CN105450713B - The methods, devices and systems of clustered deploy(ment) front end processor - Google Patents

Abstract

The invention discloses a kind of methods, devices and systems of clustered deploy(ment) front end processor.Wherein, this method comprises: receiving user's operation request；From the front end processor for meeting preset condition in front end processor cluster is obtained in front end processor routing table, determine that user's operation requests corresponding access path；It requests to generate operation message based on user's operation；Corresponding access path is requested to be sent to corresponding front end processor for message is operated using user's operation；Receive the message that front end processor returns and processing result, wherein the front end processor by receiving operation message forwards operation message to message handling system, to obtain the Message processing result of message handling system generation.The present invention, which solves front end processor load excessive caused by single-point deployment front end processor, will lead to the low technical problem of interactive efficiency.

Description

The methods, devices and systems of clustered deploy(ment) front end processor

Technical field

The present invention relates to computer internet fields, in particular to a kind of method, apparatus of clustered deploy(ment) front end processor And system.

Background technique

During carrying out business operation between the front-end client that the prior art provides and background server, it can pass through A front end processor between front-end client and background server is provided to realize a kind of security authentication services, this field skill What art personnel can be known is that the front end processor has the characteristics that network communication, message authentication and encryption.

Based on above system, in the art, during above system structure being applied to bank transaction service. Specifically, in the case where bank is in order to expand oneself business, the direct-connected type of banks such as can will transfer accounts, and pay, return goods Business function is open to be used to using the trade company of front-end client.

The business datum between background server provided in order to facilitate the trade company for using front-end client and bank carries out Interaction, bank can provide a kind of application software for being mounted on front-end client for the trade company using front-end client, and with the peace Mounted in the corresponding equipment of the application software of front-end client, normally referred to as " front end processor ".The front end processor is located at front-end customer Between end and background server, for realizing functions such as network communication, message authentication, encryptions.

In the process that front-end client and background server carry out data interaction, front-end client is only needed message It is sent to front end processor in plain text, the specific industry such as network communication, message authentication, encryption for realizing between front end processor and background server Business, is all automatically performed on the backstage of front end processor.So that the message communication process between front-end client and background server Become more convenient.In this way, reducing the development difficulty of front-end client, the development cycle is shortened, is easy to use front-end customer The direct-connected service of bank that the access bank of trade company at end provides.

Specifically, based on example shown in FIG. 1 it is found that in order to enable the backstage that the front-end client of trade company and bank provide Server has more convenient and fast data interaction, and the prior art provides the front end processor that application scenarios are single-point deployment.This single-point The front end processor of deployment usually only encrypts, the function of endorsing.Using the trade company of front-end client by deployment services device, connection is single A front end processor, so that the background server provided with bank is connected.

Such as sample application shown in FIG. 1, in bank's interactive system, bank is for the safety for improving data interaction Purpose, bank's background server can issue one and the matched certificate of front end processor or key.That issues matches with front end processor Certificate perhaps key typically only allows for installing on a front-end server and the certificate or key is arranged unique Username and password.Using the trade company of front-end client when message is sent to front end machine in plain text, need to send simultaneously The username and password.

Further, the operation flow of system shown in Figure 1 can be described in conjunction with Fig. 2, as shown in Fig. 2, deployment services device The process of the background server provided by front end processor with bank includes: firstly, the operation of deployment services device is asked in user's transmission It asks, after deployment services device receives the request of user's transmission, tissue message is in plain text.Then front end processor receiving front-end client tissue Message plaintext and user name corresponding with front end processor, password.Front end processor verifies user name, password, by rear, will endorse Message afterwards is sent to background server.

It is a kind of choosing well for the trade company small for trading volume in the above-mentioned scheme using single-point deployment front end processor It selects, the front end processor scheme of single-point deployment can reduce the development cost of deployment services device, shorten the exploitation week of deployment services device Phase.But for the trade company big for trading volume, the capacity and availability of system are even more important, and any Single Point of Faliure can all influence Transaction is normally carried out, to influence the business processing and operation expanding of trade company.Since the scheme of single-point deployment front end processor is a large amount of In the case where transaction, it will lead to single-point deployment and cause front end processor load excessive, the low situation of operating efficiency occurs.Therefore, it is impossible to suitable The trade company big for trading volume.

For the above-mentioned prior art provide single-point deployment front end processor scheme carry out big data interaction during, by It will lead to the low problem of interactive efficiency in front end processor load excessive, currently no effective solution has been proposed.

Summary of the invention

The embodiment of the invention provides a kind of methods, devices and systems of clustered deploy(ment) front end processor, at least to solve a portion The technical issues of front end processor load excessive caused by administration's front end processor will lead to interactive efficiency.

According to an aspect of an embodiment of the present invention, a kind of method of clustered deploy(ment) front end processor is provided, comprising: receive and use Family operation requests；From the front end processor for meeting preset condition in front end processor cluster is obtained in front end processor routing table, user's operation is determined Request corresponding access path；It requests to generate operation message based on user's operation；Request corresponding access logical using user's operation Road is sent to corresponding front end processor for message is operated；Receive the Message processing result that front end processor returns, wherein by receiving behaviour Make the front end processor forwarding operation message of message to message handling system, to get the Message processing knot of message handling system generation Fruit.

According to another aspect of an embodiment of the present invention, a kind of device of clustered deploy(ment) front end processor is additionally provided, comprising: receive Module, for receiving user's operation request；Determining module, for pre- from satisfaction in front end processor cluster is obtained in front end processor routing table If the front end processor of condition, determine that user's operation requests corresponding access path；Message generation module, for being asked based on user's operation Seek survival into operation message；Sending module is sent to pair for requesting corresponding access path that will operate message using user's operation The front end processor answered；Receiving module, for receiving the Message processing result of front end processor return, wherein by receiving operation message Front end processor forwarding operation message to message handling system, to get the Message processing result of message handling system generation.

According to another aspect of an embodiment of the present invention, a kind of system of clustered deploy(ment) front end processor is additionally provided, comprising: front end Client, for generating user's operation request；Front end processor cluster, including multiple front end processors；Deployment services device, it is objective with front end respectively Each front end processor in family end and front end processor cluster establishes correspondence, for receiving user's operation request, from front end processor road Meet the front end processor of preset condition by obtaining in front end processor cluster in table, determine user's operation request corresponding access path it Afterwards, using user's operation request corresponding access path will based on user's operation request generate operation message be sent to it is corresponding Front end processor；Each front end processor in Message processing server, with front end processor cluster establishes correspondence, for receive it is corresponding before The operation message of machine forwarding is set, and generates Message processing result.

In embodiments of the present invention, using reception user's operation request；Front end processor cluster is obtained from front end processor routing table The middle front end processor for meeting preset condition determines that user's operation requests corresponding access path；It requests to generate behaviour based on user's operation Make message；Corresponding access path is requested to be sent to corresponding front end processor for message is operated using user's operation；Receive front end processor The Message processing result of return, wherein by receiving the front end processor forwarding operation message of operation message to message handling system, It is asked by receiving module for receiving user's operation to get the mode of the Message processing result of message handling system generation It asks；Determining module, for determining user from the front end processor for meeting preset condition in front end processor cluster is obtained in front end processor routing table The corresponding access path of operation requests；Message generation module, for generating operation message based on user's operation request；Send mould Block, for requesting corresponding access path to be sent to corresponding front end processor for message is operated using user's operation；Receiving module is used In the Message processing result for receiving front end processor return, wherein by receiving the front end processor forwarding operation message of operation message extremely Message handling system, to get the Message processing of message handling system generation as a result, having reached the mesh of clustered deploy(ment) front end processor , and then solve the technical issues of front end processor load excessive caused by a deployment front end processor will lead to interactive efficiency.

