JP2012022555A - Server configuration management system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce a cost for implementing an information system while maintaining or improving the body sensory quality of a user according to variations in service quality and usage charge in using a cloud service base.SOLUTION: In a server configuration management system including a management server connected to a client and a server, the client requests the server to provide a service via a communication control part, the communication control part transmits the request from the client to the server, the server provides the service to the client according to the client's request, the client measures quality information indicating a service quality in the service provision and transmits the measured quality information to the management server, and the management server selects a server appropriate for the service provision to the client on the basis of the transmitted quality information and a selection standard supplied by a manager and transmits information indicating the selected server to the communication control part.

Description

  The present invention relates to a server configuration management system that manages a system including a server and a client.

  In a conventional information system, a WEB server or an application server is generally installed in one data center and is used from a terminal via an internal network (intranet) such as an organization. In recent years, information systems in which a large number of WEB servers or application servers realized using servers or virtual servers are installed inside a data center and used from a remote location via a network such as the Internet have become common.

  In recent information systems, when there is a large amount of access to a WEB server or application server that provides the same service, a load distribution mechanism is generally installed on the network. Thereby, a plurality of WEB servers or application servers distribute the load so as to process a plurality of requests coming from a plurality of terminals.

  Up to now, there has been proposed an apparatus that distributes the load of a service providing server in a network in which a service providing site including a plurality of servers (service providing servers) for providing a service provides services according to requests from terminals. (For example, refer to Patent Document 1).

  The apparatus disclosed in Patent Document 1 includes a load distribution processing unit that detects the load status of each service providing server, and a database that stores each IP address of the service providing server in association with the domain name of the service providing site. .

  The device disclosed in Patent Document 1 has IP address notification means. When the device shown in Patent Document 1 is requested to provide service information by specifying a domain name from a terminal by the IP address notification means, the load of each service providing server detected by the load distribution processing unit described above Based on the situation, the IP address of the service providing server with a lighter load is acquired. The acquired IP address of the service providing server is notified to the terminal.

  In addition, a resource adjustment system that dynamically scales up or scales out a virtual server based on an operation policy and a load situation has been proposed (see, for example, Patent Document 2). The resource adjustment device disclosed in Patent Document 2 collects the load status of each virtual server from a plurality of servers, and provides the same application as the virtual server in a high load state when a high load state of a certain virtual server is detected. The total amount of resources that can be reduced from virtual servers that do not belong to the virtual server group is calculated based on the current load status.

  Furthermore, the resource adjustment device disclosed in Patent Document 2 determines whether the resource allocation of the virtual server group is scale-up or scale-out, and a virtual server that concentrates resources in the case of scale-up Distribution of the amount of resources to be added to multiple virtual servers belonging to the virtual server group so that the total amount of additional resources becomes the total amount of resources that can be reduced from other virtual server groups based on which one After the determination, the virtual server relocation and resource reduction and addition are instructed.

Japanese Patent Laid-Open No. 2000-293396 JP 2010-033292 A

  In recent years, services that provide cloud infrastructures such as IaaS (Infrastructure as a Service) and PaaS (Platform as a Service) have become widespread. There are an increasing number of examples in which an information system that has been provided on an intranet configured as a WAN or LAN is constructed by using the above-described cloud platform providing service.

  When an information system is constructed using a cloud platform provision service, the information system user examines the service provision quality provided by the cloud platform provision service, such as servers, virtual servers, networks, and storage. An information system is constructed by using all or part of it. However, the performance of the server, virtual server, network, and storage provided by the cloud platform providing service often changes depending on the usage status of other users. Therefore, even if the user who uses the information system tries to use it while maintaining a certain quality of service provision, there is a possibility that the quality of experience of the user will deteriorate.

  In addition, usage fees for cloud platform provision services are not constant due to competition among service providers. Even if an information system is constructed using a certain cloud platform provision service, the user fee is reduced by configuring the information system using another cloud platform provision service after an arbitrary period of time. There are cases where you can

  In this way, when constructing an information system in which service quality and usage varies dynamically, the quality of use of the user's service (experience quality of the user's service use such as response time) There is a need for an information system construction method that can maintain or reduce information system usage fees while maintaining or improving information system security, information system availability, and reliability.

  The technique disclosed in Patent Document 1 described above can control load distribution among a plurality of servers according to the load status, but maintains or improves the user's quality of experience, security, availability, reliability, and the like. However, it has been impossible to configure the load balancer so as to maintain or reduce the usage amount of the information system.

  In addition, the technology disclosed in Patent Document 2 described above can dynamically scale up or scale out a virtual server based on an operation policy and load status, and adjust resources of an information system using the virtual server. The configuration of the information system cannot be managed by using the result of trial calculation of the experience quality of the user and the usage amount of the information system that dynamically change.

  The present invention has been made to solve the above-described problems, and an object of the present invention is to construct an information system by using a base for constructing an information system in which service quality and usage are dynamically changed. When using the service, maintain the quality of use of the user's service (response quality of the user's service use, information system security, information system availability, reliability, etc.) Alternatively, it is to provide a server management system that can maintain or reduce the usage fee of the information system while improving it.

  According to a representative aspect of the present invention, there is provided a server configuration management system comprising a client, a server that provides a service to the client, and a management server connected to the client and the server. Requesting the server to provide the service via a communication control unit, the communication control unit transmits a request from the client to the server, and the server in accordance with the request from the client, the client And the client measures quality information indicating service quality when the service is provided, and transmits the measured quality information to the management server. Based on the quality information sent and the selection criteria given by the administrator, the client Select the server suitable for providing the service, information indicating the selected server, and transmits to the communication control unit.

