CN100531090C - Method for implementing universal message bus based universal service system structure - Google Patents

Abstract

The present invention relates to an implementation method of the common operation system architecture based on common information bus, the operating procedures are as follows: (1) the USSA consists of an application layer component, a common information bus component and a basis layer component, the distribution interaction and the distribution disposing function of each component is realized by the common information bus subassemblies; (2) the components are classified to three layers from the inner functions: a communication link layer, a common information distribution layer and a common information processing layer; the interaction integration between the subassemblies employs the conversation mode of the common information bus format; (3) the global configuration files are composed, the configuration proposal of the USSA system is designed, the components on the operation system are physically deployed, and a function entity table, a subnet table and a link connecting table of the architecture system are hereby constituted; (4) when a new service is added, the arranged subassemblies classifying method and disposing method are used for constituting and disposing the components of the new service. The method can generate a plurality of telecommunication services fast and flexibly and has good reusability, openness and compatibility.

Description

Implementation method based on the universal service system structure of universal message bus

Technical field

The present invention relates to a kind of implementation method of general-purpose system of telecommunication service, exactly, relate to a kind of implementation method, belong to computer software, especially large-scale telecommunication service software technology field based on the universal service system structure of the universal message bus of unified communication between each component processes.

Background technology

The opening of telecommunication service and diversity are the important feature of next generation network.For the business that makes can embody these characteristics, the implementation method of the system architecture of service providing system or platform is very crucial.Current, the major technique of this respect includes: the open service that the 3GPP/ETSI/Parlay Group of international organization unites proposition inserts the OMA service environment (OSE) that (OSA) and Parlay X architecture and the OMA of international organization propose.Wherein the Service Capability Feature of OSA (SCF) is too complicated, and the cost performance of Related product is also relatively poor, causes the marketing difficulty; Then there is inefficient problem in Parlay X, and providing of non-real-time service is provided at present.OSE then just just proposes in June, 2005 first, and present slower development, and technology is immature, and it is big to promote difficulty, and influence power is limited.Above-mentioned technical system does not all also obtain the generally approval of domestic operator.

Aspect concrete product, all big enterprises have all proposed some schemes both at home and abroad, as: the professional delivery platform (SDP) of Ericsson and Motorola, the open service of Alcatel-Lucent provide the enhancing network intelligent platform (ENIP) of environment (OSDE), Huawei etc.These present products all lack specific implementation technology such as effective versabus/middleware, are notional product system therefore.In addition, the business of Nokia is sent framework (SDF) and has been adopted Service-Oriented Architecture Based (SOA) bus based on Web Service, therefore is difficult to overcome the shortcoming of the intrinsic inefficiency of Web Service; In the professional delivery platform (SDP) of emerging company adopt OSAAPI and Parlay X as the inside and outside interface, and these two kinds of technology all are based on CORBA and these two kinds of middlewares realizations of Web Service, therefore also be difficult to overcome the intrinsic inefficiency of CORBA, the shortcoming of the inefficiency that expensive shortcoming and Web Service are intrinsic.

Therefore, how to overcome the realization technology of current operation system architecture or the above-mentioned shortcoming of implementation method, become the hot technology that those skilled in the art pay special attention to and are badly in need of solving.

Summary of the invention

In view of this, the purpose of this invention is to provide a kind of generation network development telecommunication service that faces down, implementation method based on the universal service system structure (USSA) of universal message bus, the present invention is application for a patent for invention " implementation method of the universal message bus of unified communication between each component processes " (application number: 200710117945.1) further research and development achievement on the basis and engineering application in Beijing University of Post ﹠ Telecommunication, this method can be fast, generate multiple telecommunication service neatly, has good reusability, open and compatible, can improve the exploitation and the running efficiency of operation system.

