CN103297329A - Quasi-real-time two-way synchronization method for messages between heterogeneous systems - Google Patents

Abstract

The invention discloses a quasi-real-time two-way synchronization method for messages between heterogeneous systems. The method includes: creating a first unread information table and a first data interface module in a source system, creating a scheduler on a server, and creating a second unread information table and an unread temporary information table in a target system; relating the source system with the target system; starting the first data interface module by the scheduler in a timing mode, and synchronizing newly added unread information in the second unread information table to the first unread information table by the first data interface module; and synchronizing newly added unread information in the first unread information table to the unread temporary information table by the first data interface module, deleting processed information in the target system in the unread temporary information table, inserting all content in the unread temporary information table into the second unread information table, and deleting all the content in the unread temporary information table. By the method, the problem of information islands in an enterprise information system is solved, working efficiency is improved, and enterprise information communication is more flexible and human-friendly.

Description

The quasi real time bi-directional synchronization method of message between a kind of heterogeneous system

Technical field

The invention belongs to system integration field, particularly the quasi real time bi-directional synchronization method of message between a kind of heterogeneous system.

Background technology

Along with the develop rapidly of informationization technology, IT application in enterprise universal day by day, all departments of enterprise build the information system of oneself one after another.But IT application in enterprises is a process of progressively building, and starts the experience of country relatively early from informatization in the world, and informatization does not settle at one go, but progressively set up by incremental process.Like this, just caused to exist a lot of in the same enterprise and run on different platforms, adopted different databases, the heterogeneous system that uses different development technique and development language to develop has formed information island.Along with deepening continuously of informatization, integrate the data of a plurality of heterogeneous systems, integrated a plurality of heterogeneous systems application, realize that the demand of the inconsistency of sharing, eliminate inter-system data of data is day by day strong.

When the application between integrated and integrated isomerous system and data, the bi-directional synchronization of message status data is a kind ofly often to run into and very important demand.For example, in the application integration of synergetic office work system (OA) and enterprise-level instant communicating system (IM) and data are integrated, mail do not read and read state, flow process be untreated and the bi-directional synchronization timely of not readding and readding data such as state for the treatment of state, beep-page message be an emphasis and difficult point problem.Be example with the beep-page message, beep-page message is the instant communication information a kind of commonly used in the OA system, does not read and read two states, and when the application integration of carrying out OA system and IM system and data were integrated, enterprise wished that the employee when landing the IM system, can realize:

Inquire all beep-page messages do not read in the OA system;

Not not the readding paging and can in time be synchronized in the IM system of New Development in the OA system, not the readding paging and also can in time be synchronized in the OA system of New Development in the IM system namely realized the bi-directional synchronization of beep-page message;

The beep-page message of having read in the OA system can in time be synchronized in the IM system, and the beep-page message of having read in IM also can in time be synchronized in the OA system, namely realizes the bi-directional synchronization of beep-page message state.

Summary of the invention

The quasi real time bi-directional synchronization method that the purpose of this invention is to provide message between a kind of heterogeneous system, make message and the message status bi-directional synchronization that can between heterogeneous system, quasi real time (be generally less than 10 seconds lock in time), and the existing Technical Architecture of system, business processing flow and logic, database table structure etc. need not change, only needing increases a spot of interface, table and trigger, and the development amount is little.

Technical scheme provided by the invention is:

The quasi real time bi-directional synchronization method of message is characterized in that between a kind of heterogeneous system, comprising:

Step 1, in origin system, create first and do not read information table, first data interface module, creating second in goal systems does not read information table and does not read the temporary information table, create scheduler at server, described scheduler is provided with the blanking time of the each startup of first data interface module;

Step 2, described origin system is related with described goal systems;

Step 3, described scheduler timing start described first data interface module, and described first data interface module detects described second and do not read newly-increased in the information table and do not read the newly-increased information of not readding that information and synchronous second do not read in the information table and do not read in the information table to described first;

Step 4, described first the data interface module described first newly-increased information of not readding of not readding in the information table are not synchronously read in the temporary information table to described, travel through described goal systems, do not delete described first processed in the goal systems newly-increased information of not readding of not readding in the information table in the temporary information table described readding, described content of not readding in the temporary information table all is inserted into described second does not read in the information table, empty the described temporary information table of not readding.

