example of this invention. It is explanatory drawing which shows an example of the description information in 1st Example of this invention. It is explanatory drawing which shows an example of the policy in 1st Example of this invention. It is a flowchart explaining the process which the business system monitoring part in 1st Example of this invention performs. It is a flowchart explaining the process which the business system monitoring part in 1st Example of this invention performs. It is a flowchart explaining the process which the board | substrate management part in 1st Example of this invention performs. It is a flowchart explaining the process which the board | substrate management part in 1st Example of this invention performs. It is a flowchart explaining the process which the event acquisition part in 1st Example of this invention performs. It is a flowchart explaining the process which the base operation determination part in 1st Example of this invention performs. It is a flowchart explaining the process which the base operation determination part in 1st Example of this invention performs. It is a flowchart explaining the process which the difference information extraction part in 1st Example of this invention performs. It is explanatory drawing which shows an example of the base information table | surface of the standard base in 1st Example of this invention. It is explanatory drawing which shows an example of the basic | foundation information table | surface of the business infrastructure in 1st Example of this invention. It is a flowchart explaining the process which the base information acquisition part in 1st Example of this invention performs. It is a flowchart explaining the process which the image file production | generation part in 1st Example of this invention performs. It is a flowchart explaining the process which the image file production | generation part in 1st Example of this invention performs. It is a flowchart explaining the process which the result display part in 1st Example of this invention performs. It is a block diagram which shows the structure of the computer system in the 2nd Example of this invention. It is a flowchart explaining the process which the base information monitoring part in 2nd Example of this invention performs. It is a flowchart explaining the process which the business system monitoring part in 2nd Example of this invention performs. It is a flowchart explaining the process which the board | substrate management part in 2nd Example of this invention performs. It is a flowchart explaining the process which the board | substrate management part in 2nd Example of this invention performs. It is a flowchart explaining the process which the base | foundation operation determination part in 2nd Example of this invention performs. It is a flowchart explaining the process which the difference information extraction part in 2nd Example of this invention performs. It is a flowchart explaining the process which the difference information extraction part in the modification of the 2nd Example of this invention performs. It is a block diagram which shows the structure of the computer system in the 3rd Example of this invention. It is explanatory drawing which shows an example of the policy contained in the basic image file in 3rd Example of this invention. It is explanatory drawing which shows an example of the meta infrastructure information table in 3rd Example of this invention. It is explanatory drawing which shows an example of the policy contained in the intermediate image file in 3rd Example of this invention. It is explanatory drawing which shows the relationship between the image file and policy in 3rd Example of this invention. It is a flowchart explaining the process which the image file production | generation part in the 3rd Example of this invention performs. It is a flowchart explaining the process which the image file production | generation part in the 3rd Example of this invention performs.

(First embodiment)
FIG. 1 is a block diagram showing the configuration of a computer system in the first embodiment of the present invention.

The computer system includes a management computer 100 and a plurality of business systems 300.

The business system 300 is a system constructed using a standard infrastructure provided by a service provider.

Here, the infrastructure refers to an environment in which computer resources necessary for operating a business system are provided, and middleware and OS parameters are set. In this embodiment, it is assumed that a standard infrastructure is provided to a service user, and the service user constructs a business system using the standard infrastructure.

The standard infrastructure on which the business system 300 is constructed provides a load balancer 310, a virtual machine 320, and a virtual storage device 330 as computer resources. It is also assumed that OS 321 parameters and middleware parameters corresponding to the hardware configuration of a physical computer and storage system that provide computer resources are set.

The load balancer 310 is a computer that distributes the processing load in the virtual machine 320 and the virtual storage device 330. The virtual machine 320 is a computer that executes a predetermined job. On the virtual machine 320, middleware such as an OS 321, APS 322, and DB 323, and an application 324 operate.

The virtual storage device 330 stores information necessary for business. For the virtual storage device 330, for example, a method of allocating an LU generated from a storage area included in the storage system can be considered.

The load balancer 310, the virtual machine 320, and the virtual storage device 330 are virtual processors such as a virtual processor, a virtual memory, a virtual storage area, and a virtual network interface provided by a virtualization program (not shown) that implements a virtualization function. It consists of typical computer resources. The virtual computer resource is provided by a data center including a computer, a storage device, a network device, and the like, for example.

Note that the computer resources, OS, and middleware included in the standard infrastructure on which the business system 300 is built are examples, and the present invention is not limited to this.

The management computer 100 is a computer that manages a business system 300 in operation and a standard infrastructure for constructing the business system 300. Specifically, the management computer 100 holds an image file as information for generating a standard infrastructure. The image file includes at least infrastructure information for storing parameters necessary for generating a standard infrastructure.

In this embodiment, when the management computer 100 provides a standard infrastructure and then creates a new standard infrastructure, the management computer 100 reflects the parameters changed during operation of the business system and creates a new standard infrastructure. In the following description, the standard platform with changed parameters is also referred to as a business platform. If the standard platform and business platform are not distinguished, they are described as the platform.

The management computer 100 includes a base information storage unit 110, a system management unit 120, and a base management unit 130.

The base information storage unit 110 stores various information necessary for providing the base. Specifically, the basic information storage unit 110 stores a basic image file 140, a system association table 150, an image association table 160, and a deployment image file 170.

The basic image file 140 is an image file for generating a standard infrastructure to be provided to service users. Accordingly, the basic image file 140 does not reflect the parameters changed in the business system. It includes base information 141 and policy 142. Note that the basic image file 140 includes one or more policies 142.

The infrastructure information 141 stores information necessary for providing a standard infrastructure. The policy 142 stores information necessary for generating the standard infrastructure. Details of the base information 141 and the policy 142 will be described later with reference to FIGS.

The deployment image file 170 is an image file for providing a new standard infrastructure generated based on business infrastructure infrastructure information. The deployment image file 170 includes infrastructure information 171 in which parameters changed during operation of the business system are reflected. The deployment image file 170 is an image file that provides a new standard base for the business base in operation, and therefore does not include information corresponding to the policy 142.

In the following description, when the basic image file 140 and the deployment image file 170 are not distinguished, they are described as an image file.

The system relation table 150 stores information indicating the relation between the business system 300 and the standard infrastructure provided when the business system 300 is constructed. Details of the system relation table 150 will be described later with reference to FIG.

The image relation table 160 stores information indicating the relation between image files. Details of the image association table 160 will be described later with reference to FIG.

The system management unit 120 monitors the business system 300 in operation. The system management unit 120 includes a business system monitoring unit 121 and a base information acquisition unit 122.

The business system monitoring unit 121 acquires information related to the operating state of the computer resources included in the business system 300. The operating state of the computer resource includes, for example, usage rates of processors and memories allocated to the virtual machine 320, IOPS, and the like.

The infrastructure information acquisition unit 122 acquires the infrastructure information of the business infrastructure.

Information acquired by the business system monitoring unit 121 and the base information acquisition unit 122 is input to the base management unit 130.

The infrastructure management unit 130 manages the standard infrastructure, and generates a deployment image file 170 that is information for providing a new standard infrastructure based on the information input from the system management unit 120. The base management unit 130 includes an event acquisition unit 131, a base operation determination unit 132, a difference information extraction unit 133, an image file generation unit 134, and a result display unit 135.

The event acquisition unit 131 analyzes the event and determines whether to generate an image file (deployment image file 170) for providing a new standard infrastructure.

The infrastructure operation determination unit 132 determines a method for generating the deployment image file 170.

The difference information extraction unit 133 compares the basic information on the standard infrastructure and the basic information on the business infrastructure, and acquires difference information such as changed parameters.

The image file generation unit 134 newly generates a deployment image file 170 based on the acquired difference information.

The result display unit 135 generates information for displaying information related to the deployment image file 170 to the service user or the service provider, and displays information related to the deployment image file 170 based on the generated display information. .

In this embodiment, the data center (not shown) in which the business system 300 is constructed and the management computer 100 are connected to each other via the network 200.

The network 200 may have various wired and wireless configurations such as LAN, WAN, and SAN. The present invention may be any network as long as the data center (not shown) and the management computer 100 can communicate with each other. The network 200 includes a plurality of network devices (not shown). The network device includes, for example, a switch and a gateway.

FIG. 2 is a block diagram illustrating the hardware configuration of the management computer 100 in the first embodiment of the present invention.

The management computer 100 includes a processor 400, a main storage device 410, a secondary storage device 420, an optical drive 440, an input device 450, an output device 460, and a network interface 470.

The processor 400 executes a program stored in the main storage device 410.

The main storage device 410 stores a program executed by the processor 400 and information necessary for executing the program. As the main storage device 410, for example, a memory or the like can be considered.

In this embodiment, the main storage device 410 stores programs for realizing the system management unit 120 and the infrastructure management unit 130. The main storage device 410 includes a work area 500 that is used during execution of various processes.

The secondary storage device 420 stores various information managed by the management computer 100. As the secondary storage device 420, for example, an HDD (Hard Disk Drive) or an SSD (Solid State Drive) may be considered.

In the present embodiment, the secondary storage device 420 includes a storage area for realizing the base information storage unit 110.

The input device 450 is a device for inputting various information or commands to the management computer 100, and includes a keyboard, a mouse, a touch panel, and the like. The output device 460 is a device for outputting a processing result or the like to an administrator, and includes a display.

The network interface 470 is an interface for connecting to other devices via a network.

Note that the program stored in the main storage device 410 may be stored in the secondary storage device 420. In this case, the processor 400 reads the program from the secondary storage device 420, loads the read program onto the main storage device 410, and executes the loaded program.

Note that the information stored in the secondary storage device 420 may be stored in an optical storage medium. In this case, the processor 400 acquires information from the optical storage medium input to the optical drive 440 and stores the acquired information in the secondary storage device 420.

Note that the management computer 100 itself may not include the secondary storage device 420. For example, the configuration may be such that the management computer 100 is connected to the secondary storage device 420 existing outside via a network. Further, the management computer 100 may be configured to be connected to a storage system having a plurality of secondary storage devices 420.

FIG. 3 is an explanatory diagram showing an example of the system relation table 150 in the first embodiment of the present invention.

The system relation table 150 stores information indicating the correspondence between the business system 300 and the standard infrastructure provided when the business system 300 is constructed. Specifically, the system association table 150 includes an identification number 601, a system ID 602, and an image ID 603.

The identification number 601 is an identification number for uniquely identifying an entry included in the system association table 150. The system ID 602 is an identifier for uniquely identifying the business system 300 in the computer system. The image ID 603 is an identifier of an image file corresponding to the standard base provided when the business system 300 is constructed.