In order to achieve the above object, the invention provides a kind of generation network development telecommunication service that faces down, based on the implementation method of the universal service system structure USSA of universal message bus, it is characterized in that: this method comprises following operating procedure:

(1) this universal service system structure USSA being set is made of following three class components: application assembly, universal message bus assembly and fundamental aspect assembly, wherein the universal message bus assembly is used to realize the distributed interactive of each assembly and distributes dispose function as the middleware of this USSA;

(2) each assembly is divided into three layers: communication link layer, common information distribution layer and common information processing layer with difference in functionality; Each communication between components adopts the universal message bus form of unification, standard, and realizes interacting message with session session form;

(3) according to given power system capacity and function, write the global configuration file of describing this USSA whole system topology information, design with the allocation plan of finishing this USSA system, and in operation system, assembly is carried out physically deployment, functional entity table, subnet table and the link of tectonic system are connected table thus again, are used for the start assembly process, set up link and structure routing table;

(4) new business adds fashionable, division methods according to the functional unit of the realization new business of setting, and carry out the mapping of the introducing of component relation and relation respectively and associated component is configured to method on the physical entity from two dimensions of view of the plane of horizontal direction and vertical direction, structure and dispose the assembly of realizing new business.

The present invention is the implementation method of a kind of universal service system structure based on universal message bus (USSA), and its advantage is: this USSA is a middleware with the universal message bus assembly, has realized the flexible framework based on assembly.The universal message bus assembly is supported distributed component communication and management, the difference of maskable physical equipment and the complexity of network topology, realize inter-module transparent, seamless communication.Compare with CORBA .COM distributed middleware, the universal message bus assembly comes down to a kind of distributed running environment of lightweight, has the operational reliability of more performance and Geng Gao, more is applicable to the carrier class operation system.For these reasons, the implementation method of USSA of the present invention can generate multiple telecommunication service product in fast and flexible ground, and can finish upgrading, transformation and evolution easily, has good reusability, opening and compatible.

Description of drawings

Fig. 1 be the present invention face down the telecommunication service of generation network development, based on the flow diagram of the implementation method of the universal service system structure USSA of universal message bus.

Fig. 2 is that the universal service system structure USSA that the present invention is based on universal message bus forms schematic diagram.

Fig. 3 is the three-decker schematic diagram of assembly of the present invention.

Fig. 4 is the schematic diagram of assembly division of the present invention and deployment of components method.

Fig. 5 is the system layout of the configuration file example correspondence of the embodiment of the invention.

Embodiment

For making the purpose, technical solutions and advantages of the present invention clearer, the present invention is described in further detail below in conjunction with accompanying drawing.

Referring to Fig. 1, introduce the present invention face down the telecommunication service of generation network development, based on the concrete operations step of the implementation method of the universal service system structure USSA of universal message bus:

(1) this universal service system structure USSA being set is made of following three class components: application assembly, universal message bus assembly and fundamental aspect assembly, wherein the universal message bus assembly is used to realize the distributed interactive of each assembly and distributes dispose function as the middleware of this USSA;

(2) each assembly is divided into three layers: communication link layer, common information distribution layer and common information processing layer with difference in functionality; Each communication between components adopts the universal message bus form of unification, standard, and realizes interacting message with session session form;

(3) according to given power system capacity and function, write the global configuration file of describing this USSA whole system topology information, design with the allocation plan of finishing this USSA system, and in operation system, assembly is carried out physically deployment, functional entity table, subnet table and the link of tectonic system are connected table thus again, are used for the start assembly process, set up link and structure routing table;

(4) new business adds fashionable, division methods according to the functional unit of the realization new business of setting, and carry out the mapping of the introducing of component relation and relation respectively and associated component is configured to method on the physical entity from two dimensions of view of the plane of horizontal direction and vertical direction, structure and dispose the assembly of realizing new business.

Below above-mentioned each operating procedure is specified:

Referring to Fig. 2, introduce the situation of forming of the universal service system structure USSA of the present invention that constitutes by assembly in the above-mentioned steps (1), this assembly is meant program or the procedure set that can realize setting professional repertoire or partial function that should business, each assembly externally is provided with open interface, this assembly can be reused and be shared, and the universal information that adopts consolidation form is finished mutual between each component processes, and adopts routing mode that universal information is transmitted processing.Wherein assembly is divided three classes again: application assembly, fundamental aspect assembly and universal message bus assembly, universal message bus assembly are the middlewares of USSA, realize the distributed interactive of assembly and distribute disposing function.The concrete function of this three class component is respectively:

The application assembly, be used to provide and professional relevant function, comprise: finish professional execution, professional generation, operational trials and the integrated service application assembly of business tine, finish the professional ability assembly of note SMS, multimedia message MMS, USSD, POC, PIM, DM, Presence, Group List and other telecommunication service, carry out the service management assembly of service maintenance, access authentication, service portal management and business tine management, and the business support assembly of carrying out charging, performance analysis, customer relation management CRM and enterprise resource planning ERP;