  According to an embodiment of the present invention, an information system usage fee is maintained while maintaining or improving the quality of use of a user's service in an information system such as a cloud platform providing service in which service quality dynamically changes. Can be maintained or reduced.

It is a block diagram which shows the structure of the server configuration management system of the 1st Embodiment of this invention. It is a block diagram which shows the hardware constitutions of the client of the 1st Embodiment of this invention. It is a block diagram which shows the hardware constitutions of the server of the 1st Embodiment of this invention. It is a sequence diagram which shows the process which a server performs to the request sent from the client of the 1st Embodiment of this invention. It is explanatory drawing which shows the specific example of the measurement result of the 1st Embodiment of this invention. It is a sequence diagram which shows the procedure of registration of the performance measurement part to the client of the 1st Embodiment of this invention, and transmission to the management server of a registration result. It is a block diagram which shows the structure of the server configuration management system of the 2nd Embodiment of this invention. It is a block diagram which shows the server and virtual server of the 2nd Embodiment of this invention.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. In each drawing, elements having the same reference numerals have the same functions.

(First embodiment)
(Constitution)
FIG. 1 is a block diagram showing a configuration of a server configuration management system according to the first embodiment of this invention.

  The server configuration management system of the present embodiment includes a client 100, a management server 200, an operation server 300, and a plurality of data centers 400 (400-1, 400-2), and each element is connected via a network 600. Connected.

  The client 100 is a terminal used by a user who uses the data center 400 included in the server configuration management system of the present embodiment. The client 100 includes a performance measurement unit 120, a storage 140, a communication control unit 110-1, and a communication program 130 therein. Although the number of clients 100 shown in FIG. 1 is one, the server configuration management system of this embodiment may include a plurality of clients 100.

  The communication control unit 110-1 has a function of distributing a request transmitted by a user via an application running on the client 100 to each server 420. For example, the communication control unit 110-1 improves the access performance to the server 420 by selecting the server 420 having the fastest access speed from the client 100. Further, for example, by not allocating a request from the client 100 to the server 420 that is not operating, the redundancy of the server 420 group is ensured.

  The communication control unit 110-1 includes a communication control unit 110-2 included in the management server 200, a communication control unit 110-3 included in the data center 400-1, and a communication control unit 110-4 included in the data center 400-2. The same communication control unit 110. A method for distributing requests to the server 420 by the communication control unit 110, that is, a method for selecting the server 420 will be described later.

  The storage 140 is a device that stores data, and stores the measurement result 141. The performance measurement unit 120 is a program for collecting information indicating the performance of communication with the server 420. The communication program 130 is a program for sending a request transmitted from the client 100 to the server 420 to the communication control unit 110. Note that the communication control unit 110-1 may be implemented inside the client 100 by a program, or may be implemented outside the client 100 by a physical device.

  The management server 200 includes a communication control unit 110-2, a service performance totaling unit 220, a configuration management unit 230, and a storage 240. The management server 200 instructs the server 100 to be selected to the communication control unit 110 or the operation server 300 in the client 100 or the data center 400 so that the client 100 can efficiently use the server 420.

  As described above, the communication control unit 110-2 has the same function as the communication control unit 110-1. The storage 240 is a device that stores data, and holds measurement information 241, configuration information 242, billing information 243, and test information 244.

  The service performance totaling unit 220 is a program for collecting information indicating performance related to communication with the server 420 sent from the client 100. The configuration management unit 230 is a program for collecting information related to the communication to the server 420 and the server 420 sent from the server 420 and performing processing for selecting the server 420. The communication control unit 110-2 may be implemented inside the management server 200 by a program, or may be implemented outside the management server 200 by a physical device.

  The operation server 300 is a server for managing the server 420 and the service provided by the server 420. The operation server 300 illustrated in FIG. 1 is implemented by an apparatus different from the management server 200, but the function of the operation server 300 of the present embodiment may be implemented in the management server 200.

  The data center 400 includes a communication control unit 110-3, a server 420, and a storage 440. The server configuration management system shown in FIG. 1 includes two data centers 400-1 and 400-2. However, the server configuration management system of this embodiment may include any number of data centers 400.

  The communication control units 110-3 and 110-4 have the same functions as the communication control units 110-1 and 110-2. A plurality of servers 420 are provided in the data center 400 and are managed by the management server 200. The data center 400-1 illustrated in FIG. 1 includes two servers 420-1 and 420-2, and the data center 400-2 includes two servers 420-3 and 420-4. Note that the data center 400 of this embodiment may include any number of servers 420.

  The storage 440 (440-1, 440-2) is a device for storing data. The server 420 executes an application in order to provide a service to the client 100, and acquires data from the storage 440 as required by the application.

  The communication control unit 110-1 and the communication control unit 110-2 illustrated in FIG. 1 are implemented in the client 100 and the management server 200, respectively. As devices provided between the client 100 and the management server 200 and the network 600, Each may be connected. Further, the communication control units 110-1 to 110-4 may be integrated into one communication control unit 110.

  FIG. 2 is a block diagram illustrating a hardware configuration of the client 100 according to the first embodiment of this invention.

  The client 100 shown in FIGS. 1 and 2 is the same, but FIG. 2 shows the physical configuration of the client 100. The client 100 includes a CPU 101, a memory 102, a storage 140, a NIC (network interface card) 103, and an input / output device 104. Each element of the client 100 is connected by a bus.

  The functions of the performance measurement unit 120 and the communication program 130 are realized by the CPU 101 loading a program stored in the storage 140 into the memory 102 and executing the loaded program. The NIC 103 transmits a communication requested by a program processed in the memory 102 to the network 600 and receives a processing result transmitted from the network 600 to the client 100. The input / output device 104 is a device for displaying processing results on a screen, and is a device for communicating with an external device.

