CN104580513A - Remote software application research and development method and device based on cloud computing - Google Patents

Abstract

The invention relates to a remote software application research and development method and device based on cloud computing. The remote software application research and development method includes steps of S1, sending out login information, judging the login information, sending out service start request information if the login information is correct, and if not, finishing operation; S2, judging the service start request information, giving out safety tokens and ready information if the service start request information is correct, and if not, finishing the operation; S3, receiving the ready information and adding the safety tokens to calling requests; S4, authenticating the safety tokens, transmitting the calling results if the safety tokens are correct, or otherwise, finishing the operation; S5, receiving the calling results, researching and developing and turning to the step S3. Accordingly, by the remote software application research and development method and device based on the cloud computing, researchers can quickly and effectively complete research and development in the cloud system.

Description

The long-range research and development method of software application based on cloud computing and device

Technical field

The present invention relates to technical field of the computer network, particularly based on the long-range research and development method of software application and the device of cloud computing.

Technical background

Cloud computing has become the main flow direction of information-based industry, no matter is individual or the application of enterprise-level, and no matter be Mobile solution or PC application, the service based on cloud becomes main flow gradually, but, also for the research and development of application bring very large challenge.

The research and development of software application need necessary instrument and the environment such as frequent amendment, and this kind of instrument and environment are very ripe under traditional mode, and software developer skillfully uses in a large number, and it's not true, and efficiency of research and development reduces greatly.But under the pattern of cloud, such environment almost becomes and is very difficult to realize.Huge cloud computing platform system is substantially unrealistic at local disposition, and software developer must go to develop by Software deployment to cloud platform.But so not only considerably increase the workload of coding, too increase job step.

How at low cost for the software development under cloud computing mode provides development environment effectively and rapidly, propose great challenge to the cloud service operator under we, research and development of software unit and personnel in cloud computing epoch.

In view of above-mentioned defect, creator of the present invention obtains the present invention finally through long research and practice.

Summary of the invention

The object of the invention is to, provide a kind of software application based on cloud computing long-range research and development method and apparatus, in order to solve above-mentioned technological deficiency.

For achieving the above object, the technical solution used in the present invention is, provides a kind of software application based on cloud computing long-range research and development method, comprising:

Step S1: send log-on message, and described log-on message is judged, if the service that correctly sends starts solicited message, if incorrect, terminate;

Step S2: start solicited message to described service and judge, if correct judgment is provided security token and is ready to complete information, if incorrect, terminates;

Step S3: be ready to complete information described in reception, and described security token is added to call request;

Step S4: security token described in certification, if certification correctly sends call result, otherwise, terminate;

Step S5, calls result described in reception, carries out research and development process, turns to step S3.

Preferably, described step S1 comprises:

Step S11: send described log-on message;

Step S12: receive described log-on message, and described log-on message is judged, if correct judgment turns to step S13, if incorrect, terminate;

Step S13: the service that sends starts solicited message;

Described step S2 comprises:

Step S21: start solicited message to described service and judge, if correct judgment turns to step S22, if incorrect, terminates;

Step S22: send service available information, and provide security token;

Step S23: receive described security token, be ready to complete information described in sending.

Preferably, described step S21 comprises:

Step S211: obtain the frequency that described service starts service signals different in request, described service signal comprises a kind of main signal and multiple subsignal;

Step S212: the frequency f judging the described main signal received ₀size, if f ₀be 0, terminate, if f ₀be not 0, forward step S213 to;

Step S213, adds up the total flow θ of described service signal;

Step S214, judges described total flow θ and threshold flow θ ₀size, if described total flow θ is more than or equal to described threshold flow θ ₀, forward step S22 to, if described total flow θ is less than described threshold flow θ ₀, terminate.