In the example shown in FIG. 3, the identifier of the basic image file 140 corresponding to the standard infrastructure is stored in the image ID 603 of the entry whose identification number 601 is “1”, “2”, and “4”, and the identification number 601 is “ In the image ID 603 of the entries “3”, “5”, and “6”, the identifier of the deployment image file 170 corresponding to the newly provided standard infrastructure is stored.

FIG. 4 is an explanatory diagram showing an example of the image association table 160 in the first embodiment of the present invention.

The image association table 160 stores information indicating the correspondence between image files. Specifically, the image association table 160 includes an identification number 701, a route 702, and a node 703.

The identification number 701 is an identification number for uniquely identifying an entry included in the image association table 160. A route 702 is an identifier of an image file that is a basis of a newly generated image file. The node 703 is an identifier of a newly generated image file or an updated image file based on the image file corresponding to the route 702.

When the basic image file 140 is updated or added, the identifier of the updated basic image file 140 is stored in the node 703, and the identifier of the basic basic image file 140 is stored in the route 702. It is assumed that the image association table 160 is updated by the service provider. Note that the present invention is not limited to the method for updating the image relation table 160, and a method for automatically updating the image relation table 160 may be used.

In the following description, the updated or added basic image file 140 is also referred to as an updated basic image file 140. The basic image file 140 that is the basis of the updated basic image file 140 is also referred to as a pre-update basic image file 140.

FIG. 5 is an explanatory diagram showing an example of the correspondence between image files in the first embodiment of the present invention.

The solid arrow indicates the correspondence between the pre-update basic image file 140 and the image file newly generated based on the pre-update basic image file 140.

For example, in the example shown in FIG. 5, the deployment image file 170-1 and the deployment image file 170-3 indicate that the basic image file 140-1 is generated as the pre-update basic image file 140. The deployment image file 170-4 is generated based on the deployment image file 170-1, and indicates that the pre-update basic image file 140 is the basic image file 140-1.

A dotted arrow indicates the relevance of the basic image file 140 specified by the policy 142.

For example, the basic image file 140-1 indicates that the policy 142 for the basic image file 140-2 and the basic image file 140-3 is held.

FIG. 6 is an explanatory diagram showing an example of the base information 141 in the first embodiment of the present invention.

In this embodiment, it is assumed that the base information 141 is information described in XML. The present invention is not limited to this.

The base information 141 stores information necessary for generating a standard base. In the example illustrated in FIG. 6, the base information 141 includes description information 811, description information 804, and description information 805.

The description information 811 describes infrastructure information related to computer resources provided by the standard infrastructure. The description information 811 includes description information 801, description information 802 and description information 803.

The description information 801 describes information related to the virtual machine 320, the description information 802 describes information related to the virtual network, and the description information 803 describes information related to the virtual storage device 330.

The description information 804 describes information related to the OS 321, and the description information 805 describes information related to middleware. That is, in the description information 804 and the description information 805, software setting information in the standard infrastructure is described.

In addition, the specific information in each description information is described in the parts (a to e) indicated by the solid square frames. Further, the base information 141 may include placement information indicating the number of virtual machines, virtual networks, and virtual storages, and connection relationships.

Here, specific contents will be described using the description information 801, the description information 804, and the description information 805 as an example.

FIG. 7A is an explanatory diagram showing an example of description information 801 in the first embodiment of the present invention. FIG. 7B is an explanatory diagram showing an example of description information 804 in the first embodiment of the present invention. FIG. 7C is an explanatory diagram illustrating an example of the description information 805 according to the first embodiment of this invention.

In the example shown in FIG. 7A, information about the virtual machine 320-1 is described in the first to twelfth lines of the description information. Specifically, in the first line of the description information 801, the business content executed by the virtual machine 320, the name of the virtual machine 320, and the identifier of the virtual machine 320 are described. Further, the OS 321 identifier is described in the seventh line of the description information 801, and the middleware identifier is described in the ninth line. Similar information is described for the other lines.

In the example shown in FIG. 7B, the name and identifier of the OS 321 are described in the first line of the description information 804, and various parameters set in the OS 321 are described in the second line to the fourteenth line.

In the example shown in FIG. 7C, information about middleware in the virtual machine 320-1 is described in the first to nineteenth lines of the description information 805. More specifically, the first line describes the middleware type, name, and identifier, and the second to nineteenth lines describe various parameters that are set in the middleware.

When acquiring the basic information from the business platform, the necessary parameters can be acquired from the business system 300 based on the information indicating the storage location of the parameter described in the 16th line of the description information 805. .

FIG. 8 is an explanatory diagram showing an example of the policy 142 in the first embodiment of the present invention.

The policy 142 stores information necessary for generating the base information 141 to be included in the new image file.

In FIG. 8, from the basic information 141 for constructing a business system that operates two application servers and one database server, a business system that operates three application servers and one database server. The policy 142 for producing | generating the base information 141 for constructing is shown.

The policy 142 includes an identification number 901, S_KEY 902, M_KEY 903, P_KEY 904, and a rule 905.

The identification number 901 is an identification number for uniquely identifying an entry included in the policy 142.

S_KEY 902 is an identifier for uniquely identifying a computer resource provided in the standard infrastructure. M_KEY 903 is an identifier for uniquely identifying middleware in a computer resource. P_KEY 904 is an identifier for uniquely identifying a parameter in the middleware.

The rule 905 is a conversion rule for calculating a parameter corresponding to the entry from the base information 141 or the difference information. The conversion rule stores text information and mathematical formulas. For example, information such as “the first entry included in the difference information described later and the (m + 1) th value are summed and the sum is divided by 3” is stored.

Note that the present invention is not limited to the conversion rule stored in the rule 905.

FIGS. 9A and 9B are flowcharts for explaining processing executed by the business system monitoring unit 121 in the first embodiment of the present invention.

The business system monitoring unit 121 repeatedly performs the processing described below during operation (steps S101 to S123).

The business system monitoring unit 121 determines whether or not a certain period has elapsed (step S103). In this embodiment, since the processing is periodically executed, the business system monitoring unit 121 uses a timer or the like to determine whether or not a certain period has elapsed since the previous processing was completed.

If it is determined that the certain period has not elapsed, the business system monitoring unit 121 returns to step S103 and continues to wait until the certain period has elapsed.

If it is determined that a certain period has elapsed, the business system monitoring unit 121 starts a loop process of the business system 300 (step S105).

In the loop processing of the business system 300, the business system monitoring unit 121 selects a target business system 300 from the business systems 300 in the computer system, and performs steps S107 to S119 on the selected business system 300. Repeat the process up to. When the process is executed for all the business systems 300, the loop process of the business system 300 ends (step S121).

The business system monitoring unit 121 acquires performance information of the application 324 running on the selected business system 300 (step S107).

The business system monitoring unit 121 acquires, for example, application response, DBMS throughput, and the like as performance information of the application 324. The acquired application performance information is stored in the work area 500.

Since the application performance information acquisition method is a known technique, a detailed description thereof is omitted, but the present invention is not limited to the application performance information acquisition method.

Next, the business system monitoring unit 121 starts loop processing of the virtual machine 320 (step S109).

In the loop process of the virtual machine 320, the business system monitoring unit 121 selects a target virtual machine 320 from the virtual machines 320 included in the selected business system 300, and selects the selected virtual machine 320. The process of step S111 is repeatedly executed. When the process is executed for all the virtual machines 320, the loop process of the virtual machine 320 ends (step S113).

The business system monitoring unit 121 acquires the load information of the selected virtual machine 320 (step S111).

The business system monitoring unit 121 acquires, for example, the usage rate of the virtual processor, the usage rate of the virtual memory, the IOPS of the virtual I / O device, and the like assigned to the virtual machine 320 as load information of the virtual machine 320. The acquired performance information of the virtual machine 320 is stored in the work area 500.

Since the method for acquiring the load information of the virtual machine 320 is a known technique, a detailed description thereof will be omitted, but the present invention is not limited to the method for acquiring the performance information of the virtual machine 320.

Next, the business system monitoring unit 121 determines whether the performance of the application 324 satisfies a predetermined condition based on the acquired performance information of the application 324 (step S115).

For example, the business system monitoring unit 121 compares the performance information of the application 324 acquired last time with the performance information of the application 324 acquired this time, and determines whether or not the performance of the application 324 has decreased by a predetermined threshold value or more. It is conceivable to determine this.

In this embodiment, it is assumed that the determination conditions are set in advance. The service user or the service provider may input using a predetermined interface.

If it is determined that the performance of the acquired application 324 does not satisfy the predetermined condition, the business system monitoring unit 121 proceeds to step S121.

When it is determined that the performance of the acquired application 324 satisfies the predetermined condition, the business system monitoring unit 121 determines that the performance of the virtual machine 320 satisfies the predetermined condition based on the acquired load information of the virtual machine 320. It is determined whether or not (step S117).

For example, the business system monitoring unit 121 compares the load information of the virtual machine 320 acquired last time with the performance information of the virtual machine 320 acquired this time, and the performance of the virtual machine 320 decreases by a predetermined threshold value or more. A method for determining whether or not there is a possibility is considered.

In this embodiment, it is assumed that the determination conditions are set in advance. The service user or the service provider may input using a predetermined interface.

If it is determined that the performance of the virtual machine 320 does not satisfy the predetermined condition, the business system monitoring unit 121 proceeds to step S121.

When it is determined that the performance of the virtual machine 320 satisfies the predetermined condition, the business system monitoring unit 121 calls the infrastructure management unit 130 (step S119) and proceeds to step S121.

At this time, the business system monitoring unit 121 notifies the event acquisition unit 131 that the infrastructure management unit 130 has been called. The notification includes the identification number of the business system 300 that satisfies both the conditions of step S115 and step S117. As a result, the infrastructure management unit 130 can identify the business system 300 to be processed.

The business system monitoring unit 121 ends the processing when the loop processing of the business system 300 ends.

Note that the present invention is not limited to the conditions set in step S115 and step S117, and may be any conditions as long as it is determined that a new standard infrastructure needs to be generated.

In addition, when it is necessary to generate a new standard infrastructure, when the load on the virtual machine 320 or the like increases or the performance value of the virtual machine 320 or the like decreases, the standard infrastructure for building a business system is scaled out. Can be considered. In addition, there is a case where the standard base for constructing the business system is scaled in due to a decrease in the load of the virtual machine 320 in the business system.

FIGS. 10A and 10B are flowcharts for explaining processing executed by the infrastructure management unit 130 in the first exemplary embodiment of the present invention.

In this embodiment, the infrastructure management unit 130 executes processing periodically. There are two triggers for generating the deployment image file 170.

