CN109218054B - Terminal dynamic configuration, corresponding server implementation method, device and storage medium - Google Patents

Abstract

The invention discloses a terminal dynamic configuration, a corresponding server implementation method, a device and a storage medium. The method comprises the following steps: receiving a service configuration request of a terminal; extracting model information and applied configuration information version identification from the service configuration request; determining that the applied configuration information of the service is low-version configuration information according to the applied configuration information version identification and the service configuration script corresponding to the machine type information, wherein the service configuration script automatically executes script updating according to the service performance when the low-version configuration information is applied, and can be suitable for various machine types; acquiring high-version configuration information output by a service configuration script; and issuing high version configuration information to the terminal. The server deploys service configuration scripts respectively suitable for various types of machines, when the service performance is poor, the service configuration scripts are automatically updated by the execution scripts, high-version configuration information is obtained through the updated service configuration scripts, and better service performance is obtained compared with the application of low-version configuration information in the terminal of the machine type.

Description

Terminal dynamic configuration, corresponding server implementation method, device and storage medium

Technical Field

The invention relates to the technical field of computer application, in particular to a method and a device for realizing dynamic configuration of a terminal and a corresponding server and a storage medium.

Background

The service performance of a terminal depends on the hardware conditions of the terminal and on the configuration of the terminal for the service. The hardware condition of the terminal cannot be changed, so that the service performance in the terminal is improved by optimizing the configuration of the terminal for the service.

The existing business configuration optimization scheme is that terminal hardware parameters are sent to a background server, the background server correspondingly generates a group of fixed parameters according to the existing script logic processing terminal hardware parameters and sends the fixed parameters to a terminal, and the terminal uses the fixed parameters to achieve the purpose of tuning.

Most of the existing script logic is fixed or new script logic is issued after a long time of operation, so that the method is suitable for more models. However, various models of terminals are continuously proposed, and in this environment, the script logic that is fixed for a long time is not suitable for optimizing the service configuration in the terminals of various models.

In particular, the continuous and rapid introduction of various models results, on the one hand, in the script logic no longer being suitable for the majority of the existing models in a very short time, and the correspondingly performed service configuration optimization will also be ineffective for the majority of the models. The existing scheme for optimizing the service configuration in the terminal is not suitable for various types of terminals and cannot realize effective optimization of the service configuration in the terminals of various types of terminals.

Disclosure of Invention

In order to solve the technical problems that the service configuration optimization is not suitable for various types of machines and the effectiveness is low in the related technology, the invention provides a method and a device for realizing a server with dynamic terminal configuration.

In addition, the invention also correspondingly provides a terminal dynamic configuration method, a device, server equipment and a computer readable storage medium.

A server implementation method for terminal dynamic configuration, the method comprising:

receiving a service configuration request of a terminal, wherein the service configuration request is initiated for a service after the terminal initiates login of the service;

extracting model information and applied configuration information version identification corresponding to the terminal from the service configuration request;

determining that the applied configuration information of the service in the terminal is low-version configuration information according to the applied configuration information version identification and a service configuration script corresponding to the machine type information, wherein the service configuration script automatically executes script updating according to the corresponding service performance when the low-version configuration information is applied;

acquiring high-version configuration information which is output by the business configuration script for executing configuration information generating logic for the machine type information;

and issuing the high-version configuration information to the terminal, wherein the high-version configuration information is used for updating the configuration information applied to the service in the terminal.

A terminal dynamic configuration method, the method comprising:

after a terminal initiates a login for a self service, a service configuration request is initiated for the service to a server;

receiving high version configuration information issued by a server for the service in response to the service configuration request, wherein the version of the high version configuration information is higher than that of the applied configuration information of the service, and the high version configuration information is output by the server according to a service configuration script updated by service performance obtained by a terminal;

and applying the high version configuration information for the service, wherein the applied high version configuration information becomes the configuration information applied by the service.

A server-implemented apparatus for dynamic configuration of a terminal, the apparatus comprising:

a configuration request receiving module, configured to receive a service configuration request of a terminal, where the service configuration request is initiated for a service after the terminal initiates a login for the service;

the extraction module is used for extracting model information and applied configuration information version identification corresponding to the terminal from the service configuration request;

the version determining module is used for determining that the applied configuration information in the terminal is low-version configuration information according to the applied configuration information version identification and the service configuration script corresponding to the machine type information, and the service configuration script automatically executes script updating according to the corresponding service performance when the low-version configuration information is applied;

the configuration acquisition module is used for acquiring high-version configuration information which is output by the business configuration script for executing configuration information generation logic for the machine type information;

and the configuration issuing module is used for issuing the high-version configuration information to the terminal, wherein the high-version configuration information is used for updating the configuration information of the service applied in the terminal.

An apparatus for dynamically configuring a terminal, the apparatus comprising:

the terminal initiates a service configuration request to the server for the service after the terminal initiates login for the service;

a configuration receiving module, configured to receive high version configuration information issued by a server for the service in response to the service configuration request, where the version of the high version configuration information is higher than that of the applied configuration information of the service, and the high version configuration information is output by the server according to a service configuration script updated by service performance obtained by a terminal;

and the configuration application module is used for applying the high version configuration information for the service, and the applied high version configuration information becomes the configuration information applied by the service.