Preferably, the quasi real time bi-directional synchronization method of message between described heterogeneous system, in the described step 1, create trigger and first at described origin system and read information table, occur the newly-increased information of having read in described origin system, described trigger is inserted into described first with the newly-increased information of readding that occurs in the origin system and has read in the information table.

Preferably, the quasi real time bi-directional synchronization method of message between described heterogeneous system, in the described step 1, establishment second has been read information table, has been read temporary information table and Data Detection interface in described goal systems, and described scheduler is provided with the blanking time of the each startup of Data Detection interface;

Described scheduler starts described Data Detection interface and described the first data interface module simultaneously, described Data Detection interface detects described second and has read the newly-increased information of readding of appearance in information table, described Data Detection interface is transferred described the first data interface module, the synchronous described second newly-increased information of having read in information table of having read has been read in information table to described first, described the first data interface module detects and the synchronous second newly-increased information of not readding of not readding in information table is not read in information table to described first

Described first data interface module detects described first and has read in the information table the newly-increased information and described first of having read and do not read the newly-increased information of not readding in the information table, described first data interface module synchronously described first has been read in the information table the newly-increased information of having read and has been read in the temporary information table to described, travel through described goal systems, delete described first processed in the goal systems newly-increased information of readding of having read in the information table in the temporary information table described having read, described content of having read in the temporary information table all is inserted into described second has read in the information table, empty the described temporary information table of having read, the described first data interface module described first newly-increased information of not readding of not readding in the information table is not synchronously read in the temporary information table to described, travel through described goal systems, do not delete described first processed in the goal systems newly-increased information of not readding of not readding in the information table in the temporary information table described readding, described content of not readding in the temporary information table all is inserted into described second does not read in the information table, empty the described temporary information table of not readding;

Wherein, the newly-increased information of not readding is synchronized to described origin system with the newly-increased information of having read from described goal systems, carries out simultaneously; The newly-increased information of not readding is synchronized to described goal systems with the newly-increased information of having read from described origin system, carries out simultaneously.

Preferably, the quasi real time bi-directional synchronization method of message between described heterogeneous system, in the described step 1, described first data interface module comprises Data synchronization interface and data receiving interface, is respectively arranged with the blanking time of the each startup of described Data synchronization interface and described data receiving interface on the described scheduler;

Described Data synchronization interface detects described first and has read in the information table the newly-increased information and described first of having read and do not read the newly-increased information of not readding in the information table, the newly-increased information of not readding that described Data synchronization interface synchronous second is not read in the information table is not read information table to described first, described Data synchronization interface synchronous first has been read increasing newly in the information table and has been read information to the described temporary information table of having read, and described Data synchronization interface synchronous first is not read increasing newly in the information table and do not read information to the described temporary information table of not readding;

Described Data Detection interface has been read in the information table described second by described data receiving interface and has newly-increasedly been read information synchronization and read in the information table to described first.

Preferably, the quasi real time bi-directional synchronization method of message between described heterogeneous system, the method that described Data synchronization interface obtains by data increment detects described first and has read in the information table the newly-increased information and described first of having read and do not read the newly-increased information of not readding in the information table, and the method that described Data synchronization interface obtains by data increment detects described second and do not read the newly-increased information of not readding in the information table;

The method that described Data Detection interface obtains by data increment detects described second and has read the newly-increased information of having read in the information table;

The concrete enforcement of the method that data increment obtains:

Data synchronization interface obtains first data increment of having read information table: read to increase newly in the information table and read information when described first at every turn, described first has read the ID of information table also thereupon from increasing, when described scheduler is opened described Data synchronization interface, the first synchronous ID maximum of having read information table of the last time that described Data synchronization interface will be this moment stored in first ID that has read information table and the described origin system temporarily and goal systems compares, extraction is greater than the first synchronous ID that reads information table that has read the ID of information table of last time of interim storage in the origin system and goal systems, the information that first of the ID correspondence of readding information table that is extracted has been read in the information system table just is the newly-increased information of having read of origin system, first maximum of having read the ID of information table synchronous with goal systems of interim storage origin system deletion last time, and record first maximum of having read the ID of information table this moment;

Data synchronization interface obtains identical with obtaining of the increment information of readding information to first data increment of not readding information table;

The Data Detection interface obtains identical with obtaining of the increment information of readding information to second data increment of having read information table.

Preferably, the quasi real time bi-directional synchronization method of message between described heterogeneous system, described scheduler is timer.

Preferably, the quasi real time bi-directional synchronization method of message between described heterogeneous system, in the described origin system and the information of not readding in the goal systems and the information of readding can be the information of arbitrary form, for example mail, video, reminder message etc.

Preferably, the quasi real time bi-directional synchronization method of message between described heterogeneous system, in the described step 2, if the ID of the ID of described origin system and described goal systems is different, then by creating mapping table that described origin system is related with described goal systems, if the ID of the ID of described origin system and described goal systems is identical, then described origin system and described goal systems auto-associating.

The present invention is directed to the technical problem that exists in the present IT application in enterprise, designed the quasi real time bi-directional synchronization method of message between a kind of heterogeneous system.Utilize mapping table with two heterogeneous system associations, trigger is inserted into first with the newly-increased information of readding that occurs in the origin system in real time and has read information table, has realized classification and management to information in the origin system; The Data Detection interface of creating on the Data synchronization interface of creating on the origin system and data receiving interface and the goal systems, information in the accurate synchronisation source system and the information in the target decorum have been realized, the method that the while Data synchronization interface obtains by data increment, detect and obtain newly-increased information and the newly-increased information of not readding of having read in the origin system, avoided an information by repeatedly synchronous situation, reduced meeting of system, improved synchronous efficiency, and scheduler timing turn-on data sync cap, data receiving interface and Data Detection interface have been realized the quasi real time information synchronization of (being between the heterogeneous system) between origin system and the goal systems; The establishment of readding the temporary information table and not readding the temporary information table in the goal systems has simultaneously avoided occurring in the information synchronization process situation that information is chaotic and obscure.The invention solves the problem of the information island in the enterprise information system, improved the operating efficiency of enterprise, make that the company information communication is more flexible and user-friendly.

Description of drawings

Fig. 1 is sequential chart of the present invention.

Embodiment

The present invention is described in further detail below in conjunction with accompanying drawing, can implement according to this with reference to the specification literal to make those skilled in the art.

Technological architecture of the present invention:

As shown in Figure 1, the quasi real time bi-directional synchronization method of message between a kind of heterogeneous system comprises:

Step 1, in origin system, create first and do not read information table, first and read information table, Data synchronization interface, data receiving interface and trigger, creating second in goal systems does not read information table, second and has read information table, does not read the temporary information table, read temporary information table and Data Detection interface, create scheduler at server, be respectively arranged with the blanking time of each startup of described Data synchronization interface, described data receiving interface and Data Detection interface on the described scheduler

Occur the newly-increased information of having read in described origin system, described trigger is inserted into described first with the newly-increased information of readding that occurs in the origin system and has read in the information table;

Step 2, if the ID of the ID of described origin system and described goal systems is different, then by creating mapping table that described origin system is related with described goal systems, if the ID of the ID of described origin system and described goal systems is identical, then described origin system and described goal systems auto-associating;