  The user uses the client 100 to transmit a request to the server 420 described later. Then, the user receives the processing result from each server 420 via the client 100. At this time, the communication program 130 transmits the request to any one of the communication control units 110 in order to identify the server 420 that transmits the request.

  Here, the physical configuration of the server 420 will be described.

  FIG. 3 is a block diagram illustrating a hardware configuration of the server 420 according to the first embodiment of this invention.

  The server 420 includes a CPU 424, a memory 426, a storage 425, a NIC 428, and an input / output device 427 inside, and the respective elements are connected by a bus. The storage 425 is a storage provided inside the server 420, and the storage 440 shown in FIG. 1 is a storage provided outside the server 420.

  Server 420 is connected to network 600 by NIC 428. The function of the server 420 is realized by loading a program stored in the storage 425 or an external storage 440 (not shown) into the memory 426 and executing it by the CPU 424. The application 429 is a program that is loaded into the memory 426 by the CPU 424 and executed.

  The NIC 428 transmits a communication requested by a program processed in the memory 426 to the network 600 and receives a processing result corresponding to the request. The input / output device 427 is a device for displaying a processing result on a screen, and is a device for communicating with an external device.

  The hardware configuration of the management server 200 and the operation server 300 is the same as that of a general server, similar to the hardware configuration of the client 100 shown in FIG. The client 100, the management server 200, and the operation server 300 may be all or partly virtualized and implemented by one or a plurality of computers.

(Communication control unit 110)
Here, the function of the communication control unit 110 will be described. It is assumed that a communication program 130 (for example, a program for accessing the server 420 such as a WEB browser) on the client 100 transmits a request to a plurality of servers 420 made redundant by a certain same function.

  The communication control unit 110 is configured in advance by a network administrator so as to receive this request from the communication program 130. The communication control unit 110 selects an appropriate server 420 from the access destinations (a plurality of servers 420) requested by the program provided in the client 100, and allocates the requested processing to the selected server 420.

  The communication control unit 110 uses various methods for selecting the server 420 as a method for allocating requests to the server 420. For example, a round robin method in which the servers 420 are sequentially selected or a connection method in which the number of connected connections is the minimum is used.

  Server 420 candidates used for request distribution are managed by the communication control unit 110. The communication control unit 110 holds the server 420 and the path to the server 420 for selecting the server 420 transmitted from the management server 200 in the storage 140 or the communication control unit 110.

(Operation Server 300)
Furthermore, the function of the operation server 300 will be described. The operation server 300 is a server for managing services. The operation server 300 indicates the usage status and operating status of the resources of the data center 400 including the server 420 and the network 600 (for example, the server 420, the CPU 424 or the storage 425 provided in the server 420, or the line provided in the network 600). Operation information is acquired, and resources are started or stopped based on the operation information.

  For example, when the operation information indicates that the resource is used more than a predetermined number, or when the predetermined number of servers 420 are stopped, the operation server 300 is stored in the data center. At 400, a new server 420 is started and the amount of servers 420 is increased. Thereby, the operation server 300 adjusts the resource amount.

  Further, the operation server 300 terminates some servers 420 operating in the data center 400 when resources are not used more than a predetermined number, and reduces the amount of operating servers 420 to reduce costs such as power. Or a charge amount for operating the server 420 is reduced. As a result, the operation server 300 adjusts the resource amount.

  Further, the operation server 300 not only increases / decreases the number of servers 420 to be operated, but also the amount of storage to be used as the server 420, the number of DBs or DB servers 420 to be used, and the server 420 scale-up (low performance server The resource amount is adjusted by a method such as changing 420 to a high-performance server 420).

  The operation server 300 also instructs the backup method, backup instruction, multiplexing, or parallelization of the storages 425 and 440 provided in the data center 400. Specifically, the data movement between the storages 440 is instructed.

  The operation server 300 also changes and manages the server 420 and virtual server image (server template) that are activated in the data center 400. Further, the status of the server 420 (including the virtual server) operating in the data center 400 is acquired from the management API of the data center 400.

(Communication between client 100 and server 420)
FIG. 4 is a sequence diagram illustrating processing performed by the server 420 on the request transmitted from the client 100 according to the first embodiment of this invention.

  First, the user inputs a request for using a specific service to the client 100 (800). For example, when the server 420 holds a general WEB application, the communication program 130 on the client 100 is a WEB browser. At this time, the user activates the browser screen and inputs a usage request to the client 100 by an operation such as inputting characters with the keyboard or clicking a button on the browser screen with the mouse.

  After the sequence 800, the communication program 130 on the client 100 transmits a request to be sent to the server 420 to the communication control unit 110 (801). The communication control unit 110 manages the configuration of the virtual server 420. For this reason, in the sequence 801, the communication control unit 110 can receive a request to the virtual server 420 managed by itself.

  Further, the communication control unit 110 uses a predetermined method (described later) to select a server 420 as a destination to which the request is transmitted, and transmits the request to the selected server 420 (802).

  Hereinafter, a case where the communication control unit 110-1 selects the server 420-1 in the sequence 802 will be described.

  After the received request is processed by the server 420-1, the server 420-1 adds measurement information to the processing result of the server 420-1 (803). The information for measurement added is information held by the server 420-1.

  The measurement information includes a server ID that uniquely identifies the server 420-1, route information that indicates the route to the server 420-1, processing time that indicates the time required for the server 420-1 to process the request, and the request. The processing time indicating the processing time, the throughput in the network 600, the user authentication information regarding the request, and the information indicating the error that has occurred in the server 420-1 are included.

  After the sequence 803, the processing result and the measurement information are returned to the communication control unit 110-1 (804). The communication control unit 110-1 transmits the processing result and measurement information to the client 100 (805).