A server device, comprising:

a processor; and

a memory having computer readable instructions stored thereon which, when executed by the processor, implement a server-implemented method of dynamic configuration of a terminal as described above.

A computer readable storage medium having stored thereon a computer program which, when executed by a processor, implements a server-implemented method of dynamic configuration of a terminal as described above.

The technical scheme provided by the embodiment of the invention can have the following beneficial effects:

after a terminal initiates a login for a service, the terminal sends a service configuration request to a server, extracts the model information and the version identifier of the applied configuration information corresponding to the terminal from the service configuration request, and uses a corresponding service configuration script in the execution of a subsequent configuration process according to the model information, so that the terminal can be suitable for various models; the server deploys service configuration scripts respectively suitable for various types of machines, and when the service performance provided by the service configuration scripts applied to service configuration by the terminal of the corresponding machine type is not good according to the low-version configuration information, the service configuration scripts are automatically updated by the script, high-version configuration information is obtained for the terminal of the corresponding machine type through the updated service configuration scripts, and better service performance can be obtained compared with the application of the low-version configuration information in the terminal of the machine type.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the invention, as claimed.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the invention and together with the description, serve to explain the principles of the invention.

FIG. 1 is a schematic illustration of an implementation environment shown in accordance with an exemplary embodiment;

FIG. 2 is a block diagram illustrating an apparatus in accordance with an exemplary embodiment;

FIG. 3 is a flow diagram illustrating a server-implemented method for dynamic configuration of a terminal in accordance with an exemplary embodiment;

FIG. 4 is a flowchart illustrating details of step 350 according to the corresponding embodiment of FIG. 3;

FIG. 5 is a flow diagram illustrating a server-implemented method for dynamic configuration of a terminal in accordance with another illustrative embodiment;

FIG. 6 is a flow diagram illustrating a server-implemented method for dynamic configuration of a terminal in accordance with another illustrative embodiment;

FIG. 7 is a flow chart illustrating a method for dynamic configuration of a terminal in accordance with an exemplary embodiment;

fig. 8 is a flowchart illustrating a method of dynamic configuration of a terminal according to another exemplary embodiment;

fig. 9 is a schematic diagram illustrating an implementation of a service access cloud configurable solution in a terminal 900 according to an exemplary embodiment;

FIG. 10 is a block diagram illustrating a server-implemented apparatus for dynamic configuration of a terminal in accordance with an exemplary embodiment;

FIG. 11 is a block diagram illustrating a server-implemented apparatus for dynamic configuration of a terminal in accordance with another illustrative embodiment;

fig. 12 is a block diagram illustrating a terminal dynamic configuration apparatus according to an example embodiment.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present invention. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the invention, as detailed in the appended claims.

In an exemplary implementation, the implementation environment of the present invention, as shown in fig. 1, includes at least a terminal 110 used by a user and a server 130 cooperating with a service in the terminal 110.

The terminal 110 may be a desktop computer, a notebook computer, a smart phone, a tablet computer, and the like. The service run by the terminal 110 obtains the best performance under the dynamic configuration of the server.

FIG. 2 is a block diagram illustrating an apparatus according to an example embodiment. The apparatus 200 may be a server.

Referring to fig. 2, the apparatus 200 may have a relatively large difference due to different configurations or performances, and may include one or more Central Processing Units (CPUs) 222 (e.g., one or more processors) and a memory 232, one or more storage media 230 (e.g., one or more mass storage devices) storing applications 242 or data 244. Memory 232 and storage medium 230 may be, among other things, transient or persistent storage. The program stored in the storage medium 230 may include one or more modules (not shown), each of which may include a sequence of instructions operating on the apparatus 200. Still further, the central processor 222 may be configured to communicate with the storage medium 230 to execute a series of instruction operations in the storage medium 230 on the device 200. The device 200 may also include one or more power supplies 226, one or more wired or wireless network interfaces 250, one or more input-output interfaces 258, and/or one or more operating systems 241, such as Windows Server, Mac OS XTM, UnixTM, LinuxTM, FreeBSDTM, and so forth. The steps performed in the embodiments shown in fig. 3, 4, 5 and 6 described above may be based on the device structure shown in fig. 2.

Fig. 3 is a flow diagram illustrating a server-implemented method for dynamic configuration of a terminal in accordance with an example embodiment. The server implementation method for terminal dynamic configuration is suitable for the server 130 of the foregoing implementation environment, and the server 130 may be the apparatus shown in fig. 2 in an exemplary embodiment. As shown in fig. 3, the server implementation method for dynamic configuration of the terminal, which may be executed by the server 130, may include the following steps.

In step S310, a service configuration request of the terminal is received, where the service configuration request is initiated by the terminal for a service after the terminal initiates a login.

The service is deployed in the terminal by the server, and various network functions are realized for the server along with the operation of the service in the terminal. The service runs under control of various configuration information and the performance of the service is matched to the applied configuration information. The configuration information applied in the service is adapted to factors such as the model of the terminal, the system version and the like, so that better service performance can be obtained for the service under the action of the configuration information. If the configuration information applied in the service is not suitable for the model of the terminal, the service performance is poor.

The server is used for executing dynamic configuration for the service deployed in the terminal, and ensuring that the configuration information applied by the service in the terminal can be dynamically updated, so that the server is suitable for the machine type of the server and can continuously enhance the service performance, for example, along with version iteration update of a system in the terminal, the configuration information applied by the service is correspondingly updated under the action of the server, and the service performance is ensured at any time.