Step 3, described scheduler timing starts described Data synchronization interface, described Data Detection interface and described data receiving interface, described Data synchronization interface detects described second and does not read newly-increased in the information table and do not read the newly-increased information of not readding that information and synchronous second do not read in the information table and do not read in the information table to described first, described Data Detection interface detects described second and has read the newly-increased information of readding of appearance in the information table, described Data Detection interface is transferred described data receiving interface, synchronously described second has read in the information table the newly-increased information of having read and has read in the information table to described first;

Step 4, described Data synchronization interface detect described first and have read the newly-increased information of having read in information table, the newly-increased information of not readding that described Data synchronization interface piece synchronous described first is not read in information table is not read in the temporary information table to described, travel through described goal systems, described do not read the temporary information table in deletion processed described first newly-increased information of not readding in not readding information table in goal systems, described content of not readding in the temporary information table all is inserted into described second does not read in information table, delete the described full content of not readding in the temporary information table

Described Data synchronization interface synchronously described first has been read in the information table the newly-increased information of having read and has been read in the temporary information table to described, travel through described goal systems, delete described first processed in the goal systems newly-increased information of readding of having read in the information table in the temporary information table described having read, described content of having read in the temporary information table all is inserted into described second has read in the information table, delete the described full content of having read in the temporary information table

Do not read in the described origin system and in the described goal systems information and the information of readding can be arbitrary form, for example mail, video, reminder message etc.,

Wherein, the method obtained by data increment of described Data synchronization interface detects described first and has read in the information table the newly-increased information and described first of having read and do not read the newly-increased information of not readding in the information table;

The concrete enforcement of the method that data increment obtains:

Data synchronization interface obtains first data increment of having read information table: Data synchronization interface obtains first data increment of having read information table: read to increase newly in the information table and read information when described first at every turn, described first has read the ID of information table also thereupon from increasing, when described scheduler is opened described Data synchronization interface, the first synchronous ID maximum of having read information table of the last time that described Data synchronization interface will be this moment stored in first ID that has read information table and the described origin system temporarily and goal systems compares, extraction is greater than the first synchronous ID that reads information table that has read the ID of information table of last time of interim storage in the origin system and goal systems, the information that first of the ID correspondence of readding information table that is extracted has been read in the information system table just is the newly-increased information of having read of origin system, first maximum of having read the ID of information table synchronous with goal systems of interim storage origin system deletion last time, and record first maximum of having read the ID of information table this moment;

Data synchronization interface obtains identical with obtaining of the increment information of readding information to first data increment of not readding information table;

Wherein, the newly-increased information of not readding is synchronized to described origin system with the newly-increased information of having read from described goal systems, carries out simultaneously; The newly-increased information of not readding is synchronized to described goal systems with the newly-increased information of having read from described origin system, carries out simultaneously;

Step 5, described scheduler timing are opened described Data synchronization interface, data receiving interface and Data Detection interface, and circulation step 1 is to step 4.

Be example with OA system (office system) and IM system (communication system in time):

Origin system is the OA system, and goal systems is the IM system, is to be example as information format with paging in the OA system and in the IM system.

● preparation:

1) create first in the OA system and read paging table, first and do not read paging table, Data synchronization interface and data receiving interface, first has read the paging table is stored in and has read paging in the OA system, and first does not read the paging table is stored in the OA system and does not read paging;

2) increase trigger in the OA system, purpose is newly-increased read paging and insert first and read in the paging table what occur in the OA system;

3) create the Data Detection interface in the IM system, detection second has been read increasing newly in the paging table and has been read paging;

4) in the IM system, create second and do not read the paging table, all pagings of not readding of not readding paging and storing IM system self that storage is obtained from the OA system;

5) create a scheduler at server, purpose is time opening Data synchronization interface, data receiving interface and Data Detection interface, is set in the present embodiment every 5 seconds to open once;

6) in the IM system, create and do not read interim paging table, be used for storage and newly-increasedly do not read paging from what the OA system obtained;