One opportunity is when a new deployment image file 170 of the business system 300 is generated in accordance with a change in the state of the business system 300. The state change of the business system 300 is detected by the system management unit 120 as described above. In the following description, this opportunity is also referred to as a business opportunity.

Another opportunity is when a new deployment image file 170 of the business system 300 related to the basic image file 140 is generated as the basic image file 140 is updated or added. The basic image file 140 is updated or added by the service provider. In the following description, this opportunity is also referred to as a management opportunity.

In the case of a business opportunity, the business system monitoring unit 121 calls the infrastructure management unit 130. The business system monitoring unit 121 notifies the identifier of the business system 300 to be processed when calling the infrastructure management unit 130.

On the other hand, in the case of a management opportunity, the infrastructure management unit 130 detects the updated basic image file 140 and generates a deployment image file 170.

The base management unit 130 initializes an event flag (step S201).

Specifically, the infrastructure management unit 130 sets the value of the event flag to “0”. The value of the event flag is stored in the work area 500. Therefore, in the following description, when the value of the event flag is output, it indicates that the value on the work area 500 has been updated.

Next, the infrastructure management unit 130 calls the event acquisition unit 131 and instructs the execution of the process (step S203). Details of processing executed by the event acquisition unit 131 will be described later with reference to FIG.

The infrastructure management unit 130 continues to wait until it receives a processing completion notification from the event acquisition unit 131. Note that the event acquisition unit 131 sets “0” or “1” in the event flag as a processing result as described later.

When receiving the processing completion notification from the event acquisition unit 131, the base management unit 130 determines whether it has been called from the system management unit 120 (step S205).

Specifically, the infrastructure management unit 130 determines whether or not the event flag is “1”. When it is determined that the event flag is “1”, the infrastructure management unit 130 determines that the system management unit 120 has called the event flag.

If it is determined that the call has been made from the system management unit 120, the infrastructure management unit 130 calls the infrastructure operation determination unit 132 and instructs execution of the process (step S207). At this time, the infrastructure management unit 130 notifies the infrastructure operation determination unit 132 of the identifier of the business system 300 to be processed. Details of processing executed by the base operation determination unit 132 will be described later with reference to FIG. 12A.

The infrastructure management unit 130 continues to wait until it receives a process completion notification from the infrastructure operation determination unit 132. As described later, the base operation determination unit 132 sets “1” in the event flag as a processing result, and outputs the identifier of the target basic image file 140 to the work area 500 or “ Set to “0”.

Here, the target basic image file 140 represents the basic image file 140 provided when the business system 300 to be processed is constructed.

When receiving the processing completion notification from the infrastructure operation determination unit 132, the infrastructure management unit 130 determines whether the deployment image file 170 can be generated (step S209).

Specifically, the infrastructure management unit 130 determines whether or not the event flag is “0”. If it is determined that the event flag is “0”, the infrastructure management unit 130 determines that the deployment image file 170 cannot be generated.

If it is determined that the deployment image file 170 cannot be generated, the infrastructure management unit 130 ends the process. At this time, the infrastructure management unit 130 instructs the result display unit 135 to display that the deployment image file 170 cannot be generated.

If it is determined that the deployment image file 170 can be generated, the infrastructure management unit 130 calls the difference information extraction unit 133 (step S211). At this time, the infrastructure management unit 130 notifies the difference information extraction unit 133 of the identifier of the business system 300 to be processed and the identifier of the target basic image file 140. Details of the processing executed by the difference information extraction unit 133 will be described later with reference to FIG.

The infrastructure management unit 130 continues to wait until it receives a processing completion notification from the difference information extraction unit 133. The difference information extraction unit 133 outputs the difference information to the work area 500 as a processing result as will be described later.

Upon receiving the processing completion notification from the difference information extraction unit 133, the infrastructure management unit 130 calls the image file generation unit 134 (step S213). At this time, the infrastructure management unit 130 notifies the image file generation unit 134 of the identifier of the business system 300 to be processed, the identifier of the target basic image file 140, and difference information. Details of processing executed by the image file generation unit 134 will be described later with reference to FIG. 17A.

The infrastructure management unit 130 continues to wait until it receives a processing completion notification from the image file generation unit 134. Note that the image file generation unit 134 outputs the deployment image file 170 to the work area 500 as a processing result as described later.

Furthermore, when receiving the processing completion notification from the image file generation unit 134, the infrastructure management unit 130 calls the result display unit 135 (step S215) and ends the processing.

If it is determined in step S205 that the system management unit 120 has not called the system management unit 120, the infrastructure management unit 130 starts loop processing of the image file (step S251).

This is a process for specifying the updated basic image file 140.

In the loop processing of the image file, the base management unit 130 selects a processing target image file from the basic image file 140 and the deployment image file 170 stored in the base information storage unit 110, and the selected processing target image file In contrast, the processing from step S253 to step S261 is repeatedly executed. When the processing is executed for all image files, the image file loop processing ends (step S263).

The base management unit 130 initializes an event flag (step S253). The process in step S253 is the same as the process in step S201, and the event flag is set to “0”.

The infrastructure management unit 130 calls the infrastructure operation determination unit 132 and instructs the execution of the process (step S255). At this time, the base management unit 130 notifies the base operation determination unit 132 of the identifier of the selected processing target image file. Details of processing executed by the base operation determination unit 132 will be described later with reference to FIG. 12B.

The infrastructure management unit 130 continues to wait until it receives a process completion notification from the infrastructure operation determination unit 132. The platform operation determination unit 132 sets “0” in the event flag or “2” in the event flag as a processing result as will be described later, and the identifier and update of the update basic image file 140 The identifier of the previous basic image file 140 is output to the work area 500.

The infrastructure management unit 130 determines whether or not the deployment image file 170 needs to be generated (step S257).

Specifically, the infrastructure management unit 130 determines whether or not the event flag is “0”. When the event flag is “0”, it is determined that the deployment image file 170 need not be generated.

If it is determined that it is not necessary to generate the deployment image file 170 and the loop processing of the image file ends, the infrastructure management unit 130 proceeds to step S265.

When it is determined that the deployment image file 170 needs to be generated, the infrastructure management unit 130 calls the difference information extraction unit 133 and instructs execution of the process (step S259). At this time, the infrastructure management unit 130 notifies the difference information extraction unit 133 of the identifier of the updated basic image file 140. Details of the processing executed by the difference information extraction unit 133 will be described later with reference to FIG.

The infrastructure management unit 130 continues to wait until it receives a processing completion notification from the difference information extraction unit 133. The difference information extraction unit 133 outputs the difference information to the work area 500 as a processing result as will be described later.

When receiving the processing completion notification from the difference information extraction unit 133, the base management unit 130 calls the image file generation unit 134 (step S261). At this time, the infrastructure management unit 130 notifies the image file generation unit 134 of the identifier of the business system 300 to be processed, the identifier of the updated basic image file 140, and the difference information. Details of the processing executed by the image file generation unit 134 will be described later with reference to FIG. 17B.

The infrastructure management unit 130 continues to wait until it receives a processing completion notification from the image file generation unit 134. The image file generation unit 134 stores the deployment image file 170 in the base information storage unit 110 as a processing result as described later.

When the processing completion notification is received from the image file generation unit 134 and the loop processing of the image file is completed, the infrastructure management unit 130 calls the result display unit 135 (step S265) and ends the processing. The process of step S265 is the same as the process of step S215.

FIG. 11 is a flowchart for explaining processing executed by the event acquisition unit 131 according to the first embodiment of this invention.

The event acquisition unit 131 starts processing when called from the infrastructure management unit 130. The event acquisition unit 131 determines whether the processing trigger is a business trigger (step S301).

Specifically, the event acquisition unit 131 determines whether a notification indicating that the infrastructure management unit 130 has been called from the business system monitoring unit 121 has been received.

If it is determined that the processing trigger is not a business trigger, the event acquisition unit 131 ends the processing. In this case, the event flag is “0”.

If it is determined that the processing start trigger is a business trigger, the event acquisition unit 131 sets the event flag to “1” (step S303) and ends the processing.

FIGS. 12A and 12B are flowcharts for explaining the processing executed by the base operation determination unit 132 in the first embodiment of the present invention. FIG. 12A shows processing in the case of a business opportunity, and FIG. 12B shows processing in the case of a management opportunity.

The infrastructure operation determination unit 132 starts processing when called from the infrastructure management unit 130. Note that the event flag that is set and the information that is input differ depending on the trigger of the process. Specifically, in the case of a business opportunity, “1” is set in the event flag, and the identifier of the business system 300 to be processed is input. In the case of a management opportunity, “0” is set in the event flag. And the identifier of the selected processing target image file is input.

The base operation determination unit 132 determines whether the processing trigger is a business trigger (step S401).

Specifically, the base operation determination unit 132 determines whether or not the event flag is “1”. When the event flag is “1”, it is determined that the processing trigger is a business trigger. Note that the processing from step S403 to step S415 is processing when called in step S207. Further, the processing from step S451 to step S461 is processing when called in step S255.

When it is determined that the processing opportunity is a business opportunity, the infrastructure operation determination unit 132 refers to the system association table 150 based on the identifier of the business system 300 to be processed, and corresponds to the business system 300 to be processed. The file identifier is specified (step S403).

The infrastructure operation determination unit 132 acquires an image file corresponding to the business system 300 to be processed from the infrastructure information storage unit 110 based on the identified identifier of the image file (step S405). At this time, the acquired image file is set as a processing target image file.

The infrastructure operation determination unit 132 determines whether the processing target image file is the basic image file 140 (step S407).

Specifically, the base operation determination unit 132 determines whether or not the policy 142 is included in the processing target image file.

When the policy 142 is included in the processing target image file, it is determined that the processing target image file is the basic image file 140. That is, the processing target image file itself becomes the target basic image file 140.

On the other hand, when the policy 142 is not included in the processing target image file, it is determined that the processing target image file is the deployment image file 170.

When it is determined that the processing target image file is the basic image file 140, the base operation determination unit 132 ends the processing. At this time, the base operation determination unit 132 outputs the identifier of the business system 300 to be processed and the identifier of the target basic image file 140 to the work area 500 as processing results.

When it is determined that the processing target image file is the deployment image file 170, the basic operation determination unit 132 refers to the image association table 160 (step S409), and the basic image file 140 that is related to the processing target image file 140 is obtained. Is determined (step S411). Specifically, the following processing is executed.

The infrastructure operation determination unit 132 refers to the node 703 in the image relation table 160 and searches for an entry that matches the identifier of the processing target image file. If there is no entry that matches the identifier of the processing target image file, it is determined that there is no basic image file 140 related to the image file.

