CN105930216A - Automatic scheduling method and system for electronic signature system and server - Google Patents

Abstract

The invention discloses an automatic scheduling method for an electronic signature system. The method comprises the steps of recording electronic signature request quantity and time sent to the electronic signature system by each business system in real time; analyzing the electronic signature request quantity and time of each business system within a time range to obtain reference request quantity of electronic signatures corresponding to each business system in each preset time segment; based on the reference request quantity of the electronic signatures corresponding to each business system in each preset time segment, obtained by analysis, allocating corresponding thread quantity to each business system in each preset time segment; and controlling the electronic signature system to process electronic signature requests of each business system according to the allocated thread quantity. The invention furthermore provides an automatic scheduling system for the electronic signature system and a server. According to the method and system as well as the server, the electronic signature system can be automatically scheduled according to an actual demand of each business system and the corresponding thread quantity is allocated to each business system.

Description

Electric signing system automatic deploying method, system and server

Technical field

The present invention relates to resource allocation techniques field, particularly a kind of electric signing system automatic deploying method, System and server.

Background technology

At present, a lot of group companies carry out multiple business (such as, bank, the credit card, insurance, security Etc. business), these group companies, for the ease of system maintenance and management, simultaneously facilitate the technology providing unified Support, be generally directed to the electric signing system that these operation systems provide unified.Existing unified electronic is signed It is fixing that system is commonly assigned to the Thread Count of each operation system, but in some industry of some special time Business system may be very big, owing to electric signing system is to these operation systems to the electric signing system amount of calling Thread Count fixed, it is possible that cause the availability of electric signing system poor, waste system resource, Delay handling of business.

Summary of the invention

In view of the foregoing, it is necessary to providing a kind of electric signing system automatic deploying method, it can basis The actual demand of each operation system, deploying automatic to electric signing system, distribute to each operation system pair The number of threads answered.

A kind of electric signing system automatic deploying method, including:

The electronic signature number of requests that each operation system of real time record sends to electric signing system is with corresponding The transmission time；

According to an analysis rule, to each operation system electronic signature number of requests in the range of the time with Corresponding request transmission time data are analyzed, to analyze each operation system in each preset time period The benchmark number of requests of corresponding electronic signature；

Based on each operation system analyzed out benchmark of the electronic signature of correspondence in each preset time period Number of requests, according to a thread allocation rule, it is right to distribute in each preset time period for each operation system The number of threads answered；And

Control electric signing system and distribute to, according to each preset time period, the Thread Count that each operation system is corresponding Amount, processes the electronic signature request of each operation system.

Preferably, described analysis rule is: in described time range, each business system that statistical computation goes out Unite in electronic signature number of requests sum corresponding to each preset time period, and calculate in Preset Time each The number of times that preset time period occurs；By each operation system of statistics at electronics corresponding to each preset time period Signature request quantity sum, the number of times occurred divided by each preset time period in Preset Time, when obtaining presetting In each service server in reference electronic signature request quantity corresponding to each preset time period.

Preferably, described analysis rule is: in described time range, calculates each operation system often The maximum electronic signature number of requests that each preset time period of one day is corresponding；Each industry that statistical computation goes out Business system is in maximum electronic signature number of requests sum corresponding to each preset time period, and when calculating default The number of times that each preset time period interior occurs；By each operation system of statistics in each preset time period pair The maximum electronic signature number of requests sum answered, the number of times occurred divided by each preset time period in Preset Time, Obtain each operation system in Preset Time at reference electronic signature request number corresponding to each preset time period Amount.

Preferably, described thread allocation rule is: according to predetermined number of threads and electronic signature request The associated data of quantity, in determining Preset Time, each service server is corresponding in each preset time period Number of threads.

In view of the foregoing, it is necessary to providing a kind of automatic arranging system of electric signing system, it can basis The actual demand of each operation system, deploying automatic to electric signing system, distribute to each operation system pair The number of threads answered.

