CN104378415A - High-availability cloud system and achievement method based on information - Google Patents

Abstract

The invention provides a high-availability cloud system and achievement method based on information. The system comprises an information center client side, an information center service side and registration centers. The information center client side is used for producing and consuming information. The information center service side is used for delivering, storing and managing the information and comprises an information center high-availability cloud which can be linearly expanded, wherein the information center high-availability cloud is composed of a plurality of information center service groups, and each information center service group is composed of a plurality of information center agency machines. The registration centers are used for downloading information routing information to the information center client side in a caching mode, storing the information routing information in a data file in a persistent mode and managing the connection information of the information center service side. The registration centers are connected to form a registration center cluster which can be linearly expanded. By means of the high-availability cloud mode, the linear expansion of the information center and the registration centers is achieved, and the information transmission is made more flexible.

Description

A kind of message based High Availabitity cloud system and implementation method

Technical field

The present invention relates to data processing field, in particular to the message based High Availabitity cloud system of one and implementation method.

Background technology

The basic functional principle of message-oriented middleware is: at message sender, and sender of the message calls the api function sending message, the message needing to send is stored into through Message Queuing Services and sends in message queue; Mutual by between both sides' messaging service, takes out needing the message sent from transmit queue through Message Queuing Services, and delivers to recipient; Recipient again through its Message Queuing Services by the message deposit that receives to its receipt message queue; At message receiver, message recipient calls the api function of receipt message, equally through Message Queuing Services, the message of needs is taken out from receiving queue, row relax of going forward side by side.Message is in transmission or receive successfully, and Message Queuing Services will manage corresponding message queue.

This traditional message-oriented middleware adopts point-to-point messaging structure usually, needs the address of significantly mark recipient when transmit leg carries out message packing.Therefore, be connected although the recipient of message and transmit leg are loose couplings, intercommunication need not keep synchronous, because message center must bind the address of recipient mutually, cause the use underaction of message-oriented middleware in wide area, large-scale application system, system extension is also more difficult.

Although there is again the message transfer mechanism (referred to as message center) based on star structure afterwards, but this star structure also existing defects, the overload of service end is often caused when the client accessed is too much or message number increases, thus cause packet loss, even stop the situation of serving.But the method solving this defect is the high scalability of increase system, that is, though need realize message center can carry out extending transversely when message user is transparent, performance can with the expansion of resource linear expansion.

Summary of the invention

The object of the present invention is to provide a kind of message based High Availabitity cloud system and implementation method, traditional message-oriented middleware communication underaction can have been solved, the problem of system extension difficulty.

On the one hand, the invention provides a kind of message based High Availabitity cloud system, described system comprises:

Message center client, for the production of message and consumption message;

Message center service end, for message described in transmission, store and management, described message center service end comprises: can the message center High Availabitity cloud of linear expansion, described message center High Availabitity cloud is made up of multiple message center bundle of services, and each described message center bundle of services is made up of multiple message center proxy machine; And

Registration center, for Message routing information is downloaded to client with cache way and persistent storage in data file, and managing the link information of described message center service end, it is registration center's cluster that multiple described registration center connects, and described registration center cluster can linear expansion.

On the other hand, the invention provides a kind of implementation method of message based High Availabitity cloud, described method comprises:

Message center client logs registration center, the information returned by described registration center is connected to the application of described message center service end;

Described message center client and described message center service end connect, and arrange transmission or receiving queue;

Described message center client and described message center service end send or receipt message;

After described transmission or receipt message complete, described message center client is closed with described message center service end and is connected.

Adopt the message based High Availabitity cloud system of one of the present invention and implementation method, by High Availabitity cloud mode, realize the linear expansion of message center and registration center, make transmission of messages more flexible.

Accompanying drawing explanation

Fig. 1 is the structural representation of a kind of message based High Availabitity cloud system of the present invention;

Fig. 2 is the structural representation of the client of message center described in present system 100;

Fig. 3 is the structural representation of registration center 200 described in present system;

Fig. 4 is the structural representation of the service end of message center described in present system 300;

Fig. 5 is the flow chart of the implementation method of a kind of message based High Availabitity cloud of the present invention.