When there is an entry that matches the identifier of the processing target image file, the infrastructure operation determination unit 132 refers to the route 702 of the entry and identifies an image file that matches the identifier stored in the route 702. Further, the base operation determination unit 132 determines whether the specified image file is the basic image file 140.

When the specified image file is the basic image file 140, it is determined that there is a basic image file 140 related to the processing target image file.

When it is determined that the identified image file is the deployment image file 170, the infrastructure operation determination unit 132 performs the same search process as described above using the identifier of the deployment image file 170 as a search key.

As a result of the recursive search processing, when an identifier corresponding to the basic image file 140 is stored in the route 702, it is determined that there is a basic image file 140 related to the processing target image file.

At this time, the basic image file 140 related to the deployment image file 170 becomes the target basic image file 140.

The above is the process of step S411.

If it is determined as a result of the processing in step S411 that there is a basic image file 140 related to the processing target image file, the base operation determination unit 132 ends the processing. At this time, the base operation determination unit 132 outputs the identifier of the business system 300 to be processed and the identifier of the target basic image file 140 to the work area 500 as processing results.

As a result of the processing in step S411, when it is determined that there is no basic image file 140 related to the processing target image file, the base operation determination unit 132 notifies an error (step S413), and “0” is set in the event flag. "Is set (step S415), and then the process is terminated.

Specifically, the base operation determination unit 132 calls the result display unit 135 and instructs to display an error.

If it is determined in step S401 that the processing trigger is not a business trigger, that is, a management trigger, the base operation determination unit 132 determines that the processing target image from the base information storage unit 110 based on the identifier of the processing target image file. A file is acquired (step S451).

The base operation determination unit 132 determines whether or not the acquired processing target image file is the basic image file 140 (step S453). The processing in step S453 is the same as that in step 407.

When it is determined that the acquired processing target image file is the basic image file 140, the base operation determination unit 132 determines whether or not the acquired processing target image file is the updated basic image file 140 (step) S459). In step S459, the following processing is executed.

The infrastructure operation determination unit 132 refers to the node 703 in the image relation table 160 and searches for an entry that matches the identifier of the processing target image file. If there is no entry that matches the identifier of the processing target image file, it is determined that it is not the update basic image file 140.

When there is an entry that matches the identifier of the processing target image file, the infrastructure operation determination unit 132 refers to the route 702 of the entry and identifies an image file that matches the identifier stored in the route 702. Further, the base operation determination unit 132 determines whether the specified image file is the basic image file 140.

When the specified image file is the basic image file 140, it is determined that the processing target image file is the updated basic image file 140. Here, the identified basic image file 140 corresponds to the pre-update basic image file. Therefore, the base operation determination unit 132 acquires the identifier stored in the route 720 as the identifier of the pre-update basic image file 140.

The above is the processing of step S459.

When it is determined that the acquired processing target image file is not the updated basic image file 140, the base operation determination unit 132 ends the processing.

When it is determined that the acquired processing target image file is the updated basic image file 140, the base operation determination unit 132 sets “2” in the event flag (step S461) and ends the processing. At this time, the base operation determination unit 132 outputs the identifier of the processing target image file (update basic image file 140) and the identifier of the pre-update basic image file 140 to the work area 500 as processing results.

If it is determined in step S453 that the processing target image file is the deployment image file 170, the infrastructure operation determination unit 132 refers to the image association table 160 (step S455) and is related to the processing target image file. It is determined whether or not the basic image file 140 exists (step S457).

The processing of step S455 and step S457 is the same processing as step S409 and step S411. That is, the target basic image file 140 is specified.

When it is determined that the target basic image file 140 does not exist, the base operation determination unit 132 ends the process.

When it is determined that the target basic image file 140 exists, it is determined whether or not the target basic image file 140 is the updated basic image file 140 (step S459).

When it is determined that the target basic image file 140 is not the updated basic image file 140, the base operation determination unit 132 ends the process.

When it is determined that the target basic image file 140 is the updated basic image file 140, the base operation determination unit 132 sets “2” in the event flag (step S461) and ends the process. At this time, the base operation determination unit 132 outputs the identifier of the update basic image file 140 (target basic image file 140) and the identifier of the pre-update basic image file 140 to the work area 500 as processing results.

Here, the meaning of the branch processing in FIGS. 12A and 12B will be described.

First, the processing from step S407 to step S411 will be described.

In this embodiment, when generating a deployment image file 170 for providing a new standard infrastructure, a policy 142 is used as described later. Therefore, in the processing from step S407 to step S411, it is determined whether or not the policy 142 for generating the deployment image file 170 exists. Specifically, it is determined as follows.

When the processing target image file is the basic image file 140 (YES in step S407), the base operation determination unit 132 ends the process because the policy 142 exists.

On the other hand, when the processing target image file is the deployment image file 170 (NO in step S407), the infrastructure operation determination unit 132 searches for the basic image file 140 related to the deployment image file 170.

As a result of the search processing, when there is no related basic image file 140 (NO in step S411), the base operation determination unit 132 notifies an error. This is because a new deployment image file 170 cannot be generated. If there is a related basic image file 140 as a result of the search process (YES in step S411), the base operation determination unit 132 ends the process.

Next, processing from step S453 to step S461 will be described.

In the present embodiment, when the updated basic image file 140 exists, the process of the management opportunity is executed.

When the processing target image file is the basic image file 140 (NO in step S453), the basic operation determination unit 132 determines whether the basic image file 140 is the updated basic image file 140.

When it is determined that the update basic image file 140 is, the base operation determination unit 132 determines that it is a management opportunity, and sets “2” in the event flag.

When the processing target image file is the deployment image file 170 (YES in step S453), the base operation determination unit 132 determines whether the target basic image file 140 exists.

When the target basic image file 140 does not exist (NO in step S457), the base operation determination unit 132 ends the process as it is.

On the other hand, if the target basic image file 140 exists (YES in step S457), the base operation determination unit 132 determines whether the target basic image file 140 is the updated basic image file 140.

When it is determined that the update basic image file 140 is, the base operation determination unit 132 determines that it is a management opportunity, and sets “2” in the event flag.

Note that since the processing from step S453 to step S461 is processing for determining a management opportunity, it is not necessary to notify an error as in step S413.

FIG. 13 is a flowchart for explaining processing executed by the difference information extraction unit 133 in the first embodiment of the present invention.

The difference information extraction unit 133 starts processing when called from the infrastructure management unit 130. In the present embodiment, the event flag to be set and the information to be input differ depending on the processing trigger.

Specifically, in the case of a business opportunity, “1” is set in the event flag, and the identifier of the business system 300 to be processed and the identifier of the target basic image file 140 are input. In the case of a management opportunity, “2” is set in the event flag, and the identifier of the basic image file 140 before update and the identifier of the basic image file 140 before update are input.

The difference information extraction unit 133 determines whether the processing trigger is a business trigger (step S501).

Specifically, the difference information extraction unit 133 determines whether or not the event flag is “1”. When the event flag is “1”, it is determined that the processing trigger is a business trigger. When the event flag is “2”, it is determined that the processing trigger is a management trigger.

If it is determined that the processing trigger is a business trigger, the difference information extraction unit 133 calls the base information acquisition unit 122 and instructs the start of the processing (step S503). At this time, the difference information extraction unit 133 notifies the base information acquisition unit 122 of the identifier of the business system 300 to be processed.

The difference information extraction unit 133 continues to wait until a process completion notification is received from the base information acquisition unit 122. The infrastructure information acquisition unit 122 outputs a business infrastructure infrastructure information table 1100 (see FIG. 15) to the work area 500 as a processing result as described later.

When the difference information extraction unit 133 receives the processing completion notification from the platform information acquisition unit 122, the difference information extraction unit 133 generates the standard platform information table 1000 (see FIG. 14) for the business system 300 to be processed (step S505). . Specifically, the following processing is executed.

The difference information extraction unit 133 acquires the target basic image file 140 from the base information storage unit 110 based on the notified identifier of the target basic image file 140. Further, the difference information extraction unit 133 refers to the acquired basic information 141 of the target basic image file 140 and generates a standard basic information table 1000 (see FIG. 14).

For example, the difference information extraction unit 133 identifies the virtual machine 320 with reference to the description information 811 in which the infrastructure information is described. The difference information extraction unit 133 refers to the description information 804 in which information about the OS 321 is described and the description information 805 in which information about the middleware is described, and acquires various parameters set in the identified virtual machine. After that, the difference information extraction unit 133 generates the standard base information table 1000 (see FIG. 14) using the acquired parameters.

The above is the process of step S505.

Here, the standard infrastructure information table 1000 generated by the difference information extraction unit 133 and the business infrastructure information table 1100 generated by the infrastructure information acquisition unit 122 will be described.

FIG. 14 is an explanatory diagram showing an example of the base information table 1000 of the standard base in the first embodiment of the present invention. FIG. 15 is an explanatory diagram showing an example of the business platform information table 1100 according to the first embodiment of this invention.

Standard base information table 1000 includes identification number 1001, S_KEY 1002, M_KEY 1003, P_KEY 1004, value 1005, and summary 1006.

The identification number 1001 is an identification number for uniquely identifying an entry included in the base information table 1000.

S_KEY 1002 is an identifier for uniquely identifying a computer resource provided in the standard infrastructure. S_KEY 1002 is the same as S_KEY 902. M_KEY 1003 is an identifier for uniquely identifying middleware in a computer resource. M_KEY 1003 is the same as M_KEY 903. P_KEY 1004 is an identifier for uniquely identifying a parameter in the middleware. P_KEY 1004 is the same as P_KEY 904.

Value 1005 is a specific parameter value. Outline 1006 is information indicating the meaning of the parameter.

The business platform information table 1100 includes an identification number 1101, S_KEY 1102, M_KEY 1103, P_KEY 1104, and a value 1105.

The identification numbers 1101, S_KEY1102, M_KEY1103, P_KEY1104 and value 1105 are the same as the identification numbers 1001, S_KEY1002, M_KEY1003, P_KEY1004 and value 1005, respectively.

Returning to the explanation of FIG.

Next, the difference information extraction unit 133 compares the base information table 1100 of the business system 300 with the base information table 1000 of the standard base (step S507), and determines whether there is a difference between the two base information tables. Determination is made (step S509).

14 and FIG. 15, the values 1005 and 1105 of the entries whose identification numbers are “1”, “2”, “n + 1”, and “n + 2” are different. Therefore, the difference information extraction unit 133 determines that there is a difference between the two base information tables.