A kind of automatic arranging system of electric signing system, including:

Logging modle, please to the electronic signature that electric signing system sends for each operation system of real time record Ask quantity and corresponding transmission time；

Analyze module, for according to an analysis rule, to each operation system electronics in the range of the time Signature request quantity is analyzed with corresponding request transmission time data, to analyze each preset time period In the benchmark number of requests of electronic signature corresponding to each operation system；

Deploying module, for based on each operation system analyzed out correspondence in each preset time period The benchmark number of requests of electronic signature, according to a thread allocation rule, presets at each for each operation system The number of threads that in time period, distribution is corresponding；And

Processing module, is used for controlling electric signing system and distributes to each business system according to each preset time period The number of threads that system is corresponding, processes the electronic signature request of each operation system.

Preferably, described analysis rule is: in described time range, each business system that statistical computation goes out Unite in electronic signature number of requests sum corresponding to each preset time period, and calculate in Preset Time each The number of times that preset time period occurs；By each operation system of statistics at electronics corresponding to each preset time period Signature request quantity sum, the number of times occurred divided by each preset time period in Preset Time, to be preset Each service server is in reference electronic signature request quantity corresponding to each preset time period in time.

In view of the foregoing, it is necessary to providing a kind of server, it can be according to the reality of each operation system Demand, deploying automatic to electric signing system, distribute to the number of threads that each operation system is corresponding.

A kind of server being applicable to said method, this server includes storage device and processor, wherein:

Described storage device, for one automatic arranging system of electric signing system of storage；

Described processor, is used for calling and perform the automatic arranging system of described electric signing system, to perform such as Lower step:

Each operation system of real time record sends the electronic signature number of requests come with corresponding to electric signing system The transmission time；

According to an analysis rule, to each operation system electronic signature number of requests in the range of the time with Corresponding request transmission time data are analyzed, to analyze each operation system in each preset time period The benchmark number of requests of corresponding electronic signature；

Based on each operation system analyzed out benchmark of the electronic signature of correspondence in each preset time period Number of requests, according to a thread allocation rule, it is right to distribute in each preset time period for each operation system The number of threads answered；And

Control electric signing system and distribute to, according to each preset time period, the Thread Count that each operation system is corresponding Amount, processes the electronic signature request of each operation system.

Preferably, described analysis rule is: in described time range, each business system that statistical computation goes out Unite in electronic signature number of requests sum corresponding to each preset time period, and calculate in Preset Time each The number of times that preset time period occurs；By each operation system of statistics at electronics corresponding to each preset time period Signature request quantity sum, the number of times occurred divided by each preset time period in Preset Time, when obtaining presetting In each service server in reference electronic signature request quantity corresponding to each preset time period.

Preferably, described analysis rule is: in described time range, calculates each operation system often The maximum electronic signature number of requests that each preset time period of one day is corresponding；Each industry that statistical computation goes out Business system is in maximum electronic signature number of requests sum corresponding to each preset time period, and when calculating default The number of times that each preset time period interior occurs；By each operation system of statistics in each preset time period pair The maximum electronic signature number of requests sum answered, the number of times occurred divided by each preset time period in Preset Time, Obtain each operation system in Preset Time at reference electronic signature request number corresponding to each preset time period Amount.

Preferably, described thread allocation rule is: according to predetermined number of threads and electronic signature request The associated data of quantity, in determining Preset Time, each service server is corresponding in each preset time period Number of threads.

Electric signing system of the present invention automatic deploying method, system and server, can be according to each industry Business system, in each time period different demand, deploying automatic to electric signing system, distributes to each business The number of threads that system is corresponding.

Accompanying drawing explanation

Fig. 1 is the hardware environment signal of electric signing system of the present invention automatic arranging system the first preferred embodiment Figure.

Fig. 2 is the hardware environment signal of electric signing system of the present invention automatic arranging system the second preferred embodiment Figure.

Fig. 3 is the functional block diagram of electric signing system of the present invention automatic arranging system preferred embodiment.