Preferably, the computing formula of described total flow θ is:

$\mathrm{\θ}=\left\{\begin{array}{c}0,f_0=0\\ w_0{f_0}^2+\underset{i=1}{\overset{n}{\mathrm{\Σ}}}{i}^{-2/3}{f_i}^{1/2},f_0\≠0\end{array}\right.$

Wherein, n be the species number of described subsignal and n be greater than 1 integer, f ₀for the frequency of described main signal received, f ₁, f ₂f _nbe followed successively by the frequency that described in the n kind that receives, subsignal is corresponding; w ₀for the weight coefficient that described main signal is corresponding; θ is the total flow receiving described service signal, and i is integer, f _ibe the frequency of the i-th seed signal, w _iit is the weight coefficient of the i-th seed signal.

Preferably, described step S3 comprises:

Step S31: be ready to complete information described in reception, sends interface bag;

Step S32: receive described interface bag and to go forward side by side row relax, send call request;

Step S33: receive described call request, and add described security token;

Described step S4 comprises:

Step S41: security token described in certification, if certification correctly, forwards described call request, otherwise, terminate;

Step S42: receive the described call request forwarded, and call result described in returning.

Preferably, in described step S5, after carrying out research and development process, turn to step S32.

Preferably, comprising:

One logs in unit, sends log-on message, and judges described log-on message, if the service that correctly sends starts solicited message, if incorrect, quits work;

One service unit, is connected with described login unit, starts solicited message and judges, if correct judgment is provided security token and is ready to complete information, if incorrect, quit work to described service;

One preparatory unit, is connected with described service unit, is ready to complete information described in reception, and adds described security token to call request;

One safety certification unit, is connected with described preparatory unit, security token described in certification, if certification correctly sends call result, otherwise, quit work;

One research and development unit, is connected with described service unit with described safety certification unit, calls result described in reception, carries out research and development process.

Preferably, described login unit comprises:

One login sends module, sends described log-on message;

One logs in judge module, sends module and is connected, receive described log-on message, and judge described log-on message, if correct judgment, work on, otherwise quit work with described login;

One service request module, is connected with described login judge module, when described log-on message correct judgment starts described service request module, sends described service and starts solicited message;

Described service unit comprises:

One service judge module, is connected with described service request module, receives described service and starts solicited message, and judge this information, if correct judgment, work on, otherwise stop;

One secure token module, is connected with described service judge module, provides described security token;

One completes module, connects with described secure token module, receives described security token, and is ready to complete information described in sending.

Preferably, described service judge module comprises:

One frequency acquisition submodule, is connected with described service request module, obtains the frequency that described service starts described service signals different in solicited message;

One main signal judges submodule, is connected with described frequency acquisition submodule, judges the frequency f of the described main signal received ₀size, if f ₀be 0, quit work, if f ₀be not 0, work on;

One flow judges submodule, judges that submodule is connected, work as f with described main signal ₀start described flow when not being 0 and judge submodule, add up the described total flow θ of described service signal; With described flow, one threshold value comparison sub-module, judges that submodule is connected, judge described total flow θ and described threshold flow θ ₀size, if described total flow θ is more than or equal to described threshold flow θ ₀, work on, if described total flow θ is less than described threshold flow θ ₀, quit work.

Preferably, described preparatory unit comprises:

One receiver module, is connected with the described module that completes, is ready to complete information described in reception, and sends described interface bag;

One processing module, is connected with described receiver module, receives described interface bag and to go forward side by side row relax, send described call request;

One adds module, is connected, receives described call request, and add described security token with described processing module with the described module that completes;

Described safety certification unit comprises:

One authentication module, is connected with described interpolation module, security token described in certification, if certification correctly, forwards described call request, anyway, quit work;

One calling module, is connected with described authentication module, receives the described call request forwarded, and calls result described in returning.

Compared with prior art, beneficial effect of the present invention is: provide a kind of remote software based on cloud computing research and development method and apparatus, makes research staff can complete research and development operation fast and effectively in cloud system; Provide a kind of method of serving startup request and carrying out judging, improve the accuracy of judgement and the fail safe of operating efficiency and operation.