Based on this, the server will receive the service configuration request of the terminal after the terminal initiates login for the service. It should be noted that initiating execution of login refers to execution of a login operation or execution of a re-login operation. The initiation of login in the service means that the possibility that the user realizes the corresponding function of the service at the terminal is very high, and the service performance in the terminal needs to be ensured by initiating a service configuration request to the server.

The service configuration request is used for requesting the server to perform dynamic configuration of the service in the terminal, and specifically, the service configuration is adjusted when the service performance corresponding to the service in the terminal is not good, that is, abnormal, and the configuration adjustment is not performed when the service performance corresponding to the service in the terminal is normal.

In step S330, model information and applied configuration information version identification corresponding to the terminal are extracted from the service configuration request.

The service configuration request comprises model information and a configured information version identifier, wherein the model information is used for describing a service operation environment provided by the terminal in two dimensions of hardware and software from the terminal, and uniquely identifies the type of the terminal. The model information is closely related to the operation of the service in the terminal. The applied configuration information version identifier is used to indicate the version of the configuration information applied by the service in the terminal, and it can be understood that the version of the configuration information applied by the service subsequently will be continuously improved as the update occurs.

As described above, the service configuration request is used to request the server to perform dynamic configuration of the service in the terminal, so that the model information in the service configuration request ensures that the dynamic configuration of the service performed subsequently is adapted to the hardware and software of the terminal, and the version identifier of the configuration information indicates whether the dynamic configuration of the service in the terminal needs to be performed currently, thereby ensuring the necessity of performing the subsequent process.

In an exemplary embodiment, the model information includes information about the number of CPU cores, CPU frequency, memory, resolution, and the like in the hardware dimension, and may include information about system version, rom, and the like in the software dimension.

The version identifier of the applied configuration information may be a version number, a serial number, or a timestamp, which is not limited herein.

In step S350, it is determined that the configuration information applied to the service in the terminal is the low version configuration information according to the version identifier of the applied configuration information and the service configuration script corresponding to the model information, and the service configuration script automatically executes script update according to the corresponding service performance when the low version configuration information is applied.

The server stores a plurality of service configuration scripts, and for any model, the corresponding service configuration scripts can be obtained in the server according to the model information of the model. The service configuration script is used for generating configuration information for the operation of the service in the terminal of the machine type.

As previously mentioned, there is an applied configuration information identification. The applied configuration information identifier indicates a version of the applied configuration information in the service of the terminal, and further, since the applied configuration information in the service is also generated by the corresponding service configuration script, as long as the service configuration script is not updated, the generated configuration information is of the same version, so that the applied configuration information identifier substantially indicates the version of the service configuration script, for example, the applied configuration identification information may be a timestamp indicating that the corresponding service configuration script is updated to the server, i.e., a script update timestamp.

Correspondingly, any service configuration script has its version identifier, for example, a timestamp updated into the server, so after the service configuration script corresponding to the model information is determined, the service configuration script can determine whether the service configuration script currently configured for the model indicated by the model information by the server is updated by the service configuration script to generate a service configuration script whose version is higher than that of the service application configuration information in the terminal corresponding to the model.

For the service configuration script generating the service applied configuration information in the terminal, the version identification is also provided, namely the applied configuration information identification, so that the applied configuration information in the terminal is determined to be the low version configuration information by the applied configuration information identification and the version identification of the service configuration script corresponding to the machine type currently in the server.

That is, after the server issues the configuration information to the terminal and applies the configuration information to the service of the terminal, the service operates under the control of the applied configuration information; on the other hand, the terminal and other terminals in the same model as the terminal can feed back service performance to the server, the server automatically executes script updating for the service configuration script of the model according to the service performance, and then deploys service configuration scripts capable of providing high-version configuration information for all terminals of the model, so that the service performance is improved.

In step S370, high version configuration information output by the service configuration script executing the configuration information generating logic for the model information is obtained.

The model information is transmitted into a corresponding service configuration script, and the high-version configuration information is output through the execution of the configuration information generation logic in the service configuration script, so that the high-version configuration information can be obtained in the server.

It can be understood that, for obtaining the high version configuration information, on one hand, the model information can be obtained by transmitting the model information into the service configuration script after the model information is obtained by the service configuration request, and on the other hand, the high version configuration information generated by the service configuration script is correspondingly cached, so that the high version configuration information can be directly obtained without executing the configuration information generation logic, the calculation resource is saved, and the processing efficiency is improved.

In step S390, high version configuration information is issued to the terminal, where the high version configuration information is used to update the configuration information that the service has been applied in the terminal.

After the server obtains the configuration information output by the service configuration server which automatically executes script updating, the server can issue the configuration information to the terminal which initiates the service configuration request, so that the applied configuration information in the service of the terminal is updated and optimized, and the service performance is further improved.

With the application of the high version configuration information in the service, the high version configuration information exists in the form of applied configuration information, and after the terminal initiates login for the service again, the server is requested to perform service configuration again, so that the configuration information of a higher version is obtained, the service operation does not generate difference in performance due to the change of the dimensionality in the terminal any more, and the service performance is continuously provided.

