CN104580073A - Method and device for transmitting messages between heterogeneous systems - Google Patents

Abstract

The invention relates to a method and a device for transmitting messages between heterogeneous systems. The method is characterized by comprising the following steps: acquiring messages from a source system; converting syntax of the messages into syntax of messages which can be identified by a target system; converting service data in the messages into service data required by the target system according to the syntax of the messages which can be identified by the target system; sending messages containing the converted service data to the target system. According to the technical scheme of the invention, the interaction of the messages from heterogeneous IT systems can be implemented from two aspects including the syntax and the semantic meanings; the conversion efficiency is improved by cancelling intermediate messages.

Description

A kind of method and apparatus for realizing Message Transmission between heterogeneous system

Technical field

The application relates to the communications field, particularly relates to a kind of method and apparatus for realizing Message Transmission between heterogeneous system.

Background technology

Typically, information system can face two hang-ups: one be how nature, effectively integrate information system platform that is of a great variety, that be scattered in various places, serve different target; Two is how only utilize a kind of ripe, effective middleware Technology, just the fresh information system in future organically can be contained in existing system, make now and following can certainly but organically combine.

In this case, ESB(Enterprise Service Bus, ESB) middleware Technology arises at the historic moment.

The maximum technical characterstic of ESB is, it is the middleware solution of a complete face to enterprise-level, can framework on the existing network frame of enterprise, software and hardware system, construct out the Information System Solution of an enterprise-level.

Adopt ESB middleware system as the maincenter technology in enterprise information system integrated scheme, almost can add any soft hardware equipment, under just past, the existing and following IT system can being incorporated into the Information application framework of enterprise-level, and the ability that real-time, jumbo information communication and control in real time, management and assignment messages can be provided to transmit for enterprise.

ESB middleware can be regarded as a bus run without interruption---have passenger upper and lower at different station, the passenger got on the bus at same station can get off at same station or different station.But, can with enough fast speed transmission of information unlike, ESB with traditional bus, i.e. transmission of information in real time.In addition, ESB also possesses powerful message transmission capability, can reach the data carrying capabilities of Gb level, even Tb level.ESB transmission be computerized information with service role and instruction, they constantly can be loaded into ESB by a group server, and then by another group of servers, information are got off from unloading ESB, to serve different business demands and object.

But, this message conversion mechanism also also exists obvious defect, namely, even if use same technical specification (namely at two, same message-oriented middleware product) assembly when carrying out mutual, because IT system environment is different, traditional ESB also still needs the message conversion performing " from called side to intermediary " and " from intermediary to called side ", and this objectively causes unnecessary efficiency expense.The more important thing is, ESB only completes the message conversion of syntactic level, and cannot realize the message conversion of semantic level.

Therefore, a kind of technical scheme that can overcome the problems referred to above is needed in this area.

Summary of the invention

The main purpose of the application is to provide a kind of method and apparatus for realizing Message Transmission between heterogeneous system, to solve the problems referred to above that prior art exists, wherein:

According to an aspect of the application, proposing a kind of method for realizing Message Transmission between heterogeneous system, it is characterized in that, comprise step: obtain the message from origin system; By the message syntax that system for the purpose of the syntax conversion of message can identify; The business datum that message comprises by the message syntax that can identify according to object system converts the business datum of object system needs to; And the message comprising the business datum after conversion is sent to object system.

According to a further aspect in the invention, proposing a kind of device for realizing Message Transmission between heterogeneous system, it is characterized in that, comprise: acquisition module, for obtaining the message from origin system; Syntax conversion module, for the message syntax that system for the purpose of the syntax conversion of message can be identified; Business datum modular converter, the business datum that message comprises by the message syntax for identifying according to object system converts the business datum of object system needs to; And sending module, the message comprising the business datum after conversion is sent to object system.

Compared with prior art, according to the technical scheme of the application, from the interacting message of syntax and semantics two aspects realizations from heterogeneous IT system, and by cancelling intermediates message, the efficiency of conversion can be improve.

Accompanying drawing explanation

Accompanying drawing described herein is used to provide further understanding of the present application, and form a application's part, the schematic description and description of the application, for explaining the application, does not form the improper restriction to the application.In the accompanying drawings:

Fig. 1 schematically shows the system architecture of the ESB of prior art;

Fig. 2 schematically shows the schematic diagram of the middleware of prior art;

Fig. 3 schematically shows the schematic diagram of the message-oriented middleware of prior art;

Fig. 4 schematically shows the flow chart of the method for realizing Message Transmission between heterogeneous system according to the application's embodiment; And

Fig. 5 schematically shows the structured flowchart of the device for realizing Message Transmission between heterogeneous system according to the application's embodiment.