When it is determined that there is no difference between the two base information tables, the difference information extraction unit 133 ends the process. In this case, since it is not necessary to newly generate the deployment image file 170, the infrastructure management unit 130 may end the processing without calling the image file generation unit 134 and the result display unit 135.

When it is determined that there is a difference between the two base information tables, the difference information extraction unit 133 stores the base information table 1100 of the business base in the work area 500 as the difference information (step S511), and ends the processing. To do.

If it is determined in step S501 that the processing trigger is a management trigger, the difference information extraction unit 133 refers to the system association table 150 based on the identifier of the pre-update basic image file 140 (step S551), and updates. It is determined whether or not there is a business system 300 associated with the previous basic image file 140 (step S553). Specifically, the following processing is executed.

The difference information extraction unit 133 refers to the image ID 603 of the system association table 150 and searches for an entry that matches the identifier of the pre-update basic image file 140. If there is no entry that matches the identifier of the pre-update basic image file 140, it is determined that there is no business system 300 associated with the pre-update basic image file 140.

If there is an entry that matches the identifier of the pre-update basic image file 140, the business system 300 corresponding to the system ID 602 of the entry becomes the business system 300 related to the pre-update basic image file 140.

The above is the process of step S553.

When it is determined that the business system 300 related to the pre-update basic image file 140 does not exist, the difference information extraction unit 133 ends the process. In this case, it is not necessary to newly generate the deployment image file 170 when the basic image file 140 is updated.

When it is determined that the business system 300 related to the pre-update basic image file 140 exists, the difference information extraction unit 133 starts loop processing of the business system 300 (step S555).

This is a process for acquiring difference information for each business system 300 related to the pre-update basic image file 140.

In the loop processing of the business system 300, the difference information extraction unit 133 selects the business system 300 to be processed from the business systems 300 searched in step S551, and performs step S557 and step 5 for the selected business system 300. The process of step S559 is repeatedly executed. When the processing is executed for all the business systems 300, the loop processing of the business system 300 ends (step S561).

The difference information extraction unit 133 calls the base information acquisition unit 122 and instructs execution of the process (step S557). At this time, the difference information extraction unit 133 notifies the identifier of the selected business system 300. Note that the process of step S557 is the same as the process of step S503.

The difference information extraction unit 133 stores the business platform base information table 1100 output from the base information acquisition unit 122 in the work area 500 as difference information (step S559).

When the loop processing of the business system 300 ends, the difference information extraction unit 133 ends the processing.

FIG. 16 is a flowchart for explaining processing executed by the base information acquisition unit 122 according to the first embodiment of this invention.

The base information acquisition unit 122 starts processing when called from the difference information extraction unit 133. In the present embodiment, the event flag to be set and the information to be input differ depending on the processing trigger.

Specifically, in the case of a business opportunity, “1” is set in the event flag, and the identifier of the business system 300 to be processed is input. In the case of a management opportunity, “2” is set in the event flag, and the identifier of the pre-update basic image file 140 is input.

The infrastructure information acquisition unit 122 determines whether the processing trigger is a business trigger (step S601).

Specifically, the difference information extraction unit 133 determines whether or not the event flag is “1”. When the event flag is “1”, it is determined that the processing trigger is a business trigger. When the event flag is “2”, it is determined that the processing trigger is a management trigger.

When it is determined that the processing start is a business opportunity, the basic information acquisition unit 122 refers to the system association table 150 based on the identifier of the business system 300 and identifies the identifier of the basic image file 140 corresponding to the business system. Is identified (step S603).

When the image file corresponding to the business system 300 is the deployment image file 170, the base information acquisition unit 122 can specify the basic image file 140 by executing the same process as in step S455.

The base information acquisition unit 122 acquires the basic image file 140 corresponding to the business system 300 from the base information storage unit 110 based on the identified identifier of the basic image file 140 (step S605). Thereafter, the base information acquisition unit 122 proceeds to step S607.

When it is determined that the processing start trigger is a management trigger, the basic information acquisition unit 122 acquires the updated basic image file 140 from the basic information storage unit 110 based on the identifier of the pre-update basic image file 140 (Step S1). S605). Thereafter, the base information acquisition unit 122 proceeds to step S607.

Next, the base information acquisition unit 122 refers to the base information 141 of the acquired basic image file 140 and specifies the storage location of various parameters (step S607).

For example, the base information acquisition unit 122 identifies the storage location of the parameter by referring to the twelfth line of the description information 805 shown in FIG. 7B.

The base information acquisition unit 122 acquires various parameters from the business system 300 based on the specified parameter storage position (step S609).

For example, when the business system 300 is operating on the data center, the infrastructure information acquisition unit 122 acquires information on the business system 300 from the storage area provided by the data center based on the specified parameter storage location. A storage area to be stored is specified, and predetermined parameters are acquired from the storage area.

The base information acquisition unit 122 generates a base information table 1100 for the business base based on the acquired parameters (step S611).

The infrastructure information acquisition unit 122 outputs the business infrastructure infrastructure information table 1100 generated to the difference information extraction unit 133 (step S613), and ends the process.

The base information table 1100 is given the identifier of the processing target image file as the name.

FIGS. 17A and 17B are flowcharts for explaining the processing executed by the image file generation unit 134 in the first embodiment of the present invention.

The image file generation unit 134 starts processing when called from the infrastructure management unit 130. In the present embodiment, the event flag to be set and the information to be input differ depending on the processing trigger.

Specifically, in the case of a business opportunity, “1” is set in the event flag, and the identifier and difference information of the target basic image file 140 are input. In the case of a management opportunity, “2” is set in the event flag, and the identifier of the basic image file 140 to be updated, the identifier of the basic image file 140 before update, and the difference information are input.

In the case of a business opportunity, one piece of difference information corresponding to the business system 300 to be processed is input. In the case of a management opportunity, difference information is input for the number of business systems 300 related to the pre-update basic image file 140.

The image file generation unit 134 determines whether the processing trigger is a business trigger (step S701).

Specifically, the image file generation unit 134 determines whether or not the event flag is “1”. When the event flag is “1”, it is determined that the processing trigger is a business trigger. When the event flag is “2”, it is determined that the processing trigger is a management trigger.

When it is determined that the processing opportunity is a business opportunity, the image file generation unit 134 retrieves the policy 142 included in the target basic image file 140 from the basic information storage unit 110 based on the identifier of the target basic image file 140. Obtain (step S703).

Next, the image file generation unit 134 starts loop processing of the policy 142 (step S705).

In the loop processing of the policy 142, the image file generation unit 134 selects the policy 142 to be processed from the acquired policies 142, and performs the processing from step S707 to step S711 on the selected policy 142 to be processed. Repeatedly. When the processing is executed for all the policies 142, the loop processing of the policy 142 ends (step S713).

The image file generation unit 134 newly generates a base information table using the selected policy 142 and the difference information (step S707). Specifically, the following processing is executed.

The image file generation unit 134 refers to the policy 142 based on the difference information S_KEY1102, M_KEY1103, and P_KEY1104, and searches for a matching entry.

The image file generation unit 134 generates a new base information table by calculating various parameters based on the difference information value 1105 and the rule 905 of the matching entry of the policy 142.

The image file generation unit 134 generates a new deployment image file 170 by reflecting the newly generated basic information table to the basic image file 140 specified by the selected policy 142 (step S110). S709). The generated deployment image file 170 is stored in the base information storage unit 110.

The image file generation unit 134 updates the image association table 160 (step S711).

Specifically, the image file generation unit 134 adds a new entry to the image association table 160. Further, the image file generation unit 134 stores the identifier of the target basic image file 140 in the route 702 of the added entry, and adds the identifier of the newly generated deployment image file 170 to the node 703 of the entry. .

The deployment image file 170 is determined so as not to overlap with the identifiers of other deployment image files 170.

When the processing is executed for all the policies 142, the image file generating unit 134 ends the processing.

That is, in the case of a business opportunity, deployment image files 170 corresponding to the number of policies 142 are generated for one business system 300.

When it is determined in step S701 that the processing trigger is a management trigger, the image file generation unit 134 includes the basic information file 140 from the basic information storage unit 110 in the target basic image file 140 based on the identifier of the pre-update basic image file 140. The policy 142 to be acquired is acquired (step S751).

At this time, the image file generation unit 134 acquires only the policy 142 indicating the designation to the update basic image file 140 among the policies 142 included in the pre-update basic image file 140.

Next, the image file generation unit 134 starts a loop process for difference information (step S753).

In the case of a management opportunity, since a plurality of difference information is input, a deployment image file 170 is generated for each difference information. In the difference information loop process, the image file generation unit 134 selects the difference information to be processed from the plurality of pieces of difference information, and performs the processes from step S755 to step S759 on the selected difference information to be processed. Run repeatedly. When the process is executed for all the difference information, the difference information loop process ends (step S761).

The image file generation unit 134 newly generates a base information table using the acquired policy 142 and the selected difference information (step S755). Note that the process of step S755 is the same as the process of step S707.

The image file generation unit 134 reflects the newly generated basic information table on the basic image file 140 specified by the acquired policy 142, that is, the updated basic image file 140, thereby creating a new deployment file. An image file 170 is generated (step S757). The process in step S757 is the same as the process in step S709. The generated deployment image file 170 is stored in the base information storage unit 110.

The image file generation unit 134 updates the image association table 160 (step S759). The process in step S759 is the same as the process in step S711.

When the processing is executed for all the difference information, the image file generation unit 134 ends the processing.

That is, in the case of a business opportunity, the deployment image file 170 is generated for each update basic image file 140 by the number of difference information.

FIG. 18 is a flowchart for explaining processing executed by the result display unit 135 in the first embodiment of the present invention.

The result display unit 135 starts processing when called from the infrastructure management unit 130. The infrastructure management unit 130 outputs the newly generated identifier of the deployment image file 170 to the result display unit 135.

The result display unit 135 notifies the service user and the service provider that a new deployment image file 170 has been generated (step S801). Note that the result display unit 135 may transmit the notification only to either the service provider or the service user.

The result display unit 135 determines whether or not a reference request has been received from the service user or the service provider (step S803).

When it is determined that the reference request has not been received from the service user or the service provider, the result display unit 135 returns to step S803 and continues to wait until the reference request is received. Note that the result display unit 135 may end the process if the reference request is not received within a certain period.

When it is determined that the reference request has been received from the service user or the service provider, the result display unit 135 displays the list information of the deployment image file 170 based on the authority of the sender of the reference request (step S805). ), The process is terminated.