Therefore, the script updating of the corresponding service configuration script is automatically executed in the server according to the change of the applied configuration information in the service of the terminal along with the change of the service performance in the service operated by the terminal or the change of the service performance in the service operated by other terminals of the same type, and the applied configuration information and the service configuration script are updated and iterated along with the service performance fed back by the terminal.

In an exemplary embodiment, before step 350, the server-implemented method for dynamic configuration of the terminal may further include the following steps.

And obtaining the service configuration script from a plurality of service configuration scripts suitable for various terminals as the terminal requesting service configuration according to the model information.

As mentioned above, the server stores a plurality of service configuration scripts, and after the terminal initiates a service configuration request to the server, the terminal can determine the service configuration script suitable for the terminal according to the model information carried in the service configuration request.

It is understood that each service configuration script of the plurality of service configuration scripts stored by the server is applicable to a type of terminal. The terminals of one type may be terminals corresponding to the same model, that is, may be directly divided according to the model, or may be terminals corresponding to a plurality of models, and the terminals of different models have a common point in the specific content of the model information, so that the terminals may be divided into one type.

The machine type information and the service configuration script in the server are stored in a correlation mode, and can be directly obtained from the cache according to the machine type information, so that the implementation process from the step 350 to the step 390 is executed, the load of the server is reduced, the information in the cache is emptied when the corresponding service configuration script is updated, and the effectiveness of the information is further ensured.

Fig. 4 is a flowchart illustrating details of step 350 according to the corresponding embodiment of fig. 3. In an exemplary embodiment, the applied configuration information version identification is a script update time corresponding to a service configuration script outputting the service applied configuration information, and this step 350, as shown in fig. 4, may include the following steps.

In step 351, a script update timestamp of the service configuration script is obtained according to the service configuration script corresponding to the model information.

As described above, after the model information is obtained from the service configuration request, the service configuration scripts corresponding to the model information can be obtained from the plurality of service configuration scripts stored in the server by the model information.

For the service configuration script, the script updating time exists in the form of the attribute information of the script, and for the current time, the earlier the script updating time is, the lower the version of the corresponding service configuration script and the configuration information generated therewith is; on the contrary, the later the script update time is, the higher the version of the corresponding service configuration script and the configuration information generated therewith is.

After receiving the service configuration request, it should be determined whether the terminal requesting service configuration needs to update the applied configuration information in its own service, where the determination is implemented by the script update timestamp of the service configuration script corresponding to the model information and the version identifier of the applied configuration information, that is, the script timestamp corresponding to the service configuration script outputting the service applied configuration information.

In step 353, if the script update timestamp corresponding to the service configuration script outputting the service applied configuration information is earlier than the obtained script update timestamp, it is determined that the service applied configuration information in the terminal is low-version configuration information.

The script time stamp corresponding to the service configuration script outputting the service applied configuration information is consistent with the script updating time stamp in the server, the script updating time stamp in the server refers to the script updating time stamp of the service configuration script corresponding to the model information in the server, and under the condition that the script updating time stamp and the script updating time stamp are consistent, the service applied configuration information in the terminal is generated by the service configuration script corresponding to the model information in the server, and the service applied configuration information in the terminal does not need to be updated.

And under the condition that the model information and the configuration information are not consistent, the model information is explained to automatically execute script updating on a service configuration script corresponding to the server, the applied configuration information is not updated in the service of the terminal, and the applied configuration information of the service in the terminal is low-version configuration information.

In step 355, it is determined that the service applied configuration information in the terminal is the low version configuration information.

In another exemplary embodiment, this step 350 further comprises: and if the script updating time stamp corresponding to the service configuration script outputting the service applied configuration information is not earlier than the obtained script updating time stamp, not executing the updating of the service applied configuration information in the terminal.

It is to be appreciated that in one specific implementation of the exemplary embodiment, whether to perform the above step or step 353 may be determined by determining whether a script update timestamp corresponding to a service configuration script outputting the service applied configuration information is earlier than the obtained script update timestamp.

In the exemplary embodiment described above, the necessity that the service has applied the update of the configuration information in the terminal is determined in advance, and the update is performed only when necessary, reducing the calculation logic of the server.

Fig. 5 is a flow chart illustrating a server-implemented method of terminal dynamic configuration according to another exemplary embodiment. The server implementation method for dynamic configuration of the terminal, as shown in fig. 5, further includes the following steps.

In step 410, the service performance parameters reported by each terminal for the service and the model information corresponding to the terminal are obtained.

The foregoing exemplary embodiment implements a process of dynamically configuring a service from a server to a terminal, and the exemplary embodiment is used to implement a process of automatically executing script update by a service configuration script in the server.

The server can continuously receive the performance feedback reported by different terminals and the model information corresponding to the terminal. And in the process of the terminal running the service, monitoring related to service performance is carried out, and then various service performance parameters are obtained along with the running of the service. The service performance parameters are obtained from performance statistics on the one hand and user feedback on the other hand. And the terminal reports the obtained service performance parameters and the model information to the server.

By analogy, a large number of terminals are accessed into the server, so that the server can continuously receive the service performance parameters and the model information reported by various terminals.

In a specific implementation of an exemplary embodiment, the service performance parameter is used to indicate whether a function implemented by the service is operating normally, abnormal information, various special monitoring parameters, and the like, for example, the abnormal information includes abnormal reporting information of an application crash where the service is located; the special monitoring parameters can be conventional information such as frame rate in unusual sense, and each service has service characteristics in its own field, so that the service can be reported after statistics in Han dynasty.