  After receiving the processing result and the measurement information, the client 100 performs processing corresponding to the request, such as displaying the processing result on a screen. The performance measurement unit 120 also includes path information from the server 420-1 to the client 100, error information, verification information, information on the client 100, a service name requested to the server 420-1, an accessed URI, an amount of received data, Processing time, time stamp (time when the client 100 starts or ends processing), and the like are further measured. Then, the information for measurement sent from the server 420-1 is added to the information measured by the client 100. Then, the measurement information including the information measured by the client 100 and the measurement information sent from the server 420-1 is stored in the measurement result 141 (806).

  Here, the processing time added to the information for measurement is both the processing time in the server 420-1 and the time from when the user sends a request to the client 100 until the processing result is displayed. Including the time. A specific example of the measurement result 141 will be described later with reference to FIG.

  The measurement result 141 stored by the performance measurement unit 120 is received when an instruction from the administrator or a collection instruction from the management server 200 is received, when the amount of stored information exceeds a predetermined amount, or When the predetermined time is reached, the performance measurement unit 120 transmits the time to the management server 200 (807). Then, the measurement result 141 transmitted by the performance measurement unit 120 is stored in the measurement information 241 held in the storage 240 by the service performance aggregation unit 220.

  In addition to the above, the timing of the sequence 807 may be when the client 100 is activated or terminated, when the communication program 130 is activated or terminated, or when the communication program 130 operates for a predetermined time. .

  Further, even when the measurement information is not transmitted from the server 420, the client 100 can store the measurement information measured by itself in the sequence 806 in the measurement result 141.

  In the management server 200, after the sequence 807, a specific service is requested from the plurality of servers 420 by the client 100 based on a part or all of the plurality of pieces of information held in the storage 240 by a predetermined method. In this case, the optimum server 420 is selected (808). Then, information indicating the specific service and the server 420 selected for the specific service is transmitted to the communication control unit 110, the operation server 300, or the management device provided in the data center 400 (809).

  When the client 100 requests a specific service according to the sequence 808 and the sequence 809, the management device (not shown) provided in the communication control unit 110, the operation server 300, or the data center 400 transmits the request to the optimal server 420. be able to.

  When the plurality of clients 100 managed by the management server 200 perform the processing shown in FIG. 4 described above, a condition when the client 100 uses a service provided by a certain server 420, that is, the measurement result 141 is measured. Information 241 is accumulated. The management server 200 controls the communication control unit 110 using the measurement information 241 by a method described later.

  The communication control unit 110 determines a server 420 to be relayed (redirected) by a predetermined method in request relay (redirect) processing such as request transmission (802) and processing result reply (805). When determining the server 420, the communication control unit 110 selects the server 420 according to the determined response status or load status of the server 420, such as “currently congested” in the client 100, for example. As a result, a status such as the status of the server 420 or the request processing status may be returned to the client 100.

  The status sent by the communication control unit 110 is stored in the status 710 included in the measurement result 141 by the performance measurement unit 120.

  In addition, among the plurality of servers 420, the server 420 that does not register the information on the service provided to the management server 200 manages the information on the service provided by the server 420 by the application 429 before the processing of the sequence 800. It is transmitted to the server 200 (810). The management server 200 stores the service information transmitted by the application 429 in the configuration information 242 (820).

  The configuration management unit 230 provided in the management server 200 instructs the configuration to the communication control unit 110, the operation server 300, and the management device (not shown) provided in the data center 400 by referring to the configuration information 242. A management device (not shown) provided in the data center 400 is a device that manages the server 420 and the storage 440 provided in the data center 400.

  Specifically, the configuration information 242 holds information indicating which service the server 420 managed by the management server 200 provides. That is, when the plurality of servers 420 are configured to be used by the user as the server group A that provides the same service by the management device provided in the data center 400 described above, the configuration information 242 includes The server 420 holds information (corresponding information) indicating which server group A corresponds to.

  This correspondence information is obtained when information related to the server 420 is changed, when any of the communication control units 110 is activated, or for a predetermined time or a predetermined time after the communication control unit 110 is activated. When the time has elapsed, the activated communication control unit 110 and the configuration management unit 230 included in the management server 200 are shared by communicating with each other.

  The configuration information 242 includes the performance for starting the server 420 (for example, the type of OS, the amount of resources, etc.), the OS to be started, the image of the application, or the content of data included in the storage 440 to be used. included. These pieces of information are also sent from the server 420 to the management server 200 in sequence 810.

  If any of the communication control units 110 detects content that differs from the correspondence information provided by the management server 200, for example, the server 420 does not provide a specific service, and thus an error occurs from the server 420 that relayed communication. When the response is returned, the communication control unit 110 instructs the configuration management unit 230 to acquire correspondence information.

  Then, the configuration management unit 230 obtains the status of the server 420 by inquiring the status of the server 420 in which an error has occurred to the management server (not shown) provided in the operation server 300 or the data center 400. Then, the configuration management unit 230 stores the acquired result in the configuration information 242 and transmits the correspondence information to the communication control unit 110 that has instructed the acquisition of the correspondence information.

  After the sequence 820, the management server 200 whose configuration information 242 has been updated assigns a unique ID to the server 420 whose information has been changed. Then, the management server 200 transmits information indicating the assigned ID to the server 420 whose information has been changed (830). The transmitted ID is held by the server 420 and added to the processing result by the application 429 when processing the request sent from the client 100, that is, in the sequence 803.

  Note that the management server 200 holds the billing information 243 in advance. The billing information 243 includes information indicating a fee required to use resources in the server 420, the storage 440, or the network 600. The billing information 243 also includes personnel costs, power, maintenance fees, and the like.