Detailed description of the invention

The drawings described herein are used to provide a further understanding of the present invention, constitutes part of this application, this hair Bright illustrative embodiments and their description are used to explain the present invention, and are not constituted improper limitations of the present invention.In the accompanying drawings:

Fig. 1 is the structural schematic diagram of the system of single-point deployment front end processor according to prior art；

Fig. 2 is the work flow diagram of single-point deployment front end processor according to prior art；

Fig. 3 is the structural schematic diagram of the system of according to embodiments of the present invention one clustered deploy(ment) front end processor；

The flow diagram of the method for the clustered deploy(ment) front end processor of Fig. 4 according to embodiments of the present invention two；

A kind of flow diagram of the method for optional clustered deploy(ment) front end processor of Fig. 5 according to embodiments of the present invention two；

A kind of flow diagram of the method for optional clustered deploy(ment) front end processor of Fig. 6 according to embodiments of the present invention two；

A kind of work flow diagram of clustered deploy(ment) front end processor of Fig. 7 according to embodiments of the present invention two；

Fig. 8 is the schematic diagram of the device of according to embodiments of the present invention three clustered deploy(ment) front end processor；

A kind of schematic diagram of optional clustered deploy(ment) front end processor of Fig. 9 according to embodiments of the present invention two；And

A kind of schematic diagram of optional clustered deploy(ment) front end processor of Figure 10 according to embodiments of the present invention two.

Specific embodiment

In order to enable those skilled in the art to better understand the solution of the present invention, below in conjunction in the embodiment of the present invention Attached drawing, technical scheme in the embodiment of the invention is clearly and completely described, it is clear that described embodiment is only The embodiment of a part of the invention, instead of all the embodiments.Based on the embodiments of the present invention, ordinary skill people The model that the present invention protects all should belong in member's every other embodiment obtained without making creative work It encloses.

It should be noted that description and claims of this specification and term " first " in above-mentioned attached drawing, " Two " etc. be to be used to distinguish similar objects, without being used to describe a particular order or precedence order.It should be understood that using in this way Data be interchangeable under appropriate circumstances, so as to the embodiment of the present invention described herein can in addition to illustrating herein or Sequence other than those of description is implemented.In addition, term " includes " and " having " and their any deformation, it is intended that cover Cover it is non-exclusive include, for example, the process, method, system, product or equipment for containing a series of steps or units are not necessarily limited to Step or unit those of is clearly listed, but may include be not clearly listed or for these process, methods, product Or other step or units that equipment is intrinsic.

Embodiment 1

In its most basic configuration, Fig. 3 is the knot of the system of according to embodiments of the present invention one clustered deploy(ment) front end processor Structure schematic diagram.For purposes of illustration, the architecture drawn is only an example of proper environment, is not made to the application Any limitation is proposed with range or function.Also the computing system should not be construed to any component shown in Fig. 3 or combinations thereof With any dependence or demand.

As shown in figure 3, the system of clustered deploy(ment) front end processor provided by the present application may include: front-end client 10, it is preposition Machine cluster 12, deployment services device 14 and Message processing server 16.

Wherein front-end client 10, for generating user's operation request；Front end processor cluster 12, including multiple front end processors 122； Deployment services device 14 establishes correspondence with each front end processor in front-end client and front end processor cluster respectively, for receiving User's operation request determines user from the front end processor for meeting preset condition in front end processor cluster is obtained in front end processor routing table After the corresponding access path of operation requests, request corresponding access path that will please seek survival based on user's operation using user's operation At operation message be sent to corresponding front end processor；Each front end processor in Message processing server 16, with front end processor cluster is built Vertical correspondence for receiving the operation message of corresponding front end processor forwarding, and generates Message processing result.

Analysis after deployment services device gets user's operation request, reads storage it is found that in the above embodiments of the present application one In the front end processor routing table of deployment services device, from the front end processor for meeting preset condition in the table in acquisition front end processor cluster, thus It determines and executes front end processor corresponding to the operation requests, and by confirming access path corresponding with the front end processor.Based on user The operation message that operation requests generate requests corresponding access path using with user's operation, and operation message is sent to pair The front end processor answered.The front end processor is forwarded to message handling system after receiving operation message, by operation message, to get The Message processing result that message handling system generates.Finally Message processing result is sent in deployment services device.It is aobvious and easy See, above scheme determines that current user operation requests corresponding visit by using the front end processor routing table in deployment services device Ask channel, which is directed toward a unique target front end processor in front end processor cluster, as a result, through the above scheme can be quasi- A front end processor in locative preposition machine cluster is determined to complete the interactive operation of big data, to solve single-point in the prior art The scheme of front end processor is disposed during carrying out big data interaction, since to will lead to interactive efficiency low for front end processor load excessive Problem has reached the efficiency for improving front end processor processing interactive operation data.

The embodiment of the above embodiments of the present application one can be used on deployment services device.It is above-mentioned in implementation process A kind of embodiment of deployment services device in embodiment one can be trade company to use deployment used in front end processor cluster Server, below just by taking the deployment services device as an example to it is above-mentioned it is true in be described in detail.

Deployment services device in above-described embodiment one is receiving Transaction Information (three T's type, the correlations such as transaction amount Information) after, deployment services device reads the front end processor routing table being stored in deployment services device first.According to front end processor routing table The preposition machine information of middle record, gets the front end processor for meeting preset condition, for transaction provide a deployment services device with it is preposition Access path between machine.Deployment services device is according to the front end processor parameter recorded in front end processor routing table simultaneously, to Transaction Information It carries out processing and generates transaction message.The access path that the transaction message generated by deployment services device is got before is sent In to corresponding front end processor.The front end processor receives operation message, and transaction message is forwarded to the background server of bank, is obtained After getting transaction message processing result, which is sent back into deployment services device.Front end processor routing table in above-mentioned example It can load and be run in front end processor router.

The above-mentioned deployment services device of the application is realizing the determining front end processor for meeting preset condition from front end processor routing table Before function, the function of creation front end processor routing table can also be realized, in front end processor routing table record front end processor cluster herein The preposition machine information of each front end processor, preposition machine information include at least following any one or more data fields: front end processor Access address, the routing ratio of front end processor, the switch state of front end processor and front end processor parameter, wherein the routing ratio of front end processor For characterizing the access privileges of other front end processors in the more preposition routing table of current front end processor, front end processor parameter includes being used for area Divide the particular community of each front end processor, the switch state of front end processor is for characterizing whether front end processor allows to access.

One or more data fields can be arranged in above-mentioned deployment services device in front end processor routing table, above-mentioned in front end processor The one or more such as preposition machine informations being arranged in routing table may include the routing ratio of front end processor, the switch shape of front end processor State and front end processor parameter.

The above-mentioned deployment services device of the application obtains in front end processor cluster in realizing front end processor routing table meets preset condition Front end processor, when determining that user's operation requests the function of corresponding access path, deployment services device herein can also be by sweeping Every preposition machine information in front end processor routing table is retouched, the routing ratio of each front end processor in front end processor cluster is read；Select road It is more than the front end processor of predetermined threshold as the front end processor for meeting preset condition by ratio maximum or routing ratio；From front end processor road Meet the access address of the front end processor of preset condition by reading in table, obtains user's operation and request corresponding access path.

