Patent Application
20080147783
1. Field of the Invention
The present invention relates to a medium storing a Web service control program, a Web service control apparatus, and a web service control method that control communication between a consumer side and provider side in a Web service.
2. Description of the Related Art
In recent years, a new technical trend has emerged in an SOA (Service Oriented Architecture) that designs a system based on loosely-coupled services. In a conventional Web service system, a provider side estimates the amount of Web service requests that a consumer side will transmit and, based on its peak value, determines the total capacity of servers to be prepared.
Further, electronic negotiation technology such as WS (Web Service)-Agreement specification standardized by GGF (Global Grid Forum) has been proposed.
As a conventional art relating to the present invention, there is known a method and apparatus that manage business interaction between the parties (refer to, e.g., Patent Document 1 (PCT Laid-Open Publication No. 2006-146892)). In addition, there is known a method that provides end-to-end service quality negotiation procedure for a distributed multimedia application (refer to, e.g., Patent Document 2 (PCT Laid-Open Publication No. 2004-537187)).
However, in a conventional Web service system, an operator on the provider side estimates the Web service request amount without acquiring a clear utilization plan of each of customers on the consumer side. Further, in the case where the provider-side operator has failed in making the estimation of the Web service request amount, he or she needs to rearrange the installed capacity. Since these operations are carried out by the operator, man-hour may rise, as well as, there may be a risk of errors. Further, in the conventional Web service system, the provider-side operator conducts hearings with customers for planning addition of the installed capacity. However, in the case where the number of customers is greatly increased or the frequency of the hearings is increased, it becomes difficult for the operator to make the estimation.
Further, there may be a case where the provider side receives the number of requests exceeding the installed capacity. The provider cannot prevent such a case from occurring for technical and contractual reasons, so that servers provided on the provider side may become overloaded and even unstable.
Moreover, estimation of required resources is easy in services to scientific and engineering calculations, while the estimation is difficult in the Web service due to the existence of a case where the number of requests is increased suddenly.
The present invention has been made to solve the above problems, and an object thereof is to provide a medium storing a Web service control program, a Web service control apparatus, and a Web service control method, capable of controlling, based on a request reservation procedure, the amount of Web service requests to be received.
To solve the above problems, according to a first aspect of the present invention, there is provided a medium that stores a computer-readable Web service control program allowing a computer to execute control of communication between a consumer side and provider side in a Web service, the Web service control program allowing the computer to execute: a management step that acquires a state of a plurality of servers capable of executing the Web service and a request of a Web service reservation which is a reservation to use the Web service and accepts or rejects the Web service reservation based on the state of the servers and Web service reservation request; a server control step that sets any of the plurality of servers as a node for executing the Web service based on the Web service reservation accepted by the management step; and a transfer step that receives a Web service request and transfers the Web service request to the node set by the server control step the Web service request complying with the Web service reservation accepted by the management step.
Further, according to a second aspect of the present invention, there is provided a Web service control apparatus that controls communication between a consumer side and provider side in a Web service, comprising: a management section that acquires a state of a plurality of servers capable of executing the Web service and a request of a Web service reservation which is a reservation to use the Web service and accepts or rejects the Web service reservation based on the state of the servers and Web service reservation request; a server control section that sets any of the plurality of servers as a node for executing the Web service based on the Web service reservation accepted by the management section; and a transfer section that receives a Web service request and transfers the Web service request to the node set by the server control section the Web service request complying with the Web service reservation accepted by the management section.
Further, according to a third aspect of the present invention, there is provided a Web service control method that controls communication between a consumer side and provider side in a Web service, comprising: a management step that acquires a state of a plurality of servers capable of executing the Web service and a request of a Web service reservation which is a reservation to use the Web service and accepts or rejects the Web service reservation based on the state of the servers and Web service reservation request; a server control step that sets any of the plurality of servers as a node for executing the Web service based on the Web service reservation accepted by the management step; and a transfer step that receives a Web service request and transfers the Web service request to the node set by the server control step the Web service request complying with the Web service reservation accepted by the management step.
According to the present invention, it is possible to control the amount of Web service requests to be received based on a request reservation procedure.
An embodiment of the present invention will be described below with reference to the accompanying drawings.