  The information included in the billing information 243 is, for example, a fee per hour necessary for using the CPU 424 provided in the server 420-1. Further, for example, it is a charge per hour for using the network 600 that connects the client 100 and the data center 400-1.

  The billing information 243 is input to the management server 200 by the administrator in advance. Further, when the server 420 holds each charging information 243, it may be transmitted to the management server 200 together with the information of the server 420 in the sequence 810 shown in FIG.

(Selection method of server 420)
Here, a method for selecting the server 420 by the communication control unit 110 described above will be described. The communication control unit 110 selects the server 420 according to the following procedure.

  Information indicating the correspondence between the services provided by the plurality of servers 420 and the server 420 is stored in the configuration information 242 of the management server 200 according to the procedure in sequence 810 to sequence 830 shown in FIG. Further, as described above, the configuration information 242 is included in the performance for starting the server 420 (for example, the type of OS, the amount of resources, etc.), the OS to be started, the image of the application, or the storage 440 to be used. Data contents are also included.

  The management server 200 uses the configuration information 242 to select a plurality of servers 420 that provide a specific service among the servers 420 (including virtual servers). Then, the management server 200 determines the configuration (for example, the type or number of servers 420) of server resources that can be used as a system among the plurality of servers 420.

  The management server 200 uses the service performance totaling unit 220 to test the performance of the server 420 provided in the data center 400 and the resources provided in the data center 400. The management server 200 actually requests and uses a service from the server 420 in the performance test. By actually using the service, measurement information including the same items as the response performance, the data transfer throughput, and the measurement result 141 described above is acquired. Furthermore, the management server 200 stores the acquired information in the test information 244.

  The operation server 300 may test the performance of the server 420 and the like. In this case, the test result of the server 420 or the like is sent to the management server 200 by the operation server 300 and stored in the test information 244.

  Further, as described above, the operation server 300 acquires operation information of the data center 400 and the network 600 including the server 420. For this reason, the management server 200 acquires the operation information of the server 420 and the like from the operation server 300 and stores it in the operation information 245 of the storage 240. And according to the acquired operation information 245, you may determine the structure of a server resource.

  For example, if the acquired operation information 245 indicates that the server 420 that can provide the service is stopped, the management server 200 may determine another server 420 that can provide the service as the configuration of the server resource. Good.

  Further, the configuration management unit 230 calculates the service quality expected to be provided when the user uses a specific service according to the determined configuration of the server resource. The service quality expected to be provided is calculated based on the measurement information 241 and the test information 244 for each determined server resource pattern when the service is provided according to the determined server resource configuration. Is done.

  The configuration management unit 230 calculates the service quality expected to be provided based on the information stored in the measurement information 241 and the test information 244 as follows, for example. The configuration management unit 230 calculates the response performance of the server 420 by adding the delay of the network 600 stored in the measurement information 241 and the test information 244 and the processing time by the server 420.

  In addition, the configuration management unit 230 divides the amount of data expected to be transmitted / received by the communication throughput (data amount transmitted per unit time) in the network 600, which is stored in the measurement information 241 and the test information 244. Thus, the time until the communication of the server 420 is completed is calculated.

  In addition, the configuration management unit 230 calculates the processing time until the server 420 completes the processing by summing the processing times in several servers 420 stored in the measurement information 241 and the test information 244. By obtaining the information calculated by the configuration management unit 230 for each configuration pattern of the server resource, the configuration management unit 230 calculates the service quality that can be provided to the user.

  In addition, the configuration management unit 230 calculates a usage cost that is expected to be required when the user uses the service according to the configuration of the server resource described above. The usage cost is the total cost generated in the information system to which the data center 400 to be managed by the management server 200 belongs. The usage cost is, for example, a server usage fee, personnel cost, power, hardware cost, communication cost, storage usage fee, maintenance fee, and the like.

  The configuration management unit 230 is expected to be required for each pattern of server resources when a specific service is provided by the determined server resources using the measurement information 241, the test information 244, and the billing information 243. Calculate the usage cost.

  For example, based on information stored in the storage 240 such as measurement information 241, test information 244, and billing information 243, the configuration management unit 230 calculates usage costs that are expected to be required as follows. Of the information stored in the storage 240, based on the processing amount in the server 420 and the charge rate for the capacity of the CPU 424, the memory 426 or the storage 440, the usage cost of the processing related to the service provided to the client 100 is calculated.

  In addition, the configuration management unit 230 calculates the use cost for communication based on the communication completion time of the server 420 calculated as described above, the path information of the information stored in the storage 240, and the charging information 243. calculate. Further, the configuration management unit 230 obtains the calculated usage cost information for each pattern of server resources to be used, and calculates the total cost to be provided to the user.

  Next, the service quality and usage cost calculated as described above are acquired for each server resource pattern, and a predetermined policy (for example, “the lowest usage cost” or “a certain service quality can be achieved). As high as possible and within 1.3 times compared to the lowest usage cost ”,“ all service qualities are within the defined range ”, or“ some service quality is highest ”) Accordingly, an optimal system configuration for providing a specific service is extracted.

  The system configuration is information indicating which server 420, storage 440, or network 600 is used to provide a specific service.

  The configuration management unit 230 further determines whether or not the extracted system configuration does not violate a predetermined prohibition or restriction. When the prohibition or restriction is not violated, the configuration management unit 230 extracts the communication control unit 110, the management device (not shown) provided in the data center 400, and the operation server 300 in order to provide a specific service to the client 100. Information indicating that the system configuration should be selected is transmitted in the management instruction.

  When there are a plurality of extracted system configurations, the configuration management unit 230 causes the administrator or the like to select an optimal system configuration by displaying a plurality of extracted system configurations on a screen or the like. When the extracted system configuration is one and the management server 200 is set in advance to automatically select the system configuration by the administrator, the management server 200 is automatically extracted. The system configuration may be transmitted to the communication control unit 110 or the like.