Above-mentioned deployment services device, when reading the front end processor routing table in deployment server, first to front end processor routing table The routing ratio of interior front end processor corresponding with every front end processor in front end processor cluster is read out.Then, compare front end processor Proportional numerical value is routed, the setting routing ratio value maximum or with front end processor with the routing ratio value of front end processor is more than predetermined threshold Be worth corresponding front end processor as the front end processor for meeting preset condition, finally dispose server is read from front end processor routing table and The above-mentioned corresponding access address of front end processor for meeting preset condition obtains the access path for carrying out data interaction operation.

The above-mentioned deployment services device of the application is when realizing the function based on user's operation request generation operation message, herein Deployment services device can also judge that user's operation requests whether to join comprising front end processor in the preposition machine information of corresponding access path Number；In the case where including front end processor parameter in the preposition machine information that user's operation requests corresponding access path, will be preposition Machine parameter is loaded onto after user's operation request, requests the user's operation for being loaded with front end processor parameter to carry out message assembling, raw At operation message；Not the case where not including front end processor parameter in the preposition machine information that user's operation requests corresponding access path Under, user's operation is requested to carry out message assembling, generates operation message.

Above-mentioned deployment services device, according to the front end processor parameter in the preposition machine information of corresponding access path, to generate behaviour Make message.When in the preposition machine information with access path including front end processor parameter, deployment services device is according to front end processor parameter pair The message of user's operation request is assembled, and operation message is generated.It is preposition when not including in the preposition machine information with access path When machine parameter, directly user's operation is requested to carry out message assembling, generates operation message.In practice in conjunction with the present embodiment two With when front end processor parameter is username and password corresponding with corresponding front end processor, deployment services device can will be read Username and password be added to any position in the front end, rear end or message of message, thus generate operation message be sent to The front end machine.

Corresponding access path is requested to be sent to correspondence for message is operated using user's operation in realization in deployment services device Front end processor function after, following function may be implemented in the above-mentioned front end processor cluster of the application:

Front end processor receives operation message；Front end processor parameter in front end processor verification operation message, wherein front end processor parameter packet It includes: front end processor user name and front end processor password；In the case where front end processor verifies the successful situation of front end processor parameter, front end processor forwarding operation Message is to message handling system；In the case where front end processor verifying front end processor parameter failure, operation message is abandoned；

Front end processor in front end processor cluster passes through the front end processor user name and preposition secret to the operation message that will be received Code is verified, if the front end processor user name and front end processor password in the operation message received match with the front end processor, In the case where being proved to be successful, then front end processor forwarding operates message to message handling system；If in the operation message received Front end processor user name and front end processor password and the front end processor mismatch, in the case where authentication failed, then the front end processor abandons behaviour Make message.

According to above-described embodiment one during practice, the verification method of front end processor is not limited solely to front end processor use The mode that name in an account book and front end processor password are verified.It can also be by other means, comprising: fingerprint authentication, voice authentication, face The safety verifications modes such as identification verifying.

Message is operated to report by receiving the front end processor forwarding of operation message in the above-mentioned Message processing server of the application After literary processing system, following function is may be implemented to get at the message of message handling system generation in Message processing server Manage the function of result:

Message handling system receives the operation message of the front end processor forwarding of operation message；Message handling system reports operation Text carries out operation processing, generates Message processing result；Message processing result is returned to front end processor by message handling system, and is passed through Front end processor returns to front end user.

Above-mentioned Message processing server handles the operation message of the front end processor forwarding of the operation message received, and Message processing is generated to the result of the processing as a result, the Message processing result of generation is passed through the front end processor of former forwarding operation message Return to deployment services device.

The above-mentioned deployment services device of the application is when realizing the function based on user's operation request generation operation message, herein Deployment services device can also be by the routing proportional numerical value of each front end processor in default front end processor routing table, to initialize front end processor The routing ratio of each front end processor recorded in routing table；The road of each front end processor recorded in dynamic adjustment front end processor routing table By the function of ratio, the step of realizing the function, includes:

The historical communication record of each front end processor is obtained, historical communication record includes the communication success rate of front end processor；It uses The communication success rate of each front end processor dynamically modifies the routing proportional numerical value of each front end processor；Wherein, any one or it is more The routing ratio value of a front end processor is less than or equal in the case where closing threshold value, and routing ratio value is less than or equal to before closing threshold value The switch state for setting machine is revised as forbidding the working condition of access automatically.

The routing ratio setting function to the front end processor of its front end processor routing table may be implemented in above-mentioned deployment services device.It is first First, can routing ratio value to the front end processor in preposition routing table one initial value is set.With using, deployment services device can To be modified in corresponding front end processor routing table according to the communication success rate in the historical communication of each front end processor record The routing proportional numerical value of front end processor.When the routing ratio value of some front end processor is less than or equal to pre-set closing threshold value When, the switch state of the front end processor in the corresponding preposition routing table of the front end processor will be revised as pass automatically by deployment services device, should Front end processor enters the working condition for forbidding disposing server access.It, can be to avoid front end processor processing interaction behaviour according to the above method The low efficiency for leading to front end processor processing interactive operation data that the success rate for making data is low, software or hardware break down is asked Topic.

Embodiment 2

According to embodiments of the present invention two, additionally provide a kind of method implementation that can be used for implementing the above system embodiment two Example two, it should be noted that step shown in the flowchart of the accompanying drawings can be in the meter of such as a group of computer-executable instructions It is executed in calculation machine system, although also, logical order is shown in flow charts, and it in some cases, can be with difference Shown or described step is executed in sequence herein.

Fig. 4 is the flow diagram of the method for according to embodiments of the present invention two clustered deploy(ment) front end processor.

As shown in figure 4, this method can be applied in deployment services device shown in Fig. 3, from the angle of the deployment services device The implementation process of the method for the application clustered deploy(ment) front end processor is described in detail, may include steps of:

Step S40 receives user's operation request.

In above-mentioned steps S40, the user's operation request content received may include message plaintext, for recording user behaviour Work executes movement, such as action type, operation content etc..

Step S42 determines user from the front end processor for meeting preset condition in front end processor cluster is obtained in front end processor routing table The corresponding access path of operation requests.Front end processor routing table in above-mentioned example can be loaded to be run in front end processor router.

In above-mentioned steps S42, preposition client is needed first to access and is stored in deployment services device before assembling message Front end processor routing table, to obtain an available channel access.The front end processor routing table is for recording the multiple of each front end processor Attribute, the specific content of each attribute record front end processor, so that front end processor list is constituted, every record pair in front end processor list Answer the access path of one with front end processor communication.

Step S44 generates operation message based on user's operation request.

In the scheme that above-mentioned steps S44 is realized, determining that user's operation is requested by the deployment services device in embodiment two After corresponding access path, the message assembling function based on operation requests can be realized by deployment services device, generate behaviour Make message.

Herein it should be noted that message assembling process directly can carry out message assembling to operation requests, can also incite somebody to action The operation requests progress message assembling being loaded with after the particular community parameter of front end processor.

Step S46 requests corresponding access path to be sent to corresponding front end processor for message is operated using user's operation.

Step S48 receives the Message processing result that front end processor returns, wherein by the front end processor for receiving operation message Forwarding operation message is to message handling system, to get the Message processing result of message handling system generation.