The fundamental aspect assembly, be used to the function that provides relevant with bottom-layer network, comprise: the signaling of finishing SS7, SIP, SIGTRAN and other communication protocol inserts assembly, the medium of finishing circuit voice, RTP, CMPP and other medium insert assembly, carry out storage, synchronously, analyze and the data management component of other processing capacity the device management component of execution performance management, configuration management, alarm management, network topology management;

The universal message bus assembly, center element as USSA, provide between the application assembly, between application assembly and the fundamental aspect assembly, the forwards function between the fundamental aspect assembly, between the universal message bus assembly, and be responsible for carrying out the two-stage management function to using aspect assembly and fundamental aspect assembly, so that system can realize dynamically plug and dynamic update to using aspect assembly and fundamental aspect assembly.

Referring to Fig. 3, in order to realize between the assembly mutual based on the unification of universal information, the present invention is divided into three layers to each assembly on the built-in function of assembly, that is: communication link layer, common information distribution layer and common information processing layer.Introduce each layer concrete function that is divided into following three layers assembly among the present invention below:

Communication link layer: be responsible for safeguarding that the link with the universal message bus assembly communicates is connected: receive the message that arrives on the link, be submitted to common information distribution layer; Receive the message that issues by common information processing layer from common information distribution layer, and send on the link; Link-attached implementation comprises: the communicating to connect of TCP socket, FIFO or shared drive mode.

Common information distribution layer: be responsible for the distribution of universal information, comprise that universal information is in the distribution of component internal and the distribution of arriving the universal message bus assembly; This layer receives the universal information of submitting to from communication link layer, is reported to common information processing layer to do to continue to handle.When assembly had in the message rotating function, this layer received message from communication link layer, analyzed the destination address of this message, if the destination address of this message is this assembly, then was submitted to local common information processing layer and handled; Otherwise, search suitable route, and select the respective link of communication link layer, send a message on the correct link;

Common information processing layer: be responsible for receiving the universal information that reports from common information distribution layer, and this message is handled; And the universal information that this assembly produces is passed to common information distribution layer downwards distribute; Because dissimilar universal informations needs common information processing layer to carry out different processing, therefore, this layer is provided with and can carries out the multiple functional module of respective handling to various dissimilar universal informations, and embodies the concrete function difference of different assemblies by this.

During universal service system structure practical application of the present invention, all need under the prerequisite of given power system capacity, carry out the system configuration design for scheme.The related content of system configuration design for scheme includes: the performance of host hardware and quantity, assembly are connected and whole topological structure information of system at the quantity of the distribution on the host node, component processes, network between process.This system configuration scheme adopts the global configuration file of being write by expandable mark language XML to describe, and promptly just can finish the system configuration design for scheme by the editor to this global configuration file.

This system's global configuration file includes following three kinds of information:

1, the functional entity information of system, but comprise each assembly functional entity sign ID, functional entity name, transmit attribute executive module name and overtime time limit;

2, the progress information of system, comprise the domain information and the configuration of the subnet in the territory of construction system, wherein domain information is made up of the host name at territory ID, domain name and this place, territory, and the subnet configuration then is made up of subnet name, functional entity name, initial functional entity example ID and number of processes;

3, the link information of process is a unit configuration link collection with the subnet, utilizes subnet mask can obtain the connection of each process.Subnet connects and comprises the subnet name that connects two ends, place domain name and server both port of origination.

According to global configuration file, in operation system, assembly is carried out the deployment of physics, and functional entity table, subnet table and the link of tectonic system are connected table thus.The configuration information of this global configuration file can be read by each component processes, to be used for the startup process, to set up link and structure routing table.

Referring to Fig. 4, for supporting the development of new business, the assembly of new application need constantly join existing operation system.The present invention has also designed a kind of division methods that realizes the functional unit of new business for this reason, and how the new business assembly carries out dispositions method on physical entity.These two methods are carried out the introducing of component relation and the mapping of relation respectively from the plane of horizontal direction and two dimensions of view of vertical direction.That is to say that new business adds fashionable, the present invention just can construct and dispose the assembly that is used to realize new business according to assembly division methods and the dispositions method set.The arrow of the horizontal direction among the figure is represented to introduce relation, and the arrow of vertical direction is represented mapping relations.

