CN111488156A - Client function offline method and device - Google Patents

Abstract

The embodiment of the application provides a client function offline method and a client function offline device, which can firstly receive function error reporting messages sent by a plurality of clients and then judge whether the function error reporting messages meet function offline conditions; when the function error reporting message meets the function offline condition, a function offline instruction can be sent to the client, so that the client can switch the function corresponding to the function error reporting message into an unavailable state. Therefore, the server can receive and analyze the function error report message sent by the client; when the function error report message sent by the client meets the function offline condition, the server can send a function offline instruction to the client to control the function offline with errors. Therefore, by analyzing the function error reporting message reported by the client and controlling the client to take the function corresponding to the function error reporting message meeting the condition off line, the off-line time of the client application program function can be reduced, and the influence range is controlled to the maximum extent.

Description

Client function offline method and device

Technical Field

The application relates to the technical field of mobile phone software, in particular to a client function offline method and device.

Background

With the development and popularization of smart phones, the number and versions of mobile phone applications are increasing. The updating speed is faster and faster. In order to guarantee the user experience, some applications may push out new versions every week or even shorter, providing more functionality to the user or repairing some of the problems with the old versions.

However, when a new release is released, the carelessness of the software developer may cause some problems in the software code, thereby causing parts of the functions of the software to be unavailable or rushed. In addition, considering that the design idea of a software designer may not be consistent with the actual requirements of users, some new designed functions may not meet the requirements of users, and even be complained by users.

For this case, the software developer needs to take the application program out of line urgently. At present, when an application program is emergently off-line, cooperation among a plurality of departments such as operation, maintenance, testing, development and the like is needed, and the problems of long processing flow, low efficiency, easy error of manual operation and the like exist.

Disclosure of Invention

In view of this, embodiments of the present application provide a method and an apparatus for downloading a client function, which aim to provide a function of analyzing and processing a function error message reported by a software client, and automatically determining and downloading a question and answer question.

A client function offline method, the method comprising:

Receiving functional error reporting messages sent by a plurality of clients, wherein the functional error reporting messages comprise error functions, error reporting time and error type grades;

Judging whether the function error reporting message meets a function offline condition, wherein the function offline condition comprises an error reporting frequency condition, an error reporting frequency condition and an error type grade condition;

And when the function error reporting message meets the function offline condition, sending a function offline instruction to the client so that the client can switch the error function corresponding to the function error reporting message to an unavailable state.

Optionally, the determining whether the function error reporting message satisfies the function offline condition includes:

Classifying the functional error reporting messages according to the error function to obtain a plurality of error reporting information groups;

Determining function off-line conditions according to the error function corresponding to the error reporting information group;

And judging whether the error reporting information group meets the corresponding function offline condition or not.

Optionally, when the function offline condition corresponding to the error reporting information group is an error reporting frequency condition, the error reporting frequency condition includes an error reporting frequency threshold, and the determining whether the function error reporting message satisfies the function offline condition includes:

Counting the number of functional error messages in the error message group;

Calculating error reporting frequency according to the error reporting time and the number of the functional error reporting messages;

Judging whether the error reporting frequency is greater than the error reporting frequency threshold value;

And when the error reporting frequency is greater than the error reporting frequency threshold, determining that the functional error reporting message meets a functional offline condition.

Optionally, when the function offline condition corresponding to the error reporting information group is an error reporting time condition, the error reporting time condition includes an error reporting time threshold, and the determining whether the function error reporting message satisfies the function offline condition includes:

Counting the number of functional error messages in the error message group;

Judging whether the number of the functional error reporting messages is larger than the threshold of the error reporting times or not;

And when the number of the functional error reporting messages is larger than the error reporting time threshold value, determining that the functional error reporting messages meet functional offline conditions.

Optionally, when the function offline condition corresponding to the error reporting information group is an error type level condition, the error type level condition includes an error type level threshold, and the determining whether the function error reporting message satisfies the function offline condition includes:

Counting the error type grade of the functional error reporting message in the error reporting information group;

Judging whether a functional error message with an error type grade larger than the error type grade threshold exists in the error message group;

And when the error reporting information group comprises the functional error reporting information with the error grade larger than the error grade threshold value, determining that the functional error reporting information meets the functional offline condition.