In the above embodiments of the present application two, after deployment services device gets user's operation request, reading is stored in deployment clothes The front end processor routing table of business device, from the front end processor for meeting preset condition in front end processor cluster is obtained in the table, so that it is determined that executing Front end processor corresponding to the operation requests, and by confirming access path corresponding with the front end processor.It is requested based on user's operation The operation message of generation requests corresponding access path using with user's operation, operation message is sent to corresponding preposition Machine.The front end processor is forwarded to message handling system after receiving operation message, by operation message, to get Message processing The Message processing result that system generates.Finally Message processing result is sent in deployment services device.It will be apparent that above-mentioned Scheme determines that current user operation requests corresponding access path by using the front end processor routing table in deployment services device, should Access path is directed toward a unique target front end processor in front end processor cluster, before being accurately positioned through the above scheme as a result, In machine cluster front end processor is set to complete the interactive operation of big data, so that it is preposition to solve single-point deployment in the prior art The scheme of machine, since front end processor load excessive will lead to the low problem of interactive efficiency, reaches during carrying out big data interaction The efficiency for improving front end processor processing interactive operation data is arrived.

Step S40 provided by the above embodiments of the present application two to step S48 can be used on deployment services device, be implemented In the process, a kind of embodiment of the deployment services device in above-described embodiment two can be trade company to use front end processor collection Group used in deployment services device, below just by taking the deployment services device as an example to it is above-mentioned the fact in be described in detail.

Deployment services device in above-described embodiment two is receiving Transaction Information (three T's type, the correlations such as transaction amount Information) after, deployment services device reads the front end processor routing table being stored in deployment services device first.According to front end processor routing table The preposition machine information of middle record, gets the front end processor for meeting preset condition, for transaction provide a deployment services device with it is preposition Access path between machine.Deployment services device is according to the front end processor parameter recorded in front end processor routing table simultaneously, to Transaction Information It carries out processing and generates transaction message.The access path that the transaction message generated by deployment services device is got before is sent In to corresponding front end processor.The front end processor receives operation message, and transaction message is forwarded to the background server of bank, is obtained After getting transaction message processing result, which is sent back into deployment services device.

Preferably, it as shown in figure 5, in the above embodiments of the present application two, is realized from front end processor routing table really in step S42 Surely before the function of meeting the front end processor of preset condition, it can also be performed and step is implemented as follows:

Step S41 creates front end processor routing table, and each front end processor is preposition in front end processor routing table record front end processor cluster Machine information, preposition machine information include at least following any one or more data fields: the access address of front end processor, front end processor Routing ratio, the switch state of front end processor and front end processor parameter, wherein the routing ratio of front end processor is for characterizing current front end processor Compare the access privileges of other front end processors in front end processor routing table, front end processor parameter includes the spy for distinguishing each front end processor Determine attribute, the switch state of front end processor is for characterizing whether front end processor allows to access.

In the scheme that above-mentioned steps S41 is realized, one or more data fields can be set in front end processor routing table, on Stating the one or more such as preposition machine informations being arranged in front end processor routing table may include the routing ratio of front end processor, preposition The switch state and front end processor parameter of machine.The setting method of these data fields is referred to table 1.

Table 1:

In conjunction with the above embodiments of the present application two, for having 4 front end processors in front end processor cluster, in conjunction with table 1, to preposition The setting method and content of machine information are described in detail:

The access address of front end processor: the access address of front end processor is corresponding with each front end processor respectively, and deployment services device is logical The access address of front end processor is crossed, corresponding front end processor can be directly accessed.The access address of front end processor specifically can be set are as follows: Http: // 192.168.0.1, https: //front_end_processor.com or //processor1 etc..

The routing ratio of front end processor: the routing ratio of front end processor is corresponding with each front end processor respectively, passes through front end processor Ratio value is routed, to indicate the access privileges of other front end processors in current front end processor and deployment services device front end processor routing table. In above-described embodiment two, deployment services device can select larger corresponding with routing ratio value according to the routing ratio value of front end processor Front end processor as the front end processor for meeting preset condition.Wherein, the routing ratio of front end processor can also be according to the load of front end processor Dynamic regulation is carried out with the efficiency of front end processor processing interactive operation data, to avoid as caused by some front end processor load excessive The low problem of interactive efficiency.In conjunction with the utilization of the present embodiment two in practice, when a certain front end processor and deployment services device or When interaction failure rate when Message processing server process interactive operation is high, then turn down preposition in deployment services device with the front end processor The numerical value of ratio is routed in machine routing table, to reduce the access privileges of front end processor.

The switch state of front end processor: the switch state of front end processor is corresponding with each front end processor.By in deployment services device In front end processor routing table front end processor state of opening the light in "ON" or "Off" are set, realize the mark to corresponding front end processor state Note.In conjunction with the utilization of the present embodiment two in practice, when software perhaps hardware fault or front end processor occurs in a certain front end processor It, can when being higher than with interaction failure rate when deployment services device or Message processing server process interactive operation more than predetermined threshold To adjust the switch state for disposing corresponding front end processor in the front end processor routing table in server as "Off", at this point, before this Machine is set just no longer to provide and the access path of deployment services device.

Front end processor parameter: record in front end processor parameter be realize data between deployment server and front end processor interact behaviour The necessary parameter made.Front end processor parameter is corresponding with each front end processor, and the content of front end processor parameter may include that front end processor is used Name in an account book, front end processor password, front end processor is in information such as the sessions of registering at bank service end.In conjunction with the fortune of the present embodiment two in practice With front end processor parameter can be used for carrying out the account password verification information of front end processor verifying, session authentication information, fingerprint authentication letter Breath, voice authentication information, the secure authentication informations such as face recognition verification information.Front end processor parameter is also possible to and each front end processor Corresponding unique communication frequency band information.Front end processor parameter can also be it is corresponding with each front end processor to text encryption or To the method for text decryption.In the interactive process of deployment services device and front end processor, deployment services device must by with before this The corresponding front end processor parameter of machine is set to come by verifying, to realize the interactive operation of data.

Preferably, as shown in connection with fig. 6, in the scheme that the above embodiments of the present application two provide, step S42 realize from preposition The front end processor for meeting preset condition in front end processor cluster is obtained in machine routing table, determines that user's operation requests corresponding access path Scheme, can as follows come realize in detail:

Step S421 is read each in front end processor cluster by every preposition machine information in scanning front end processor routing table The routing ratio of front end processor；

Step S423, selects routing ratio maximum or routing ratio is default as meeting more than the front end processor of predetermined threshold The front end processor of condition；

Step S425 reads the access address for meeting the front end processor of preset condition from front end processor routing table, obtains user The corresponding access path of operation requests.

Deployment services device in above-mentioned steps, when reading the front end processor routing table in deployment server, first to preposition The routing ratio of front end processor corresponding with every front end processor in front end processor cluster is read out in machine routing table.Then, compare The routing proportional numerical value of front end processor, the setting routing ratio value maximum or with front end processor with the routing ratio value of front end processor are super The corresponding front end processor of predetermined threshold is crossed as the front end processor for meeting preset condition, finally disposes server from front end processor routing table Middle to read access address corresponding with the above-mentioned front end processor for meeting preset condition, the access for obtaining progress data interaction operation is logical Road.

Preferably, in conjunction with above-described embodiment two, what step S44 was realized requests to generate the side for operating message based on user's operation Case can be achieved by the steps of:

Step S441 judges that user's operation requests whether to join comprising front end processor in the preposition machine information of corresponding access path Number.

Wherein, step S443 joins in the preposition machine information that user's operation requests corresponding access path comprising front end processor In the case where number, after front end processor parameter to be loaded onto user's operation request, to the user's operation for being loaded with front end processor parameter Request carries out message assembling, generates operation message.