Embodiment

Along with the fast development of the Internet, e-commerce industry, often need between IT system to carry out large-scale asynchronous exchange of data.The exchange of asynchronous data, the mode often through message is carried out.But, between different enterprise, between different I T system, often have employed different message-oriented middlewares.Cause these message grammer, semantic in there are differences, cause it cannot obtain between enterprise, between IT system effective mutual.

The main thought of the application is, between mutual both sides, directly realize the message conversion of syntax and semantics two aspects, and by cancelling intermediates message, raises the efficiency, improving performance.

For making the object of the application, technical scheme and advantage clearly, below in conjunction with the application's specific embodiment and corresponding accompanying drawing, technical scheme is clearly and completely described.Obviously, described embodiment is only some embodiments of the present application, instead of whole embodiments.Based on the embodiment in the application, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the application's protection.

The system architecture of the ESB of prior art is schematically shown below with reference to Fig. 1, Fig. 1.

As shown in Figure 1, ESB150 and B2B gateway, enterprises service composer 130, service routing catalogue 160, enterprises service catalogue 190 are together, be configured for SOA(service-oriented architecture, Services Oriented Achitecture) infrastructure component.This infrastructure component defines the intermediary between enterprises service requester 120 and enterprises service provider 180 and between enterprise external service requester 110 and enterprise external service provider 170.In brief, ESB150 is exactly the intermediary of a service, forms the biological chain of service user->ESB service broker-> ISP.

The basic function of ESB150 is transfer of data, messaging protocol transforms (or claiming Message Transmission), the large Core Feature of route three.When carrying out the integration of heterogeneous system, often provide these functions by ESB150 as required.Can the function of integrated conventional message middleware in ESB150.

Below the principle of middleware Technology and message-oriented middleware technology is briefly described.

The schematic diagram of the middleware of prior art is schematically shown with reference to figure 2, Fig. 2.

IT system A, IT system B and middleware 240 has been shown in Fig. 2.For system A, as shown in Figure 2, middleware 240 is positioned on operating system 220-a and hardware 230-a, applies under 210-a.

In fig. 2, the application 210-a of system A is communicated by middleware 240 with the application 210-b of system B.Middleware 240 just looks like the bus being application 210-a and applying between 210-b.Application 210-a and application 210-b are by middleware 240 shared resource.

Fig. 3 schematically shows the schematic diagram of the message-oriented middleware of prior art.

As shown in Figure 3, application 210-a and application 210-b are by using the API(Application Programming Interface of message-oriented middleware 310, API) send message and communicate.

Message routing is given application 210-b by message-oriented middleware 310, and such message just may reside on diverse computer, and message-oriented middleware 310 is responsible for process network service.If network connects unavailable, message-oriented middleware 310 meeting storing message, until when connection becomes available, then is transmitted to application 210-b by message.

When applying 210-a and sending its message, application 210-b even can not be in executing state.Message-oriented middleware 310 will retain this message, until application 210-b starts to perform and searching message of trying.

The advantage of message-oriented middleware is the connection that can provide synchronous and asynchronous between clients and servers, and message can be carried out transmitting or storage forwarding at any time.In addition, message-oriented middleware can not take a large amount of network bandwidths, can follow the tracks of affairs, and by affairs are stored into disk realizes network failure time system recovery.Message-oriented middleware is applicable to the distributed environment needing to carry out reliable data transmission between multiple process.

Specifically, ESB provides a kind of unified message representation as intermediary, carries out message conversion, make types of applications Collaboration in network become possibility according to the flow process of " called side-intermediary-called side ".The message conversion of " called side-intermediary-called side " can also be subdivided into the message conversion of " from called side to intermediary " and the message conversion of " from intermediary to called side ".Specifically, called side (such as, as shown in Figure 3, the application 210-a in system A) needs to be first intermediates message by message conversion, that is, with the message that unified message representation represents, then could outwards send.After receiving the message, need is the message representation of called side self from intermediary's message conversion by message to called side's (such as, as shown in Figure 3, the application 210-b in system B), then could be further processed this message.

Therefore, traditional ESB needs the message conversion performing " from called side to intermediary " and " from intermediary to called side ", and this objectively causes unnecessary efficiency expense.

In addition, ESB only completes the message conversion of syntactic level, and cannot realize the message conversion of semantic level.