Accompanying drawing explanation

Fig. 1 is the flow chart of the long-range research and development embodiment of the method one of software application that the present invention is based on cloud computing;

Fig. 2 is the flow chart of the long-range research and development embodiment of the method two of software application that the present invention is based on cloud computing;

Fig. 3 is the flow chart of the long-range research and development embodiment of the method three of software application that the present invention is based on cloud computing;

Fig. 4 is the structural representation of the software application long-range research and development device embodiment four that the present invention is based on cloud computing;

Fig. 5 is the structural representation of the software application long-range research and development device embodiment five that the present invention is based on cloud computing;

Fig. 6 is the structural representation of the software application long-range research and development device embodiment six that the present invention is based on cloud computing.

Embodiment

Understand technical scheme of the present invention and beneficial effect for ease of those skilled in the art, spy describes as follows to embodiment by reference to the accompanying drawings.

Embodiment one

As shown in Figure 1, the long-range research and development method of the software application based on cloud computing, comprising:

Step S1: send log-on message, and described log-on message is judged, if the service that correctly sends starts solicited message, if incorrect, terminate;

Step S2: start solicited message to described service and judge, if correct judgment is provided security token and is ready to complete information, if incorrect, terminates;

Step S3: be ready to complete information described in reception, and described security token is added to call request;

Step S4: security token described in certification, if certification correctly sends call result, otherwise, terminate;

Step S5, calls result described in reception, carries out research and development process, turns to step S3.

During work, first send log-on message from PC end, cloud platform member authentication system accepts described log-on message, and judges described log-on message, when after Successful login cloud platform, can sending service start solicited message to cloud platform from PC end.Cloud application member and related software end start temperament and interest to described service and judge, correct judgment is provided security token and is ready to complete information, if incorrect process ends.PC is ready to complete information described in receiving, and asks cloud platform end to add security token.When security token certification is correct, send to research staff and call result.Research staff to call result carry out research and development process after, again turn to step S3.Described research and development process is the exploitation carrying out program, as operations such as amendment source codes.

Embodiment two

Based on the long-range research and development method of the software application of cloud computing as described in above-described embodiment one, the present embodiment proposes a kind of method improved described step S1, S2, S3 and S4, please refer to Fig. 2.

Step S1 comprises:

Step S11: send log-on message;

Step S12: receive described log-on message, and described log-on message is judged, if correct judgment turns to step S13, if incorrect, terminate;

Step S13: the service that sends starts solicited message.

Described step S2 comprises:

Step S21: start solicited message to described service and judge, if correct judgment turns to step S22, if incorrect, terminates;

Step S22: send service available information, and provide security token;

Step S23: receive described security token, send the information of being ready to complete.

Upon step s 2, also comprise step S3 and step S4, described step S3 comprises:

Step S31: be ready to complete information described in reception, sends interface bag;

Step S32: receive described interface bag and to go forward side by side row relax, send call request;

Step S33: receive described call request, and add described security token.

Described step S4 comprises:

Step S41: security token described in certification, if certification correctly, forwards described call request, otherwise, terminate;

Step S42: receive described call request, and return and call result.

During work, research staff sends logging request by PC end to cloud platform member authentication system, and request logs in described cloud platform member authentication system.When described cloud platform member authentication system detects described logging request, if it is determined that when described logging request is correct, cloud platform member authentication system described in Successful login; If it is determined that during described logging request mistake, terminate login process.After cloud platform member authentication system described in Successful login, PC end sends service and starts solicited message to cloud platform end.Described service is started request message transmission to cloud application member and related software end by described cloud platform service end, and this end starts solicited message to described service and checks, judges its availability.If it is correct that described service starts solicited message, described cloud application member and related software end send service available information to described cloud platform end.After described cloud platform termination receives described service available information, send security token to PC end, PC termination receives described security token.The process that class cloud platform service starts to service wait completes.

