JP2009064211A - Distributed system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce the load of an application system. <P>SOLUTION: The distributed system is provided with a server device and a client device communicatively connected to the server device. A base system for providing a technology by combining a virtual machine technology having a function for achieving a logic to be performed in a presentation layer and a logic layer in a distributed system and a VPN technology is installed in both the server device and the client device. The logic is executed by the base system operating on the server device and the base system operating on the client device. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to distributed systems, and more particularly to client extended grid computing systems.

  Conventionally, an application system using a Web three-layer model (a three-layer model including a Web layer, an AP layer (Application Layer), and a DB layer (Database Layer)) has the following problems.

  It is a resource problem in the presentation layer (hereinafter referred to as the Web layer) and logic layer (hereinafter referred to as the AP layer). When a large amount of access to the application system occurs, the Web layer and the AP layer occupy a considerable proportion in the system. The load on the application system increases, and the performance of the entire application system deteriorates. At this time, as the number of accesses increases, the deterioration of the performance becomes more remarkable, and it often happens that it cannot catch up with the addition of servers in the data center.

  In addition, when the same phenomenon occurs, server machines in the Web layer and AP layer are likely to induce software or hardware failure due to continuous high load, and the server down due to the failure will cause further high load state There is a fear.

For example, in Patent Document 1, a server-side application is operated on the client side, and this is performed so that the server-side application is emulated on the client in order to prevent processing interruption due to network delay or communication disconnection. It is what has been.
Japanese Patent Application No. 8-106810

  However, in the above conventional technology, since the Web layer and the AP layer are not seen transparently from the client side and the server side using the infrastructure, they can only be operated on either the server side or the client side, so there is a shortage of resources. There was a problem that the response and improvement of availability were not realized.

  Therefore, the present invention has been made in view of the above problems, and an example of the purpose is to reduce the load on the application system.

  In order to solve the above problems, the invention according to claim 1 is a distributed system including a server device and a client device connected to the server device so as to be able to communicate with each other, and the presentation in the distributed system. A platform for providing a technology that combines a virtual machine technology having a function capable of realizing logic performed in a layer and a logic layer and a VPN (Virtual Private Network) technology is installed in both the server device and the client device, and the server The base that operates on a device and the base that operates on the client device cooperate to execute the logic.

  According to a second aspect of the present invention, in the distributed system according to the first aspect, the base operating on the server device creates a communication port on the server device, and uses the communication port to make the client Information is exchanged by communicating with a communication port created by the base operating on a device.

  According to the present invention, a distributed system having a server device and a client device that is communicably connected to the server device, the function capable of realizing the logic performed in the presentation layer and the logic layer in the distributed system. A platform that provides technology combining virtual machine technology and VPN technology is installed on both the server device and the client device, and the platform that operates on the server device and the platform that operates on the client device cooperate with each other. Thus, by executing the logic, the load on the distributed system can be reduced.

  Further, according to the present invention, even when the number of requests increases, the resource of the client device also increases at the same rate, so that the resource shortage of the entire distributed system can be reduced. Accordingly, it is possible to solve the shortage of resources in the Web layer and AP layer in the distributed system of the Web three-tier system. Also, by moving the Web layer and AP layer in the distributed system to the client device side, the impact of failures in the Web layer and AP layer is limited, so even if one virtual machine fails, Since it is only in the client device, the influence can be suppressed locally.

  Next, preferred embodiments of the present invention will be described with reference to the drawings.

  An embodiment of the present invention is shown in FIGS.

  The present invention virtualizes the Web layer and AP layer server machines by combining virtual machine technology and VPN (Virtual Private Network) technology and preparing a platform for providing them easily. Instead, it reduces the load on the application system by enabling execution within a remote client.

  The platform operates on a machine on which it is installed, and further operates a virtual machine, in which logic that has been operated in the Web layer or AP layer conventionally operates. By installing the base on the client machine and performing linkage settings, the mutual connection is established by VPN, and the virtual machine is operated on the base to reduce the load.

The functions of this base are as follows.
1. Virtual machine provision function
1-1. Virtual machine execution function
1-1-1. Virtual machine application program placement function
1-1-2. Virtual machine start function
1-2. Virtual machine access function
1-2-1. Request acceptance function
1-2-2. Response return function
1-2-3. Virtual machine search discovery function
2. Inter-platform linkage function
2-1. Communication function between platforms
2-2. Inter-platform VPN communication realization function
2-3. Virtual machine location registration function in the infrastructure
2-4. Application program relocation function between virtual machines
3. Virtual machine application program development environment provision function
The virtual machine providing function in 1. indicates all functions related to a virtual machine, and is further divided into a virtual machine execution function providing function, a virtual machine access function, and a virtual machine operating server moving function.

