CN102624919A - Distributed service integrated system for service-oriented architecture and application method thereof - Google Patents

Abstract

The invention discloses a distributed service integrated system for a service-oriented architecture and an application method thereof and belongs to computer application technique. The defects that a present service system cannot perform dynamic management, the automatic expanding and contracting capacities of service component examples are poor and the simultaneous proceeding of large-scale service system examples cannot be supported are overcome. The distributed service integrated system is mainly composed of a deploying node cluster, a service control processor, a resource control server, a Web gateway and a service access point. According to the distributed service integrated system provided by the invention, the operations by a service provider and a user are simplified; a stable operation environment is provided; multiple operation requests of service systems are concurrently processed; when the deploying nodes are subjected to fault crash, the relation thereof is analyzed, and the corresponding examples are informed of registered information and are caused to correspondingly process, so that the service supplied by the service system can be recovered and be reusable within a short period of time and the high applicability of the system is realized; and the distributed service integrated system is suitable for being popularized and applied.

Description

A kind of distributed service integrated system and application process thereof of Service-Oriented Architecture Based

Technical field

The present invention relates to a kind of business integration system and application process thereof, specifically, relate to a kind of distributed service integrated system and application process thereof of Service-Oriented Architecture Based.

Background technology

At present, most of operation system all is design separately and disposes, along with the development of computer application; The operation system building time excessive cycle that these design and dispose separately, providing capability, and resource fast just is difficult to change once distributing; Dynamic retractility property is poor, causes system's average utilization lower by the thinking of peak value size expansion, the service access that is lack of consistency; Can't integrated service capacity and integrated development process in the problem of Legacy System; Can't adapt to the fast development of computer realm, so operation system is just progressively to semi, full distributed direction develops.

In the last few years, service-oriented architecture received as an emerging component model and pays close attention to widely and use, and service-oriented architecture is through setting up unified framework, make the software developer can develop fast, integrated and use.Present service-oriented architecture great majority can't carry out dynamic management to various distributed services, and the automatic dilatation of serviced component instance, contractility are relatively poor, can't support extensive operation system instance and move simultaneously.Simultaneously, in view of the unreliability of distributed frame, system's machine of delaying that breaks down easily, system can't provide a stable operating environment.

Summary of the invention

The objective of the invention is to overcome operation system and can't carry out dynamic management; And the automatic dilatation of serviced component instance, contractility are relatively poor; Can't support the defective that extensive operation system instance carries out simultaneously; Distributed service integrated system and application process with a kind of Service-Oriented Architecture Based are provided, simplify the operation of the operator that authority is arranged, stable operating environment is provided; Operation requests that can a plurality of operation systems of concurrent processing reaches the purpose that improves system high-available, high scalability and reusability.

To achieve these goals, the technical scheme of the present invention's employing is following:

A kind of distributed service integrated system of Service-Oriented Architecture Based; Comprise deployment node cluster, monitoring and the management deployment set of node crowd's of carrying serviced component resource Control Server, be connected with this resource Control Server and the request of the system that manages business and the service control server of response internal event, and the web portal and the Service Access Point that the inquiry of system service interface is provided as the external unified control interface of system that connect this service control server respectively.

Further, said deployment node cluster comprises at least one deployment node.

Further, said serviced component is made up of a service plug and at least one service routine.

Be the basis with above-mentioned hardware system, the application process of the distributed service integrated system of Service-Oriented Architecture Based provided by the invention may further comprise the steps:

(a) operation system of being made up of configuration file, service plug and service routine collection is installed on the distributed service integrated system;

(b) service provider starts the operation system of installing through web portal;

(c) user carries out the use to the distributed service integrated system through the service interface of the operation system of Service Access Point visit installation.

Wherein said step (a) specifically comprises:

(a1) user fills in configuration file;

(a2) upload resource file successively according to system prompt after, by service control server inspection resource file legitimacy and storage, generate metadata corresponding.