  When the configuration of the system including the stopped server 420 is selected, the management server 200 may send a management instruction including starting the stopped server 420 to the operation server 300. Furthermore, the management server may transmit an instruction to change the operation (stopping or degeneration) of the resources provided in the data center 400 to the management server 200 using the data held in the storage 240.

  The communication control unit 110 or the like receives the management command from the configuration management unit 230 included in the management server 200, and then extracts the request sent from the client 100 according to the information included in the transmitted management command. To change the internal settings of the communication control unit 110 and the like.

  In addition, after receiving the management command, the management device (not shown) provided in the data center 400 or the operation server 300 instructs the server 420 managed by itself to start or degenerate according to the information included in the transmitted management command. Then, a command to move data included in the storage 440 or change the configuration of redundancy of the storage 440 is transmitted to the server 420 and the storage 440. Further, the management apparatus (not shown) provided in the data center 400 or the operation server 300 may transmit a configuration change command or the like to the storage system managed by the management apparatus.

  Note that the management server 200 may simultaneously transmit a plurality of instructions to the communication control unit 110 or the like. For example, the management server 200 may simultaneously instruct the operation server 300 to degenerate the server 420 and to move data included in the storage.

  As described above, the management server 200 changes the communication control method to the management device provided in the communication control unit 110, the operation server 300, and the data center 400, that is, the change of the server 420 to be selected, the server 420 (virtual server Since the data of the system including the server 420 or the data included in the storage 440 changes after sending an instruction to start or degenerate, or move the data included in the storage 440 or change the redundancy configuration, The performance measurement result 141 measured by the performance measurement unit 120 changes.

  After transmitting the above instruction, the management server 200 receives the performance measurement result 141 measured by the performance measurement unit 120 from the client 100 more frequently than usual. Also, the test information 244 is updated by the configuration management unit 230 more frequently than usual.

  Whether the measurement information 241 that is the reception result of the performance measurement result 141 due to the change in the data included in the system configuration or the storage 440 and the test information 244 are updated, whether or not the above-described prohibition or restriction is not violated. judge. Depending on the prohibition or limitation, a change in the data included in the system configuration or storage 440 may cause a change in performance measurement information 241 and test information 244 and conflict with the prohibition or limitation, resulting in system configuration or storage 440. The content of the data included in is changed repeatedly.

  The configuration management unit 230 internally retains a history of changes in the system configuration or the contents of data included in the storage 440. Repeatedly, instructions for changing the contents of the same system configuration or storage 440 are repeated or prohibited. Alternatively, if it is determined that a conflict with the restriction or the like occurs, the change of the retained system configuration or the content of the data included in the storage 440 is restricted.

(Measurement result 141)
As described above, the measurement result 141 is a measurement result stored in the storage 140 by the performance measurement unit 120 included in the client 100. The measurement result 141 is information indicating the quality of service provision when the client 100 is provided with a specific service from the server 420. That is, when the client 100 is provided with a service from a certain server 420, it indicates the quality of service that the user using the client 100 can obtain.

  FIG. 5 is an explanatory diagram illustrating a specific example of the measurement result 141 according to the first embodiment of this invention.

  An example of each item included in the measurement result 141 is shown in FIG. The measurement result 141 includes information of each item of ID 701, service name 702, URI 703, processing time 704, time stamp 705, server ID 706, route information 707, error 708, verification information 709, and status 710 for each ID 701. Held by the performance measuring unit 120 in the storage 140.

  The ID 701 is a unique ID determined by the performance measurement unit 120. The ID 701 may be determined for each request sent from the client 100 to the server 420 or may be determined at regular intervals. In the case of assigning IDs at regular intervals, the performance measurement unit 120 aggregates the measurement results 141 measured at regular intervals.

  The value of ID 701 may include information such as an address (IP address or MAC address) that identifies the client 100 and a computer name. After acquiring the measurement result 141, the performance measurement unit 120 uniquely determines this ID 701, and stores each item in the storage 140 in association with the determined ID.

  The service name 702 is a service name such as a WEB service provided by the server 420 for use by the user. The URI 703 is an identifier indicating a resource for using the service provided in the network 600.

  The processing time 704 is a processing time from when the server 420 receives a request until it transmits a processing result corresponding to the request, or a processing result corresponding to the request after the client 100 transmits a request. Any processing time of the processing time until the completion may be used. Also, both processing times may be stored in separate columns.

  The time stamp 705 is the time when the user uses the service provided from the server 420. The time stamp 705 may be the time when the user transmits a request to the server 420.

  The server ID 706 is an identifier that uniquely indicates the server 420 that has processed the request transmitted by the client 100. The server ID 706 is uniquely assigned in advance to the server 420 used by the user by the administrator of the server configuration management system.

  The route information 707 is information on a network route used after the request is transmitted by the client 100 until the client 100 receives a processing result corresponding to the transmitted request. The error 708 is information on an error that has occurred on the path of the server 420 or the network 600 when the request is transmitted to the server 420 by the client 100.

  The verification information 709 describes information other than the processing time 704 that affects the quality of experience when the user uses the service. The verification information 709 is, for example, processing time recorded by an application running on the server 420 or a WEB application server, and trace information of processing contents.

  Further, for example, the verification information 709 may be the number of requests repeatedly executed by the user in the client 100 while waiting for the user to be provided with the service from the server 420. This is because the number of requests repeatedly executed indicates the slowness of service provision that the user experiences.

  The status 710 indicates the selection result of the server 420 by the communication control unit 110, the processing result by the server 420, the status of the server 420, or the like. For example, this indicates a situation in which processing cannot be performed due to a hardware failure of the server 420.