When class cloud platform service start to service wait for process complete after, pc client sends interface bag, and research staff sends call request after receiving described interface bag.The priority of described interface bag is down to minimum by research staff, if a module appears on local and cloud platform simultaneously, the configuration of IDE project environment can be adjusted, arrange and call limited order, preferentially can be invoked at local module, also can preferentially call the module be deployed in cloud as required.Described pc client receives described call request, and adds described security token by described call request.Described cloud platform termination receives the described call request that with the addition of described security token, and carries out certification to described security token.When described security token is correct, described call request is passed to described cloud application member and related software end.Described cloud application member and related software end will call result and be passed to research staff by cloud platform end, pc client successively.After calling result described in research staff receives, carry out research and development process, next call request can also be sent.But when described security token is incorrect, terminate whole process.

Embodiment three

Based on the long-range research and development method of the software application of cloud computing as described in above-described embodiment two, the present embodiment proposes a kind of method improved described step S21, please refer to Fig. 3.

When described service initiation information is correct, service available information can be sent; Otherwise, when described service initiation information mistake, be merely able to terminate whole process.Described service initiation information comprises two parts, be respectively a kind of main signal A and n seed signal B1, B2 ... Bn, wherein n be greater than 1 positive number.In described service initiation information, the frequency of various signal is different, and the frequency of described main signal A is f ₀, described subsignal B1, B2 ... the corresponding frequency of Bn is followed successively by f ₁, f ₂... f _n.The weight coefficient of main signal A is w ₀, the weight coefficient of i-th subsignal is w _i.The total flow θ of the described service initiation information got in the unit interval is calculated, when total flow θ is more than or equal to threshold flow θ ₀time, judge that described service initiation information is correct; When total flow θ is less than threshold flow θ ₀time, judge described service initiation information mistake.The computational methods of described total flow are:

$\mathrm{\θ}=\left\{\begin{array}{c}0,f_0=0\\ w_0{f_0}^2+\underset{i=1}{\overset{n}{\mathrm{\Σ}}}{w}_i{f_i}^{1/2},f_0\≠0\end{array}\right.$

Wherein, w ₀∈ (1,3), the weight coefficient of i-th subsignal is w _icomputational methods be:

w _i＝i ^-2/3

So the computing formula of described total flow can be reduced to:

$\mathrm{\θ}=\left\{\begin{array}{c}0,f_0=0\\ w_0{f_0}^2+\underset{i=1}{\overset{n}{\mathrm{\Σ}}}{i}^{-2/3}{f_i}^{1/2},f_0\≠0\end{array}\right.$

Service initiation information is detected, if there is no main signal A, described service initiation information mistake is described, do not need to calculate service initiation information total flow again, improve statistical efficiency; If there is main signal A, just need the total flow of statistical fractals log-on message.This judgment mode, not only can improve computational efficiency, and can improve the accuracy judged described service initiation information.

Step S21 comprises:

Step S211: obtain the frequency that described service starts service signals different in request, described service signal comprises a kind of main signal and multiple subsignal;

Step S212: the frequency f judging the described main signal received ₀size, if f ₀be 0, terminate, if f ₀be not 0, forward step S213 to;

Step S213, adds up the total flow θ of described service signal, and the computing formula of described total flow θ is:

$\mathrm{\θ}=\left\{\begin{array}{c}0,f_0=0\\ w_0{f_0}^2+\underset{i=1}{\overset{n}{\mathrm{\Σ}}}{i}^{-2/3}{f_i}^{1/2},f_0\≠0\end{array}\right.$

Wherein, n be the species number of described subsignal and n be greater than 1 integer, f ₀for the frequency of described main signal received, f ₁, f ₂f _nbe followed successively by the frequency that described in the n kind that receives, subsignal is corresponding; w ₀for the weight coefficient that described main signal is corresponding; w ₁, w ₂w _nbe respectively the weight coefficient that described in n kind, subsignal is corresponding; θ is the total flow receiving described service signal, and i is integer, f _ibe the frequency of the i-th neutron signal, w _iit is the weight coefficient of the i-th seed signal;

Step S214, judges described total flow θ and threshold flow θ ₀size, if described total flow θ is more than or equal to described threshold flow θ ₀, forward step S22 to, if described total flow θ is less than described threshold flow θ ₀, terminate.

Embodiment four

The long-range research and development of the software application based on cloud computing method as described in above-described embodiment three, present embodiments provides the long-range research and development device of a kind of software application based on cloud computing, as shown in Figure 4.