7) create second in the IM system and read the paging table, what all that are used for that storage obtains from the OA system had been read paging and storage IM system self reads paging;

8) interim paging table has been read in establishment in the IM system, is used for the newly-increased paging data of having read that storage is obtained from the OA system;

● not readding paging and having read the synchronous of paging between OA system and the river system,

1) scheduler turn-on data sync cap, data receiving interface and Data Detection interface;

2) Data Detection interface detection second has been read to increase newly in the paging table and has been read paging, and Data synchronization interface detection second is not read increasing newly in the paging table and do not read paging;

3) call data receiving interface in the OA system, will increase newly and read paging and be synchronized to first and read in the paging table, the OA system does not read newly-increased in the paging table by Data synchronization interface synchronous second and does not read paging to the first and do not read in the paging table;

4) in the OA system, Data synchronization interface has been read newly-increased in the paging table with first and has been read paging and be synchronized to and read in the interim paging table, and Data synchronization interface is not read newly-increased in the paging table with first and do not read paging and be synchronized to and do not read in the interim paging table;

5) read that deletion is non-existent in the IM system in the interim paging table does not read paging and read paging not readding the neutralization of interim paging table;

6) in the IM system, will read in the interim paging table and newly-increasedly read paging and be inserted into second and read in the paging table, empty and read interim paging table, in the IM system, will not read in the interim paging table and newly-increasedly not read paging and be inserted into second and do not read in the paging table, and empty and do not read interim paging table.

The present invention is directed to the technical problem that exists in the present IT application in enterprise, designed the quasi real time bi-directional synchronization method of message between a kind of heterogeneous system.Utilize mapping table with two heterogeneous system associations, trigger is inserted into first with the newly-increased information of readding that occurs in the origin system in real time and has read information table, has realized classification and management to information in the origin system; The Data Detection interface of creating on the Data synchronization interface of creating on the origin system and data receiving interface and the goal systems, information in the accurate synchronisation source system and the information in the target decorum have been realized, the method that the while Data synchronization interface obtains by data increment, detect and obtain newly-increased information and the newly-increased information of not readding of having read in the origin system, avoided an information by repeatedly synchronous situation, reduced meeting of system, improved synchronous efficiency, and scheduler timing turn-on data sync cap, data receiving interface and Data Detection interface have been realized the quasi real time information synchronization of (being between the heterogeneous system) between origin system and the goal systems; The establishment of readding the temporary information table and not readding the temporary information table in the goal systems has simultaneously avoided occurring in the information synchronization process situation that information is chaotic and obscure.The invention solves the problem of the information island in the enterprise information system, improved the operating efficiency of enterprise, make that the company information communication is more flexible and user-friendly.

Although embodiment of the present invention are open as above, but it is not restricted to listed utilization in specification and the execution mode, it can be applied to various suitable the field of the invention fully, for those skilled in the art, can easily realize other modification, therefore do not deviating under the universal that claim and equivalency range limit, the present invention is not limited to specific details and illustrates here and the legend of describing.

Claims (8)

1. the quasi real time bi-directional synchronization method of message between a heterogeneous system is characterized in that, comprising:

Step 1, in origin system, create first and do not read information table, first data interface module, creating second in goal systems does not read information table and does not read the temporary information table, create scheduler at server, described scheduler is provided with the blanking time of the each startup of first data interface module;

Step 2, described origin system is related with described goal systems;

Step 3, described scheduler timing start described first data interface module, and described first data interface module detects described second and do not read newly-increased in the information table and do not read the newly-increased information of not readding that information and synchronous second do not read in the information table and do not read in the information table to described first;

Step 4, described first the data interface module described first newly-increased information of not readding of not readding in the information table are not synchronously read in the temporary information table to described, travel through described goal systems, do not delete described first processed in the goal systems newly-increased information of not readding of not readding in the information table in the temporary information table described readding, described content of not readding in the temporary information table all is inserted into described second does not read in the information table, empty the described temporary information table of not readding.