Further, said step (b) specifically comprises:

(b1) service provider selects mounted operation system on web portal, and is sent on the service control server and handles;

(b2) service control server resolution file, and send it to the resource Control Server, the resource Control Server selects one to dispose node operation service assembly;

(b3) disposing node is that serviced component distributes the address, realizes the startup and the initial work of serviced component, after the completion, will start the result and return;

(b4) repeating step (b2) and (b3) starts successfully until all serviced components;

(b5) after operation system started successfully, service control server was registered the service interface, system example number of this operation system to Service Access Point through resource Control Server and service control server;

(b6) accomplish the rear line report and this time start the result of instance and the resource distribution situation of serviced component instance.

Further, the access mode that the user accomplishes operation system in the said step (c) comprises following three kinds of modes at least:

(c1) Service Access Point is at first inquired about the serviced component tabulation in the own internal memory, and Query Result is replied to the client;

(c2) Service Access Point is inquired about the service interface of certain instance in the own internal memory again, and Query Result is replied to the client;

(c3) after the user accomplishes inquiry, call the service of disposing on the node.

Also comprise automatic dilatation and/or contraction method to serviced component among the present invention, its step is following:

(1) disposes node detection threshold value in the internal memory of autophage and/or the network and surpass the preset upper limit and/or down in limited time, send this event notice to the resource Control Server;

(2) the resource Control Server is transmitted to service control server with incident;

(3) service control server is carried out dilatation and/or contraction to the serviced component instance.

Further again, the present invention also comprises disposing the node restoration methods behind the machine of delaying that breaks down, may further comprise the steps:

(1) the resource Control Server detects and disposes node and break down behind the machine of delaying, and the serviced component that moves on the deployment node with the machine of delaying that breaks down is put into the fault diagnosis example formation;

(2) service control server regularly pulls the serviced component of the machine of delaying that breaks down from the resource Control Server, and it is restarted.

Compared with prior art, the present invention has the following advantages and beneficial effect:

(1) the present invention has realized dynamic management to operation system, and host resource has been carried out extension set, make the service provider can automation, customize the ground Disposition & Operation and possess high available, high scalability and the strong service of reusability.

(2) the present invention uses the serviced component instance frames, and the user only needs to fill in the installation that configuration file can be accomplished operation system according to standard, has both guaranteed professional normal operation, has simplified the operation of operator again, and is simple and practical.

When (3) starting srvice instance, the service provider only needs to carry out shirtsleeve operation at web portal, and web portal is the browser door, and is easy to operate, greatly improved the deployment efficient of service application.

(4) serviced component has been realized automatic dilatation, contraction through the compounding practice of resource Control Server and service control server, and moves when having supported a plurality of operation system, has both realized high scalability, has realized strong reusability again.

(5) disposing node breaks down behind the machine of delaying; The resource Control Server can this incident of perception and is put into pending fault formation to the deployment node of the machine of delaying; Service control server can regularly pull the deployment node of the machine of delaying to the resource Control Server, and it is repaired, thereby makes operation system recover available at short notice; Realized dynamic management, and the high availability of system.

Description of drawings

Fig. 1 is a system block diagram of the present invention.

Fig. 2 is the flow chart of application process of the present invention.

Fig. 3 is the installation procedure figure of operation system among the present invention-embodiment.

Fig. 4 is the startup flow chart of operation system among the present invention-embodiment.

Fig. 5 is the browsing process figure of operation system among the present invention-embodiment.

Fig. 6 is the dilatation of Service Component among the present invention-embodiment and/or the flow chart of contraction method.

Fig. 7 is the flow chart of recovered failure node among the present invention-embodiment.

Embodiment

Below in conjunction with accompanying drawing and embodiment the present invention is described further, execution mode of the present invention includes but not limited to the following example.