Fig. 4 schematically shows the flow chart of the method 400 for realizing Message Transmission between heterogeneous system according to the application's embodiment.Method 400 can comprise step 410-440.

In step 410, the message from origin system is obtained.

When system A is origin system, system for the purpose of system B.Otherwise, when system B is origin system, system for the purpose of system A.

According to an embodiment of the application, message from origin system can be subscribed to according to theme and/or type.Need the message subject subscribed to can be configured according to practical business.

According to another embodiment of the application, the message from origin system can not be obtained by the mode of subscribing to, but initiatively can send message to object system by origin system.

According to the further embodiment of the application, based on publish/subscribe pattern, the message from origin system can be subscribed to by message-oriented middleware integrated in existing message-oriented middleware or ESB.

In publish/subscribe pattern, there is no traditional client and server, and only have the application (publisher) carrying out Information issued in network and the application (being called subscriber) receiving specified subject information.Information mutual between them is called message.Publisher gives out information to message-oriented middleware, and subscriber, then to message-oriented middleware subscribe message, represents interested in which message in system.

Such as, the subscription client of the message-oriented middleware of system A can be used to subscribe to message from system A, use the subscription client of the message-oriented middleware of system B to subscribe to message from system B.

According to the further embodiment of the application, message-oriented middleware integrated in existing message-oriented middleware or ESB can not be utilized subscribe to the message from origin system, but utilize the special subscription client in system A or system B to subscribe to message from origin system.

According to an embodiment of the application, message subscribing person (system A or system B) can subscribe to by subscribing to instruction, and by cancelling subscriptions, instruction cancels subscriptions.

At step 420 which, by message syntax that system for the purpose of the syntax conversion of message can identify.

Message is made up of message header and message body.Message header comprises the identifying information of message, as the sender and priority etc. of type of message, theme, message.Message body then contains the actual transmissions data of message, such as business datum etc.

The syntax conversion of message and the conversion of message format.

The message format that different I T system adopts is different.According to the application, the message format of system A is the first form, and the message format of system B is the second form.The message conversion of the message queue of first form of system A can be become the message of the second form, be sent to the message queue of the second form of B system.Otherwise, can be the message of the first form by the message conversion of the message queue of second form of system B, be sent to the message queue of the first form of A system.

Message format refers to the form of expression of data.Such as, the message format that system A adopts is XML(Extensible Markup Language, extend markup language), the message format that system B adopts is Json(JavaScript Object Notation, JavaScript object representation).Therefore, need to carry out syntax conversion, that is, XML and Json is carried out bi-directional conversion.

When carrying out the conversion of message format, need the unserializing-serializing operation carrying out corresponding agreement.

Serializing mechanism refers to the data coding mode that data adopt when Internet Transmission.Such as, the message sequence mechanism of system A is Hessain, and the message sequence mechanism of system B is Json.

When two processes are when carrying out telecommunication, various types of data can be sent each other.Be no matter the data of which kind of type, all can transmit on network with the form of binary sequence.Transmit leg needs this object to be converted to byte sequence, and could transmit on network, recipient then needs byte sequence to revert to object again.The process that byte sequence reverts to object is called the unserializing of object.The process that object is converted to byte sequence is called the serializing of object.

When need by the Message Transmission from system A to system B time, serializing can be that the message sequence of the first form that system A is adopted by the message sequence mechanism adopted by system A turns to (being converted to) byte sequence, and then unserializing can be the message that byte sequence is deserialized as the second form that (reverting to) system B adopts by the message sequence mechanism adopted by system B.

Otherwise, when need by the Message Transmission from system B to system A time, serializing can be the message conversion of the second form that system B is adopted by the message sequence mechanism adopted by system A is byte sequence, and then unserializing can be machine-processed message byte sequence being reverted to the first form that system A adopts of message sequence adopted by system B.

According to the application, only need mutually to change between the message format and the message format of object system of origin system, and do not need by the message format of origin system and unified message format (namely, intermediates message) mutually to change and by the message format of object system and unified message format (namely, intermediates message) mutually change, thus eliminate intermediates message, improve conversion efficiency.

In step 430, the business datum that message comprises by the message syntax that can identify according to this object system converts the business datum of object system needs to.

Step 430 is exactly from semantically changing the message from origin system.Therefore, the application not only can carry out message conversion from syntactic level, can also carry out message conversion from semantic level.

According to an embodiment of the application, system A can be shopping website, and system B can be paying website.

Message data from system A comprises shopping website user ID, and the data that system B needs are payment account ID.Therefore, when message is delivered to system B from system A, need to convert shopping website user ID to payment account ID.