The long-range research and development device of software application based on cloud computing, comprising:

One logs in unit 01, sends log-on message, and judges described log-on message, if the service that correctly sends starts solicited message, if incorrect, quits work;

One service unit 02, is connected with described login unit 01, starts solicited message and judges, if correct judgment is provided security token and is ready to complete information, if incorrect, quit work to described service;

One preparatory unit 03, is connected with described service unit 02, is ready to complete information described in reception, and add described security token to call request;

One safety certification unit 04, is connected with described preparatory unit 03, security token described in certification, if certification correctly sends call result, otherwise, quit work;

One research and development unit 05, is connected with described service unit 02 with described authentication ' unit, calls result described in reception, carries out research and development process.

During work, described preparatory unit 03 sends log-on message, and judges described log-on message, if the service that correctly sends starts solicited message, if incorrect, quits work.Service unit 02, starts solicited message to described service and judges, if correct judgment is provided security token and is ready to complete information, if incorrect, quit work.Be ready to complete information described in preparatory unit 03 receives, and described security token is added to call request.Security token described in safety certification unit 04 certification, if certification correctly sends call result, otherwise, quit work.Call result described in research and development unit 05 receives, carry out research and development process.

Embodiment five

The long-range research and development of the software application based on cloud computing device as described in above-described embodiment four, present embodiments provide a kind of device that described login unit 01, described service unit 02, described preparatory unit 03 and described safety certification unit 04 are improved, as shown in Figure 5.

Described login unit 01 comprises:

One login sends module 11, sends described log-on message;

One logs in judge module 12, sends module 11 and is connected, receive described log-on message, and judge described log-on message with described login, if correct judgment starts service request module 13, otherwise quits work;

One service request module 13, is connected with described login judge module 12, and the service that sends starts solicited message.

Described service unit 02 comprises:

One service judge module 21, is connected with described service request module 13, receives the described service startup solicited message that described service request module 13 sends, and judges this information, if correct judgment starts secure token module 22, otherwise quit work;

One secure token module 22, is connected with described service judge module 21, provides security token;

One completes module 23, connects, receive described security token, and send the information of being ready to complete with described secure token module 22.

Described preparatory unit 03 comprises:

One receiver module 31, described receiver module 31 is ready to complete information described in receiving, concurrent outgoing interface bag;

One processing module 32, is connected with described receiver module 31, receives described interface bag and to go forward side by side row relax, send call request;

One adds module 33, is connected, receives described call request, and add described security token with described processing module 32 with the described module 23 that completes.

Described safety certification unit 04 comprises:

One authentication module 41, is connected with described interpolation module 33, security token described in certification, if certification correctly, forwards described call request, anyway, quit work;

One calling module 42, is connected with described authentication module 41, receives described call request, and returns and call result.

During work, start login and send module 11, send described log-on message, and described log-on message is passed to described login judge module 12.Described login judge module 12 judges described log-on message, if correct judgment, starts described service request module 13, otherwise quits work.After described service request module 13 starts, the service that sends starts solicited message.Described service judge module 21 receives service and starts solicited message, and judges this information, if correct judgment, starts described secure token module 22, otherwise quits work.After described secure token module 22 starts, provide security token, described in complete module 23 and receive security token, and send the information of being ready to complete.

Be ready to complete information described in receiver module 31 receives, concurrent outgoing interface bag, post-processing module 32 receive described pack processing and to go forward side by side row relax, send call request.Described interpolation module 33 receives described call request, and completes the security token that module 23 passes over described in adding.Described authentication module 41 carries out certification to described security token afterwards, if correct, start described calling module 42, otherwise quits work.After described calling module 42 starts, receive described call request, and return and call result.Call result described in described research and development unit 05 receives, carry out a series of research and development process, and continue start treatment module 32, carry out next round operation.Embodiment six

The long-range research and development of the software application based on cloud computing device as described in above-described embodiment four, present embodiments provides a kind of device improved described service judge module 21, as shown in Figure 6.