For example, when a reference request is received from a service provider, the result display unit 135 displays list information of all generated deployment image files 170, and when a reference request is received from a service user, a result display unit Reference numeral 135 displays list information of the deployment image file 170 related to the business system 300 used by the service user.

Note that the list information of the deployment image file 170 includes the configuration of computer resources, OS and middleware parameters, and the like. Note that the present invention is not limited to the information displayed by the result display unit 135.

Note that, when the deployment image file 170 is generated at a business opportunity, all the policies 142 of the target basic image file 140 are acquired, but the present invention is not limited to this.

For example, only the necessary policy 142 may be acquired. In this case, a method of adding a policy adoption definition column to the policy 142 can be considered. The policy adoption definition stores information such as “apply when response difference in business system response is greater than or equal to a predetermined threshold”.

The image file generation unit 134 can acquire only the necessary policy 142 by referring to the policy adoption definition based on the performance information and load information stored in the work area 500.

According to the first embodiment, the management computer 100 generates the deployment image file 170 reflecting the state of the base of the operating business system 300 regardless of whether it is a business opportunity or a management opportunity. Can do. Thus, based on the new deployment image file 170, the business system 300 corresponding to the operational business system 300 can be easily constructed, and the same business can be continued. That is, by providing an optimal standard base for each business system 300, it is possible to reduce the burden of adjustment work on the business system of the service user and prevent mistakes due to the adjustment work.

(Second embodiment)
In the first embodiment, the management computer 100 detects the occurrence of the business opportunity and the management opportunity by periodically executing the process. However, in the second embodiment, based on the notification from the outside, The difference is that the occurrence of triggers and management triggers is detected.

Specifically, the management computer 100 executes a business opportunity process when an image file generation request is received from the business system 300, and a management opportunity process when an image file generation request is received from the service provider. Execute.

Hereinafter, the difference from the first embodiment will be mainly described.

FIG. 19 is a block diagram showing the configuration of the computer system in the second embodiment of the present invention.

Since the configuration of the management computer 100 is the same as that of the first embodiment, the detailed configuration is omitted.

In the second embodiment, the virtual machine 320 includes a base information monitoring unit 1200.

The base information monitoring unit 1200 monitors the business base. The base information monitoring unit 1200 holds the base information of the standard base provided when the business system 300 is constructed, that is, the base information 141 of the basic image file 140 in order to monitor the business base.

Further, the base information monitoring unit 1200 holds the monitoring result as a log. Note that the base information monitoring unit 1200 may discard the monitoring result when a certain period has elapsed since the monitoring result was acquired.

In FIG. 19, one virtual machine 320 includes the base information monitoring unit 1200, but the present invention is not limited to this. For example, each virtual machine 320 may include the base information monitoring unit 1200. In this case, the base information monitoring unit 1200 included in each virtual machine 320 monitors information on the business base related to its own virtual machine 320 and communicates with the other base information monitoring unit 1200, thereby other virtual machines 320. What is necessary is just to grasp the information of the business base related to

Further, a virtualization program (not shown) for managing the virtual machine 320 may include the base information monitoring unit 1200.

That is, any configuration may be used as long as the business system 300 can monitor the operating state of the virtual machine 320 or the like.

FIG. 20 is a flowchart for explaining processing executed by the base information monitoring unit 1200 in the second embodiment of the present invention.

The base information monitoring unit 1200 repeatedly performs the processing described below during operation (steps S901 to S909).

The base information monitoring unit 1200 refers to the base information 141 and acquires various parameters in the business system 300 (step S903).

Specifically, the base information monitoring unit 1200 refers to each description information of the base information 141, specifies the storage position of various parameters, and acquires the various parameters from the specified storage position. At this time, the base information monitoring unit 1200 generates a base information table 1100 for the business base based on the acquired parameters, and holds the base information table 1100 for the base business base as a monitoring result.

The base information monitoring unit 1200 compares the previous monitoring result with the current monitoring result, and determines whether or not the business base has changed (step S905). Note that the processing in step S905 is the same as the processing in step S509, and thus the description thereof is omitted.

If it is determined that the business platform has not changed, the platform information monitoring unit 1200 repeatedly performs the same processing until the business system is stopped.

If it is determined that the business platform has changed, the platform information monitoring unit 1200 transmits the platform information table 1100 that is the current monitoring result to the management computer 100 (step S907). At this time, the infrastructure information monitoring unit 1200 also transmits the identifier of the business system 300 together with the business infrastructure basic information table 1100.

FIG. 21 is a flowchart for explaining processing executed by the business system monitoring unit 121 in the second embodiment of the present invention.

The business system monitoring unit 121 repeatedly performs the processing described below during operation (steps S1001 to S1009).

The business system monitoring unit 121 determines whether the business platform information table 1100 has been received (step S1003).

If it is determined that the business infrastructure basic information table 1100 has not been received, the business system monitoring unit 121 continues to wait until the business infrastructure basic information table 1100 is received.

When it is determined that the business platform information table 1100 has been received, the business system monitoring unit 121 identifies the business system 300 to be processed (step S1005).

Specifically, the business system monitoring unit 121 acquires the identifier of the business system 300 received together with the business platform information table 1100.

The business system monitoring unit 121 calls the infrastructure management unit 130 (step S1007) and proceeds to step S1009.

At this time, the business system monitoring unit 121 notifies the identifier of the specified business system 300. As a result, the infrastructure management unit 130 can identify the business system 300 to be processed.

22A and 22B are flowcharts for explaining the processing executed by the infrastructure management unit 130 in the second embodiment of the present invention.

The second embodiment is different in that the loop processing of the image file is omitted at the management opportunity. This is because there is no need to specify the updated basic image file 140 because a notification indicating that the updated basic image file 140 has been added is input in advance from the service provider.

Other processing is the same as that of the first embodiment, and thus description thereof is omitted.

FIG. 23 is a flowchart for explaining processing executed by the base operation determining unit 132 in the second embodiment of the present invention.

As shown in FIG. 23, the processing of the business opportunity is the same as that of the first embodiment. On the other hand, in the process of management opportunity, the process from step 451 to step 459 is omitted from the first embodiment.

This is because, in the case of a management opportunity, an image file generation request is input together with the identifier of the update basic image file 140 from the service provider, so that the image file to be processed is always the update basic image file 140.

FIG. 24 is a flowchart for explaining processing executed by the difference information extraction unit 133 in the second embodiment of the present invention.

As shown in FIG. 24, the processing of the management opportunity is the same as that of the first embodiment. On the other hand, in the business opportunity processing, the processing from step S501 to step S509 is omitted. This is because the base information table 1100 transmitted from the base information monitoring unit 1200 is registered as difference information.

The processes executed by the event acquisition unit 131, the image file generation unit 134, and the result display unit 135 are the same as those in the first embodiment.

According to the second embodiment, the process is executed when it is necessary to provide a new standard infrastructure. Therefore, when the service provider or the service user rethinks the standard infrastructure, a new standard can be quickly obtained. It is possible to present information on the base or provide a new standard base.

(Modification of the second embodiment)
The infrastructure information monitoring unit 1200 transmits the business infrastructure infrastructure information table 1100 to the management computer 100, but the present invention is not limited to this. For example, the infrastructure information monitoring unit 1200 may transmit the infrastructure information 141 (XML file) of the business infrastructure itself.

FIG. 25 is a flowchart for explaining processing executed by the difference information extraction unit 133 in a modification of the second embodiment of the present invention.

As shown in FIG. 25, at the business opportunity, the difference information extraction unit 133 converts the received base information 141 into the base information table 1100 of the business base (step S1101), and the converted base information table 1100 of the business base is converted. Is stored as difference information (step S511). Other processing is the same.

As a result, it is not necessary for the base information monitoring unit 1200 to generate the base information table 1100 for the business base, so the load on the business system 300 can be reduced.

(Third embodiment)
In the first embodiment, when a new deployment image file 170 is generated, it is necessary to set the policy 142 between all the related basic image files. The third embodiment is different in that the effort for setting the policy 142 is reduced by using the intermediate image file.

Hereinafter, the difference from the first embodiment will be mainly described.

FIG. 26 is a block diagram showing the configuration of the computer system in the third embodiment of the present invention.

Since the configuration of the business system 300 is the same as that of the first embodiment, the detailed configuration is omitted.

The third embodiment is different in that the base information storage unit 110 stores the intermediate image file 1300. The intermediate image file 1300 is an image file that mediates the policy 142 set between the basic image files 140, and includes one or more policies 1301.

In the third embodiment, the policy 142 included in the basic image file 140 is a policy that specifies the intermediate image file 1300.

The other hardware configuration of the management computer 100 is the same as that of the first embodiment, and the description thereof is omitted.

In the third embodiment, the procedure for generating a new deployment image file 170 is different.

First, the management computer 100 generates the meta infrastructure information table 1500 (see FIG. 28) using the infrastructure information 141 and the policy 142 of the basic image file 140. Next, the management computer 100 generates the business infrastructure information table 1100 using the meta infrastructure information table 1500 (see FIG. 28) and the policy 1301. Further, the management computer 100 generates the deployment image file 170 by reflecting the business platform information table 1100 to the platform information 141 included in the basic image file 140 specified by the policy 1301. A specific generation method will be described later.

Here, the policy 142, the policy 1301, and the meta-basis information table 1500 in the third embodiment will be described.

FIG. 27 is an explanatory diagram showing an example of the policy 142 included in the basic image file 140 in the third embodiment of the present invention.

In the third embodiment, the basic image file 140 includes a policy 142 that specifies the intermediate image file 1300 instead of the policy 142 that specifies the other basic image file 140.

The policy 142 stores information necessary for generating the meta infrastructure information table 1500.

FIG. 27 shows a policy 142 for generating the meta infrastructure information table 1500 from the infrastructure information 141 for constructing a business system that operates two application servers and one database server.

The policy 142 includes an identification number 1401, MIDDLE_KEY 1402, and a rule 1403.

The identification number 1401 is the same as the identification number 901. MIDDLE_KEY 1402 is an identifier for uniquely identifying a parameter group in the meta infrastructure information table 1500.

The rule 1403 is a conversion rule for calculating a parameter corresponding to an entry from the base information 141 or the difference information. The conversion rule stores text information and mathematical formulas. For example, “the total value of the first entry and the second entry of the difference information is stored in C1” “the value of the second entry of the difference information is stored in C1, and the value of the m + 2 entry of the difference information is C2 And the like are stored.

Note that the present invention is not limited to the conversion rule stored in the rule 1403.

FIG. 28 is an explanatory diagram showing an example of the meta-basis information table 1500 in the third embodiment of the present invention.