Embodiment

For making the object of embodiments of the invention, technical scheme and advantage clearly, below in conjunction with accompanying drawing, the present invention is described in further detail.

Fig. 1 is the structural representation of a kind of message based High Availabitity cloud system of the present invention.See Fig. 1, this system comprises:

Message center client 100, for the production of with consumption message.Described message center client 100 can be the client application software on the equipment such as computer, mobile phone, panel computer.

Message center service end 300, for message described in transmission, store and management, described message center service end 300 comprises: can the message center High Availabitity cloud of linear expansion, described message center High Availabitity cloud is made up of multiple message center bundle of services, and each described message center bundle of services is made up of multiple message center proxy machine.

Registration center 200, for Message routing information (Message routing value (CSID) number) is downloaded to described message center client 100 with cache way, and persistent storage is in data file, and manage the link information of described message center service end 300, it is registration center's cluster that multiple described registration center connects, and described registration center cluster can linear expansion.

Wherein, the link information of described message center service end 300 comprises: queuing message, exchange message, user profile and access authority information.Registration center 200 is configured to the X86 virtual partition based on Linux of 4CPU, 16G internal memory with each node hardware of message center service end 300.Multiple node can be combined and is deployed to cloud structure, supports cluster mode, supports active/standby mode, support various network topology structure, and can linear expansion, specific as follows: every three nodes form a sub-cluster, by business categorizing, can arrange multiple theme and queue; The node that each message center client 100 only need have been distributed with this locality is mutual, need not be concerned about concrete theme deployment is on which platform node, by arranging queue route, and theme route, complete the automatic conversion of message request and Message routing, node according to loading condition, linearly can expand; And can support that wide area network is disposed, support center, two places three.

Described system is by High Availabitity cloud mode, both the performance of message center and registration center had been achieved along with the expansion of serving group, performance synchronization linear expansion, shield again the existing details of inner High Availabitity mysorethorn completely, the message producer and the complete transparent use service of message consumer, need not be concerned about concrete message repository location, thus make transmission of messages more flexible, handling property (TPS) can meet ever-increasing business demand.

Fig. 2 is the structural representation of the client of message center described in present system 100.See Fig. 2, described message center client 100 comprises:

Message center interface 101, for logging in described registration center and being connected described message center service end;

Application component module 102, for realizing by JAVA language or C language the assembly receiving and send described message.

Fig. 3 is the structural representation of registration center 200 described in present system.See Fig. 3, described registration center 200 comprises:

Subscriber information module 201, for managing the user login information being connected to described registration center, wherein, described user login information comprises: the username and password information of user.Can log in after user inputs correct username and password, the data message calling dynamic authentication interface is carried out authentication by system, can enter the homepage of registration center 200 after being proved to be successful.

Message routing module 202, uses the identification number of described message center for managing external system, and to described Message routing information persistent storage.Wherein, described Message routing information comprises CSID value, and this module can provide the inquiry mode such as CSID value and Exchange queue type.

Information on services module 203, for managing the queuing message of described registration center end, comprising and increase or delete queue, when needs increase queue, increase queue and Exchange queue are bound; When queue deleted by needs, deletion queue and Exchange queue are bound.

Authorization message module 204, is connected to access control right information in described registration center for managing described user.Wherein, can arrange: the authority of user to message center comprises: allow authority and forbid authority; Action comprises consume, publish and All; Picture is comprised row and exchange.

Fig. 4 is the structural representation of the service end of message center described in present system 300.See Fig. 4, described message center service end 300 comprises:

Match messages module 301, for matching the producers and consumers of described message and described queuing message.Bear match messages and basic conversion work by router, carried out the routing function of control realization message by routing table (configuration file) mode, comprising: Message routing value: CSID; Switch type title: EXCHANGE title; Queued name: actual arrays name; The above-mentioned control field (fields) of routing table is also designed in the structure of message header simultaneously, if thus make applications specify that the destination of message, this module just directly can resolve message header, and does not need to go access routing table again.