Such as, can call the SOA interface that business side provides, this SOA interface can convert shopping website user ID to payment account ID.

In step 440, the message comprising the business datum after conversion is sent to object system.

According to an embodiment of the application, by message-oriented middleware integrated in existing message-oriented middleware or ESB, the message comprising the business datum after conversion can be sent to object system.

As mentioned above, publisher gives out information to message-oriented middleware, and subscriber, then to message-oriented middleware subscribe message, represents interested in which message in system.Message-oriented middleware then ensures that the message by publisher issues in time, reliably sends to all to it interested message subscribing person.

Such as, can use the transmission client of the message-oriented middleware of system A that the message comprising the business datum after conversion is sent to system A, use the transmission client of the message-oriented middleware of system B that the message comprising the business datum after conversion is sent to system B.

According to the further embodiment of the application, message-oriented middleware integrated in existing message-oriented middleware or ESB can not be utilized subscribe to the message from origin system, but utilize the special transmission client in system A or system B that the message comprising the business datum after conversion is sent to object system.

According to an embodiment of the application, a message from origin system may be converted into multiple corresponding message, is then sent to object system.

According to an embodiment of the application, in order to improve performance, uninterested for object system message screening can be fallen.

According to an embodiment of the application, system A is origin system, and system B is object system.System A can be shopping website, and system B can be paying website.In this case, system B is only concerned about the payment message from system A, and is indifferent to the delivery message from system A.

According to the application, filter condition can be set in advance, according to this strobe utility, the message from system A be filtered, thus only leave the interested message of those system B.

According to an embodiment of the application, can filter according to the type of message.Such as, the delivery message screening from system A can be fallen.

According to another embodiment of the application, can filter according to the content of message.Such as, the payment behavior of concluding the business due to " cashing on delivery " is carried out face to face when receiving by user, and do not need to carry out online payment by B system (paying website), therefore B system (paying website) may not need to receive " cashing on delivery " transaction message from A system (shopping website).In this case, just can arrange filter condition transaction message of " cashing on delivery " to filter out.

Fig. 5 schematically shows the structured flowchart of the device 500 for realizing Message Transmission between heterogeneous system according to the application's embodiment.

Device 500 can comprise: acquisition module 510, for obtaining the message from origin system; Syntax conversion module 520, for the message syntax that system for the purpose of the syntax conversion of message can be identified; Business datum modular converter 530, the business datum that message comprises by the message syntax for identifying according to object system converts the business datum of object system needs to; And sending module 540, the message comprising the business datum after conversion is sent to object system.

According to an embodiment of the application, syntax conversion module 520 comprises further: serializing module, for the message sequence mechanism adopted by origin system, the message sequence of the grammer of origin system is turned to byte sequence; And unserializing module, the machine-processed message described byte sequence being deserialized as the grammer of goal systems of the message sequence for being adopted by goal systems.

According to an embodiment of the application, acquisition module 510 may further include subscribing module, for subscribing to the message from described origin system according to theme.

According to an embodiment of the application, device 500 may further include filtering module, for being fallen by uninterested for object system message screening.

According to an embodiment of the application, filtering module may further include filtration submodule, for filtering message according to the type of message and/or content.

According to an embodiment of the application, the message from origin system corresponds to the message that many comprise the business datum after conversion.

Physically, device 500 both can be positioned on origin system, also can be positioned in object system, neither can also be positioned on origin system and also not be positioned in object system, but be positioned on Third party system.

In a word, the application achieves the asynchronous message intercommunication of system A and system B by a kind of new method.According to the application, by the asynchronous message of theme ordering system A, the message of system A can be carried out the conversion of syntax and semantics, be sent to the message queue of system B.Otherwise, the asynchronous message of system B can be converted to the message of system A, be sent to the message queue of system A.Like this, the mutual consumption of both sides' message can be realized.

Compared with prior art, the application not only can realize the message conversion of syntactic level, also can realize the conversion of semantic level.In addition, from the angle of efficiency, the application eliminates intermediates message, and the message of mutual both sides can realize direct conversion, obtains the lifting of performance with this.

Although it should be noted that above for Asynchronous message transfer to present application has been explanation, the application is not limited thereto, but also goes for synchronization message transmission.

In one typically configuration, computing equipment comprises one or more processor (CPU), input/output interface, network interface and internal memory.

Internal memory may comprise the volatile memory in computer-readable medium, and the forms such as random access memory (RAM) and/or Nonvolatile memory, as read-only memory (ROM) or flash memory (flashRAM).Internal memory is the example of computer-readable medium.