A Web service in a Web service system according to the present embodiment is a service using Web Service/SOAP (Simple Object Access Protocol), REST (Representational State Transfer), HTTP (HyperText Transfer Protocol), and the like.
Further, in the present embodiment, a Web service system offering a stamp duty service will be described. In the stamp duty service, a provider side receives from a consumer side an electronic receipt issued through an electronic clearing system and appends a stamp duty (time stamp) to the electronic receipt. The consumer side that has received the service makes payment, to the provider, of a service fee charged by the provider together with the amount to be paid to the country. Hereinafter, this service is represented by a service type “TSService”, and functions offered by this service are represented by “stamp” and “check”.
First, a configuration of a Web service system according to the present embodiment will be described.
The client 12 is connected to the CC 11. The CC 11 is connected to the CM 21 and CK 22 through a network 1. The CC 11 and client 12 may be incorporated in one apparatus. The planning terminal 13 is connected to the CM 21 through the network 1. The terminal 14 for each department is connected to the planning terminal 13. The CM 21 is connected to the CK 22 and server 23. The CK 22 is connected to the server 23. The operator terminal 24 is connected to the CM 21 and server 23.
The terminal 14 for each department determines service utilization plan in each department on the consumer side. The planning terminal 13 compiles the service utilization plan on the consumer side. The client 12 executes a client program to access the Web service. The operator terminal 24, which is operated by an operator on the provider side, monitors and controls the server 23. The provider terminal 31, which is operated by a person in charge on the provider side, inputs a price list and the like.
Next, operation of the Web service system according to the present embodiment will be described.
Next, the Web service reservation processing will be described.
The provider terminal 31 transmits a price list created by a sales representative on the provider side to the CM 21 (S11). The CM 21 transmits the received price list to the planning terminal 13 (S12). The planning terminal 13 transfers the received price list to the terminal 14 for each department (S13).
A description will be given here of the price list.
Then, a person in charge of each department designs service utilization plan of his or her own department based on the received price list and past performance table and the terminal 14 for each department notifies the planning terminal 13 of the service utilization plan (S14).
The planning terminal 13 then compiles the utilization plans from respective departments to thereby create a utilization plan table and transmits the table to the CC 11 (S15).
A description will be given here of the utilization plan table.
In the “time period” item, the same values as those in the price list are recorded. The “total amount of reservation requests” item represents the total number of Web service requests to be reserved, and “increase in reservation requests” item represents the number of Web service requests to be newly reserved. In the “total amount of reservation requests” item, the total amount of reservation requests before update [case] representing the total amount of requests in a past utilization plan table and total amount of reservation requests after update [case] representing the total amount of requests up to this time are recorded. In the “increase in reservation requests” item, increase in the amount of reservation requests [case] and increase in the amount of reservation requests per one day [case/day] are recorded. In the “unit price” item, the same values as those in the price list are recorded. In the “estimated amount” item, increase in the charge to be paid for the service (increase in reservation requests×unit price) is recorded. The utilization plan table of
The planning terminal 13 can update the utilization plan table even after transmitting the utilization plan table to the CC 11 and transmit the latest utilization plan in the form of a difference from the immediately preceding utilization plan table.
The CC 11 then starts electronic negotiation with the CM 21 for service reservation (S21). The CM 21 prepares authentication processing and the like according to a specification of the electronic negotiation (S22). The CC 11 transmits a reservation request to the CM 21 (S23, S25). Upon receiving the reservation request, the CM 21 performs reservation determination processing to make determination whether it accepts or rejects the reservation request based on a reservation condition and received reservation request and reservation reply processing to transmit a reservation reply to the CC 11 in accordance with a result of the determination (S24, S26).
Each of the reservation request and reservation reply is a machine-readable agreement conforming to Agreement document format defined in a specification (e.g., GGF WS-Agreement specification) of the electronic negotiation and is described in XML (Extensible Markup Language) or the like. When a reservation reply indicating “acceptance” is transmitted from the CM 21 to CC 11, the relevant agreement is completed. In this agreement, the provider side shows to the consumer side that it can reject the Web service request different from the reserved request condition.
A description will be given here of the content of the reservation request.
A description will next be given of the content of the reservation reply.