Message processing module 302, for carrying out format conversion and transmitting-receiving control to described message.Wherein, the conversion that refers to message physique formula of message format conversion.Form mainly comprises the data structure body of XML, c program message structure body, host C OBOL program, and describes in the message format field domain of message header.NONE representative need not be changed.If XML is to the conversion of extended formatting, do not need reading format description document from message format storehouse, direct call XML format analysis processing module carries out format conversion.If the conversion of extended formatting, then need reading format description document from message format storehouse, and make corresponding format conversion.Information receiving and transmitting controls mainly to refer in message sending/receiving process some process that message is carried out.After Message Processing thread receives message, after to the various function treatment of message, decide object system and corresponding receiving queue by Message routing module 301, and mail to which system of destination cluster by flow-control module 304 decision message.This design can make the realization of code more simple and clear, and, complete the process to message at same thread, the integrality of affairs can be ensured.

Queue management module 303, for providing the Access Management Access to queue object for application program.Described queue management module 303 according to business demand, can pre-set (or multiplexing) queue, and setting binding routing value.Queue uses fifo queue buffering, owing to being disposablely complete Memory Allocation, therefore not existing and usually frequently sends according to the producer, consumer the Memory Allocation expense that (put) and reception (get) message causes; Support multi-thread access simultaneously, and complete the synchronous and mutual exclusion of cross-thread by lock mechanism; All queue unified managements in message center cluster, can regard a large queue pond as.When message, the producer produces message, and when sending message by the put interface of message center api, message center Broker is according to the CSID parameter transmitted, and the queue that match query is corresponding, completes related news and insert team posture; It is similar with it that message consumer collects message process, and by the get interface message of message center api, message center Broker is according to the CSID parameter transmitted, and the queue that match query is corresponding, completes related news POP team posture.Queue management module provides the functional interfaces such as queue increase, inquiry, amendment, deletion simultaneously, calls, and complete associated queue's management function for registration center interface.

Flow-control module 304, for carrying out the equilibrium distribution of many destinations to described message, and Flow Control comes into force when the resources such as queue reach Flow Control raft value, temporaryly forbids that transmit leg sends message, thus reaches the object of protection message center.When " message center " system initialization, flow control meter is defined in system control block, flow control meter comprises following 3 category informations: the destination systematic name, business (application) systematic name, the destination system CPU state that 1, are connected with the process of transmission, and repeating query identifies; 2, the identifier of each transmission process, start-up time, state; 3, in the message counter of the process of transmission.Meanwhile, which transmission process is repeating query mark can walk with deciding next record message.Flow-control module, after determining target transmission process, adds 1 to its counter.Flow-control module can provide various flow rate control algolithm (as: Round-Robin Algorithm), the intelligent algorithm of combining target system CPU utilization rate, the acquisition of goal systems CPU usage can be led to and realized by " message center " monitoring management module as a system event.

Security module 305, for transmission of messages, secure user data and resource management safety.Wherein, transmission security refers to that message center provides SSL Transmission Encryption implementation method and means; Secure user data is referred to and to be realized by calling data encryption and decryption utility module; Message center resource management refers to that safely message center design provides unified management/control inerface, and order line input window.Can provide based on user security rights management (ACL) mechanism.

Log pattern 306, for recording daily record and the flowing water of described message, can print different the level of detail daily record by daily record rank.In order to tackle timeout treatment, must the daily record of recording messages flowing water for synchronization message.And flowing water daily record needs record simultaneously on the heart, applications service adapter (transmit leg and recipient) in the message.Consider based on flexibility, by arranging daily record flowing water mark in message header (user message attribute (User Properties)), applications can tell whether message center records flowing water daily record.In addition, the heart and applications service adapter control the need of record correlation log by the daily record flowing water mark of the corresponding message code in configuration file in the message.The prerequisite of daily record/Flow Record requires message serial number, and message serial number is used to unique number of identification message, and serial number is made up of following 4 parts: system timestamp, system banner number, service code and message code.And journal file name and classification control by configuration file.