The meta infrastructure information table 1500 includes an identification number 1501, MIDDLE_KEY 1502, and a parameter group 1503.

The identification number 1501 is an identification number for uniquely identifying an entry included in the meta infrastructure information table 1500. MIDDLE_KEY 1502 is an identifier for uniquely identifying a parameter group. The parameter group 1503 stores various parameter values. In this embodiment, various parameters are calculated based on the rules 1403 included in the policy 142.

FIG. 29 is an explanatory diagram illustrating an example of a policy 1301 included in the intermediate image file 1300 according to the third embodiment of this invention.

The policy 1301 stores information necessary for generating the base information 141 to be included in the new image file.

The policy 142 includes an identification number 1601, S_KEY 1602, M_KEY 1603, P_KEY 1604, and a rule 1605. The identification numbers 1601, S_KEY1602, M_KEY1603, and P_KEY1604 are the same as the identification numbers 901, S_KEY902, M_KEY903, and P_KEY904.

In the third embodiment, the conversion rule stored in the rule 1605 is different from the conversion rule stored in the rule 905. That is, the rule 1605 stores a conversion rule for generating a new base information table 1100 based on the meta base information table 1500 and the policy 1301.

For example, information such as “calculated value obtained by dividing each parameter value of MI — 0001 — 0001 by 3”, “value of parameter C1 of MI — 0001 — 0002”, and the like is stored.

Note that the present invention is not limited to the conversion rule stored in the rule 1605.

FIG. 30 is an explanatory diagram showing the relationship between the image file 140 and the policy in the third embodiment of the present invention.

As shown in FIG. 30, each basic image file 140 holds a policy 142 that designates the intermediate image file 1300, and the intermediate image file 1300 holds a policy 1301 that designates each basic image file 140.

The basic image file 140 holds a policy 142 that specifies the intermediate image file 1300 instead of the policy 142 that specifies the other basic image file 140. On the other hand, the intermediate image file 1300 holds a policy 1301 that specifies a plurality of basic image files 140.

That is, the basic image file 140 can designate another basic image file 140 via the intermediate image file 1300. Thus, by setting the policy 142 for specifying the intermediate image file 1300 in the basic image file 140, it is not necessary to set the policy 142 for specifying the other basic image file 140.

FIGS. 31A and 31B are flowcharts for explaining processing executed by the image file generation unit 134 in the third embodiment of the present invention.

The image file generation unit 134 starts processing when called from the infrastructure management unit 130.

In the case of a business opportunity, “1” is set in the event flag, and the identifier and difference information of the target basic image file 140 are input. In the case of a management opportunity, “2” is set in the event flag, and the identifier of the basic image file 140 to be updated, the identifier of the basic image file 140 before update, and the difference information are input.

In the case of a business opportunity, one piece of difference information corresponding to the business system 300 to be processed is input. In the case of a management opportunity, difference information is input for the number of business systems 300 related to the pre-update basic image file 140.

The image file generation unit 134 determines whether the processing trigger is a business trigger (step S701).

When it is determined that the processing opportunity is a business opportunity, the image file generation unit 134 retrieves the policy 142 included in the target basic image file 140 from the basic information storage unit 110 based on the identifier of the target basic image file 140. Obtain (step S703).

Next, the image file generation unit 134 starts loop processing of the policy 142 (step S1201).

In the loop processing of the policy 142, the image file generation unit 134 selects the processing target policy 142 from the acquired policies 142, and the processing from step S1203 to step S1213 is performed on the selected processing target policy 142. Repeatedly. When the processing is executed for all the policies 142, the loop processing of the policies 142 ends (step S1215).

The image file generation unit 134 generates the meta infrastructure information table 1500 using the selected policy 142 and the difference information (step S1203). Specifically, the following processing is executed.

The image file generation unit 134 refers to the policy 142 and selects one entry. For example, the image file generation unit 134 selects entries in order from the top.

The image file generation unit 134 calculates various parameters based on the rule 1403 of the selected entry, and generates the meta infrastructure information table 1500.

The above is the processing of step S1203.

Next, the image file generation unit 134 starts loop processing of the policy 1301 (step S1205).

In the loop processing of the policy 1301, the image file generation unit 134 selects the policy 1301 to be processed from the policies 1301 included in the intermediate image file 1300, and performs the processing from step S1207 on the selected policy 1301 to be processed. The process of step S1211 is repeatedly executed. When the processing is executed for all policies 1301, the loop processing of policy 1301 ends (step S1213).

The image file generation unit 134 generates a new base information table using the selected policy 1301 and the meta base information table 1500 (step S1207). Specifically, the following processing is executed.

The image file generation unit 134 refers to the policy 1301 and selects one entry. For example, the image file generation unit 134 selects entries in order from the top.

The image file generation unit 134 calculates various parameters based on the rule 1505 of the selected entry, and generates a new base information table.

The above is the processing of step S1207.

Next, the image file generation unit 134 generates a new deployment image file 170 by reflecting the newly generated basic information table on the basic image file 140 specified by the selected policy 1301. (Step S1209). Further, the image file generation unit 134 updates the image association table 160 (step S1211).

Specifically, the image file generation unit 134 adds a new entry to the image association table 160. Further, the image file generation unit 134 stores the identifier of the target basic image file 140 in the route 702 of the added entry, and adds the identifier of the newly generated deployment image file 170 to the node 703 of the entry. .

The deployment image file 170 is determined so as not to overlap with the identifiers of other deployment image files 170.

When the processing is executed for all the policies 142, the image file generating unit 134 ends the processing.

Here, when the number of policies 142 in the target basic image file 140 is m and the number of policies 1301 in the intermediate image file 1300 is n, at the business opportunity, one business system 300 is multiplied by m and n. The number of the deployed image files 170 is generated by the number of values obtained.

When it is determined in step S701 that the processing trigger is a management trigger, the image file generation unit 134 changes the basic information storage unit 110 to the pre-update basic image file 140 based on the identifier of the pre-update basic image file 140. The included policy 142 is acquired (step S751).

Next, the image file generation unit 134 starts a loop process for difference information (step S1251).

In the loop processing of the difference information, the image file generation unit 134 selects the difference information to be processed from the plurality of pieces of difference information, and uses the acquired policy 142 and the selected difference information, the meta infrastructure information table 1500. Is generated (step S1253). When the process is executed for all the difference information, the difference information loop process ends (step S1255).

Note that the process of step S1253 is the same process as step S1203.

When the difference information loop processing ends, the image file generation unit 134 starts the loop processing of the meta infrastructure information table 1500 (step S1257).

In the loop processing of the meta infrastructure information table 1500, the image file generation unit 134 selects the target meta infrastructure information table 1500 from the meta infrastructure information table 1500 generated in step S1253, and the selected meta infrastructure information table For 1500, the processing from step S1259 to step S1265 is repeatedly executed. When the process is executed for all the meta infrastructure information tables 1500, the loop process of the meta infrastructure information table 1500 ends (step S1267).

The image file generation unit 134 acquires the policy 1301 from the intermediate image file 1300 (step S1259).

Specifically, the image file generation unit 134 refers to the intermediate image file 1300 specified by the policy 142 and acquires the policy 1301 specifying the update basic image file 140.

The image file generation unit 134 newly generates a base information table using the acquired policy 1301 and the selected meta base information table 1500 (step S1261). Note that the process of step S1261 is the same as the process of step S1207.

The image file generation unit 134 generates a new deployment image file 170 by reflecting the newly generated base information table to the updated basic image file 140 (step S1263). Further, the image file generation unit 134 updates the image association table 160 (step S1266). The processes in steps S1263 and S1266 are the same as the processes in steps S1209 and S1211.

When the processing is executed for all the meta base information tables 1500, the image file generation unit 134 ends the processing.

At the management opportunity, as many update image files 170 as the number of difference information are generated for one update basic image file 140.

According to the third embodiment, since it is not necessary to set the policy 142 between all the related basic image files in the basic image file 140, it is possible to save time and effort for generating a new deployment image file 170. Can be reduced. In addition, it is possible to reduce the trouble of setting the policy 142 by the service provider.

The first embodiment, the second embodiment, and the third embodiment can be implemented in combination, and the same effect can be obtained with any combination.

Further, a plurality of components included in the management computer 100 may be a single component.

The various software illustrated in the present embodiment can be stored in various recording media (for example, non-temporary storage media) such as electromagnetic, electronic, and optical, and through a communication network such as the Internet. It can be downloaded to a computer.

Furthermore, in this embodiment, an example using control by software has been described, but part of it can also be realized by hardware.

Although the present invention has been described in detail with reference to the accompanying drawings, the present invention is not limited to such specific configurations, and various modifications and equivalents within the spirit of the appended claims Includes configuration.

Claims (20)