The CM 21 retains a provider reservation information table and, when the reservation is established, registers information of the established reservation in the provider reservation information table.
The CM 21 sets the reservation time period described in the received reservation request as a coverage time period and, based on the coverage time period and provider reservation information table, creates a server information table.
The CM 21 then determines whether the content of the reservation request satisfies the reservation condition. In the case where the reservation condition is satisfied, the CM 21 registers the content of the reservation request as the provider reservation information and sends back a reservation reply indicating “accepted” to the client 12. On the other hand, in the case where the reservation condition is not satisfied, the CM 21 sends back a reservation reply indicating “rejected” to the client 12. The reservation condition specifies that the request amount in the reservation request be not more than the remaining capacity in the server information table. That is, in the case where the request amount of the received reservation request exceeds the remaining capacity, the CM 21 sends back the reservation reply indicating “rejected”.
Alternatively, in the case where reservation preparation time period is set and where the CM 21 sets a value obtained by (start time of reservation time period in reservation request—reservation preparation time period) as reservation deadline of the reservation request, the reservation condition may specify that the current time falls within the reservation deadline of the reservation request. That is, in the case where the current time at the time point when receiving the reservation request passes the reservation deadline set for the reservation request, the CM 21 sends back a reservation reply indicating “rejected”.
The CC 11 retains a consumer reservation information table and, when receiving a reservation reply indicating “accepted”, registers the content included in the reservation reply in the consumer reservation information table.
The CM 21 then transmits the provider reservation information to the operator terminal 24 (S31). The operator refers to the provider reservation information displayed on the operator terminal 24 to determine allocation of the nodes.
Next, the Web service execution processing will be described.
According to given provider reservation information that has been received from the CM 21, the operator terminal 24 allocates, as nodes, the number of the servers 23 that can assure the required capacity corresponding to the relevant provider reservation information by the start time of the reservation time period thereof (S32). Further, in the case where the reservation time period of the relevant provider reservation information has ended, the operator terminal 24 releases the number of nodes corresponding to the required capacity of the relevant provider reservation information.
Then, at the start time of the reservation time of the relevant provider reservation information, the CM 21 transmits the relevant provider reservation information to the CK 22, and the CK 22 registers the content of the received provider reservation information in a passage determination information table (S33). In the case where the current time has passed the end time of the reservation time period described in passage determination information, the CM 21 deletes the passage determination information from the passage determination information table.
A description will be given here of the passage determination information table.
Then, the client 12 uses a client program of the Web service to transmit a Web service request to a node through the CC 11 and CK 22. In the case where the Web service request received from the client 12 satisfies an added condition, the CC 11 acquires the corresponding agreement ID from the client reservation information table and adds the agreement ID to the Web service request. Here, the added condition specifies that client reservation information in which the target service is the same as that specified in the Web service request and in which the reservation time period includes the current time exist in the client reservation information table.
The CK 22 receives the Web service request from the CC 11 and compares the Web service request with passage determination information table. In the case where the Web service request satisfies the passage condition, the CK 22 transfers the Web service request to the node (S41, S42). In the case where the Web service request does not satisfy the passage condition, the CK 22 does not transfer the Web service request to the node but transmits a notification representing “rejected” to the client 12 (S43). Here, the passage condition specifies that the passage determination information whose agreement ID is the same as the agreement ID of the received Web service request exist in the passage determination information table, and that the Web service request amount corresponding to the agreement ID be not more than the required capacity in the passage determination information.
Note that not only a single passage condition, but also a plurality of passage conditions may be set. In this case, different unit prices may be set for a plurality of passage conditions.
The node executes the service according to the Web service request received from the CK 22 and transmits a result of the execution to the client 12. The CK 22 transmits the information of the Web service request that the CK 22 allows to pass therethrough to the CM 21. The CM 21 tallies the information of the Web request service for each request source, each target service, and each time period segment and records it as an achievement information table. This achievement information table is used when the provider side charges the consumer side for a service fee.