Step S445, not comprising front end processor parameter in the preposition machine information that user's operation requests corresponding access path In the case of, user's operation is requested to carry out message assembling, generates operation message.

Above-mentioned deployment services device is according to the front end processor parameter in the preposition machine information of corresponding access path, to generate operation Message.When in the preposition machine information with access path include front end processor parameter when, deployment services device according to front end processor parameter to The message of family operation requests is assembled, and operation message is generated.When in the preposition machine information with access path do not include front end processor When parameter, directly user's operation is requested to carry out message assembling, generates operation message.In conjunction with the fortune of the present embodiment two in practice With when front end processor parameter is username and password corresponding with corresponding front end processor, deployment services device can will be read Username and password is added to any position in the front end, rear end or message of message, so that generating operation message is sent to this Front end machine.

Preferably, in the above embodiments of the present application two, request corresponding access path will using user's operation in step S46 Operation message is sent to after corresponding front end processor, can also be performed and step is implemented as follows:

Step S4701, front end processor receive operation message；

Step S4703, the front end processor parameter in front end processor verification operation message, wherein front end processor parameter includes: front end processor User name and front end processor password；

Step S4705, in the case where front end processor verifies the successful situation of front end processor parameter, front end processor forwarding operation message to message Processing system；

Step S4707 abandons operation message in the case where front end processor verifying front end processor parameter failure；

Above-mentioned steps S4701 may operate in front end processor to step S4707.Front end processor passes through to the behaviour that will be received The front end processor user name and front end processor password for making message are verified, if the front end processor user name in the operation message received Match with front end processor password and the front end processor, in the case where being proved to be successful, then at front end processor forwarding operation message to message Reason system；If the front end processor user name and front end processor password and the front end processor in the operation message received mismatch, verifying In the case where failure, then the front end processor abandons operation message.

According to above-described embodiment two during practice, the verification method of front end processor is not limited solely to front end processor use The mode that name in an account book and front end processor password are verified.It can also be by other means, comprising: fingerprint authentication, voice authentication, face The safety verifications modes such as identification verifying.

Wherein, after executing completion above-mentioned steps S4701 to step S4707, deployment services device can also be by receiving The front end processor forwarding operation message of message is operated to message handling system, to get the Message processing of message handling system generation As a result implementation steps:

Step S4709, message handling system receive the operation message of the front end processor forwarding of operation message.

Step S4711, message handling system carry out operation processing to operation message, generate Message processing result.

Message processing result is returned to front end processor by step S4713, message handling system, and before being returned to by front end processor End subscriber.

Above-mentioned steps S4709 to S4713 can be used in Message processing server.Message processing server is to reception To operation message front end processor forwarding operation message handled, and to the result of the processing generate Message processing as a result, The Message processing result of generation is returned into deployment services device by the former front end processor for forwarding operation message.

Preferably, it in the above embodiments of the present application two, after step S41 creates front end processor routing table, can also hold Step is implemented as follows in row:

Step S411, it is preposition to initialize by presetting the routing proportional numerical value of each front end processor in front end processor routing table The routing ratio of each front end processor recorded in machine routing table.

Step S413, dynamic adjust the routing ratio of each front end processor recorded in front end processor routing table.

The scheme that step S413 is provided may include following scheme:

Step S4131, obtain each front end processor historical communication record, historical communication record include front end processor communication at Power.

Step S4133 dynamically modifies the routing proportional numbers of each front end processor using the communication success rate of each front end processor Value.

In a preferred embodiment, it is less than or equal to close threshold value in the routing ratio value of any one or more front end processors In the case of, the switch state for routing the front end processor that ratio value is less than or equal to closing threshold value is revised as automatically to forbid the work of access State.

The road to the front end processor of front end processor routing table in deployment services device may be implemented to step S413 by above-mentioned steps S411 By the setting method of ratio.It is possible, firstly, to which an initial value is arranged in the routing ratio value to the front end processor in preposition routing table.With Use, deployment services device can according to the historical communication of each front end processor record in communication success rate be corresponding to it to modify Front end processor routing table in front end processor routing proportional numerical value.When the routing ratio value of some front end processor is less than or equal in advance When the closing threshold value being first arranged, deployment services device will be automatically the switch of the front end processor in the corresponding preposition routing table of the front end processor Status modifier is to close, which enters the working condition for forbidding disposing server access.It, can be to avoid preceding according to the above method Set machine processing interactive operation data success rate is low, software or hardware failure cause front end processor to handle interactive operation data Low efficiency the problem of.

Fig. 7 is the transaction flow figure of above-described embodiment two, below with reference to Fig. 7 and Fig. 3, with regard to the application above method embodiment For two apply during bank transaction, the operation flow of the above embodiments of the present application two is described in detail:

The operation user of step A, front-end client issue operation requests to deployment services device.It applies in conjunction with the application in silver In the application environment of row process of exchange, the operation user of front-end client proposes that operation application can be transaction to deployment services device Application request.

It needs to be described in detail herein, bank can generally provide one with before to improve the safety of process of exchange The corresponding certificate of machine or key are set, key here can be usual signified USB Key (in the key of USB Key After being verified, start the work of current front end processor), the certificate or key that the application bank provides may be mounted at it is corresponding before It sets on machine, the necessary condition as starting front end processor.

Step B, deployment services device determine routing ratio according to the routing ratio of the front end processor in built-in front end processor routing table The maximum front end processor of example and the front end processor access address and front end processor parameter for obtaining the front end processor.Wherein, front end processor parameter is interior Appearance may include the information that front end processor user name, front end processor password etc. are used to carry out front end processor verifying.

Step C judges whether there is front end processor parameter in front end processor routing table corresponding with the front end processor, if not preposition Machine parameter, thens follow the steps E.

Step D, if there is front end processor parameter in front end processor routing table corresponding with the front end processor, the load of deployment services device Front end processor parameter.Wherein it is possible to by the load of front end processor parameter before or after operating message.

Step E, deployment services device are sent to above-mentioned according to step C or step D assembly operation message and by operation message Front end processor.

Step F, the front end processor in the operation message received front end processor user name and front end processor password verify, If be proved to be successful, G is entered step, if authentication failed, front end processor abandons the operation message.

Step G, front end processor are transmitted to the background server at bank end after endorsing to operation message.

Step H, background server are handled according to operation message, and return to background server to operation according to original route The processing result of message.

It should be noted that for the various method embodiments described above two, for simple description, therefore, it is stated as a systems The combination of actions of column, but those skilled in the art should understand that, the present invention is not limited by the sequence of acts described, because For according to the present invention, some steps may be performed in other sequences or simultaneously.Secondly, those skilled in the art should also know It knows, embodiment two described in this description belongs to preferred embodiment two, and related actions and modules is not necessarily originally Necessary to invention.

Through the above description of the embodiments, those skilled in the art can be understood that according to above-mentioned implementation The method of example two can be realized by means of software and necessary general hardware platform, naturally it is also possible to by hardware, but very The former is more preferably embodiment in more situations.Based on this understanding, technical solution of the present invention is substantially in other words to existing The part for having technology to contribute can be embodied in the form of software products, which is stored in one and deposits In storage media (such as ROM/RAM, magnetic disk, CD), including some instructions are used so that a terminal device (can be mobile phone, count Calculation machine, server or network equipment etc.) method that executes each embodiment two of the present invention.