Optionally, the sending the function logout instruction to the client includes:

Searching a function switch interface corresponding to the error function according to the function interface relation table, wherein the function interface relation table comprises a plurality of corresponding relations between functions and function switch interfaces, and the function switch interfaces are used for starting or closing the corresponding error function;

And sending the function switch interface as a function offline instruction to a client of a function error reporting message so that the client can close the error function through the function switch interface.

A client function downline apparatus, the apparatus comprising:

The system comprises an information receiving module, a data processing module and a data processing module, wherein the information receiving module is used for receiving functional error reporting messages sent by a plurality of clients, and the functional error reporting messages comprise an error function, error reporting time and error type grades;

The judging module is used for judging whether the function error reporting message meets a function offline condition or not, wherein the function offline condition comprises an error reporting frequency condition, an error reporting frequency condition and an error type grade condition;

And the instruction sending module is used for sending a function offline instruction to the client when the function error reporting message meets the function offline condition so that the client can switch the function corresponding to the function error reporting message to an unavailable state.

Optionally, the determining module includes:

The classification module is used for classifying the functional error reporting messages according to the error function to obtain a plurality of error reporting information groups;

The condition determining module is used for determining functional off-line conditions according to the error function corresponding to the error reporting information group;

And the condition judgment module is used for judging whether the error reporting information group meets the corresponding function offline condition.

Optionally, the condition determining module includes:

The frequency judging module is used for counting the number of the functional error reporting messages in the error reporting information group, calculating error reporting frequency according to the error reporting time and the number of the functional error reporting messages, judging whether the error reporting frequency is greater than the error reporting frequency threshold value or not, and determining that the functional error reporting messages meet functional off-line conditions when the error reporting frequency is greater than the error reporting frequency threshold value;

The quantity judging module is used for counting the quantity of the functional error reporting messages in the error reporting information group, judging whether the quantity of the functional error reporting messages is greater than the error reporting time threshold value or not, and determining that the functional error reporting messages meet functional offline conditions when the quantity of the functional error reporting messages is greater than the error reporting time threshold value or not;

And the grade judging module is used for counting the error type grade of the functional error reporting message in the error reporting information group, judging whether the error reporting information group comprises the functional error reporting message of which the error type grade is greater than the error grade threshold value, and determining that the functional error reporting message meets the functional off-line condition when the error reporting information group comprises the functional error reporting message of which the error grade is greater than the error grade threshold value.

Optionally, the instruction sending module includes:

The interface selection module is used for searching a function switch interface corresponding to the error function according to the function interface relation table, the function interface relation table comprises a plurality of corresponding relations between the functions and the function switch interface, and the function switch interface is used for starting or closing the corresponding error function;

And the interface sending module is used for sending the function switch interface as a function offline instruction to the client of the function error reporting message so that the client can close the error function through the function switch interface.

The application provides a client function offline method and a client function offline device, which can firstly receive function error reporting messages sent by a plurality of clients and then judge whether the function error reporting messages meet function offline conditions; when the function error reporting message meets the function offline condition, a function offline instruction can be sent to the client, so that the client can switch the function corresponding to the function error reporting message into an unavailable state. Therefore, the server can receive and analyze the function error report message sent by the client; when the function error report message sent by the client meets the function offline condition, the server can send a function offline instruction to the client to control the function offline with errors. Therefore, by analyzing the function error reporting message reported by the client and controlling the client to take the function corresponding to the function error reporting message meeting the condition off line, the off-line time of the client application program function can be reduced, and the influence range is controlled to the maximum extent.

Drawings

To illustrate the technical solutions in the present embodiment or the prior art more clearly, the drawings needed to be used in the description of the embodiment or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a flowchart of a method for a client function offline method according to an embodiment of the present disclosure.

Fig. 2 is a flowchart illustrating a method for downloading client functions according to an embodiment of the present disclosure.

Fig. 3 is a schematic structural diagram of a client function offline device according to an embodiment of the present disclosure.

Fig. 4 is a schematic structural diagram of a client function offline device according to an embodiment of the present disclosure.

Fig. 5 is a schematic structural diagram of a client function offline device according to an embodiment of the present disclosure.

Fig. 6 is a schematic structural diagram of a client function offline device according to an embodiment of the present disclosure.

Detailed Description

With the development of internet technology, the market competition of the mobile terminal is more and more intense. In the software field, an application often competes with multiple applications of the same type, sharing the duration of a field. In order to gain greater advantage in competition, the issuer of the application will tend to increase the speed of issuing new versions, and occupy a larger market of user groups by continuously fixing the bugs of old functions and providing differences between new function manufactures and similar competitions.