Described service judge module 21 comprises:

One frequency acquisition submodule 211: be connected with described service request module 13, obtain the frequency that described service starts service signals different in request, described service signal comprises a kind of main signal and multiple subsignal;

One main signal judges submodule 212: be connected with described frequency acquisition submodule 211, judges the frequency f of the described main signal received ₀size, if f ₀be 0, quit work, if f ₀be not 0, start flow and judge submodule 213;

One flow judges submodule 213: judge that submodule 212 is connected with described main signal, add up the total flow θ of described service signal;

One threshold value comparison sub-module 214: judge that submodule 213 is connected with described flow, judges described total flow θ and threshold flow θ ₀size, if described total flow θ is more than or equal to described threshold flow θ ₀, start described secure token module 22 ^,if described total flow θ is less than described threshold flow θ ₀, quit work.

During work, described frequency acquisition submodule 211 receives described service and starts solicited message, and obtains main signal frequency f in this information ₀with the frequency f of multiple subsignal _i.Described main signal judges the frequency f of submodule 212 to described main signal ₀size judge, if f ₀be 0, quit work, if f ₀be not 0, start flow and judge submodule 213.After described flow judges that submodule 213 starts, add up the total flow θ of described service signal.Start threshold value comparison sub-module 214 afterwards, to described total flow θ and threshold flow θ ₀size judge, if described total flow θ is more than or equal to described threshold flow θ ₀, start described secure token module 22, if described total flow θ is less than described threshold flow θ ₀, quit work.

The foregoing is only preferred embodiment of the present invention, is only illustrative for the purpose of the present invention, and nonrestrictive.Those skilled in the art is understood, and can carry out many changes and amendment in the spirit and scope that the claims in the present invention limit to it, even equivalence, but all will fall within the scope of protection of the present invention.

Claims (10)

1., based on the long-range research and development method of software application of cloud computing, it is characterized in that, comprise

Step S1: send log-on message, and described log-on message is judged, if the service that correctly sends starts solicited message, if incorrect, terminate;

Step S2: start solicited message to described service and judge, if correct judgment is provided security token and is ready to complete information, if incorrect, terminates;

Step S3: be ready to complete information described in reception, and described security token is added to call request;

Step S4: security token described in certification, if certification correctly sends call result, otherwise, terminate;

Step S5, calls result described in reception, carries out research and development process, turns to described step S3.

2. the long-range research and development method of the software application based on cloud computing according to claim 1, it is characterized in that, described step S1 comprises:

Step S11: send described log-on message;

Step S12: receive described log-on message, and described log-on message is judged, if correct judgment turns to step S13, if incorrect, terminate;

Step S13: send described service and start solicited message;

Described step S2 comprises:

Step S21: start solicited message to described service and judge, if correct judgment turns to step S22, if incorrect, terminates;

Step S22: send service available information, and provide described security token;

Step S23: receive described security token, be ready to complete information described in sending.

3. the long-range research and development method of the software application based on cloud computing according to claim 2, it is characterized in that, described step S21 comprises:

Step S211: obtain the frequency that described service starts service signals different in request, described service signal comprises a kind of main signal and multiple subsignal;

Step S212: the frequency f judging the described main signal received ₀size, if f ₀be 0, terminate, if f ₀be not 0, forward step S213 to;

Step S213, adds up the total flow θ of described service signal;

Step S214, judges described total flow θ and threshold flow θ ₀size, if described total flow θ is more than or equal to described threshold flow θ ₀, forward described step S22 to, if described total flow θ is less than described threshold flow θ ₀, terminate.

4. the remote software research and development method based on cloud computing according to claim 3, is characterized in that, the computing formula of described total flow θ is:

$0=\left\{\begin{array}{cc}0,& f_0=0\\ w_0{f}_0^2+\underset{i=1}{\overset{n}{\mathrm{\Σ}}}{i}^{2/3}{f}_i^{1/2},& f_0\≠0\end{array}\right.$

Wherein, n be the species number of described subsignal and n be greater than 1 integer, f ₀for the frequency of described main signal received, f ₁, f ₂f _nbe followed successively by the frequency that described in the n kind that receives, subsignal is corresponding; w ₀for the weight coefficient that described main signal is corresponding; θ is the total flow receiving described service signal, and i is integer, f _ibe the frequency of the i-th seed signal, w _iit is the weight coefficient of the i-th seed signal.