Embodiment 1

A kind of distributed service integrated system of Service-Oriented Architecture Based; Like Fig. 1, shown in 2, comprise the deployment node cluster that carries serviced component, monitoring and management dispose set of node crowd's resource Control Server, is connected with this resource Control Server and the service control server of the request of the system that manages business and response internal event and be connected respectively this service control server as the web portal of the external unified control interface of system and the Service Access Point that service interface is inquired about in the system is provided.Service control server is handled the request and the response internal event of web portal or resource Control Server; Drive other modules and carry out corresponding operating; The resource Control Server is responsible for disposing the monitoring and the management of node cluster; Node is disposed in discovery and foundation, management, load balancing and monitoring, the serviced component instance migration of location and handling failure node.Disposing the node cluster has at least to dispose a node; Dispose the main calling interface of node cluster and accomplish corresponding operation; And system burst incidents such as the load abnormal on the collector node in the operating position of resource and the monitor service component instance running, program mal, and report and give the resource Control Server.Web portal connects service control server, realizes the control to system, and service control server sends the information table of service interface to Service Access Point, and the connection resource Control Server, drives the resource Control Server and carries out corresponding operating.The resource Control Server is received monitoring of request back and management deployment set of node crowd, the serviced component instance migration of location and handling failure node.And keeping the information table of service interface on the internal memory in service metadata storehouse, supply user inquiring.

An operation system comprises configuration file, service plug and three types of resources of service routine collection.Configuration file is the agreement of reaching between service provider and the system; Serviced component instance and service routine Jian are contained in to be disposed on the node; Service plug is at the dynamic link library of disposing on the node with identical naming rule and interface standard; Realize the service routine collection startup, stop and notifying operation, concrete realization is accomplished by services developers.The service routine collection is the application program with specific function, and it is used for realizing the function application of operation system.Disposing node can abstractly be serviced component instance frames, and service plug and service routine collection are formed the serviced component instance.The main label of configuration file and serviced component instance and explanation are like table 1, shown in 2.

The main label explanation of table 1 CONFIG.SYS

Tag name	Father's label	Explanation
			SYSTEM	Do not have	Operation system name and description
MODULE_QUANTITY	START_ORDER	The quantity of this business service component instance
			MODULE	START_ORDER	The sequential relationship that the identification service component instance starts
QUANTITYMAX	MODULE	The maximum number of this serviced component instance operation
			QUANTITYMIN	MODULE	The minimum number of this serviced component instance operation
KEYMODULE	MODULE	Whether this serviced component instance is the key component that the machine of delaying just must cut out the whole service system
			ENTRY	MODULE	Whether this serviced component instance is the inlet of a service interface
MONOPOLIZE	MODULE	Whether this serviced component instance need be monopolized one and dispose joint

The main label explanation of table 2 serviced component exemplary configuration file

Tag name	Father's label	Explanation
			MODULE_NAME	MODULE_CONFIG	The serviced component Instance Name
BIN_NAME_LIST	MODULE_CONFIG	The application program list of file names
			MONITOR_LIMIT	MODULE_CONFIG	Dilatation and/or contraction threshold values

Only fill in configuration file, could when operation system is installed, correctly resolve the tree structure of the XML document of configuration then, load necessary information and attribute, guarantee professional normal operation according to above-mentioned standard.

Wherein, as shown in Figure 3, the step that an operation flow is installed is following:

(1) user uploads resource file successively through the prompting on the installation operation system page on the web portal;

(2) web portal reaches service control server with these resource files;

(3) service control server is deposited by the specific directory result, and the legitimacy of inspection resource file, generates the metadata of corresponding service system.

Embodiment 2

When starting an operation system, operate by the service provider, and accomplish spanned file by internal system, operation system to be numbered, the operation service component instance returns the function that starts the result,

As shown in Figure 4, start an operation system according to following step:

(1) service provider selects to start mounted operation system on web portal;

(2) this professional form of web portal generation is " operation system name _ instance number ", and sends to service control server and handle;

(3) after service control server receives request, parse serviced component instance quantity and relation, boot sequence etc. from CONFIG.SYS, the serviced component Instance Name that will start is put into formation.The service observation formation is not empty, reads the configuration file that team's head service is set up, and generates a serviced component instance and implements number, and the startup message also is sent to the resource Control Server and handles;