Embodiment 3

Fig. 8 is the schematic diagram of the device of according to embodiments of the present invention three clustered deploy(ment) front end processor.As shown in figure 8, the dress Set may include: receiving module 101, determining module 103, message generation module 105, sending module 107 and receiving module 109.

Wherein, receiving module 101, for receiving user's operation request；Determining module 103 is used for from front end processor routing table It is middle to obtain the front end processor for meeting preset condition in front end processor cluster, determine that user's operation requests corresponding access path；Message is raw At module 105, for generating operation message based on user's operation request；Sending module 107, for using user's operation request pair The access path answered is sent to corresponding front end processor for message is operated；Receiving module 109, for receiving the message of front end processor return Processing result, wherein the front end processor forwarding operation message by receiving operation message is reported to message handling system to get The Message processing result that literary processing system generates.

In the above embodiments of the present application three, after deployment services device gets user's operation request by receiving module, read It is stored in the front end processor routing table of deployment services device, meets the front end processor of preset condition in front end processor cluster from obtaining in the table, It is determined by determining module and executes front end processor corresponding to the operation requests, and by confirming that access corresponding with the front end processor is logical Road.The operation message that message generation module is generated based on user's operation request requests corresponding access using with user's operation Operation message is sent to corresponding front end processor by sending module by channel.The front end processor is receiving behaviour by receiving module After making message, operation message is forwarded to message handling system, to get the Message processing knot of message handling system generation Fruit.Finally Message processing result is sent in deployment services device.It will be apparent that above scheme is by using deployment services Front end processor routing table in device determines that current user operation requests corresponding access path, which is directed toward front end processor collection A unique target front end processor in group, one for being accurately positioned in front end processor cluster through the above scheme as a result, are preposition Machine completes the interactive operation of big data, so that the scheme for solving single-point deployment front end processor in the prior art is carrying out big data In interactive process, since front end processor load excessive will lead to the low problem of interactive efficiency, the processing of raising front end processor is reached and has handed over The efficiency of interoperability data.

Modules provided by the above embodiments of the present application three can use on deployment services device, in implementation process, A kind of embodiment of deployment services device in above-described embodiment three can be trade company to use front end processor cluster to be used Deployment services device, below just by taking the deployment services device as an example to it is above-mentioned it is true in be described in detail.

Deployment services device in above-described embodiment three is receiving Transaction Information (three T's type, the correlations such as transaction amount Information) after, deployment services device reads the front end processor routing table being stored in deployment services device first.According to front end processor routing table The preposition machine information of middle record, gets the front end processor for meeting preset condition, for transaction provide a deployment services device with it is preposition Access path between machine.Deployment services device is according to the front end processor parameter recorded in front end processor routing table simultaneously, to Transaction Information It carries out processing and generates transaction message.The access path that the transaction message generated by deployment services device is got before is sent In to corresponding front end processor.The front end processor receives operation message, and transaction message is forwarded to the background server of bank, is obtained After getting transaction message processing result, which is sent back into deployment services device.

Herein it should be noted that above-mentioned receiving module 101, determining module 103, message generation module 105, sending module 107 and receiving module 109 correspond to the step S40 to step S48 in embodiment two, five modules are realized with corresponding step Example it is identical with application scenarios, but be not limited to the above embodiments two disclosure of that.It should be noted that above-mentioned module is made It may operate in the deployment services device 14 that embodiment one provides for a part of device, can be by software realization, it can also be with Pass through hardware realization.

Preferably, as shown in figure 9, the application above-mentioned apparatus is completed to determine from front end processor routing table by determining module Before the function of meeting the front end processor of preset condition, device can also include: creation module 102.

Wherein, creation module 102, for creating front end processor routing table, front end processor routing table records every in front end processor cluster The preposition machine information of a front end processor, preposition machine information include at least following any one or more data fields: the visit of front end processor Ask address, the routing ratio of front end processor, the switch state of front end processor and front end processor parameter, wherein the routing ratio of front end processor is used In the access privileges for characterizing other front end processors in the current more preposition routing table of front end processor, front end processor parameter includes for distinguishing The particular community of each front end processor, the switch state of front end processor is for characterizing whether front end processor allows to access.

In the implementation of above-mentioned creation module, one or more can be arranged in front end processor routing table by creation module A data field, it is above-mentioned be arranged in front end processor routing table it is one or more as preposition machine informations may include, front end processor Routing ratio, the switch state and front end processor parameter of front end processor.

Herein it should be noted that above-mentioned creation module 102 correspond to embodiment two in step S41, the module with it is right The example that the step of answering is realized is identical with application scenarios, but is not limited to the above embodiments two disclosure of that.It needs to illustrate , above-mentioned module as a part of device may operate in embodiment one offer deployment services device 14 in, can pass through Software realization can also pass through hardware realization.

Preferably, as shown in Figure 10, the determining module 103 in the application above-mentioned apparatus embodiment three may include: to read Module 1031, selecting module 1033 and acquisition module 1035.

Wherein, read module 1031, for reading preposition by every preposition machine information in scanning front end processor routing table The routing ratio of each front end processor in machine cluster；

Wherein, selecting module 1033, for selecting routing ratio maximum or routing ratio to be more than the preposition of predetermined threshold Machine is as the front end processor for meeting preset condition；

Module 1035 is wherein obtained, for reading the access for meeting the front end processor of preset condition from front end processor routing table Location obtains user's operation and requests corresponding access path.

In the implementation of above-mentioned determining module, deployment services device by read module before being read in deployment server Routing when setting machine routing table, first to front end processor corresponding with every front end processor in front end processor cluster in front end processor routing table Ratio is read out.Then, the routing proportional numerical value of front end processor, the routing ratio of setting and front end processor are compared by selecting module It is worth maximum or routing ratio value with front end processor more than the corresponding front end processor of predetermined threshold as meeting preset condition Front end processor finally disposes server by obtaining module and reading from front end processor routing table and meets the preposition of preset condition with above-mentioned The corresponding access address of machine obtains the access path for carrying out data interaction operation.

Herein it should be noted that above-mentioned read module 1031, selecting module 1033 and acquisition module 1035 correspond in fact The step S421 to step S425 in example two is applied, three modules are identical as example and application scenarios that corresponding step is realized, But it is not limited to the above embodiments two disclosure of that.It should be noted that above-mentioned module can be transported as a part of of device Row can also pass through hardware realization by software realization in the deployment services device 14 that embodiment one provides.

Preferably, in the application above-mentioned apparatus embodiment three, message generation module 105 can also include: judgment module 1051, the first sub- generation module 1053 and the second sub- generation module 1055.

Wherein, judgment module 1051, for judging that user's operation requests to be in the preposition machine information of corresponding access path No includes front end processor parameter；

Wherein, the first sub- generation module 1053, for requesting the preposition machine information of corresponding access path in user's operation In comprising in the case where front end processor parameter, after front end processor parameter to be loaded onto user's operation request, to being loaded with front end processor The user's operation request of parameter carries out message assembling, generates operation message；

Wherein, the second sub- generation module 1055, for requesting the preposition machine information of corresponding access path in user's operation In do not include front end processor parameter in the case where, to user's operation request carry out message assembling, generate operation message.

The preposition machine information of corresponding access path is requested in user's operation, by judgment module to being in preposition machine information It is no to be judged comprising front end processor parameter, comprising front end processor parameter, front end processor parameter is being loaded onto user behaviour After requesting, the user's operation for being loaded with front end processor parameter is requested by the first sub- generation module to carry out message assembling, it is raw At operation message；Not the case where not including front end processor parameter in the preposition machine information that user's operation requests corresponding access path Under, user's operation is requested by the second sub- generation module to carry out message assembling, generates operation message.