5. the long-range research and development of the software application based on the cloud computing method according to Claims 2 or 3, it is characterized in that, described step S3 comprises:

Step S31: be ready to complete information described in reception, sends interface bag;

Step S32: receive described interface bag and to go forward side by side row relax, send described call request;

Step S33: receive described call request, and add described security token;

Described step S4 comprises:

Step S41: security token described in certification, if certification correctly, forwards described call request, otherwise, terminate;

Step S42: receive the described call request forwarded, and call result described in returning.

6. the long-range research and development method of the software application based on cloud computing according to claim 5, is characterized in that, in described step S5, after carrying out research and development process, turns to described step S32.

7. a long-range research and development device corresponding with the long-range research and development of the software application based on cloud computing method described above, is characterized in that, comprising:

One logs in unit, sends log-on message, and judges described log-on message, if correctly send described service to start solicited message, if incorrect, quits work;

One service unit, is connected with described login unit, starts solicited message judge described service, if correct judgment provide described security token and described in be ready to complete information, if incorrect, quit work;

One preparatory unit, is connected with described service unit, is ready to complete information described in reception, and adds described security token to described call request;

One safety certification unit, is connected with described preparatory unit, security token described in certification, if certification correctly send described in call result, otherwise, quit work;

One research and development unit, is connected with described service unit with described safety certification unit, calls result described in reception, carries out research and development process.

8. the long-range research and development device that the long-range research and development of the software application based on cloud computing method according to claim 7 is corresponding, is characterized in that, described login unit comprises:

One login sends module, sends described log-on message;

One logs in judge module, sends module and is connected, receive described log-on message, and judge described log-on message, if correct judgment, work on, otherwise quit work with described login;

One service request module, is connected with described login judge module, when described log-on message correct judgment starts described service request module, sends described service and starts solicited message;

Described service unit comprises:

One service judge module, is connected with described service request module, receives described service and starts solicited message, and judge this information, if correct judgment, work on, otherwise stop;

One secure token module, is connected with described service judge module, provides described security token;

One completes module, connects with described secure token module, receives described security token, and is ready to complete information described in sending.

9. the long-range research and development device that the long-range research and development of the software application based on cloud computing method according to claim 8 is corresponding, is characterized in that, described service judge module comprises:

One frequency acquisition submodule, is connected with described service request module, obtains the frequency that described service starts described service signals different in solicited message;

One main signal judges submodule, is connected with described frequency acquisition submodule, judges the frequency f of the described main signal received ₀size, if f ₀be 0, quit work, if f ₀be not 0, work on;

One flow judges submodule, judges that submodule is connected, work as f with described main signal ₀start described flow when not being 0 and judge submodule, add up the described total flow θ of described service signal;

With described flow, one threshold value comparison sub-module, judges that submodule is connected, judge described total flow θ and described threshold flow θ ₀size, if described total flow θ is more than or equal to described threshold flow θ ₀, work on, if described total flow θ is less than described threshold flow θ ₀, quit work.

10. the long-range research and development device that the long-range research and development of the software application based on cloud computing method is according to claim 8 or claim 9 corresponding, it is characterized in that, described preparatory unit comprises:

One receiver module, is connected with the described module that completes, is ready to complete information described in reception, and sends described interface bag;

One processing module, is connected with described receiver module, receives described interface bag and to go forward side by side row relax, send described call request;

One adds module, is connected, receives described call request, and add described security token with described processing module with the described module that completes;

Described safety certification unit comprises:

One authentication module, is connected with described interpolation module, security token described in certification, if certification correctly, forwards described call request, anyway, quit work;

One calling module, is connected with described authentication module, receives the described call request forwarded, and calls result described in returning.