(4) the resource Control Server has state and the load information of disposing node in the resource pool, calculates weights according to load factor, selects the most idle this serviced component instance of deployment node operation;

(5) after the Agent finger daemon on the deployment node receives and starts message; Be resources such as this serviced component example allocation IP, Port, call the Start interface of service plug then, realize that by service plug the service routine collection starts and initial work; After the completion, will start the result and return;

(6) if this assembly returns and starts successfully, service control server is carried out record with the position of Resources allocation, and information is sent to Service Access Point preserves, and repeating step (3) is to (6), all starts until all serviced component instances to finish.Start failure if return, then close the serviced component instance that has started, and begin to rerun whole flow process from step (3);

(7) the operation system instance is after starting successfully in the system, and service control server can be to information such as the service of all this business of Service Access Point registration and interface, system implementations number;

(8) this time start the result of instance and the resource distribution situation of serviced component instance to user report.So far, start the operation system instance and accomplish, the service provider only needs on browser, to carry out shirtsleeve operation, and this operation has improved the deployment efficient of service application greatly.

Embodiment 3

No matter the Service Access Point of external system still is other operation system, and is as shown in Figure 5, all accomplishes the visit of service to all operation system interfaces of platform deployed through following method:

(1) at first inquiry service component instance tabulation: the operation system example table of user through storing in the Service Access Point audit memory;

(2) receive answer after; The service interface of instance in the user inquiring serviced component instance: the user sends message through Service Access Point; The inlet of inquiry business system example, the operation system Instance Name is comprised in the message, and user's operation system of storing in the audit memory is again gone into oral thermometer then;

(3) after the serviced component instance obtains the positional information of service interface, use the service of having disposed.

Embodiment 4

Disposing node adopts trunking mode to realize; Have good retractility, dynamically add and/or reduce other work that node can't have influence on platform, the serviced component instance of disposing on the node can be realized automatic dilatation and/or contraction; As shown in Figure 6, accomplish according to the following steps:

(1) finger daemon of disposing node detect this serviced component instance consumes in a period of time internal memory and/or network wherein one or multinomial threshold value surpass the upper limit and/or lower limit, send the notice of this incident to the resource Control Server;

(2) the resource Control Server is transmitted to service control server with this incident;

(3) service control server is adjusted the Service Component instance, checks then whether the component instance number surpasses maximum or minimum value under the adjusted operation system instance, if surpass, then ignores this message, if do not surpass, then begins dilatation or contraction.

Embodiment 5

For stable operating environment is provided; All modules of system all adopt asynchronous event to drive programming model; Operation requests that can a plurality of operation system instances of concurrent processing; Support extensive operation system instance and move simultaneously, dispose node when if machine occurring delaying for one, the serviced component instance that moves on this node will be moved to other and disposed on node.

Disposing node breaks down when delaying machine; Dispose the node heartbeat timeout, after the resource Control Server monitors this incident, restart the instance classification and ordination tabulation of disposing on the node; Parse the relation between them; And, letting them make corresponding processing the corresponding instance of the message informing of registering, the service that makes operation system provide can recover available at short notice.As shown in Figure 7, concrete steps comprise:

(1) dispose node and break down behind the machine of delaying, dispose the node heartbeat timeout, monitor this incident after, the resource Control Server will be disposed the Service Instance that node moves and put in the fault diagnosis example formation;

(2) service control server pulls fault diagnosis example to the resource Control Server at set intervals, according to system example number classification and this batch fault diagnosis example that sorts, restarts through the resource Control Server;

(3) certain operation system possibly moved a plurality of module instance on the deployment node of fault; Each module all has strict boot sequence and dependence when starting; System adopts is that a kind of scheme of two migration formations solves the out of order problem when avoiding module to restart, and disposes node when certain and breaks down when delaying machine, and the resource Control Server can perceive this incident because of heartbeat; Put into pending fault formation to the module of the machine of delaying; Service control server can regularly pull the module instance of these machines of having delayed to the resource Control Server, arrange by work flow, and this time notice is depended on its module instance.