  The measurement result 141 shown in FIG. 5 is a specific example, and may include the items described above with reference to FIG. 4 in addition to the items shown in FIG. In the sequence 803 and the sequence 806 shown in FIG. 4 described above, information is added by the server 420 and the client 100, so that the measurement result 141 includes the server 420, the client 100, and between the server 420 and the client 100. Information indicating the quality of the route is stored.

(Activation of the performance measurement unit 120)
Here, a procedure for operating the communication program 130 for operating the performance measuring unit 120 in the client 100 will be described.

  FIG. 6 is a sequence diagram illustrating a procedure for registering the performance measurement unit 120 in the client 100 and transmitting a registration result to the management server 200 according to the first embodiment of this invention.

  When the user tries to use the server 420 via the client 100 in which the performance measuring unit 120 is not operating or the performance measuring unit 120 is not installed, the client 100 is notified by an instruction from the server 420. A program for operating the performance measuring unit 120 is downloaded.

  First, the user transmits a use request to the client 100 in which the performance measuring unit 120 is not operating (900). Then, the client 100 transmits a request to the communication control unit 110 (901).

  After receiving the request, the communication control unit 110 selects one server 420 among the plurality of servers 420 as a processing server by the method shown in the sequence 808 and the sequence 809 in FIG. Then, a request is transmitted to the selected server 420 (902).

  After receiving the request from the communication control unit 110, the server 420 determines whether or not the measurement communication program 130 is operating in the client 100 (903).

  The server 420 may determine in step 903 based on whether the communication program 130 is operating as a WEB browser plug-in in the client 100, for example. Further, for example, the server 420 may determine in the sequence 903 based on whether or not the application 429 provided in the server 420 includes information created by the performance measurement unit 120 in the request received in the sequence 902.

  Although determination in sequence 903 is not shown in FIG. 6, server 420 determines in sequence 903 by communicating with communication program 130 of client 100.

  When the server 420 in the sequence 903 determines that it is necessary to operate the performance measurement unit 120 in the client 100, the server 420 plugs in the program and the communication program 130 necessary for operating the performance measurement unit 120. And the like are downloaded to the client 100 via the communication control unit 110 (904, 905).

  After receiving the instruction from the server 420 to download the plug-in and the like, the client 100 downloads the plug-in and the like from the server 420 that provides the plug-in and the like (906). That is, the client 100 is necessary for operating the performance measurement unit 120 according to an instruction from the server 420 in order to download a program necessary for operating the performance measurement unit 120 or a plug-in of the communication program 130. Request a specific server 420 to download a program or a plug-in of the communication program 130. Then, the client 100 installs the downloaded program or the like on itself.

  The program installed in the client 100 or the plug-in of the communication program 130 starts up in the client 100 and then transmits information related to the client 100 to the management server 200 (907).

  After receiving the information transmitted from the client 100, the management server 200 registers information related to the client 100 in the management table managed by the management server 200. Then, an ID uniquely indicating the information is assigned to the registered information on the client 100, and the assigned ID is transmitted to the client 100 (908).

  As shown in FIGS. 4 and 6, when the performance measurement unit 120 operates in the client 100, the measurement result 141 indicating the performance when using the server 420 is accumulated in the client 100, and the accumulated measurement result 141 is stored. Is transmitted to the management server 200. Further, the management server 200 uses the configuration information 242, the billing information 243, and the test information 244 stored in the management server 200 together with the transmitted measurement result 141, and uses the communication control unit 110, the operation server 300, In addition, the management apparatus (not shown) of the data center 400 can change a communication control method (that is, change of the server 420 to be selected), start or degenerate of the server 420 (including a virtual server), or move the contents of the storage 440 or Instructs to change the redundant configuration.

  By this instruction, the settings of the server 420 and the communication control unit 110 managed by the management server 200 are changed, and the user who uses the client 100 can improve the quality of service experience, improve security, and availability of the server configuration management system. And reliability can be improved. In addition, the information system administrator can reduce the usage fee of the server configuration management system.

  Specifically, according to an instruction from the management server 200, the request from the client 100 is relayed (redirected) to the server 420 managed by the client 100 by a predetermined method. The communication control unit 110-3 may relay (redirect) the request to a server other than the server 420 in the data center 400 in which the communication control unit 110-3 is installed.

(Second Embodiment)
FIG. 7 is a block diagram illustrating a configuration of a server configuration management system according to the second embodiment of this invention.

  The server configuration management system of the second embodiment has the same configuration as the server configuration management system of the first embodiment shown in FIG. 1, and the user can obtain the same effects. However, the data centers 400-1 and 400-2 of the second embodiment include virtual servers 431 (431-1, 431-3) in addition to the servers 420 (420-1, 420-3). The virtual servers 431-1 and 431-3 may be mounted on the server 420-2 and the server 420-4, respectively, or may be mounted by a plurality of servers 420.

  FIG. 8 is a block diagram illustrating the server 420-2 and the virtual server 431 according to the second embodiment of this invention.

  The server 420-2 includes a CPU 434, a memory 436, a storage 435, a NIC 438, and an input / output device 437, and each hardware is connected by a bus. The server 420-2 is connected to the network 600 via the NIC 438.

  The CPU 434 implements a function by loading a program stored in the storage 435 or an external storage (not shown) into the memory 436 and executing the program on the CPU 434. The NIC 438 transmits the communication content requested by the program processed on the memory 436 to the network 600 and receives the processing result. The input / output device 437 outputs the processing result to the screen or communicates with an external device.