In step 430, the terminal whose service performance is to be adjusted is determined according to whether the service performance parameter falls into the preconfigured abnormal interval.

The service performance parameter is a quantitative value of the service performance on a numerical value, so that the service performance parameter reflects the service performance obtained by service operation in the terminal in a numerical value form, and whether the service performance is normal or not can be known through the service performance parameter.

Specifically, an abnormal interval is configured in advance, if a service performance parameter reported by a terminal falls into the abnormal interval, it is indicated that a class of terminals corresponding to the terminal has a defect of improper service configuration, the applied configuration information is not suitable for the class of terminals, and correspondingly, a service configuration script outputting the applied configuration information needs to be updated automatically and is updated to be suitable for the class of terminals, so that the problem of poor service performance in the class of terminals can be solved.

Based on this, when the service performance parameter reported by the terminal has fallen into the preconfigured abnormal interval, it can be determined that the terminal is the terminal whose service performance is to be adjusted.

In step 450, the service configuration script applicable to the terminal with service performance to be adjusted is updated for the service according to the model information corresponding to the terminal with service performance to be adjusted and the service performance parameter of the terminal with service performance to be adjusted.

After the server determines the terminal with the service performance to be adjusted according to the reported service performance parameters, the server can update the service configuration script applicable to the terminal with the service performance to be adjusted for the service according to the service performance parameters and the model information of the terminal with the service performance to be adjusted. It is understood that the updated service configuration script is corresponding to the model information of the service performance adjusting terminal.

In an exemplary embodiment, between terminals of different models, a similar terminal may be obtained according to a common point existing in a service performance parameter and a model parameter, and a service configuration script is updated for the similar terminal, so far, a terminal whose service performance is to be adjusted is not limited to a terminal of a single model, but is a similar terminal, and a service configuration script is updated for the similar terminal.

In the exemplary embodiment, the script update is automatically executed for the service configuration script stored in the server, so that the update of the corresponding service configuration script is executed once the terminal has abnormal service performance, and for the terminal with abnormal service performance, the update of the applied configuration information can be immediately realized by the updated service configuration script, thereby enhancing the real-time performance and the expansibility.

Fig. 6 is a flow chart illustrating a server-implemented method of terminal dynamic configuration according to another exemplary embodiment. The server implementation method for dynamic configuration of the terminal, as shown in fig. 6, further includes the following steps.

In step 510, the receiving terminal receives the service performance parameters and model information reported by the service.

In step 530, service performance parameters and model information are stored for the service, and a service configuration script for the service applicable to the terminal is waited to be updated.

And receiving and storing the service performance parameters and the model information reported by the terminal so as to wait for executing a corresponding script updating process. The automatic execution of the service configuration script update may be performed periodically, for example, at a fixed time point every day, or may be performed when a performance abnormality occurs, and will be determined according to the specific situation of service operation.

In an exemplary embodiment, a big data offline processing platform may be deployed in a server, so as to continuously receive and store service performance parameters and model information reported by a terminal.

In the above exemplary embodiment, the server may be an application server corresponding to an application. In order to implement various functions in an application, multiple services are often deployed in the application, and therefore, a server also serves multiple services.

In particular, the server will implement the exemplary embodiments described above for multiple services, thereby enabling each service in an application to be dynamically configured to improve performance. The step implementation and data in the server and the terminal can uniquely mark the service by configuring corresponding service identification.

Corresponding to the above exemplary embodiment, a terminal dynamic configuration method is also provided, so that the improvement of the service performance in the terminal and the update of the service configuration script in the server are completed in cooperation with the implementation of the server.

Fig. 7 is a flow chart illustrating a method for dynamic configuration of a terminal in accordance with an example embodiment. The terminal dynamic configuration method, as shown in fig. 7, may include the following steps.

In step 610, after the terminal initiates a login for its own service, it initiates a service configuration request to the server for the service.

The terminal deploys a service, and needs to run the service after initiating login to implement a corresponding function. For example, a plurality of services are deployed in an application installed in a terminal, and the operation of the service can implement a corresponding function in the application, but the login of the application needs to be initiated, and after the login is completed, the operation of the service can be initiated.

Therefore, in order to ensure that the operation of the service can obtain better performance, the terminal initiates a service configuration request for the service. It can be understood that, when multiple services are deployed and service configuration can be implemented on the deployed multiple services, a corresponding service identifier needs to be configured, for example, in an initiated service configuration request, so that the service configuration request carries the service identifier.

In step 630, receive the high version configuration information issued by the server for the service in response to the service configuration request, where the high version configuration information is higher in version than the applied configuration information of the service, and the server outputs the service configuration script updated according to the service performance obtained by the terminal.

The terminal receives the high version configuration information issued by the server along with the initiation of the service configuration request, and as mentioned above, the high version configuration information is output by the server through the service configuration script which automatically executes script updating.

In step 650, the high version configuration information is applied for the service, and the applied high version configuration information becomes the configuration information that the service has applied.

By the exemplary embodiment, the dynamic configuration is realized for the service in the terminal, so that the service in the terminal can obtain the high-version configuration information before operation, and the operation of the service can obtain the high service performance under the action of the high-version configuration information.

Fig. 8 is a flowchart illustrating a terminal dynamic configuration method according to another exemplary embodiment. The terminal dynamic configuration method, as shown in fig. 8, may include the following steps.