However, when a new version is developed, new bugs may exist in the code of the application program due to negligence of a software developer, so that new functions are unavailable or crash; or some functions of the new version do not meet the actual requirements of the user due to the problems of software designers, and even cause complaints of the user. For this case, the application can be taken off-line as soon as possible to avoid causing an impact on the user's public praise.

At present, the offline process of most application programs includes collecting function error reporting messages fed back by the application program of the client, analyzing the function error reporting messages, and urgently developing and releasing a new version by developers. These processes require a plurality of departments, such as development department, testing department, operation department, etc., to be matched with each other, and can be completed in a long time. If the number of active users of the application program is huge, the influence range can be rapidly expanded, and adverse effects are caused.

In consideration of the problems of program crash and the like or the customer complaints, most of the functions in the client side are some functions, when the application program is downloaded, partial functions of the application program can be downloaded firstly, and then the whole application program can be downloaded. Based on this, the present application provides a method for off-line of client function, and the preferred embodiment of the present application will be described below from the perspective of a background server of a mobile terminal application. Of course, the client function offline method provided by the application can be used for mobile terminal application programs, and can also be used for computer terminal programs or other programs.

Referring to fig. 1, fig. 1 is a flowchart of a method of a client function offline method provided in an embodiment of the present application, including:

S101: and receiving functional error messages sent by a plurality of clients.

After the application is released, the user can download the application at the client and install the application. The application program can collect error information and complaint information generated in the running process in the background to serve as functional error reporting information, and sends the functional error reporting information to the background server.

In order to facilitate the analysis of the functional error message, the functional error message may include information such as an error function, an error time, an error type level, and the like. The error function represents a function corresponding to the function error report message, and may be, for example, a function of opening a user interface, transferring payment, playing a video, or a specific function of a user complaint. The error reporting time can be the time when the error function fails or the time when a user complains. The error type level may be determined according to an actual fault condition, for example, a stuck-at delay, a delay may be used as a low-level error type, a function auto-exit may be used as a medium-level error type, a program crash may be used as a high-level error type, and the like.

S102: and judging whether the function error report message meets the function offline condition or not.

After the server collects the function error reporting messages sent by the plurality of clients, the server can analyze the function error reporting messages and judge whether the function error reporting messages meet the corresponding function offline conditions or not so as to control the function offline meeting the function offline conditions. Considering that the application program may have a large number of functions, the server may be configured to analyze only some new functions or functions that are prone to errors. The function offline condition may include an error reporting frequency condition, an error reporting time condition, and an error type level condition.

Considering that a server may provide services for a plurality of clients at the same time, the received function error message may originate from tens of thousands of different clients, and respectively correspond to different error functions. For this purpose, the server may classify the functional error message first. Specifically, the server may count the error function of the functional error message after acquiring the functional error message, classify the functional error message according to the error function, and group the functional error messages with the same error function into one group to obtain a plurality of error message groups. Then, since different error-reporting functions may correspond to different function offline conditions, the server may analyze each error-reporting information group one by one, and determine a function offline condition corresponding to the error-reporting function common to each error-reporting information group, so as to determine whether the error-reporting information group satisfies the corresponding function offline condition. The functional error messages are classified according to the error function, the functional error messages corresponding to the same targeted function can be classified into one class, the functional error messages with the same error function are processed in a unified mode, the function offline condition is determined according to the error function corresponding to the error message group, and whether each function in the client has a problem or not can be judged in a targeted mode. Therefore, the analysis speed of the functional error message can be improved, and the server can still have higher response speed when receiving more functional error messages.

In some possible implementations, when the functional offline condition corresponding to the error reporting information group is an error reporting frequency condition, the error reporting frequency condition may include an error reporting frequency threshold. Specifically, the server may count the number of the functional error messages in the error message group and the error time corresponding to each functional error message. And then calculating error reporting frequency according to the error reporting time and the number of the functional error reporting messages. And then judging whether the error reporting frequency is greater than the error reporting frequency threshold value. And if the error reporting frequency is greater than the error reporting frequency threshold, indicating that the functional error reporting message meets the functional offline condition. Therefore, the error reporting frequency can be accurately determined according to the error reporting time and the number of the functional error reporting messages, so that whether the error function corresponding to the error reporting information group meets the function offline condition or not is judged.