1. A management computer that manages a business system built on a platform that provides a computer system that executes business applications.
   The management computer includes a processor, a storage medium connected to the processor, a network interface connected to the processor,
   The computer system provided by the platform is composed of virtual computer resources generated from physical computer resource groups,
   The management computer is connected via the network interface to a physical computer resource group in which the business system is constructed,
   The management computer is
   Holding a policy defining a conversion rule for generating the base information indicating the configuration of the base and the base information of the base providing the computer system of a different configuration;
   A platform information acquisition unit that acquires business platform information, which is information related to the configuration of the platform in an operating business system;
   Based on the platform information in the platform provided at the time of construction of the business platform information and the business system, a difference information acquisition unit that generates difference information;
   Based on the difference information and the base information, a distribution base information generation unit for generating distribution base information for constructing the business system on a new base;
   Have
   When it is necessary to generate the distribution infrastructure information for constructing the first target business system constructed on the first infrastructure provided by the first infrastructure information on the second infrastructure, Obtain business platform information for the first target business system,
   Generate difference information using the business platform information and the first platform information,
   Generating the parameter information using the generated difference information and the policy for generating the second infrastructure information providing the second infrastructure;
   A management computer for generating distribution base information for constructing the first target business system on the second base based on the generated parameter information and the second base information .
2. The management computer according to claim 1,
   The base provides the computer system including a virtual computer, a virtual storage system, and a virtual network device generated using the physical computer resource group,
   The infrastructure information includes infrastructure information regarding resources to be allocated to the virtual machine, the virtual storage system, and the virtual network device, operating system and middleware software setting information operating on the virtual machine, the virtual machine, and the virtual storage. System and placement information of the virtual network device,
   The management computer holds management information related to the infrastructure configuration independent of the business system and distribution management information related to the infrastructure configuration dependent on the business system,
   The management information includes the policy in which conversion rules for the base information and other management information are defined,
   The distribution management information includes the distribution base information,
   The management computer is
   Obtaining the policy from the first management information including the first business platform information and the policy;
   Generating the parameter information using the policy acquired from the first management information and the generated difference information;
   Generating the distribution base information by reflecting the parameter information in the hardware information, the software setting information, and the arrangement information included in the second base information;
   A management computer that holds the distribution management information including the generated distribution base information.
3. The management computer according to claim 2, wherein the difference information includes a parameter indicating a configuration of a base in the business system,
   The policy includes a conversion rule for the parameter;
   A management computer that calculates a new parameter to be included in the parameter information by applying the conversion rule to the parameter included in the difference information.
4. A management computer according to any one of claims 1 to 3, wherein
   The management computer includes a business system monitoring unit that monitors an operating state of the business system,
   Obtain operational information indicating the operational status of the business system,
   As a result of analyzing the operating state information, it is determined that the distribution base information needs to be generated when a load on the business system increases or when a performance value of the business system decreases. Management computer.
5. A management computer according to any one of claims 1 to 3, wherein
   A management computer that determines that the distribution base information needs to be generated when the business system identification information and the business base information of the business system are received.
6. The management computer according to claim 2 or claim 3,
   Holding system related information in which the business system is associated with the base information provided when the business system is constructed or the business base information;
   A fourth rule in which a conversion rule is defined by the policy included in the third management information when the third management information including the third base information providing the third base is updated or newly added. Identify management information for
   With reference to the system related information, a second target business system constructed on the fourth platform provided by the fourth platform information included in the fourth management information is searched,
   Obtaining the business platform information of the retrieved second target business system as the difference information;
   The parameter information is generated using the policy included in the difference information and the fourth management information,
   A management computer for generating distribution base information for constructing the second target business system on the third base based on the parameter information and the third base information.
7. The management computer according to claim 2 or claim 3,
   Holding conversion information for holding the policy in which conversion rules for a plurality of the management information are defined;
   When the first management information includes the policy that defines a conversion rule for the conversion information, the meta information is generated using the difference information and the policy,
   The parameter information is generated based on the generated meta infrastructure information and the policy included in the conversion information and generated in the second management information,
   A management computer for generating distribution base information for constructing the first target business system on the second base based on the parameter information and the second base information.
8. A platform providing method in a management computer that manages a business system built on a platform that provides a computer system that executes business applications,
   The management computer includes a processor, a storage medium connected to the processor, a network interface connected to the processor,
   The computer system provided by the platform is composed of virtual computer resources generated from physical computer resource groups,
   The management computer is connected via the network interface to a physical computer resource group in which the business system is constructed,
   The management computer is
   Holding a policy defining a conversion rule for generating the base information indicating the configuration of the base and the base information of the base providing the computer system of a different configuration;
   A platform information acquisition unit that acquires business platform information, which is information related to the configuration of the platform in an operating business system;
   Based on the platform information in the platform provided at the time of construction of the business platform information and the business system, a difference information acquisition unit that generates difference information;
   Based on the difference information and the base information, a distribution base information generation unit that generates distribution base information for constructing the business system on a new base;
   Have
   The method
   The management computer needs to generate the distribution platform information for building the first target business system built on the first platform provided by the first platform information on the second platform. If there is, a first step of acquiring business base information of the first target business system;
   A second step in which the management computer generates difference information using the business platform information and the first platform information;
   A third step in which the management computer generates parameter information using the generated difference information and the policy for generating second infrastructure information that provides the second infrastructure;
   The management computer generates distribution base information for constructing the first target business system on the second base based on the generated parameter information and the second base information. And a step of providing a base.
9. A base providing method according to claim 8, wherein
   The base provides the computer system including a virtual computer, a virtual storage system, and a virtual network device generated using the physical computer resource group,
   The infrastructure information includes infrastructure information regarding resources to be allocated to the virtual machine, the virtual storage system, and the virtual network device, operating system and middleware software setting information operating on the virtual machine, the virtual machine, and the virtual storage. System and placement information of the virtual network device,
   The management computer holds management information related to the infrastructure configuration independent of the business system and distribution management information related to the infrastructure configuration dependent on the business system,
   The management information includes the policy in which conversion rules for the base information and other management information are defined,
   The distribution management information includes the distribution base information,
   The third step includes
   A fifth step of acquiring the policy from the first management information including the first business platform information and the policy;
   And 6th step of generating the parameter information using the policy acquired from the first management information and the generated difference information,
   The fourth step includes
   Generating the distribution base information by reflecting the parameter information in the hardware information, the software setting information, and the arrangement information included in the second base information;
   Holding the distribution management information including the generated distribution base information.
10. The infrastructure providing method according to claim 9, wherein the difference information includes a parameter indicating a configuration of the infrastructure in the business system,
    The policy includes a conversion rule for the parameter;
    In the sixth step, a new parameter to be included in the parameter information is calculated by applying the conversion rule to the parameter included in the difference information.
11. A base providing method according to any one of claims 8 to 10,
    The management computer includes a business system monitoring unit that monitors an operating state of the business system,
    The method further comprises:
    The management computer obtaining operation information indicating an operation state of the business system;
    As a result of analyzing the operating state information, the management computer needs to generate the distribution base information when the load of the business system increases or when the performance value of the business system decreases. And a determining step.
12. A base providing method according to any one of claims 8 to 10,
    The method further includes a step of determining that the distribution base information needs to be generated when the management computer receives the business system identification information and the business base information of the business system. A base providing method characterized by
13. A base providing method according to claim 9 or 10, wherein
    Holding system related information in which the business system is associated with the base information provided when the business system is constructed or the business base information;
    The method further comprises:
    When the management computer updates or newly adds the third management information including the third infrastructure information that provides the third infrastructure, the conversion rule is determined according to the policy included in the third management information. Identifying the defined fourth management information;
    The management computer refers to the system related information and searches for a second target business system constructed on the fourth base provided by the fourth base information included in the fourth management information. Steps,
    The management computer obtaining the business platform information of the searched second target business system as the difference information;
    The management computer generates the parameter information using the policy included in the difference information and the fourth management information;
    The management computer generating distribution base information for constructing the second target business system on the third base based on the parameter information and the third base information. A base providing method characterized by this.
14. A base providing method according to claim 9 or 10, wherein
    The management computer holds conversion information that holds the policy in which conversion rules for a plurality of the management information are defined,
    The third step includes
    When the first management information includes the policy defining a conversion rule for the conversion information, generating meta-basis information using the difference information and the policy; and
    Generating the parameter information based on the generated meta infrastructure information and the policy included in the conversion information and generated in the second management information,
    In the fourth step, distribution base information for constructing the first target business system on the second base is generated based on the parameter information and the second base information. How to provide a foundation.
15. A program executed by a management computer that manages a business system built on a platform that provides a computer system that executes business applications,
    The management computer includes a processor, a storage medium connected to the processor, a network interface connected to the processor,
    The computer system provided by the platform is composed of virtual computer resources generated from physical computer resource groups,
    The management computer is connected via the network interface to a physical computer resource group in which the business system is constructed,
    The management computer is
    Holding a policy defining a conversion rule for generating the base information indicating the configuration of the base and the base information of the base providing the computer system of a different configuration;
    The program is
    When it is necessary to generate distribution platform information for building the first target business system constructed on the first platform provided by the first platform information on the second platform, the first A first procedure for acquiring business platform information, which is information related to the configuration of the platform in one target business system;
    A second procedure for generating difference information using the business platform information and the first platform information;
    A third procedure for generating parameter information using the generated difference information and the policy for generating second base information for providing the second base;
    A fourth procedure for generating distribution base information for constructing the first target business system on the second base based on the generated parameter information and the second base information; A program characterized by being executed by a management computer.
16. The program according to claim 15,
    The base provides the computer system including a virtual computer, a virtual storage system, and a virtual network device generated using the physical computer resource group,
    The infrastructure information includes infrastructure information regarding resources to be allocated to the virtual machine, the virtual storage system, and the virtual network device, operating system and middleware software setting information operating on the virtual machine, the virtual machine, and the virtual storage. System and placement information of the virtual network device,
    The management computer holds management information related to the infrastructure configuration independent of the business system and distribution management information related to the infrastructure configuration dependent on the business system,
    The management information includes the policy in which conversion rules for the base information and other management information are defined,
    The distribution management information includes the distribution base information,
    The third procedure is:
    A fifth procedure for obtaining the policy from the first management information including the first business platform information and the policy;
    A sixth procedure for generating the parameter information using the policy acquired from the first management information and the generated difference information,
    The fourth procedure includes:
    Generating the distribution base information by reflecting the parameter information in the hardware information, the software setting information, and the arrangement information included in the second base information;
    A program for causing the management computer to execute a procedure for holding the distribution management information including the generated distribution base information.
17. The program according to claim 16, wherein the difference information includes a parameter indicating a base configuration in the business system,
    The policy includes a conversion rule for the parameter;
    In the sixth procedure, the management computer calculates a new parameter to be included in the parameter information by applying the conversion rule to the parameter included in the difference information.
18. A program according to any one of claims 15 to 17,
    The program further includes:
    A procedure for acquiring operation information indicating the operation state of the business system,
    As a result of analyzing the operating state information, when the load of the business system has increased, or when the performance value of the business system has decreased, a procedure for determining that it is necessary to generate the distribution base information; The program characterized by including.
19. A program according to claim 16 or claim 17, wherein
    Holding system related information in which the business system is associated with the base information provided when the business system is constructed or the business base information;
    The program further includes:
    A fourth rule in which a conversion rule is defined by the policy included in the third management information when the third management information including the third base information providing the third base is updated or newly added. To identify management information for
    A procedure for referring to the system related information and searching for a second target business system constructed on a fourth base provided by the fourth base information included in the fourth management information;
    A procedure for acquiring the business platform information of the searched second target business system as the difference information;
    Using the policy included in the difference information and the fourth management information to generate the parameter information;
    Based on the parameter information and the third infrastructure information, causing the management computer to execute a procedure for generating distribution infrastructure information for constructing the second target business system on the third infrastructure. A program characterized by that.
20. A program according to claim 16 or claim 17, wherein
    The management computer holds conversion information that holds the policy in which conversion rules for a plurality of the management information are defined,
    The third procedure is:
    When the first management information includes the policy defining a conversion rule for the conversion information, a procedure for generating meta infrastructure information using the difference information and the policy;
    A step of generating the parameter information based on the generated meta-basis information and the policy for generating the second management information included in the conversion information;
    In the fourth step, based on the parameter information and the second base information, generation of distribution base information for constructing the first target business system on the second base is generated in the management computer. A program characterized by letting

Images