In step 710, the operation of the service in the monitoring terminal obtains service performance parameters corresponding to the service.

In step 730, model information corresponding to the terminal is obtained, model information and service performance parameters are reported for the service, and a service configuration script is updated for the service running in the terminal according to the reported model information and service performance parameters.

During the operation of the service, the service performance parameters are monitored to be obtained and reported to the server together with the corresponding model information, so that a convenient condition is provided for the server to sense the service abnormality in the terminal in time.

The above exemplary embodiment implements a cloud dynamic configuration technical scheme for a service applied in a terminal, and describes the above method in combination with a specific application, taking cloud dynamic configuration of a short video service in an instant messaging tool as an example. The implementation of the short video service in the instant messaging tool depends on the terminal hardware and the system version, so that the performance of the short video service is affected by terminals of different models and different system versions in the terminals.

A brief description of the short video service function implementation process is provided first. The short video service acquires system camera data, then synthesizes special effects such as beauty, filters, pendants and the like with the acquired system camera data, and finally displays the synthesized result. The video processing and rendering parameters applied to the short video service, i.e. the applied configuration information, are used to control the execution of the composition process.

However, since Android terminals are numerous and varied in hardware and software versions, it is difficult to satisfy a consistent experience with uniform video processing and rendering parameters.

Therefore, the short video service of the terminal is accessed to the cloud configurable technical scheme, and high-version configuration information matched with hardware and software of the terminal is issued to the terminal, so that parameters such as the beauty level, the color of a filter, the action of a pendant and the like are dynamically adjusted, and the purpose of unified experience of different machine types is achieved.

Specifically, fig. 9 is a schematic diagram illustrating an implementation of a service access cloud configurable technical solution in a terminal 900 according to an exemplary embodiment. For the implementation of the server, a background configuration system 1000, a script library 1100 and a big data offline processing platform 1200 are deployed for this purpose.

As shown in fig. 9, in the terminal 900, with the application, i.e. the aforementioned instant messenger started and logged in, a service configuration request is sent to the background configuration system 1000 as shown in steps S910 to S930. The model information carried by the initiated service configuration request includes information on two dimensions of hardware and software, such as hardware parameters and system version.

As described in step 940, the background configuration system 1000 obtains the service configuration script corresponding to the model information in the service configuration request from the script library 1100 for the initiated service configuration request, so that the service configuration script obtains the high version configuration information.

After the background configuration system 1000 issues the high version configuration information to the terminal, the high version configuration information may be applied to the short video service in the instant messaging tool operated by the terminal.

On the other hand, for the service configuration script stored in the script library 1100, the big data offline processing platform 1200 senses the change of the service performance from the big data to generate a new service configuration script, and further synchronizes the service configuration script to the script library 1100, where the specific time sequence execution process is as shown in steps S1210 to S1250.

The following is an embodiment of the apparatus of the present invention, which can be used to implement the embodiment of the server implementation method for dynamically configuring the terminal of the present invention. For details that are not disclosed in the embodiments of the apparatus of the present invention, please refer to the embodiments of the server implementation method for dynamic configuration of the terminal of the present invention.

Fig. 10 is a block diagram illustrating a server-implemented apparatus for dynamic configuration of a terminal according to an example embodiment. The server implementation apparatus for terminal dynamic configuration, as shown in fig. 10, may include, but is not limited to: a configuration request receiving module 1310, an extracting module 1330, a version determining module 1350, a configuration acquiring module 1370, and a configuration issuing module 1390.

A configuration request receiving module 1310, configured to receive a service configuration request of a terminal, where the service configuration request is initiated by the terminal for a service after the terminal initiates a login.

An extracting module 1330 configured to extract, from the service configuration request, the model information and the version identifier of the applied configuration information corresponding to the terminal.

The version determining module 1350 is configured to determine that the applied configuration information of the service in the terminal is low-version configuration information according to the version identifier of the applied configuration information and the service configuration script corresponding to the model information, where the service configuration script automatically executes script updating according to the corresponding service performance when the low-version configuration information is applied.

The configuration obtaining module 1370 is configured to obtain high version configuration information that is output by the service configuration script as the model information executing configuration information generating logic.

A configuration issuing module 1390, configured to issue high version configuration information to the terminal, where the high version configuration information is used to update configuration information that a service in the terminal has been applied.

In another exemplary embodiment, the server implementation apparatus for terminal dynamic configuration further includes but is not limited to: and a script obtaining module. The script obtaining module is used for obtaining the service configuration scripts from a plurality of service configuration scripts which are suitable for various terminals as the terminals requesting service configuration according to the model information.

In another exemplary embodiment, the applied configuration information version identifier is a script update timestamp corresponding to a service configuration script outputting the service applied configuration information, and the version determining module 1350 includes a timestamp obtaining unit and a time judging unit.

And the timestamp obtaining unit is used for obtaining the script updating timestamp of the service configuration script according to the service configuration script corresponding to the model information.

The time judging unit is used for determining that the service applied configuration information in the terminal is the low version configuration information if the script update timestamp corresponding to the service configuration script outputting the service applied configuration information is earlier than the obtained script update timestamp.