Fig. 4 is the method implementing procedure figure of electric signing system of the present invention automatic deploying method preferred embodiment.

Detailed description of the invention

Refering to shown in Fig. 1, it is the hard of electric signing system of the present invention automatic arranging system the first preferred embodiment Part environment schematic.

In the present embodiment, the automatic arranging system of described electric signing system 10 can install and run on a service In device.As it is shown in figure 1, described server can be Cloud Server 1.Described Cloud Server 1 can be by one Communication module (not shown) is connected with one or several system server communication.Described system server can To include, but not limited to be provided with the electronic signature server 2 of electric signing system 20, and pacify respectively Multiple stage service server 3-n equipped with enterprise operation system 31-3n.Described operation system 31-3n it may be that Such as, banking system, credit card business system, insurance business system, stock exchange transaction system etc..

Described electric signing system 20 is referred to as Electronic Seal System, is a kind of performance shape of electronic signature Formula, its utilize image processing techniques operation of electronic signature to be converted into paper document to affix one's seal operation identical can Depending on effect, utilize electronic signature technology to ensure the authenticity and integrity of electronic information and subscriber simultaneously Non-repudiation.

Described enterprise operation system 31-3n, it is simply that refer to that an enterprise introduces the product of oneself obtain to the market One enterprise's subsystem of bigization income.With Module Division, operation system include Marketing plan, sales platform, Sales processes management, customer service management, customer relation management, risk prevention.With Bank Insurance clothes As a example by business enterprise, described operation system 31-3n can include, such as, and banking system, credit card business System, insurance business system, stock exchange transaction system etc..

Described Cloud Server 1 can include storage device 11 and processor 12.Described processor 12 is fortune Calculate core (Core Unit) and control core (Control Unit), for interpretive machine instruction and place Data in reason computer software.Described storage device 11 can be one or more non-volatile memories list Unit, such as ROM, EPROM or Flash Memory (flash memory cell) etc..Described storage device can With built-in or be external in Cloud Server 1.

In the present embodiment, the automatic arranging system of described electric signing system 10 can be a kind of computer software, It includes the executable program instruction code of computer, and this program instruction code can be stored in described storage and set In standby 11, under the execution of described processor 12, it is achieved following function:

Each operation system 31-3n of real time record sends, to electric signing system 20, the electronic signature number of request of coming Amount and the corresponding transmission time, such as, on October 20th, 2015 14:01, the first operation system 31 is to electricity The electronic signature number of requests that sub-signature system 20 sends is 15:30 on October 20th, 5000,2015, the Two operation systems 32 are 1000 etc. to the electronic signature number of requests that electric signing system 20 sends；For respectively Individual operation system 31-3n is in the range of the time, such as, the electronic signature number of requests in nearest 30 days with Corresponding request transmission time data, are analyzed according to an analysis rule, to analyze each Preset Time The benchmark number of requests of the electronic signature that in Duan, each operation system 31-3n is corresponding, such as, described each is preset Time period it may be that be divided into 7 preset time period by one day 24 hours, be respectively " 00:00 8:00 ", “8:00—10:00”、“10:00—12:00”、“12:00—14:00”、“14:00—17:00”、“17:00—19:00” And " 19:00 24:00 "；Based on analyze each operation system 31-3n out in each preset time period right The benchmark number of requests of the electronic signature answered, such as, according to analysis, the first operation system 31 is at 00:00 8:00 The benchmark number of requests of electronic signature corresponding in the time period be the 1000, second operation system 32 00: The benchmark number of requests of electronic signature corresponding in 00 8:00 time period be the 0, the 3rd operation system 33 00: The benchmark number of requests of electronic signature corresponding in 00 8:00 time period is 500 etc., the first operation system 31 The benchmark number of requests of electronic signature corresponding within the 8:00 10:00 time period is the 2000, second operation system The benchmark number of requests of 32 electronic signatures corresponding within the 8:00 10:00 time period is the 5000, the 3rd business The benchmark number of requests of the electronic signature that system 33 is corresponding within the 8:00 10:00 time period is 1000 etc., presses According to a thread allocation rule, in each preset time period, distribute the thread of correspondence for each operation system 31-3n Quantity, such as, is that the number of threads that the first operation system 31 was distributed within the 00:00 8:00 time period is 10, the number of threads that the second operation system 32 was distributed within the 00:00 8:00 time period is the 0, the 3rd business The number of threads 5 etc. that system 33 was distributed in the 00:00 8:00 time period, and the first operation system 31 exists In the 8:00 10:00 time period, the number of threads of distribution is that the 20, second operation system 32 is when 8:00 10:00 Between in section the number of threads of distribution be that the 50, the 3rd operation system 33 was distributed within the 8:00 10:00 time period Number of threads is 10 etc.；And control electric signing system 20 distribute to each industry according to each preset time period The number of threads that business system 31-3n is corresponding, processes the electronic signature request of each operation system 31-3n.