  The function for providing a virtual machine execution function 1-1. Is a function related to execution of a virtual machine, and is divided into a virtual machine application program placement function and a virtual machine start function.

  The virtual machine application program placement function of 1-1-1. Is a function that prepares the conditions for starting a virtual machine by placing the virtual machine application program created in the development environment in the platform. It has functions for placement and deletion of virtual machine application programs.

  The virtual machine activation function 1-1-2 is a function for starting a virtual machine based on the virtual machine application program arranged by the virtual machine application program arrangement function. A function for starting and stopping a virtual machine is provided.

  The virtual machine access function 1-2. Is a function for accessing the activated virtual machine. Among these, the request reception function that accepts requests for the processing of 1-2-1., The response return function that returns the response of the processing result of 1-2-2., The purpose of 1-2-3. A virtual machine search and discovery function for discovering virtual machines is provided.

  The inter-base link function in 2. refers to all the functions to be linked by setting the bases installed on multiple machines, among which the inter-base communication function, the inter-base VPN communication realization function, and the virtual machine in the base It is divided into a location registration function and a virtual machine application program relocation function.

  The inter-base communication function of 2-1. Is a function for exchanging information between two bases using a communication means such as TCP / IP.

  The inter-base VPN communication function in 2-2. Is a function that includes the inter-base communication function, and uses encrypted tunneling to perform secure communication even on the low-reliability communication path such as The Internet. This is a function that guarantees secure communication, and the inter-base communication function operates on this function.

  The virtual machine location registration function in 2-3. Is a function that registers as a list which virtual machines are running on which platform in the set of linked platforms. Although it is possessed, the information is always exchanged in the cooperation platform group and is synchronized.

  The inter-virtual machine application program relocation function of 2-4. Is a function that allows a virtual machine application program that is arranged on a certain platform to be placed on another machine as needed.

  The virtual machine application program development environment providing function in 3. is a function that provides a development environment for developing a virtual machine application program.

  Note that the virtual machine here does not need to virtualize all ordinary computers, but only a function that can realize logic performed in the Web layer and AP layer. Rather, since it is assumed that the Internet moves through the VPN, it is necessary to minimize the functions as much as possible and reduce the size of the virtual machine itself.

  The user accesses the logic of the Web layer and AP layer operating on the virtual machine from the client machine, but in this case, the user does not directly access the virtual machine but accesses through the base. By performing access from the user through the base, logic processing is performed regardless of where the virtual machine is operating.

  The operation of the virtual machine access function is shown in FIG.

  The user develops a virtual machine application program on the development environment, and places (1) the platform operating as a process on the server machine. The deployed application program can be activated and executed on the same platform (2).

  The application program arranged on the platform can be rearranged on another platform set in cooperation using the inter-virtual machine application program rearrangement function (3).

  The operation of the inter-base link function is shown in FIGS.

  Figure 2 shows the operation of the inter-base communication function. The base operating on the server machine creates a communication port on the server machine and uses it to communicate with the communication port created by another base. Exchange. At this time, information such as the IP address and port of the machine used by the other is given by the linkage setting.

  FIG. 3 shows the operation of the inter-baseboard VPN communication realizing function, which is a function for guaranteeing a safe communication path by first creating an encrypted communication path and tunneling the inter-baseboard communication function therein. . The specific method of encryption varies depending on the implementation.

  FIG. 4 is a schematic configuration diagram of the present embodiment.

  There is a client machine 100 (an example of a client device) used by a user of an application, and a client 10 such as a Web browser operated by the user operates therein.

  On the client machine 100, a base 50 (an example of the base) is installed.

  The application providing side has a data center 200 as an environment for operating an application system (an example of a distributed system), in which a server machine 110 (an example of a server device) and a data layer 30 exist.

  On the server machine 110, the base 51 (an example of the base) is installed, and all the settings including the base 50 on the client machine 100 are set.

  Communication between the client machine 100 and the data center 200 is performed through the network 300 such as The Internet, and the inter-base communication set in cooperation is performed through the VPN 400 which is a part of the base function.