Wherein horizontal plane is divided into description plane, logic plane, realization plane and disposes the plane; Right-angle view is divided into service view, characteristic view, ability view, function view and device view.

The plane be from the angle of the different role relevant with business to assembly carried out the abstract and technology described professional and that realize, the introducing relation of horizontal plane of the present invention is to carry out abstract and four planes that constitute from the angle of user, business development merchant/provider, assembly function designer and four kinds of different role of physical network designer to professional, assembly and deployment thereof: describe plane, logic plane, realization plane and dispose the plane.

Each plane is defined as follows:

A, to describe the plane be from abstract to business network of user's's (comprising service contracting user and end user) angle, its form mainly shows as business and the feature thereof of using natural language description in the application layer of service network, and it is the least unit that can be reused that this service feature is described;

B, logic plane are from abstract to business network of professional developer and service provider's angle, its form mainly shows as uses high-level language (C++, Java, IDL, WSDL etc.) to write the service logic and the characteristic logic of application layer, and various abilities and interface in the service capability layer.

C, realize that the plane is that its form shows as the function implementation that uses the business, feature and the ability that comprise UML, SDL and other formalization art designs from abstract to business network of functional network designer's (the correlation technique department that comprises Virtual network operator and equipment supplier) angle;

D, the business network architecture of disposing the plane are from abstract to business network of physical network designer's (Virtual network operator and equipment supplier's correlation technique department) angle, and its form shows as the physics deployment scheme of the business of using UML, SDL and other formalization art designs, feature, ability, functional entity.

Relation is introduced and is meant on the same horizontal plane, and the view on the left side will be as the technical need and the technical basis of design and realization right views, and right views should guarantee that then left hand side is realized fully.Wherein:

A) relation on description plane is introduced and is embodied in: introduced the description of service feature by business description;

B) relation of logic plane is introduced and is embodied in: introduce professional characteristic logic by service logic, introduce professional ability interface by the characteristic logic of business;

C) relation on realization plane is introduced and is embodied in: introduce professional feature by business realizing and realize, introduce professional ability by the feature realization of business and realize, realized the realization of the functional entity that introducing is professional by the ability of business;

D) relation on deployment plane is introduced and is embodied in: introduced the deployment of service feature by service deployment, introduce the deployment of professional ability by the deployment of service feature, introduce the deployment of business function by the deployment of professional ability, introduce the deployment of physical entity by the deployment of business function.

View is until all processes that the physics of the assembly of realization business is disposed from the initial description of business, angle with certain particular development stage is carried out technology abstract and that describe to assembly professional and that realize, the relationship map of right-angle view of the present invention is divided into following five views, they are respectively at professional (Service), feature (Feature), ability (Capability), abstract and the description that function (Function) and equipment different phases such as (Equipment) are carried out professional and realization assembly, thus be divided into following five views: service view, characteristic view, the ability view, function view, device view.

Relationship map is meant on the same right-angle view that last layer plane will and be realized the technical need and the technical basis of layer plane down as design, and following layer plane should guarantee that then layer plane is realized fully.Wherein

1) relationship map of service view is embodied in: be mapped as service logic by business description, be mapped as business realizing by service logic, be mapped as service deployment by business realizing;

2) relationship map of characteristic view is embodied in: be mapped as characteristic logic by feature description, be mapped as feature by characteristic logic and realize, realize being mapped as feature by feature and dispose;

3) relationship map of ability view is embodied in: realized by the ability interface ability that is mapped as, realize being mapped as the ability deployment by ability;

4) relationship map of function view is embodied in: be mapped as function distributing by functional entity;

5) relationship map of device view is embodied in: the configuration of several specific equipment itself.

In the universal service system structure of the present invention, the universal message bus assembly is responsible for carrying out the two-stage management to using aspect assembly and fundamental aspect assembly, and particular content is:

First order assembly management: comprise functional test, performance test, registration, deployment, the cancellation of assembly, whether wherein functional test is the introducing relation on the realization plane divided according to the described assembly of aforementioned Fig. 4 of the present invention, to the function of assembly, support universal information, fail safe and other function to test; And after by functional test, again assembly is carried out performance test, this test event comprises voice and packet data concurrent service capacity, professional average delay, service availability and service reliability at least; After performance test is passed through, by universal service system structure this assembly is registered, so that component registration can move in system, the content of registration comprises at least: Field Number domainId, functional entity type number feID, functional entity example number instanceId and session number sessionId that the title of assembly, the performance parameter of assembly, system distribute for this assembly; After assembly is finished registration, according to the introducing relation on the deployment plane of the described assembly of Fig. 4, this assembly is disposed, then according to the requirement of service feature, handle component is deployed on the different physical entities with distributing in system again; The cancellation of assembly is meant that after this assembly was die on, system deleted this assembly from system, and deletes the log-on message of this assembly.