Wherein, described analysis rule can be: according to each operation system 31-3n in preset time range Electronic signature number of requests and the corresponding associated data sending the time, calculate each operation system 31-3n In the average electron signature request quantity that each preset time period of one day is corresponding；I.e. statistical computation go out each Operation system 31-3n is in electronic signature number of requests sum corresponding to each preset time period, and calculates default The number of times that in time, each preset time period occurs, such as, in nearest 30 days, preset time period " 00: 00 8:00 " number of times that occurs is 30；By each operation system 31-3n of statistics in each preset time period pair The electronic signature number of requests sum answered, the number of times occurred divided by each preset time period in Preset Time, with Obtain each service server in Preset Time at average electron signature request number corresponding to each preset time period Amount, i.e. reference electronic signature request quantity.

Alternatively, described analysis rule can be: according to the electronics in each operation system 31-3n Preset Time Signature request quantity and the corresponding associated data sending the time, calculate each operation system in Preset Time 31-3n is when the maximum that each preset time period of every day is corresponding signs electronically number of requests and transmission thereof Between；Each operation system 31-3n that statistical computation goes out please in the maximum electronic signature that each preset time period is corresponding Seek quantity sum, and calculate the number of times that Preset Time each preset time period interior occurs, such as, nearest 30 In it, the number of times that preset time period " 00:00 8:00 " occurs is 30；Each operation system by statistics 31-3n is in maximum electronic signature number of requests sum corresponding to each preset time period, divided by each in Preset Time The number of times that individual preset time period occurs, with each operation system 31-3n in obtaining Preset Time when each is default Between reference electronic signature request quantity corresponding to section.

Wherein, described thread allocation rule can be: please with electronic signature according to predetermined number of threads Seeking the associated data of quantity, in determining Preset Time, each service server is corresponding in each preset time period Number of threads.Described according to predetermined number of threads with electronic signature number of requests associated data can To be interpreted as: the predetermined number of threads having different electronic signature number of requests corresponding, for example, it is assumed that A Representing electronic signature number of requests, if A1≤A is ＜ A2, then corresponding for A number of threads is a1；If A2≤ A ＜ A3, then corresponding for A number of threads is a2, wherein a1 ＜ a2；If A3≤A is ＜ A4, then A is corresponding Number of threads be a3, wherein a2 ＜ a3；、、、、、、；By that analogy, if An≤A is ＜ An+1, Then corresponding for A number of threads is an, wherein an-1 ＜ an；Wherein A1-An is natural number, and a1-an is equal For positive integer.

In other preferred embodiments of the present invention, the automatic arranging system of described electric signing system 10, electronics label Name system 20 and each operation system 31-3n can also be respectively mounted and run in same server, Such as Cloud Server 1, as shown in Figure 2.

Refering to shown in Fig. 3, it it is the function mould of electric signing system of the present invention automatic arranging system preferred embodiment Block figure.