According to the present embodiment, the CK 22 can reject a Web service request that does not satisfy a reserved condition. Further, by enabling the rejection of unfavorable Web service request, it is possible to prevent overload on the node, thereby enhancing stability of the system. Further, a reservation process concerning the Web service request amount can be automatically performed. Therefore, man-hour can significantly be reduced, making it possible to cope with a large number of consumers or frequent updates of reservation concerning the Web service request amount. Further, by setting the reservation preparation time period, it is possible to take some measures before the start of the reservation time period such as enhancement of facility.
Comparing with a Web service system using an autonomous system, the Web service system according to the present embodiment is easier to control and, further, facility arrangement and cost calculation are also easier.
In the present invention, a Web service system which includes servers laid out in a grid system will be described.
A configuration of a Web service system according to the present embodiment will first be described.
Next, operation of the Web service system according to the present embodiment will be described.
Next, the Web service reservation processing will be described.
The operations in steps S11 to S26 are the same as those in the first embodiment. Then, in the case where the content of a reservation request satisfies a reservation condition, the CM 21 performs server reservation processing for the grid management server 25. The server reservation processing is reservation processing for allocation of a server 23 that satisfies the reservation condition immediately before start of the reservation time period (S51).
Next, the Web service execution processing will be described.
According to the server reservation processing, the grid management server 25 deploys the reserved server 23 as a node of the grid system at the time immediately before the start of the reservation time period (S52, S62). When the reservation time period has ended, the grid management server 25 releases the allocated node.
In the server reservation processing, the CM 21 uses a stable operation threshold value previously set for each server 23 to determine the number of the servers 23 to be reserved. The stable operation threshold value is equal to the above-mentioned retained capacity.
In the server reservation processing, the CM 21 reserves the servers 23 based on the server information table such that the Web service request amount for each server 23 becomes not more than the stable operation threshold value (i.e., the Web request amount for each server 23 falls within a stable operation range). For example, assuming that the stable operation threshold vales of all the servers 23 are the same, the CM 21 reserves the smallest integer number of servers 23 but not less than a value obtained by dividing the total sum of required capacities to be reserved by the stable operation threshold value. More specifically, in the case where a first server 23 is reserved by a first reservation and the required capacity in the reservation time period of a second reservation exceeds the stable operation threshold value of the first server 23, a second server 23 is additionally reserved. Consequently, the grid management server 25 allocates the first server 23 at the start time of the first reservation (S52) and allocates the second server 23 at the start time of the second reservation (S62).
The operations in steps S53, S61, S63, and S64 are the same as those in steps S33, S41, S42, and S43 in the first embodiment, respectively.
According to the present embodiment, the grid management server 25 can automatically allocate a node in accordance with a reserved required capacity. This reduces a load on the operator and eliminates estimation error of the facility arrangement, thereby enhancing stability of the Web service system. Further, the grid management server 25 can allocate a required node at a required timing, thereby enhancing the utilization ratio of the server 23.
The plurality of servers 23 may be provided at a location other than the data center and may be provided at a plurality of locations in a distributed manner.
The CC 11, CM 21, and CK 22 according to the above-mentioned embodiment can easily be applied to an information communication apparatus to thereby increase performance thereof. Examples of the information communication apparatus include a server, a router, a switch, and the like.
Further, it is possible to provide a program that allows a computer constituting the Web service system to execute the above steps as a Web service control program. By storing the above program in a computer-readable storage medium, it is possible to allow the computer constituting the Web service system to execute the program. The computer-readable storage medium mentioned here includes: an internal storage device mounted in a computer, such as ROM or RAM, a portable storage medium such as a CD-ROM, a flexible disk, a DVD disk, a magneto-optical disk, or an IC card; a database that holds computer program; another computer and database thereof; and a transmission medium on a network line.
A management section corresponds to the CM 21 in the embodiment. A transfer section corresponds to the CK 22 in the embodiment. A request section and processing section correspond to the CC 11 in the embodiment. A management step corresponds to steps S21 to S26 in the embodiment. A transfer step corresponds to the processing performed by the CK 22 in steps S41 to S43 in the embodiment. A processing step corresponds to the processing performed by the CC 11 in steps S41 to S43 in the embodiment.
A server control section corresponds to the grid management server 25 in the embodiment. A server control step corresponds to steps S52 and S62 in the embodiment.
| Number | Date | Country | Kind |
|---|---|---|---|
| 2006-339448 | Dec 2006 | JP | national |