In addition, described message center service end 300 can be message center proxy machine, and described message center proxy machine is for realizing transmission, the store and management of described message.

Fig. 5 is the flow chart of the implementation method of a kind of message based High Availabitity cloud of the present invention.See Fig. 5, described method comprises:

Message center client logs registration center, the information returned by described registration center is connected to the application of described message center service end;

Described message center client and described message center service end connect, and arrange transmission or receiving queue;

Described message center client and described message center service end send or receipt message;

After described transmission or receipt message complete, described message center client is closed with described message center service end and is connected.

Wherein, described registration center is can any one in linear expansion cluster, the configuration information that each described registration center is identical.Described message center service end is for can any one in message center service end cluster described in linear expansion, and each described message center service end comprises identical configuration information or different configuration informations, but transparent to user.

In the specific embodiment of the present invention, described method can be applied to three aspects: the product information that customer information transmission, employee's channel information receive and insurance agency transmission upgrades, customer information assembly needs newly-increased customer information in the form of a message, is quasi real time updated to employee's channel; Customer information application component is notified in the form of a message after insurance agency product renewing customer information.

For customer information transmission: suppose that message center distributes to the Message routing value (CSID) number of customer information for CSID_CIF, employee's channel Message routing value (CSID) number is CSID_P2, insurance agency Message routing value (CSID) number is CSID_DLBX, then whole information exchanging process is:

1, customer information uses message center api to call registration (Login) interface, and the CSID parameter imported into is CSID_P2;

2, any one registration center all contains full dose message center configuration information; Api is containing the URL of 3 registration centers; Configuration information, according to the parameter CSID_P2 of the CSID of Login interface, is searched by registration center, determines the message center bundle of services address at CSID_P2 place;

3, customer information uses API Connect interface, and request connects and session with the message center bundle of services at CSID_P2 place;

4, the message central server at success and CSID_P2 place connects and session;

5, customer information uses API put interface, and the newly-increased customer information that will transmit is transmitted with the form of message topic content parameters;

6,5 processes are repeated, until this transfers the customer information that this needs transmission;

7, call API CLOSE interface, close this session.Employee's channel information is received: with above-mentioned customer information transmittance process in similar, concrete steps are as follows:

1, employee's channel uses message center api to call Login interface, and the CSID parameter imported into is CSID_P2;

2, registration center is CSID_P2 according to the parameter of the CSID of Login interface, searches configuration information, determines the message center ap group address at CSID_P2 place;

3, employee's channel uses API Connect interface, and request connects and session with the message center bundle of services at CSID_P2 place;

4, the message center bundle of services at success and CSID_P2 place connects and session;

5, employee's channel uses the get interface of API, and the message body of reception is the message of newly-increased customer information;

6, described 5th step (i.e. previous step) is repeated;

7, call API CLOSE interface, close this session.

Wherein, accepting method also can use and automatically intercept mode, after namely employee's channel calls LOGIN, CONNECT interface, using get automatically to intercept mode, automatically accepting when there being transmission of messages to arrive.

Process for the product information of insurance agency transmission renewal is also similar with above-mentioned two kinds of processes, but when calling LOGIN interface, import No. CSID into for CSID_CIF, return the message center bundle of services address at CSID_CIF place like this in registration center after, the message center bundle of services that insurance agency calls Connect interface and CSID_CIF place directly sets up session, and transmitting procedure is identical afterwards.

Adopt the implementation method of a kind of message based High Availabitity cloud of the present invention, by High Availabitity cloud mode, both the performance having achieved message center and registration center can along with the expansion of serving group, performance synchronization linear expansion, shield again the existing details of inner High Availabitity mysorethorn completely, the message producer and the complete transparent use service of message consumer, concrete message repository location need not be concerned about, thus making transmission of messages more flexible, handling property (TPS) can meet ever-increasing business demand.