According to the foregoing description, just can realize the present invention well.

Claims (9)

1. the distributed service integrated system of a Service-Oriented Architecture Based; It is characterized in that; Comprise deployment node cluster, monitoring and the management deployment set of node crowd's of carrying serviced component resource Control Server, be connected with this resource Control Server and the request of the system that manages business and the service control server of response internal event, and the web portal and the Service Access Point that the inquiry of system service interface is provided as the external unified control interface of system that connect this service control server respectively.

2. the distributed service integrated system of a kind of Service-Oriented Architecture Based according to claim 1 is characterized in that, said deployment node cluster comprises at least one deployment node.

3. the distributed service integrated system of a kind of Service-Oriented Architecture Based according to claim 1 and 2 is characterized in that, said serviced component is made up of a service plug and at least one service routine.

4. the application process of the distributed service integrated system of a Service-Oriented Architecture Based is characterized in that, may further comprise the steps:

(a) operation system of being made up of configuration file, service plug and service routine collection is installed on the distributed service integrated system;

(b) service provider starts the operation system of installing through web portal;

(c) user carries out the visit to operation system through the service interface of the operation system of Service Access Point visit installation.

5. the application process of the distributed service integrated system of a kind of Service-Oriented Architecture Based according to claim 4 is characterized in that, said step (a) specifically comprises:

(a1) user fills in configuration file;

(a2) upload resource file successively according to system prompt after, legitimacy and storage by service control server inspection resource file generate metadata corresponding.

6. according to the application process of the distributed service integrated system of claim 4 or 5 described a kind of Service-Oriented Architecture Based, it is characterized in that said step (b) specifically comprises:

(b1) service provider selects mounted operation system on web portal, and is sent to service control server and handles;

(b2) service control server resolution file, and send it to the resource Control Server, the resource Control Server selects one to dispose node operation service assembly;

(b3) disposing node is that serviced component distributes the address, realizes the startup and the initial work of serviced component, after the completion, will start the result and return;

(b4) repeating step (b2) and (b3) starts successfully until all serviced components;

(b5) after operation system starts successfully, service control server through the resource Control Server to the service interface of this operation system of Service Access Point registration, system example number;

(b6) accomplish the rear line report and this time start the result of instance and the resource distribution situation of serviced component.

7. the application process of the distributed service integrated system of a kind of Service-Oriented Architecture Based according to claim 6 is characterized in that, the visit that the user accomplishes operation system in the said step (c) comprises following three kinds of modes:

(c1) Service Access Point is at first inquired about the serviced component tabulation in the own internal memory, and Query Result is replied to the client;

(c2) Service Access Point is inquired about the service interface of serviced component in the own internal memory again, and Query Result is replied to the client;

(c3) after the user accomplishes inquiry, call the service of disposing on the node.

8. according to the application process of the distributed service integrated system of claim 4 or 5 or 7 described a kind of Service-Oriented Architecture Based, it is characterized in that also comprise automatic dilatation and/or contraction method to serviced component, its step is following:

(1) disposes node detection threshold value in the internal memory of autophage and/or the network and surpass the preset upper limit and/or down in limited time, send this event notice to the resource Control Server;

(2) the resource Control Server is transmitted to service control server with incident;

(3) service control server is carried out dilatation and/or contraction to serviced component.

9. according to the application process of the distributed service integrated system of claim 4 or 5 or 7 described a kind of Service-Oriented Architecture Based, it is characterized in that, also comprise and dispose the node restoration methods behind the machine of delaying that breaks down, may further comprise the steps:

(1) the resource Control Server detects and disposes node and break down behind the machine of delaying, and the serviced component that moves on the deployment node with the machine of delaying that breaks down is put into the fault diagnosis example formation;

(2) service control server regularly pulls the serviced component of the machine of delaying that breaks down from the resource Control Server, and it is restarted.

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