Second level assembly management: comprise the search of assembly, the scheduling of assembly, the combination of assembly, the monitoring of assembly, the search of assembly be system according to business demand, the log-on message of enquiring component is sought suitable assembly and is realized business; The scheduling of assembly is meant when traffic load is bigger that system will be assigned to traffic load in each assembly according to the load distribution method of setting; The combination of assembly is meant the concrete needs of system according to business, successively calls different assemblies and realizes business; The monitoring of assembly is meant that system measures the various operational factors of assembly in real time, in time finds the problem in the assembly operating.

Based on the secondary management of said modules, system just can realize dynamic plug and the dynamic update to application aspect assembly and fundamental aspect assembly.

The global configuration file of system of the present invention has comprised the whole topology information of system, just can finish the system configuration design for scheme by the editor to this document.Be embodiment below with the intelligent network service system, an embodiment of this intelligent network service system configuration file that introduction use the inventive method is write, this embodiment XML language compilation:

<configuration>

<programs>

<fe?id＝″1″name＝″ininit″forward＝″0″executable＝″ininit.new″timeout＝″15″/>

<fe?id＝″11″name＝″msgr″forward＝″1″executable＝″msgr.new″timeout＝″15″/>

<fe?id＝″21″name＝″scf″forward＝″0″executable＝″scf.new″timeout＝″120″/>

<fe?id＝″22″name＝″sdf″forward＝″0″executable＝″sdf.new″timeout＝″120″/>

<fe?id＝″31″name＝″n7server″forward＝″0″executable＝″n7server.new″timeout＝″15″/>

</programs>

<processes>

<domain?id＝″1″name＝″A″host＝″hostA″>

<subnet?name＝″ininit″fe＝″ininit″startinstance＝″1″number＝″1″/>

<subnet?name＝″msgr″fe＝″msgr″startinstance＝″1″number＝″2″/>

<subnet?name＝″scf″fe＝″msgr″startinstance＝″1″number＝″2″/>

<subnet?name＝″sdf″fe＝″msgr″startinstance＝″1″number＝″1″/>

</domain>

<domain?id＝″2″name＝″B″host＝″hostB″>

<subnet?name＝″ininit″fe＝″ininit″startinstance＝″1″number＝″1″/>

<subnet?name＝″n7server″fe＝″n7server″startinstance＝″1″number＝″2″/>

</domain>

</processes>

<links>

<linkset?domain1＝″A″subnet1＝″ininit″domain2＝″A″subnet2＝″msgr″startport＝″3300″/>

<linkset?domain1＝″A″subnet1＝″ininit″domain2＝″A″subnet2＝″scf″startport＝″3300″/>

<linkset?domain1＝″A″subnet1＝″ininit″domain2＝″A″subnet2＝″sdf″startport＝″3300″/>

<linkset?domain1＝″B″subnet1＝″ininit″domain2＝″B″subnet2＝″n7server″startport＝″3300″/>

<linkset?domain1＝″A″subnet1＝″msgr″domain2＝″A″subnet2＝″scf″startport＝″3301″/>

<linkset?domain1＝″A″subnet1＝″msgr″domain2＝″A″subnet2＝″sdf″startport＝″3301″/>

<linkset?domain1＝″A″subnet1＝″msgr″domain2＝″B″subnet2＝″n7server″startport＝″3301″/>

</links>

</configuration>

The global configuration file of this intelligent network service system embodiment is made of three kinds of information:

(1) the functional entity information of system (with＜programs〉＜/programs mark): the functional entity ID (id) that comprises each program, functional entity name (name), transmit attribute (forward), executable program name (executable) and overtime time limit (timeout).