Fig. 11 is a block diagram illustrating a server-implemented apparatus for dynamic configuration of a terminal according to another exemplary embodiment. As shown in fig. 11, the server implementation apparatus for dynamically configuring a terminal further includes, but is not limited to: a reported information obtaining module 1410, a terminal determining module 1430 and a script updating module 1450.

A report information obtaining module 1410, configured to obtain service performance parameters reported by each terminal for the service and model information corresponding to the terminal;

a terminal determining module 1430, configured to determine a terminal whose service performance is to be adjusted according to whether the service performance parameter falls into a preset abnormal interval;

the script updating module 1450 is configured to update, for the service, a service configuration script applicable to the terminal with the service performance to be adjusted according to the model information corresponding to the terminal with the service performance to be adjusted and the service performance parameter of the terminal with the service performance to be adjusted.

Fig. 12 is a block diagram illustrating a terminal dynamic configuration apparatus according to an example embodiment. The terminal dynamic configuration apparatus, as shown in fig. 12, may include, but is not limited to: a receive initiation module 1510, a configuration receive module 1530, and a configuration application module 1550.

The request initiating module 1510 is configured to initiate, by the terminal, a service configuration request to the server for the service after the terminal initiates a login for the service of the terminal.

The configuration receiving module 1530 is configured to receive the high version configuration information issued by the server for the service in response to the service configuration request, where the version of the high version configuration information is higher than the version of the applied configuration information of the service, and the server outputs the service configuration script updated according to the service performance obtained by the terminal.

And a configuration application module 1550, configured to apply the high version configuration information for the service, where the applied high version configuration information becomes the configuration information that the service has applied.

Optionally, the present invention further provides a server device, which executes all or part of the steps of the server implementation method for dynamically configuring a terminal shown in any one of fig. 3, fig. 4, fig. 5, and fig. 6. The device comprises:

a processor;

a memory having computer readable instructions stored thereon which, when executed by the processor, implement a method of processing images in an application as described above.

Optionally, the present invention further provides a computer-readable storage medium, on which a computer program is stored, where the computer program, when executed by a processor, implements the server implementation method for dynamic configuration of a terminal as described above.

It will be understood that the invention is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the invention is limited only by the appended claims.

Claims (15)

1. A server implementation method for terminal dynamic configuration is characterized in that the method is used for realizing cloud configurability of services in a terminal, the method is used for issuing high-version configuration information matched with terminal hardware and software for the terminal, and the high-version configuration information is a parameter applied to the services and is used for controlling the execution of the services;

the server stores a plurality of service configuration scripts, and the service configuration scripts are used for generating configuration information corresponding to service operation for terminals of corresponding models, and the method comprises the following steps:

the server receives a service configuration request of a terminal, wherein the service configuration request is initiated for a service after the terminal initiates login of the service;

extracting model information and applied configuration information version identification corresponding to the terminal from the service configuration request;

determining that the applied configuration information of the service in the terminal is low-version configuration information according to the applied configuration information version identification and a service configuration script corresponding to the machine type information, wherein the service configuration script automatically executes script updating according to the corresponding service performance when the low-version configuration information is applied;

the model information is transmitted into the service configuration script, and high-version configuration information is output through the execution of the configuration information generation logic in the service configuration script so as to obtain the high-version configuration information in the server;

the server sends the high version configuration information to the terminal, applies the high version configuration information to the service in the terminal, and the high version configuration information is used for updating the configuration information applied by the service in the terminal so as to dynamically adjust and control the parameters of the service function implementation process.

2. The method according to claim 1, wherein before determining that the configuration information applied to the service in the terminal is the low version configuration information according to the applied configuration information version identifier and the service configuration script corresponding to the model information, the method includes:

and acquiring service configuration scripts from a plurality of service configuration scripts suitable for various terminals as the terminal requesting service configuration according to the model information.

3. The method according to claim 1, wherein the applied configuration information version identifier is a script update timestamp corresponding to a service configuration script outputting the service applied configuration information;

the determining that the applied configuration information of the service in the terminal is low-version configuration information according to the applied configuration information version identifier and the service configuration script corresponding to the model information includes:

acquiring a script updating time stamp of the service configuration script according to the service configuration script corresponding to the machine type information;

and if the script updating time stamp corresponding to the service configuration script outputting the service applied configuration information is earlier than the obtained script updating time stamp, determining that the service applied configuration information in the terminal is the low-version configuration information.

4. The method according to claim 3, wherein the determining that the configuration information of the service application in the terminal is low-version configuration information according to the applied configuration information version identifier and the service configuration script corresponding to the model information further comprises:

and if the script updating time stamp corresponding to the service configuration script outputting the service applied configuration information is not earlier than the obtained script updating time stamp, not executing the updating of the service applied configuration information in the terminal.

5. The method of claim 1, further comprising:

acquiring service performance parameters reported by each terminal for the service and model information corresponding to the terminal;

determining a terminal with service performance to be adjusted according to whether the service performance parameter falls into a preset abnormal interval or not;

and updating the service configuration script suitable for the terminal with the service performance to be adjusted for the service according to the model information corresponding to the terminal with the service performance to be adjusted and the service performance parameters of the terminal with the service performance to be adjusted.

6. The method according to claim 5, wherein before the obtaining of the service performance parameters reported by each terminal for the service and the model information corresponding to the terminal, the method further comprises:

receiving service performance parameters and model information reported by a terminal for the service;

and storing the service performance parameters and the machine type information for the service, and waiting for updating the service configuration script of the service suitable for the terminal.