2. the quasi real time bi-directional synchronization method of message between the described heterogeneous system of claim 1, it is characterized in that, in the described step 1, create trigger and first at described origin system and read information table, occur the newly-increased information of having read in described origin system, described trigger is inserted into described first with the newly-increased information of readding that occurs in the origin system and has read in the information table.

3. the quasi real time bi-directional synchronization method of message between the described heterogeneous system of claim 2, it is characterized in that, in the described step 1, establishment second has been read information table, has been read temporary information table and Data Detection interface in described goal systems, and described scheduler is provided with the blanking time of the each startup of Data Detection interface;

Described scheduler starts described Data Detection interface and described the first data interface module simultaneously, described Data Detection interface detects described second and has read the newly-increased information of readding of appearance in information table, described Data Detection interface is transferred described the first data interface module, the synchronous described second newly-increased information of having read in information table of having read has been read in information table to described first, described the first data interface module detects and the synchronous second newly-increased information of not readding of not readding in information table is not read in information table to described first

Described first data interface module detects described first and has read in the information table the newly-increased information and described first of having read and do not read the newly-increased information of not readding in the information table, described first data interface module synchronously described first has been read in the information table the newly-increased information of having read and has been read in the temporary information table to described, travel through described goal systems, delete described first processed in the goal systems newly-increased information of readding of having read in the information table in the temporary information table described having read, described content of having read in the temporary information table all is inserted into described second has read in the information table, empty the described temporary information table of having read, the described first data interface module described first newly-increased information of not readding of not readding in the information table is not synchronously read in the temporary information table to described, travel through described goal systems, do not delete described first processed in the goal systems newly-increased information of not readding of not readding in the information table in the temporary information table described readding, described content of not readding in the temporary information table all is inserted into described second does not read in the information table, empty the described temporary information table of not readding.

4. as the quasi real time bi-directional synchronization method of message between heterogeneous system as described in the claim 3, it is characterized in that, in the described step 1, described first data interface module comprises Data synchronization interface and data receiving interface, is respectively arranged with the blanking time of the each startup of described Data synchronization interface and described data receiving interface on the described scheduler;

Described Data synchronization interface detects described first and has read in the information table the newly-increased information and described first of having read and do not read the newly-increased information of not readding in the information table, the newly-increased information of not readding that described Data synchronization interface synchronous second is not read in the information table is not read information table to described first, described Data synchronization interface synchronous first has been read increasing newly in the information table and has been read information to the described temporary information table of having read, and described Data synchronization interface synchronous first is not read increasing newly in the information table and do not read information to the described temporary information table of not readding;

Described Data Detection interface has been read in the information table described second by described data receiving interface and has newly-increasedly been read information synchronization and read in the information table to described first.

5. as the quasi real time bi-directional synchronization method of message between heterogeneous system as described in the claim 4, it is characterized in that, the method that described Data synchronization interface obtains by data increment detects described first and has read in the information table the newly-increased information and described first of having read and do not read the newly-increased information of not readding in the information table, and the method that described Data synchronization interface obtains by data increment detects described second and do not read the newly-increased information of not readding in the information table;

The method that described Data Detection interface obtains by data increment detects described second and has read the newly-increased information of having read in the information table.

6. as the quasi real time bi-directional synchronization method of message between heterogeneous system as described in the claim 5, it is characterized in that described scheduler is timer.

7. as the quasi real time bi-directional synchronization method of message between heterogeneous system as described in the claim 6, it is characterized in that, in the described origin system and the information of not readding in the goal systems and the information of readding can be the information of arbitrary form.

8. the quasi real time bi-directional synchronization method of message between the described heterogeneous system of claim 1, it is characterized in that, in the described step 2, if the ID of the ID of described origin system and described goal systems is different, then by creating mapping table that described origin system is related with described goal systems, if the ID of the ID of described origin system and described goal systems is identical, then described origin system and described goal systems auto-associating.

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