The program code of the automatic arranging system of described electric signing system 10 is according to its different function, Ke Yihua It is divided into multiple functional module.In present pre-ferred embodiments, the automatic arranging system of described electric signing system 10 Logging modle 100 can be included, analyze module 101, deploying module 102 and processing module 103.

Described logging modle 100 is used for each operation system 31-3n of real time record to electric signing system 20 The electronic signature number of requests sent here and corresponding transmission time.Such as, on October 20th, 2015 14:01, First operation system 31 is 5000,2015 to the electronic signature number of requests that electric signing system 20 sends October 20 15:30, the electronic signature number of request that the second operation system 32 sends to electric signing system 20 Amount is 1000 etc..

Described analysis module 101 is used for for each operation system 31-3n in the range of the time, such as, Electronic signature number of requests in nearly 30 days and corresponding request transmission time data, enter according to an analysis rule Row is analyzed, to analyze the benchmark request of the electronic signature that each operation system is corresponding in each preset time period Quantity.

Such as, each preset time period described it may be that be divided into 7 preset time period by one day 24 hours, Be respectively " 00:00 8:00 ", " 8:00 10:00 ", " 10:00 12:00 ", " 12:00 14:00 ", " 14:00 17:00 ", " 17:00 19:00 " and " 19:00 24:00 ".

Described analysis rule can be: according to each operation system 31-3n electronics label in preset time range Name number of requests and the corresponding associated data sending the time, calculated each operation system 31-3n at one day The average electron signature request quantity that each preset time period is corresponding；Each operation system that i.e. statistical computation goes out 31-3n is in electronic signature number of requests sum corresponding to each preset time period and each in calculating Preset Time The number of times that individual preset time period occurs, such as, in nearest 30 days, preset time period " 00:00 8:00 " The number of times occurred is 30；By each operation system 31-3n of statistics at electronics corresponding to each preset time period Signature request quantity sum, the number of times occurred divided by each preset time period in Preset Time, to be preset Each service server is at average electron signature request quantity corresponding to each preset time period, i.e. base in time Quasi-electronic signature number of requests.

Alternatively, described analysis rule can be: according to the electronics in each operation system 31-3n Preset Time Signature request quantity and the corresponding associated data sending the time, calculate each operation system in Preset Time 31-3n is when the maximum that each preset time period of every day is corresponding signs electronically number of requests and transmission thereof Between；Each operation system 31-3n that statistical computation goes out please in the maximum electronic signature that each preset time period is corresponding Seek quantity sum, and calculate the number of times that Preset Time each preset time period interior occurs, such as, nearest 30 In it, the number of times that preset time period " 00:00 8:00 " occurs is 30；Each operation system by statistics 31-3n is in maximum electronic signature number of requests sum corresponding to each preset time period, divided by each in Preset Time The number of times that individual preset time period occurs, with each operation system 31-3n in obtaining Preset Time when each is default Between reference electronic signature request quantity corresponding to section.

Described deploying module 102 is used for based on each operation system 31-3n analyzed out at each Preset Time The benchmark number of requests of electronic signature corresponding in section, according to a thread allocation rule, for each operation system 31-3n distributes the number of threads of correspondence in each preset time period.

Wherein, described thread allocation rule can be: please with electronic signature according to predetermined number of threads Seeking the associated data of quantity, in determining Preset Time, each service server is corresponding in each preset time period Number of threads.