(2) progress information of system (with＜processes〉＜/processes mark): comprise the domain information (with＜domain/domain〉mark) of construction system and the subnet configuration in the territory.Domain information is by territory ID (id), and domain name (name) and place, territory host name (host) are formed.Subnet disposes by title (name), functional entity name (fe), and initial example ID (startinstance) and number of processes (number) are formed.Wherein number of processes is used for that ininit starts process and as subnet mask, by calculating the example ID that can obtain each process with initial example ID.

(3) link information of process (with＜links〉＜/links mark): be unit configuration link collection (with＜linkset/〉mark) with the subnet, utilize subnet mask can obtain the connection of each process.Subnet connects and comprises the subnet name (subnet) that connects two ends, place domain name (domain) and server both port of origination (startport).Wherein the position the preceding subnet represent that the server end that connects, the subnet of back represent the client that connects.

Referring to Fig. 5, this Fig. 5 is exactly according to the resulting system configuration scheme of top global configuration file example.In this embodiment, comprise assembly ininit, scf, msgr, sdf, n7server.Host A (hostA) is as territory A, and host B (hostB) is disposed assembly ininit, scf, msgr, sdf etc. as territory B in the A of territory, dispose assembly ininit, n7server etc. in the B of territory.

The applicant utilizes the implementation method of USSA of the present invention, tentatively implement to have developed a collection of specific business platform and technical solution thereof, and formed following a collection of business platform very soon: Ring Back Tone service platform (IIP), mobile payment platform (MPP), Push to talk over Cellular platform (POC), voice value-added service platform (VAP), integrated data business platform (IDP), core business platform of future generation (NCSP), Location Service Platform (LBSP), and on each business platform, developed multiple business.The formation situation of the concrete assembly of each business platform is shown in following table 1, and this table 1 has been listed the essential core component of each business platform, and according to user and professional demand, system can also select to increase other assemblies neatly.

Utilize the inventive method also on some provinces, city-level mobile radio communication, to carry out the test application of scale based on the various platforms of IIP, MPP, POC, VAP, IDP, NCSP, LBSP of USSA exploitation; so that further through after real network operation test and improving, new business such as CRBT, multimedia color ring back tone, color words, small amount payment, Push to talk over Cellular, VHE and technical solution thereof further can be applied.

Claims (9)

1, a kind of generation network development telecommunication service that faces down, based on the implementation method of the universal service system structure USSA of universal message bus, it is characterized in that: this method comprises following operating procedure:

(1) this universal service system structure USSA being set is made of following three class components: application assembly, universal message bus assembly and fundamental aspect assembly, wherein the universal message bus assembly is used to realize the distributed interactive of each assembly and distributes dispose function as the middleware of this USSA;

(2) each assembly is divided into three layers: communication link layer, common information distribution layer and common information processing layer with difference in functionality; Each communication between components adopts the universal message bus form of unification, standard, and realizes interacting message with session session form;

(3) according to given power system capacity and function, write the global configuration file of describing this USSA whole system topology information, design with the allocation plan of finishing this USSA system, and in operation system, assembly is carried out physically deployment, functional entity table, subnet table and the link of tectonic system are connected table thus again, are used for the start assembly process, set up link and structure routing table;

(4) new business adds fashionable, division methods according to the functional unit of the realization new business of setting, and carry out the mapping of the introducing of component relation and relation respectively and associated component is configured to method on the physical entity from two dimensions of view of the plane of horizontal direction and vertical direction, structure and dispose the assembly of realizing new business.

2, the implementation method of universal service system structure according to claim 1, it is characterized in that: described assembly is program or the procedure set that can realize setting professional repertoire or partial function that should business, this assembly is provided with open external interface, each assembly can be reused and be shared, and the universal information that adopts consolidation form finishes mutual between each component processes, and adopts routing mode that universal information is transmitted processing.

3, the implementation method of universal service system structure according to claim 1 is characterized in that: the concrete function of three class components of described universal service system structure USSA is respectively:

The application assembly, be used to provide and professional relevant function, comprise: finish professional the execution, the professional generation, the service application assembly that operational trials and business tine are integrated, finish note SMS, multimedia message MMS, unstructured supplementary service data USSD, PTT POC, personal information management PIM, terminal unit management DM, terminal presence Presence, the professional ability assembly of user group list Group List and other telecommunication service, carry out service maintenance, access authentication, the service management assembly of service portal management and business tine management, and carry out and charge, performance analysis, the business support assembly of customer relation management CRM and enterprise resource planning ERP;