Above-mentioned deployment services device is according to the front end processor parameter in the preposition machine information of corresponding access path, to generate operation Message.When in the preposition machine information with access path include front end processor parameter when, deployment services device according to front end processor parameter to The message of family operation requests is assembled, and operation message is generated.When in the preposition machine information with access path do not include front end processor When parameter, directly user's operation is requested to carry out message assembling, generates operation message.In conjunction with the fortune of the present embodiment three in practice With when front end processor parameter is username and password corresponding with corresponding front end processor, deployment services device can will be read Username and password is added to any position in the front end, rear end or message of message, so that generating operation message is sent to this Front end machine.

In a kind of optinal plan, complete requesting corresponding access path that will operate using user's operation by sending module Message is sent to after the function of corresponding front end processor, and front end processor receives the operation message generated by message generation module, preceding Set the front end processor user name and front end processor password of front end processor parameter in machine verification operation message.Front end processor parameter is verified in front end processor In successful situation, front end processor forwarding operation message to message handling system；In the feelings of front end processor verifying front end processor parameter failure Under condition, operation message is abandoned.

In alternative dispensing means, the front end processor forwarding by receiving operation message operates message to message handling system Later, after message handling system is according to the operation message of front end processor forwarding for receiving operation message, operation message is grasped It deals with, generates Message processing result.Message processing result is returned to front end processor by message handling system, and is returned by front end processor Back to front end user.

Herein it should be noted that above-mentioned judgment module 1051, the first sub- generation module 1053 and the second sub- generation module 1055 correspond to the step S441 to step S445 in embodiment two, the example and answer that three modules and corresponding step are realized It is identical with scene, but it is not limited to the above embodiments two disclosure of that.It should be noted that above-mentioned module as device one Part may operate in the deployment services device 14 of the offer of embodiment one, can also pass through hardware reality by software realization It is existing.

Preferably, in the application above-mentioned apparatus embodiment three, creation front end processor routing table is completed by creation module 102 Scheme after, device further include: initialization module 1021, dynamic adjustment module 1023, sub-acquisition module 1025 and dynamic repair Change module 1027.

Wherein, initialization module 1021, for the routing proportional numbers by presetting each front end processor in front end processor routing table Value, to initialize the routing ratio of each front end processor recorded in front end processor routing table；

Wherein, dynamic adjustment module 1023, for dynamically adjusting the road of each front end processor recorded in front end processor routing table By ratio, dynamic adjusts module and includes:

Wherein, sub-acquisition module 1025, the historical communication for obtaining each front end processor record, and historical communication record includes The communication success rate of front end processor；

Wherein, dynamic modified module 1027, dynamically modified for the communication success rate using each front end processor it is each before Set the routing proportional numerical value of machine, wherein be less than or equal to close threshold value in the routing ratio value of any one or more front end processors In the case of, the switch state for routing the front end processor that ratio value is less than or equal to closing threshold value is revised as automatically to forbid the work of access State.

By above-mentioned module, may be implemented to set the routing ratio of the front end processor of front end processor routing table in deployment services device Set method.Firstly, by initialization module can routing ratio value to the front end processor in preposition routing table be arranged one it is initial Value.With using, deployment services device is with dynamic adjustment module according to each front end processor by obtaining after sub-acquisition module Communication success rate in historical communication record modifies the routing proportional numbers of the front end processor in corresponding front end processor routing table Value.When the routing ratio value of some front end processor is less than or equal to pre-set closing threshold value, deployment services device will be automatic The switch state of front end processor in the corresponding preposition routing table of the front end processor is revised as pass, which, which enters, forbids deployment to take The working condition of business device access.According to the above method, the success rate that can handle interactive operation data to avoid front end processor is low, software Or hardware breaks down the problem of causing front end processor to handle the low efficiency of interactive operation data.

Herein it should be noted that above-mentioned initialization module 1021, dynamic adjustment module 1023,1025 and of sub-acquisition module Dynamic modified module 1027 corresponds to the step S411 to step S413 in embodiment two, and four modules and corresponding step institute are real Existing example is identical with application scenarios, but is not limited to the above embodiments two disclosure of that.It should be noted that above-mentioned module A part as device may operate in the deployment services device 14 of the offer of embodiment one, can be by software realization, can also To pass through hardware realization.

The serial number of the above embodiments of the invention is only for description, does not represent the advantages or disadvantages of the embodiments.

In the above embodiment of the invention, it all emphasizes particularly on different fields to the description of each embodiment, does not have in some embodiment The part of detailed description, reference can be made to the related descriptions of other embodiments.

In several embodiments provided herein, it should be understood that disclosed device, it can be by another way It realizes.Wherein, the apparatus embodiments described above are merely exemplary, such as the division of the unit, only a kind of Logical function partition, there may be another division manner in actual implementation, such as multiple units or components can combine or can To be integrated into another system, or some features can be ignored or not executed.Another point, shown or discussed is mutual Coupling, direct-coupling or communication connection can be through some interfaces, the indirect coupling or communication connection of unit or module, It can be electrical or other forms.

The unit as illustrated by the separation member may or may not be physically separated, aobvious as unit The component shown may or may not be physical unit, it can and it is in one place, or may be distributed over multiple In network unit.It can select some or all of unit therein according to the actual needs to realize the mesh of this embodiment scheme 's.

It, can also be in addition, the functional units in various embodiments of the present invention may be integrated into one processing unit It is that each unit physically exists alone, can also be integrated in one unit with two or more units.Above-mentioned integrated list Member both can take the form of hardware realization, can also realize in the form of software functional units.

If the integrated unit is realized in the form of SFU software functional unit and sells or use as independent product When, it can store in a computer readable storage medium.Based on this understanding, technical solution of the present invention is substantially The all or part of the part that contributes to existing technology or the technical solution can be in the form of software products in other words It embodies, which is stored in a storage medium, including some instructions are used so that a computer Equipment (can for personal computer, server or network equipment etc.) execute each embodiment the method for the present invention whole or Part steps.And storage medium above-mentioned includes: that USB flash disk, read-only memory (ROM, Read-Only Memory), arbitrary access are deposited Reservoir (RAM, Random Access Memory), mobile hard disk, magnetic or disk etc. be various to can store program code Medium.

The above is only a preferred embodiment of the present invention, it is noted that for the ordinary skill people of the art For member, various improvements and modifications may be made without departing from the principle of the present invention, these improvements and modifications are also answered It is considered as protection scope of the present invention.

Claims (10)

1. a kind of method of clustered deploy(ment) front end processor characterized by comprising

Receive user's operation request；

From the front end processor for meeting preset condition in front end processor cluster is obtained in front end processor routing table, the user's operation request is determined Corresponding access path；

It requests to generate operation message based on the user's operation；

Request corresponding access path that the operation message is sent to corresponding front end processor using the user's operation；

Receive the Message processing result that the front end processor returns, wherein the front end processor by receiving the operation message forwards The operation message is to message handling system, to get the Message processing result that the message handling system generates；

Generating the step of operating message based on user's operation request includes:

Judge that whether the user's operation requests in the preposition machine information of corresponding access path comprising front end processor parameter；

In the case where including the front end processor parameter in the preposition machine information that the user's operation requests corresponding access path, After the front end processor parameter to be loaded onto the user's operation request, to the user for being loaded with the front end processor parameter Operation requests carry out message assembling, generate the operation message；

Not the case where not including the front end processor parameter in the preposition machine information that the user's operation requests corresponding access path Under, the user's operation is requested to carry out message assembling, generates the operation message.