Such as, according to analysis, the electronics label that the first operation system 31 is corresponding within the 00:00 8:00 time period The benchmark number of requests of name is that the 1000, second operation system 32 is corresponding within the 00:00 8:00 time period The benchmark number of requests of electronic signature is that the 0, the 3rd operation system 33 is corresponding within the 00:00 8:00 time period The benchmark number of requests of electronic signature be 500 etc., the first operation system 31 is in the 8:00 10:00 time period The benchmark number of requests of the electronic signature of interior correspondence is that the 2000, second operation system 32 is when 8:00 10:00 Between the benchmark number of requests of electronic signature corresponding in section be that the 5000, the 3rd operation system 33 is at 8:00 10:00 The benchmark number of requests of electronic signature corresponding in the time period is 1000 etc..According to described thread allocation rule, Can be the number of threads that the first operation system 31 was distributed within the 00:00 8:00 time period be 10, second The number of threads that operation system 32 was distributed within the 00:00 8:00 time period is the 0, the 3rd operation system 33 In the number of threads 5 etc. that the 00:00 8:00 time period distributes, and the first operation system 31 is at 8:00 10:00 In time period, the number of threads of distribution is that the 20, second operation system 32 was distributed within the 8:00 10:00 time period Number of threads be that the number of threads that the 50, the 3rd operation system 33 was distributed within the 8:00 10:00 time period is 10 etc..

Described processing module 103 is used for controlling electric signing system 20 and distributes to respectively according to each preset time period The number of threads that individual operation system 31-3n is corresponding, processes the electronic signature request of each operation system 31-3n.

Refering to shown in Fig. 4, it is that the method for electric signing system of the present invention automatic deploying method preferred embodiment is real Execute flow chart.The automatic deploying of electric signing system described in the present embodiment method is not limited to shown in flow chart walk Suddenly, in addition shown in flow chart in step, some step can be omitted, order between step can change.

Step S10, logging modle 100 each operation system 31-3n of real time record is to electric signing system 20 Send the electronic signature number of requests come and corresponding transmission time.Such as, on October 20th, 2015 14:01, First operation system 31 is 5000,2015 to the electronic signature number of requests that electric signing system 20 sends October 20 15:30, the electronic signature number of request that the second operation system 32 sends to electric signing system 20 Amount is 1000 etc..

Step S11, analysis module 101 is according to an analysis rule, to each operation system 31-3n in the time In the range of, such as, the electronic signature number of requests in nearest 30 days is entered with corresponding request transmission time data Row is analyzed, to analyze the benchmark request of the electronic signature that each operation system is corresponding in each preset time period Quantity.

Such as, each preset time period described it may be that be divided into 7 preset time period by one day 24 hours, Be respectively " 00:00 8:00 ", " 8:00 10:00 ", " 10:00 12:00 ", " 12:00 14:00 ", " 14:00 17:00 ", " 17:00 19:00 " and " 19:00 24:00 ".

Described analysis rule can be: according to each operation system 31-3n electronics label in preset time range Name number of requests and the corresponding associated data sending the time, calculated each operation system 31-3n at one day The average electron signature request quantity that each preset time period is corresponding；Each operation system that i.e. statistical computation goes out 31-3n is in electronic signature number of requests sum corresponding to each preset time period and each in calculating Preset Time The number of times that individual preset time period occurs, such as, in nearest 30 days, preset time period " 00:00 8:00 " The number of times occurred is 30；By each operation system 31-3n of statistics at electronics corresponding to each preset time period Signature request quantity sum, the number of times occurred divided by each preset time period in Preset Time, to be preset Each service server is at average electron signature request quantity corresponding to each preset time period, i.e. base in time Quasi-electronic signature number of requests.

Alternatively, described analysis rule can be: according to the electronics in each operation system 31-3n Preset Time Signature request quantity and the corresponding associated data sending the time, calculate each operation system in Preset Time 31-3n is in maximum electronic signature number of requests corresponding to each preset time period of every day；Statistical computation goes out Each operation system 31-3n in maximum electronic signature number of requests sum corresponding to each preset time period, and Calculate the number of times that Preset Time each preset time period interior occurs, such as, in nearest 30 days, Preset Time The number of times that section " 00:00 8:00 " occurs is 30；Each operation system 31-3n of statistics is preset at each The maximum electronic signature number of requests sum that time period is corresponding, goes out divided by each preset time period in Preset Time Existing number of times, to obtain each operation system 31-3n in Preset Time at benchmark corresponding to each preset time period Electronic signature number of requests.