  The virtual machine 20 exists as a virtual machine that performs logic of the Web layer and the AP layer of the application system, and the application system operates normally by operating on an arbitrary machine among the bases set in cooperation. Now, let us assume that it operates within the platform 50 on the client machine 100.

  The client 10 accesses the application to the platform 50. At this time, the platform determines where the virtual machine 20 is operating, and delegates execution of the logic to the virtual machine.

  When the virtual machine finishes the logic, it accesses the data layer as necessary and returns the result to the base 50.

  The base 50 returns the result to the client 10 and the operation ends.

  Next, the operation of this embodiment will be described.

  FIG. 5 shows the operation of this embodiment when a request is received for the first time.

  A request using http including a virtual machine name, request processing contents, and parameters generated from the client 10 is accepted by a communication port constructed by a base operating as a process on the same machine.

  The received request is primarily processed by the request reception function as a window, and first the virtual machine discovery function is inquired about the position of the target virtual machine (2).

  Since the target virtual machine is found on the base 51 based on the synchronized virtual machine position information by the cooperation setting, the base 50 and the base 51 communicate with each other by the inter-base communication function and the inter-base VPN communication realization function. Then, the virtual machine application program on the platform 51 is rearranged on the virtual machine execution function on the virtual machine 50 and is started (4).

  FIG. 6 shows operations of the present embodiment regarding processing after receiving a request and returning a response.

  Since the virtual machine to process the request is found by the operation of FIG. 5, a request for processing is made to the virtual machine 20 (1).

  Since the processing was found to require writing and reading of data to and from the data layer, the virtual machine first communicates with the base 51 via the inter-base communication function and inter-base realization function through the window (2). Exchange with the data layer via 51 (3). At this time, the data layer is unaware of where the virtual machine exists, and operates as if the base 51 is a virtual machine.

  In this way, the process ends, and finally the base 50 returns a response including the processing result and result data (4).

  According to the present embodiment, an application system having a server machine 110 and a client machine 100 that is communicably connected to the server machine 110, and can implement logic performed in the Web layer and AP layer in the application system. On the base 51 and the client machine 100 that operate on the server machine 110 by installing the bases 50 and 51 that provide the technology combining the virtual machine technology and the VPN technology on both the server machine 110 and the client machine 100. Since the logic is executed in cooperation with the platform 50 operating in the above, the load on the application system can be reduced.

  Even when the number of requests increases, the resources of the client machine 100 also increase at the same rate, so that the resource shortage of the entire application system can be reduced. Accordingly, it is possible to solve the shortage of resources in the Web layer and AP layer in the application system of the Web three-tier system. Further, by moving the Web layer and AP layer in the application system to the client machine 100 side, the influence of the failure of the Web layer and AP layer is limited. Since this is only within one client machine 100, the influence can be suppressed locally.

  Furthermore, since the web layer and the AP layer can be seen transparently from both the client machine 100 side and the server machine 110 side using the platforms 50 and 51, both the server machine 110 side and the client machine 100 side operate. By doing so, it is possible to respond to resource shortages and improve availability.

  The present invention is configured as described above. However, the present invention is not limited to the above embodiment, and various modifications can be made within the scope of the gist of the present invention.

It is a figure which shows operation | movement of a virtual machine access function. It is a figure which shows operation | movement of the communication function between base | substrates. It is a figure which shows operation | movement of the VPN communication realization function between base | substrates. It is a figure which shows the schematic block diagram of this embodiment. It is a figure which shows operation | movement of this embodiment at the time of receiving a request for the first time. It is a figure which shows the operation | movement of this embodiment about the process after a request reception, and a response return.

Explanation of symbols

10 Client 20 Virtual Machine 30 Data Layer 50, 51 Base 100 Client Machine (Example of Client Device)
110 server machine (an example of a server device)
200 Data center 300 Network 400 VPN

Claims (2)

A distributed system having a server device and a client device communicably connected to the server device,
A platform that provides a technology that combines a virtual machine technology having a function capable of realizing logic performed in the presentation layer and the logic layer in the distributed system and a VPN (Virtual Private Network) technology is provided to both the server device and the client device. The distributed system, wherein the logic is executed in cooperation with the base operating on the server device and the base operating on the client device. The distributed system according to claim 1,
The infrastructure operating on the server device exchanges information by creating a communication port on the server device and communicating with the communication port created by the infrastructure operating on the client device using the communication port. A distributed system characterized by

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