Through the above description of the embodiments, those skilled in the art can be well understood to the present invention and can realize by the mode of software combined with hardware platform, can certainly all be implemented by hardware.Based on such understanding, what technical scheme of the present invention contributed to background technology can embody with the form of software product in whole or in part, this computer software product can be stored in storage medium, as ROM/RAM, magnetic disc, CD etc., comprising some instructions in order to make a computer equipment (can be personal computer, server, smart mobile phone or the network equipment etc.) perform the method described in some part of each embodiment of the present invention or embodiment.

The term used in specification of the present invention and wording, just to illustrating, are not meaned and are formed restriction.It will be appreciated by those skilled in the art that under the prerequisite of the general principle not departing from disclosed execution mode, can various change be carried out to each details in above-mentioned execution mode.Therefore, scope of the present invention is only determined by claim, and in the claims, except as otherwise noted, all terms should be understood by the most wide in range rational meaning.

Claims (10)

1. a message based High Availabitity cloud system, is characterized in that, described system comprises:

Message center client, for the production of message and consumption message;

Message center service end, for message described in transmission, store and management, described message center service end comprises: can the message center High Availabitity cloud of linear expansion, described message center High Availabitity cloud is made up of multiple message center bundle of services, and each described message center bundle of services is made up of multiple message center proxy machine; And

Registration center, for Message routing information is downloaded to described message center client with cache way and persistent storage in data file, and manage the link information of described message center service end, it is registration center's cluster that multiple described registration center connects, and described registration center cluster can linear expansion.

2. system as claimed in claim 1, it is characterized in that, described message center client comprises:

Message center interface, for logging in described registration center and being connected described message center service end;

Application component module, for realizing by JAVA language or C language the assembly receiving and send described message.

3. system as claimed in claim 1, it is characterized in that, described registration center comprises:

Subscriber information module, for managing the user login information being connected to described registration center;

Message routing module, uses the identification number of described message center for managing external system, and to described Message routing information persistent storage;

Information on services module, for managing the queuing message of described registration center end;

Authorization message module, is connected to access control right information in described registration center for managing described user.

4. system as claimed in claim 1, it is characterized in that, described message center service end comprises:

Match messages module, for matching the producers and consumers of described message and described queuing message;

Message processing module, for carrying out format conversion and transmitting-receiving control to described message;

Queue management module, for providing the Access Management Access to queue object for application program;

Flow-control module, for carrying out the equilibrium distribution of many destinations to described message;

Security module, for transmission of messages, secure user data and resource management safety;

Log pattern, for recording daily record and the flowing water of described message.

5. system as claimed in claim 4, it is characterized in that, the link information of described message center service end comprises: queuing message, exchange message, user profile and access authority information.

6. system as claimed in claim 4, it is characterized in that, described message center service end has message center proxy machine, and described message center proxy machine is for realizing transmission, the store and management of described message.

7. an implementation method for message based High Availabitity cloud, is characterized in that, described method comprises:

Message center client logs registration center, the information returned by described registration center is connected to the application of described message center service end;

Described message center client and described message center service end connect session, arrange transmission or receiving queue;

Described message center client and described message center service end send or receipt message;

After described transmission or receipt message complete, described message center client is closed with described message center service end and is connected.

8. method as claimed in claim 7, is characterized in that, described registration center is can any one in the described registration center cluster of linear expansion, and each described registration center comprises identical configuration information.

9. method as claimed in claim 7, it is characterized in that, described message center service end is for can any one in message center service end cluster described in linear expansion, and each described message center service end comprises the transparent configuration information of message center service end described in other.

10. method as claimed in claim 7, it is characterized in that, described message center client logs registration center, the described information returned by described registration center is connected to the application of described message center service end, comprising:

Described message center client uses described message center interface log in described registration center and import CSID parameter into;

Configuration information is searched according to described CSID parameter by described registration center, determines the address of described CSID parameter place message center cluster.