Step S12, deploying module 102 is based on analyzing each operation system 31-3n out when each is default Between the benchmark number of requests of electronic signature corresponding in section, according to a thread allocation rule, for each business system System 31-3n distributes the number of threads of correspondence in each preset time period.

Wherein, described thread allocation rule can be: please with electronic signature according to predetermined number of threads Seeking the associated data of quantity, in determining Preset Time, each service server is corresponding in each preset time period Number of threads.

Such as, according to analysis, the electronics label that the first operation system 31 is corresponding within the 00:00 8:00 time period The benchmark number of requests of name is that the 1000, second operation system 32 is corresponding within the 00:00 8:00 time period The benchmark number of requests of electronic signature is that the 0, the 3rd operation system 33 is corresponding within the 00:00 8:00 time period The benchmark number of requests of electronic signature be 500 etc., the first operation system 31 is in the 8:00 10:00 time period The benchmark number of requests of the electronic signature of interior correspondence is that the 2000, second operation system 32 is when 8:00 10:00 Between the benchmark number of requests of electronic signature corresponding in section be that the 5000, the 3rd operation system 33 is at 8:00 10:00 The benchmark number of requests of electronic signature corresponding in the time period is 1000 etc..According to described thread allocation rule, Can be the number of threads that the first operation system 31 was distributed within the 00:00 8:00 time period be 10, second The number of threads that operation system 32 was distributed within the 00:00 8:00 time period is the 0, the 3rd operation system 33 In the number of threads 5 etc. that the 00:00 8:00 time period distributes, and the first operation system 31 is at 8:00 10:00 In time period, the number of threads of distribution is that the 20, second operation system 32 was distributed within the 8:00 10:00 time period Number of threads be that the number of threads that the 50, the 3rd operation system 33 was distributed within the 8:00 10:00 time period is 10 etc..

Step S13, processing module 103 controls electric signing system 20 and distributes to according to each preset time period The number of threads that each operation system 31-3n is corresponding, processes the electronic signature request of each operation system 31-3n.

It should be noted last that, above example only in order to technical scheme to be described and unrestricted, Although being described in detail the present invention with reference to preferred embodiment, those of ordinary skill in the art should manage Solve, technical scheme can be modified or equivalent, without deviating from technical solution of the present invention Spirit and scope.

Claims (10)

1. an electric signing system automatic deploying method, it is characterised in that the method includes:

The electronic signature number of requests that each operation system of real time record sends to electric signing system is with corresponding The transmission time；

According to an analysis rule, to each operation system electronic signature number of requests in the range of the time with Corresponding request transmission time data are analyzed, to analyze each operation system in each preset time period The benchmark number of requests of corresponding electronic signature；

Based on each operation system analyzed out benchmark of the electronic signature of correspondence in each preset time period Number of requests, according to a thread allocation rule, it is right to distribute in each preset time period for each operation system The number of threads answered；And

Control electric signing system and distribute to, according to each preset time period, the Thread Count that each operation system is corresponding Amount, processes the electronic signature request of each operation system.

2. the method for claim 1, it is characterised in that described analysis rule is: at described time range In, each operation system that statistical computation goes out electronic signature number of requests corresponding to each preset time period it With, and calculate the number of times that Preset Time each preset time period interior occurs；Each operation system by statistics In the electronic signature number of requests sum that each preset time period is corresponding, divided by when in Preset Time, each is default Between the number of times that occurs of section, obtain each service server in Preset Time at base corresponding to each preset time period Quasi-electronic signature number of requests.

3. the method for claim 1, it is characterised in that described analysis rule is: at described time range In, calculating each operation system please in the maximum electronic signature that each preset time period of every day is corresponding Seek quantity；Each operation system that statistical computation goes out please in the maximum electronic signature that each preset time period is corresponding Seek quantity sum, and calculate the number of times that Preset Time each preset time period interior occurs；By statistics each Operation system is in maximum electronic signature number of requests sum corresponding to each preset time period, divided by Preset Time The number of times that each preset time period interior occurs, in obtaining Preset Time, each operation system is at each Preset Time The reference electronic signature request quantity that section is corresponding.