7. A terminal dynamic configuration method is characterized in that the method is used for realizing cloud configurable of a service in a terminal, the method is used for issuing high-version configuration information matched with terminal hardware and software for the terminal, and the high-version configuration information is a parameter applied to the service and used for controlling the execution of the service;

the server stores a plurality of service configuration scripts, and the service configuration scripts are used for generating configuration information corresponding to service operation for terminals of corresponding models, and the method comprises the following steps:

after a terminal initiates a login for a self service, a service configuration request is initiated for the service to a server;

receiving high-version configuration information issued by a server for the service in response to the service configuration request, wherein the version of the high-version configuration information is higher than that of the applied configuration information of the service, the server transmits machine type information into the service configuration script, and the high-version configuration information is generated and logically output through the configuration information in the service configuration script so as to obtain the high-version configuration information in the server;

and applying the high version configuration information for the service, wherein the applied high version configuration information becomes the configuration information applied by the service, so as to dynamically adjust and control the parameters of the service function implementation process.

8. The method of claim 7, further comprising:

the operation of the service in the monitoring terminal obtains service performance parameters corresponding to the service;

obtaining model information corresponding to the terminal, reporting the model information and the service performance parameters for the service, and updating a service configuration script for the service running in the terminal according to the reported model information and the service performance parameters.

9. A server implementation device for terminal dynamic configuration is characterized in that the device is used for realizing cloud configurable of services in a terminal, the device issues high-version configuration information matched with terminal hardware and software for the terminal, and the high-version configuration information is a parameter applied to the services and is used for controlling the execution of the services;

the server stores a plurality of service configuration scripts, the service configuration scripts are used for generating configuration information corresponding to service operation for terminals of corresponding models, and the device comprises:

a configuration request receiving module, configured to receive, by the server, a service configuration request of a terminal, where the service configuration request is initiated for a service after a terminal initiates a login for the service;

the extraction module is used for extracting model information and applied configuration information version identification corresponding to the terminal from the service configuration request;

the version determining module is used for determining that the applied configuration information in the terminal is low-version configuration information according to the applied configuration information version identification and the service configuration script corresponding to the machine type information, and the service configuration script automatically executes script updating according to the corresponding service performance when the low-version configuration information is applied;

the configuration acquisition module is used for transmitting the model information into the service configuration script and generating logic execution output high-version configuration information through the configuration information in the service configuration script so as to obtain the high-version configuration information in the server;

and the configuration issuing module is used for issuing the high-version configuration information to the terminal by the server and applying the high-version configuration information to the service in the terminal, wherein the high-version configuration information is used for updating the configuration information applied by the service in the terminal so as to dynamically adjust and control the parameters of the service function implementation process.

10. The apparatus of claim 9, further comprising:

and the script obtaining module is used for obtaining the service configuration scripts from the plurality of service configuration scripts which are suitable for various terminals as the terminal requesting service configuration according to the model information.

11. The apparatus according to claim 9, wherein the applied configuration information version identifier is a script update timestamp corresponding to a service configuration script outputting the service applied configuration information; the version determination module includes:

a timestamp obtaining unit, configured to obtain a script update timestamp of the service configuration script according to the service configuration script corresponding to the model information;

and the time judging unit is used for determining that the service applied configuration information in the terminal is the low-version configuration information if the script updating timestamp corresponding to the service configuration script outputting the service applied configuration information is earlier than the obtained script updating timestamp.

12. The apparatus of claim 9, further comprising:

a report information acquisition module for acquiring the service performance parameters reported by each terminal for the service and the model information corresponding to the terminal;

the terminal determining module is used for determining a terminal with service performance to be adjusted according to whether the service performance parameters fall into a preset abnormal interval;

and the script updating module is used for updating the service configuration script suitable for the terminal with the service performance to be adjusted for the service according to the model information corresponding to the terminal with the service performance to be adjusted and the service performance parameters of the terminal with the service performance to be adjusted.

13. A terminal dynamic configuration device is characterized in that the device is used for realizing cloud configurable of a service in a terminal, the device issues high-version configuration information matched with terminal hardware and software for the terminal, and the high-version configuration information is a parameter applied to the service and is used for controlling the execution of the service;

the server stores a plurality of service configuration scripts, the service configuration scripts are used for generating configuration information corresponding to service operation for terminals of corresponding models, and the device comprises:

the terminal initiates a service configuration request to the server for the service after the terminal initiates login for the service;

a configuration receiving module, configured to receive high version configuration information issued by a server for the service in response to the service configuration request, where the version of the high version configuration information is higher than the version of the applied configuration information of the service, and the server transmits machine type information to the service configuration script, and generates logical execution output high version configuration information through the configuration information in the service configuration script, so as to obtain the high version configuration information in the server;

and the configuration application module is used for applying the high-version configuration information to the service, and the applied high-version configuration information becomes the applied configuration information of the service so as to dynamically adjust and control the parameters of the service function implementation process.

14. A server device, comprising:

a processor; and

a memory having stored thereon computer readable instructions which, when executed by the processor, implement a server-implemented method of dynamic configuration of a terminal according to any of claims 1 to 6.

15. A computer readable storage medium having stored thereon a computer program which, when executed by a processor, implements a server-implemented method of dynamic configuration of a terminal according to any of claims 1 to 6.

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