2. the method according to claim 1, wherein meeting preset condition determining from front end processor routing table Before front end processor, the method also includes:

Create the front end processor routing table, the front end processor routing table records the preposition of each front end processor in the front end processor cluster Machine information, the preposition machine information include at least following any one or more data fields: the access address of front end processor, preposition The routing ratio of machine, the switch state of front end processor and front end processor parameter, wherein the routing ratio of the front end processor is worked as characterizing The access privileges of other front end processors in the preceding front end processor front end processor routing table, the front end processor parameter include being used for area Divide the particular community of each front end processor, the switch state of the front end processor is for characterizing whether the front end processor allows to access.

3. according to the method described in claim 2, it is characterized in that, meeting from being obtained in front end processor cluster in front end processor routing table The front end processor of preset condition determines that the step of user's operation requests corresponding access path includes:

By scanning every preposition machine information in the front end processor routing table, each front end processor in the front end processor cluster is read Routing ratio；

Select routing ratio maximum or routing ratio be more than predetermined threshold front end processor as it is described meet preset condition before Set machine；

The access address that the front end processor for meeting preset condition is read from the front end processor routing table obtains the user behaviour Make to request corresponding access path.

4. the method according to claim 1, wherein requesting corresponding access path using the user's operation After the operation message is sent to corresponding front end processor, the method also includes:

The front end processor receives the operation message；

The front end processor verifies the front end processor parameter in the operation message, wherein the front end processor parameter includes: that front end processor is used The session of registering of name in an account book, front end processor password and front end processor；

In the case where the front end processor verifies the successful situation of front end processor parameter, the front end processor forwards the operation message to report Literary processing system；

In the case where the front end processor verifies front end processor parameter failure, the operation message is abandoned；

Wherein, forward the operation message to message handling system by receiving the front end processor of the operation message, to obtain To the message handling system generate the Message processing result the step of include:

The message handling system receives the operation message of the front end processor forwarding of the operation message；

The message handling system carries out operation processing to the operation message, generates the Message processing result；

The Message processing result is returned to the front end processor by the message handling system, and is returned to by the front end processor The user.

5. according to the method described in claim 2, it is characterized in that, after creating the front end processor routing table, the method Further include:

By presetting the routing proportional numerical value of each front end processor described in the front end processor routing table, to initialize the front end processor The routing ratio of each front end processor recorded in routing table；

Dynamic adjusts the routing ratio of each front end processor recorded in the front end processor routing table, which includes:

The historical communication record of each front end processor is obtained, the historical communication record includes the communication success of the front end processor Rate；

The routing proportional numerical value of each front end processor is dynamically modified using the communication success rate of each front end processor；

Wherein, in the case where the routing ratio value of any one or more front end processors is less than or equal to close threshold value, by the road It is revised as forbidding the work shape of access automatically by the switch state that ratio value is less than or equal to the front end processor for closing threshold value State.

6. a kind of device of clustered deploy(ment) front end processor characterized by comprising

Receiving module, for receiving user's operation request；

Determining module, for determining institute from the front end processor for meeting preset condition in front end processor cluster is obtained in front end processor routing table It states user's operation and requests corresponding access path；

Message generation module, for generating operation message based on user's operation request；

Sending module, it is corresponding for being sent to the operation message using the corresponding access path of user's operation request Front end processor；

Receiving module, the Message processing result returned for receiving the front end processor, wherein by receiving the operation message Front end processor forward the operation message to message handling system, to get the message of the message handling system generation Processing result；

The message generation module includes:

Judgment module, for judging that whether the user's operation requests in the preposition machine information of corresponding access path comprising preposition Machine parameter；

First sub- generation module, for including described in the preposition machine information that the user's operation requests corresponding access path In the case where front end processor parameter, after the front end processor parameter to be loaded onto the user's operation request, it is loaded with to described The user's operation request of the front end processor parameter carries out message assembling, generates the operation message；

Second sub- generation module, for not including institute in the preposition machine information that the user's operation requests corresponding access path In the case where stating front end processor parameter, the user's operation is requested to carry out message assembling, generates the operation message.

7. device according to claim 6, which is characterized in that completed from front end processor routing table really by determining module Surely before the function of meeting the front end processor of preset condition, described device further include:

Creation module, for creating the front end processor routing table, the front end processor routing table records every in the front end processor cluster The preposition machine information of a front end processor, the preposition machine information include at least following any one or more data fields: front end processor Access address, the routing ratio of front end processor, the switch state of front end processor and front end processor parameter, wherein the road of the front end processor It is used to characterize the access privileges of other front end processors in the current front end processor front end processor routing table by ratio, before described The machine parameter of setting includes the particular community for distinguishing each front end processor, and the switch state of the front end processor is described preposition for characterizing Whether machine, which allows, accesses.

8. device according to claim 7, which is characterized in that the determining module includes:

Read module, for reading the front end processor collection by scanning every preposition machine information in the front end processor routing table The routing ratio of each front end processor in group；

Selecting module, for selecting routing ratio maximum or routing ratio to be more than the front end processor of predetermined threshold as the satisfaction The front end processor of preset condition；

Module is obtained, for reading the access address of the front end processor for meeting preset condition from the front end processor routing table, It obtains the user's operation and requests corresponding access path.

9. device according to claim 7, which is characterized in that complete to create the front end processor routing by creation module After the scheme of table, described device further include:

Initialization module comes for the routing proportional numerical value by presetting each front end processor described in the front end processor routing table Initialize the routing ratio of each front end processor recorded in the front end processor routing table；

Dynamic adjustment module, for dynamically adjusting the routing ratio of each front end processor recorded in the front end processor routing table Example, the dynamic adjustment module include:

Sub-acquisition module, the historical communication for obtaining each front end processor record, and the historical communication record includes described The communication success rate of front end processor；

Dynamic modified module, it is described each preposition for dynamically being modified using the communication success rate of each front end processor The routing proportional numerical value of machine, wherein be less than or equal to close the feelings of threshold value in the routing ratio value of any one or more front end processors Under condition, the switch state that the routing ratio value is less than or equal to the front end processor for closing threshold value is revised as forbidding automatically The working condition of access.

10. a kind of system of clustered deploy(ment) front end processor characterized by comprising

Front-end client, for generating user's operation request；

Front end processor cluster, including multiple front end processors；

Deployment services device communicates pass with each front end processor foundation in the front-end client and the front end processor cluster respectively System is meeting default item from obtaining in front end processor routing table for receiving user's operation request in the front end processor cluster The front end processor of part after determining that the user's operation requests corresponding access path, is requested corresponding using the user's operation The operation message generated based on user's operation request is sent to corresponding front end processor by access path；

Each front end processor in Message processing server, with the front end processor cluster establishes correspondence, described right for receiving The operation message for the front end processor forwarding answered, and generate Message processing result；

The deployment services device be also used to judge the user's operation request in the preposition machine information of corresponding access path whether Include front end processor parameter；Join in the preposition machine information that the user's operation requests corresponding access path comprising the front end processor In the case where number, after the front end processor parameter to be loaded onto user's operation request, to it is described be loaded with it is described preposition The user's operation request of machine parameter carries out message assembling, generates the operation message；Corresponding visit is requested in the user's operation It asks in the case where not including the front end processor parameter in the preposition machine information in channel, the user's operation is requested to carry out message group Dress, generates the operation message.