  The server 420-2 mounts virtual servers 431-1 and 431-2 on the memory 436. The virtual servers 431-1 and 431-2 are read into the memory 436 by the virtualization program (hypervisor) 433. The virtual servers 431-1 and 431-2 are treated in the same manner as the general server 420 from the other server 420 or the client 100 or the management server 200 connected to the network 600.

  In the memory 436, an application 439 such as a WEB application stored in the storage 440 is processed. An application similar to the application 439 is processed on a virtual memory (not shown) (actually the memory 436) on the virtual server 431.

  By adopting the configuration shown in FIG. 8, the virtual server 431 can process the application 439 as with the server 420. Since the virtual server 431 can be generally constructed at a lower cost than the server 430, it is possible to construct a server configuration management system that achieves the same effects as the first embodiment at a low cost.

  According to the server configuration management system shown in the first and second embodiments described above, a platform for constructing an information system in which service quality and usage cost dynamically change like a service that provides a cloud platform. Maintain or maintain the quality of services provided to users from time to time (such as response time, user service experience, information system security, information system availability, reliability, etc.) The usage fee of the information system can be maintained or reduced while improving.

  Further, the management server 200 can control the server 420 that can be used by the user by controlling the communication control unit 110 and the like, for example, the server 420 with a high communication fee or the server with a high usage fee for the CPU 424 or the memory 426. Using 420 can be avoided. For this reason, the management server 200 can maintain or reduce the usage fee of the information system while the server configuration management system of the present embodiment dynamically maintains or improves the quality of using the user's service. .

  Further, the management server 200 is provided in the data center 400, and instructs the management server (not shown), the communication control unit 110, and the operation server 300 that manage the data center 400 to degenerate or start up the server 420. Thus, the management server 200 can control the server 420 or the resource amount that can be used by the user. For example, the management server 200 can reduce the time for starting the server 420 with a high communication fee or the server 420 with a high usage fee for the CPU 424 or the memory 426. In addition, it is possible to increase the time for starting the server 420 with a low communication fee or a low usage fee for the CPU 424 or the memory 426. For this reason, the management server 200 can maintain or reduce the usage fee of the information system while maintaining or improving the quality of using the user's service dynamically.

  In addition, the management server 200 instructs the management device (not shown) that manages the data center 400 or the operation server 300 to move the contents of the storage 440 and change the redundant configuration of the storage 440, whereby the amount of storage used by the user Alternatively, since the communication fee can be reduced, the usage fee of the information system can be maintained or reduced while maintaining or improving the quality of using the user's service dynamically.

  In addition, the quality information when the client provides the service from the server 420 is measured, and the management server accumulates the measurement results of the quality information, so that the server 420 can be selected using the actual measurement value.

100 Client 101 CPU
102 Memory 103 NIC (Network Interface Card)
DESCRIPTION OF SYMBOLS 104 Input-output device 110 Communication control part 120 Performance measurement part 130 Communication program 140 Storage 141 Measurement result 200 Management server 220 Service performance totaling part 230 Configuration management part 240 Storage 241 Measurement information 242 Configuration information 243 Billing information 244 Test information 245 Operation information 300 Operation server 400 Data center 420 (420-1 to 4) Server 424 CPU
425 Storage 426 Memory 427 I / O device 428 NIC
429 application 431 (431-1, 431-2) virtual server 433 virtualization program (hypervisor)
439 Application 600 Network 701 ID
702 Service name 703 URI
704 Processing time 705 Time stamp 706 Server ID
707 Route information 708 Error 709 Information for verification 710 Status

Claims (6)

A server configuration management system comprising a client, a server providing a service to the client, and a management server connected to the client and the server,
The client requests the server to provide the service via a communication control unit,
The communication control unit transmits a request from the client to the server;
The server provides the service to the client according to a request from the client;
The client
Measuring quality information indicating service quality when the service is provided;
Sending the measured quality information to the management server;
The management server
Selecting the server suitable for providing service to the client based on the transmitted quality information and selection criteria given by an administrator;
A server configuration management system, wherein information indicating the selected server is transmitted to the communication control unit. The system further includes an operation server that changes operation such as start or stop of the server,
The server holds configuration information including information on services provided by the server,
The operation server holds operation information indicating whether or not the server is activated,
The management server
Obtaining the configuration information from the server;
Obtaining the operational information from the operational server;
Request the server to provide the service;
The server provides the service to the management server according to a request from the management server;
The management server
Measuring quality information indicating service quality when the service is provided;
Based on the quality information transmitted from the client, the configuration information acquired from the server, the quality information measured by the management server, the operation information acquired from the operation server, and the given selection criteria The server configuration management system according to claim 1, wherein the server suitable for providing a service to the client is selected. The management server holds billing information indicating a fee generated by providing the service,
Quality information transmitted from the client, configuration information acquired from the server, billing information, quality information measured by the management server, operation information acquired from the operation server, and the given selection The server configuration management system according to claim 2, wherein the server suitable for providing a service to the client is selected based on a criterion. The management server
Quality information transmitted from the client, configuration information acquired from the server, billing information, quality information measured by the management server, operation information acquired from the operation server, and the given selection Select the server to be started or stopped based on the criteria,
The server configuration management system according to claim 3, wherein the operation server is instructed to start or stop the selected server. The system includes a plurality of storages for storing data,
Each of the servers can access the plurality of storages,
The management server
Quality information transmitted from the client, configuration information acquired from the server, billing information, quality information measured by the management server, operation information acquired from the operation server, and the given selection Based on the criteria, select the data to be moved to the other storage among the data stored in the storage,
5. The server configuration management system according to claim 3, wherein the operation server is instructed to move the selected data. The server measures information of resources in the system used when providing the service according to a request from the client;
Sending the measured resource information to the client;
6. The server configuration management system according to claim 2, wherein the client adds resource information transmitted from the server to quality information measured by the client.

Images