The fundamental aspect assembly, be used to the function that provides relevant with bottom-layer network, comprise: the signaling of finishing Signaling System Number 7 SS7, Session initiation Protocol SIP, signaling transfer protocol SIGTRAN and other communication protocol inserts assembly, the medium of finishing circuit voice, realtime transmission protocol RTP, the peer-peer protocol CMPP of China Mobile and other medium insert assembly, carry out storage, synchronously, analyze and the data management component of other processing capacity the device management component of execution performance management, configuration management, alarm management, network topology management;

The universal message bus assembly, center element as USSA, provide between the application assembly, between application assembly and the fundamental aspect assembly, the forwards function between the fundamental aspect assembly, between the universal message bus assembly, and be responsible for carrying out the two-stage management function to using aspect assembly and fundamental aspect assembly, so that system can realize dynamically plug and dynamic update to using aspect assembly and fundamental aspect assembly.

4, the implementation method of universal service system structure according to claim 1 is characterized in that: the described function separately that is divided into three layers assembly of difference in functionality is respectively:

Communication link layer is responsible for safeguarding that the link with the universal message bus assembly communicates is connected: receive the message that arrives on the link, be submitted to common information distribution layer; Receive the message that issues by common information processing layer from common information distribution layer, and send on the link; Link-attached implementation comprises: the communicating to connect of transmission control protocol TCP socket, fifo fifo pipeline or shared drive mode;

Common information distribution layer is responsible for the distribution of universal information, comprises that universal information is in the distribution of component internal and the distribution of arriving the universal message bus assembly; This layer receives the universal information of submitting to from communication link layer, is reported to common information processing layer to do to continue to handle; When assembly had in the message rotating function, this layer received message from communication link layer, analyzed the destination address of this message, if the destination address of this message is this assembly, then was submitted to local common information processing layer and handled; Otherwise, search suitable route, and select the respective link of communication link layer, send a message on the correct link;

Common information processing layer is responsible for receiving the universal information that reports from common information distribution layer, and this message is handled; And the universal information that this assembly produces is passed to common information distribution layer downwards distribute; This layer is provided with and can carries out the multiple functional module of respective handling to various dissimilar universal informations, and embodies the concrete function difference of different assemblies by this.

5, the implementation method of universal service system structure according to claim 1 is characterized in that: the related content of described system configuration design for scheme comprises: the performance of host hardware and quantity, assembly are connected and whole topological structure information of system at the quantity of the distribution on the host node, component processes, network between process; This system configuration scheme adopts and is described by the global configuration file of expandable mark language XML language compilation, promptly just can finish the system configuration design for scheme by the editor to this global configuration file.

6, the implementation method of universal service system structure according to claim 5, it is characterized in that: the configuration information of the global configuration file of described system reads and saves as function corresponding entity list, subnet table and link by each component processes and is connected table, to be used for the startup process, to set up link and structure routing table; This system's global configuration file includes following three kinds of information:

The functional entity information of system, but comprise each assembly functional entity sign ID, functional entity name, transmit attribute executive module name and overtime time limit;

The progress information of system, comprise the domain information and the configuration of the subnet in the territory of construction system, described domain information is made up of the host name at territory ID, domain name and this place, territory, and the subnet configuration then is made up of subnet name, functional entity name, initial functional entity example ID and number of processes;

The link information of process is a unit configuration link collection with the subnet, utilizes subnet mask can access the connection of each process; Subnet connects and comprises the subnet name that connects two ends, place domain name and server both port of origination.

7, the implementation method of universal service system structure according to claim 1 is characterized in that:

Described plane be from the angle of the different role relevant with business to the abstract and description technique that assembly carried out professional and that realize, the introducing relation of this horizontal plane is to carry out abstract and four planes that constitute from the angle of user, business development merchant/provider, assembly function designer and four kinds of different role of physical network designer to professional, assembly and deployment thereof: describe plane, logic plane, realization plane and dispose the plane; It is defined as follows:

Describe the plane and be from abstract to business network of professional contracted user and end user's angle, its form shows as business and the feature thereof of using natural language description in the application layer of service network, and it is the least unit that can be reused that this service feature is described;

Logic plane is from abstract to business network of professional developer and service provider's angle, its form shows as service logic and the characteristic logic that uses the application layer that comprises C++, Java, IDL IDL, WSDL WSDL and other high level language, and various abilities and interface in the service capability layer;