4. the method for claim 1, it is characterised in that described thread allocation rule is: according to the most true Fixed number of threads and the associated data of electronic signature number of requests, determine each business clothes in Preset Time Business device is in number of threads corresponding to each preset time period.

5. one kind is applicable to the server of method described in any one of Claims 1-4, it is characterised in that this service Device includes storage device and processor, wherein:

Described storage device, for one automatic arranging system of electric signing system of storage；

Described processor, is used for calling and perform the automatic arranging system of described electric signing system, to perform such as Lower step:

The electronic signature number of requests that each operation system of real time record sends to electric signing system is with corresponding The transmission time；

According to an analysis rule, to each operation system electronic signature number of requests in the range of the time with Corresponding request transmission time data are analyzed, to analyze each operation system in each preset time period The benchmark number of requests of corresponding electronic signature；

Based on each operation system analyzed out benchmark of the electronic signature of correspondence in each preset time period Number of requests, according to a thread allocation rule, it is right to distribute in each preset time period for each operation system The number of threads answered；And

Control electric signing system and distribute to, according to each preset time period, the Thread Count that each operation system is corresponding Amount, processes the electronic signature request of each operation system.

6. server as claimed in claim 5, it is characterised in that described analysis rule is: at described time model In enclosing, each operation system that statistical computation goes out is in electronic signature number of requests corresponding to each preset time period Sum, and calculate the number of times that Preset Time each preset time period interior occurs；Each business system by statistics Uniting in electronic signature number of requests sum corresponding to each preset time period, divided by Preset Time, each is preset The number of times that time period occurs, in obtaining Preset Time, each service server is corresponding in each preset time period Reference electronic signature request quantity.

7. server as claimed in claim 5, it is characterised in that described analysis rule is: at described time model In enclosing, calculate each operation system and sign electronically in the maximum that each preset time period of every day is corresponding Number of requests；Each operation system that statistical computation goes out signs electronically in the maximum that each preset time period is corresponding Number of requests sum, and calculate the number of times that Preset Time each preset time period interior occurs；Each by add up Individual operation system is in maximum electronic signature number of requests sum corresponding to each preset time period, divided by time default The number of times that each preset time period interior occurs, in obtaining Preset Time, each operation system is when each is default Between reference electronic signature request quantity corresponding to section.

8. server as claimed in claim 5, it is characterised in that described thread allocation rule is: according in advance The number of threads determined and the associated data of electronic signature number of requests, determine each business in Preset Time Server is in number of threads corresponding to each preset time period.

9. the automatic arranging system of electric signing system, it is characterised in that this system includes:

Logging modle, please to the electronic signature that electric signing system sends for each operation system of real time record Ask quantity and corresponding transmission time；

Analyze module, for according to an analysis rule, to each operation system electronics in the range of the time Signature request quantity is analyzed with corresponding request transmission time data, to analyze each preset time period In the benchmark number of requests of electronic signature corresponding to each operation system；

Deploying module, for based on each operation system analyzed out correspondence in each preset time period The benchmark number of requests of electronic signature, according to a thread allocation rule, presets at each for each operation system The number of threads that in time period, distribution is corresponding；And

Processing module, is used for controlling electric signing system and distributes to each business system according to each preset time period The number of threads that system is corresponding, processes the electronic signature request of each operation system.

10. system as claimed in claim 9, it is characterised in that described analysis rule is: at described time model In enclosing, each operation system that statistical computation goes out is in electronic signature number of requests corresponding to each preset time period Sum, and calculate the number of times that Preset Time each preset time period interior occurs；Each business system by statistics Uniting in electronic signature number of requests sum corresponding to each preset time period, divided by Preset Time, each is preset The number of times that time period occurs is corresponding in each preset time period with each service server in obtaining Preset Time Reference electronic signature request quantity.