Computer-readable medium comprises permanent and impermanency, removable and non-removable media can be stored to realize information by any method or technology.Information can be computer-readable instruction, data structure, the module of program or other data.The example of the storage medium of computer comprises, but be not limited to phase transition internal memory (PRAM), static RAM (SRAM), dynamic random access memory (DRAM), the random access memory (RAM) of other types, read-only memory (ROM), Electrically Erasable Read Only Memory (EEPROM), fast flash memory bank or other memory techniques, read-only optical disc read-only memory (CD-ROM), digital versatile disc (DVD) or other optical storage, magnetic cassette tape, tape magnetic rigid disk stores or other magnetic storage apparatus or any other non-transmitting medium, can be used for storing the information can accessed by computing equipment.According to defining herein, computer-readable medium does not comprise temporary computer readable media (transitory media), as data-signal and the carrier wave of modulation.

Also it should be noted that, term " comprises ", " comprising " or its any other variant are intended to contain comprising of nonexcludability, thus make to comprise the process of a series of key element, method, commodity or equipment and not only comprise those key elements, but also comprise other key elements clearly do not listed, or also comprise by the intrinsic key element of this process, method, commodity or equipment.When not more restrictions, the key element limited by statement " comprising ... ", and be not precluded within process, method, commodity or the equipment comprising described key element and also there is other identical element.

It will be understood by those skilled in the art that the embodiment of the application can be provided as method, system or computer program.Therefore, the application can adopt the form of complete hardware embodiment, completely software implementation or the embodiment in conjunction with software and hardware aspect.And the application can adopt in one or more form wherein including the upper computer program implemented of computer-usable storage medium (including but not limited to magnetic disc store, CD-ROM, optical memory etc.) of computer usable program code.

The foregoing is only the embodiment of the application, be not limited to the application.To those skilled in the art, the application can have various modifications and variations.Any amendment done within all spirit in the application and principle, equivalent replacement, improvement etc., within the right that all should be included in the application.

Claims (11)

1. for realizing a method for Message Transmission between heterogeneous system, it is characterized in that, comprising step:

Obtain the message from origin system;

By the message syntax that system for the purpose of the syntax conversion of described message can identify;

The business datum that described message comprises is converted to the business datum of described object system needs by the message syntax that can identify according to described object system; And

The message comprising the business datum after conversion is sent to described object system.

2. method according to claim 1, is characterized in that, described acquisition comprises further from the step of the message of origin system:

The message from described origin system is subscribed to according to theme and/or type.

3. method according to claim 1, is characterized in that, the message syntax that system for the purpose of the syntax conversion of described message can be identified realizes by utilizing unserializing-serializing operation.

4. method according to claim 3, is characterized in that, by utilizing unserializing-serializing operation to realize the message syntax that system for the purpose of the syntax conversion of described message can be identified, comprises further:

The message sequence of the grammer of origin system is turned to byte sequence by the message sequence mechanism adopted by origin system; And

Described byte sequence is deserialized as the message of the grammer of goal systems by the message sequence mechanism adopted by goal systems.

5. method according to claim 1, is characterized in that, comprises further:

According to the type of message and/or content, message is filtered.

6. the method according to any one of claim 1-5, is characterized in that:

Article one, described in corresponding to many from the message of origin system described in, comprise the message of the business datum after conversion.

7. for realizing a device for Message Transmission between heterogeneous system, it is characterized in that, comprising:

Acquisition module, for obtaining the message from origin system;

Syntax conversion module, for the message syntax that system for the purpose of the syntax conversion of described message can be identified;

Business datum modular converter, converts the business datum of described object system needs to by the business datum that described message comprises for the message syntax that can identify according to described object system; And

Sending module, sends to described object system by the message comprising the business datum after conversion.

8. device according to claim 7, is characterized in that, described acquisition module comprises further:

Subscribing module, for subscribing to the message from described origin system according to theme and/or type.

9. device according to claim 8, is characterized in that, syntax conversion module comprises further:

Serializing module, turns to byte sequence for the message sequence mechanism adopted by origin system by the message sequence of the grammer of origin system; And

Unserializing module, the machine-processed message described byte sequence being deserialized as the grammer of goal systems of the message sequence for being adopted by goal systems.

10. device according to claim 7, is characterized in that, described filtering module comprises further:

Filter submodule, for filtering message according to the type of message and/or content.

11. devices according to any one of claim 7-10, is characterized in that:

Article one, described in corresponding to many from the message of origin system described in, comprise the message of the business datum after conversion.