Realize that the plane is that its form shows as the function implementation that uses the business, feature and the ability that comprise UML UML, business description language SDL and other formalization art designs from abstract to business network of functional network designer's angle;

The business network architecture of disposing the plane is from abstract to business network of physical network designer's angle, and its form shows as the physics deployment scheme of the business of using UML UML, business description language SDL and other formalization art designs, feature, ability, functional entity;

Described view is until all processes that the physics of the assembly of realization business is disposed from the initial description of business, angle with certain particular development stage is carried out technology abstract and that describe to assembly professional and that realize, the relationship map of the view of this vertical direction is respectively at professional Service, feature Feature, ability Capability, abstract and the description that the different phase of function Function and equipment Equipment is carried out professional and realization assembly, thus be divided into following five views: service view, characteristic view, the ability view, function view, device view.

8, the implementation method of universal service system structure according to claim 7, it is characterized in that: described relation is introduced and is meant on the same horizontal plane, the view on the left side will be as the technical need and the technical basis of design and realization right views, and right views should guarantee that then left hand side is realized fully; Wherein:

What the relation on description plane was introduced is embodied in: introduced the description of service feature by business description;

What the relation of logic plane was introduced is embodied in: introduce professional characteristic logic by service logic, introduce professional ability interface by the characteristic logic of business;

What the relation on realization plane was introduced is embodied in: introduce professional feature by business realizing and realize, introduce professional ability by the feature realization of business and realize, realized the realization of the functional entity that introducing is professional by the ability of business;

What the relation on deployment plane was introduced is embodied in: introduced the deployment of service feature by service deployment, introduce the deployment of professional ability by the deployment of service feature, introduce the deployment of business function by the deployment of professional ability, introduce the deployment of physical entity by the deployment of business function;

Described relationship map is meant on the same right-angle view that last layer plane will and be realized the technical need and the technical basis of layer plane down as design, and following layer plane should guarantee that then layer plane is realized fully; Wherein:

Being embodied in of the relationship map of service view: be mapped as service logic by business description, be mapped as business realizing, be mapped as service deployment by business realizing by service logic;

Being embodied in of the relationship map of characteristic view: be mapped as characteristic logic by feature description, be mapped as feature by characteristic logic and realize, realize being mapped as feature by feature and dispose;

Being embodied in of the relationship map of ability view: realize by the ability interface ability that is mapped as, realize being mapped as the ability deployment by ability;

Being embodied in of the relationship map of function view: be mapped as function distributing by functional entity;

Being embodied in of the relationship map of device view: the configuration of several specific equipment itself.

9, the implementation method of universal service system structure according to claim 3 is characterized in that: described universal message bus assembly to the particular content of the two-stage assembly management function of application aspect assembly and the execution of fundamental aspect assembly is:

First order assembly management: comprise functional test, performance test, registration, deployment, the cancellation of assembly, whether wherein functional test is the introducing relation on the realization plane divided according to described assembly, to the function of assembly, support universal information, fail safe and other function to test; And after by functional test, again assembly is carried out performance test, this test event comprises voice and packet data concurrent service capacity, professional average delay, service availability and service reliability at least; After performance test is passed through, by universal service system structure this assembly is registered, so that component registration can move in system, the content of registration comprises at least: Field Number domainId, functional entity type number feID, functional entity example number instanceId and session number sessionId that the title of assembly, the performance parameter of assembly, system distribute for this assembly; After assembly was finished registration, the introducing relation on the deployment plane of the described assembly of foundation was disposed this assembly again, and then according to the requirement of service feature, handle component is deployed on the different physical entities with distributing in system; The cancellation of assembly is meant that after this assembly was die on, system deleted this assembly from system, and deletes the log-on message of this assembly;

Second level assembly management: comprise the search of assembly, the scheduling of assembly, the combination of assembly, the monitoring of assembly, the search of assembly be system according to business demand, the log-on message of enquiring component is sought suitable assembly and is realized business; The scheduling of assembly is meant when traffic load is bigger that system will be assigned to traffic load in each assembly according to the load distribution method of setting; The combination of assembly is meant the concrete needs of system according to business, successively calls different assemblies and realizes business; The monitoring of assembly is meant that system measures the various operational factors of assembly in real time, in time finds the problem in the assembly operating.

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