In some possible implementation manners, when the function offline condition corresponding to the error reporting information group is an error reporting time condition, the error reporting time condition may include an error reporting time threshold. Specifically, the server may directly count the number of functional error messages in the error message group. And then judging whether the number of the functional error reporting messages is larger than the threshold value of the error reporting times. And if the error reporting times are larger than the error reporting time threshold, indicating that the functional error reporting message meets the functional offline condition.

In some possible implementations, when the functional offline condition corresponding to the error reporting information group is an error type level condition, the error type level condition may include an error type level threshold. Specifically, the server may count the error type level of the functional error message in the error message group. And then judging whether the error information group has a functional error message with an error type grade larger than the error type grade threshold value, wherein if the error information group has a functional error message with an error type grade larger than the error type grade threshold value, the functional error message meets a functional off-line condition. Therefore, according to the analysis of the problems possibly occurring in the functions and the search of the error type grades corresponding to the error messages of each function in the error message group, the function error messages with higher severity can be found from a large number of function error messages, and whether the errors occurring in the error function exceed the possible tolerance range is judged.

S103: and when the function error report message meets the function offline condition, sending a function offline instruction to the client.

If the server finds that the function error report message meets the function offline condition, a function offline instruction can be sent to the client side provided with the application program, the client side application program is controlled to shield the error function corresponding to the function error report message, and the offline of the client side function is completed.

Considering that the code structure of the application program may be complex, a technical developer may set some function switch interfaces for turning off the error function in the application program code layer, and create a function interface relationship table, where the function interface relationship table may include a correspondence relationship between a plurality of functions and the function switch interfaces. Specifically, the server may look up a function switch interface corresponding to the error function according to the function interface relationship table, and then send the function switch interface as a function offline instruction to the client of the function error reporting message, so that the client closes the error function through the function switch interface. Therefore, the corresponding function switch interface is set for the error function, and the corresponding function can be directly closed through the interface to finish the off-line of the client function.

The embodiment provides a client function offline method, which can receive function error reporting messages sent by a plurality of clients, and then judge whether the function error reporting messages meet function offline conditions; when the function error reporting message meets the function offline condition, a function offline instruction can be sent to the client, so that the client can switch the function corresponding to the function error reporting message into an unavailable state. Therefore, the server can receive and analyze the function error report message sent by the client; when the function error report message sent by the client meets the function offline condition, the server can send a function offline instruction to the client to control the function offline with errors. Therefore, by analyzing the function error reporting message reported by the client and controlling the client to take the function corresponding to the function error reporting message meeting the condition off line, the off-line time of the client application program function can be reduced, and the influence range is controlled to the maximum extent.

In order to facilitate understanding of the technical scheme of the application, the client function offline method provided by the application is introduced below by combining a specific error function of "transfer function pause".

Referring to fig. 2, a schematic flow chart of a possible method for taking the client off line is shown. The server may receive the functional error messages sent by the plurality of clients, and classify the functional error messages to obtain a plurality of error message groups. Then, the server can select an error report information group corresponding to the error function of the transfer function. And determining the function offline condition of the transfer function as an error reporting frequency condition according to the corresponding relation between the error function and the function offline condition. Then, the server may count the number of error messages of the error message group aggregation function, query the error time of each function error message in the error message group, and calculate the error frequency, for example, the number of function error messages of which the server receives an error function as a transfer function per hour on average. And finally, judging whether the error reporting frequency obtained by calculation is greater than an error reporting frequency threshold value contained in an error reporting frequency condition corresponding to the transfer function. And if the error reporting frequency is greater than the error reporting frequency threshold value, searching a function switch interface corresponding to the transfer function and sending a function offline instruction so that the client can close the transfer function through the function switch interface after receiving the function offline instruction.

The foregoing provides some specific implementation manners of the method for offline by client function for the embodiment of the present application, and based on this, the present application also provides a corresponding apparatus. The above-mentioned device provided by the embodiments of the present application will be described in terms of functional modularity.

Referring to the schematic structural diagram of the client function offline device shown in fig. 3, the device 300 includes:

The information receiving module 310 is configured to receive functional error messages sent by multiple clients, where the functional error messages include an error function, an error time, and an error type level.

The determining module 320 is configured to determine whether the function error reporting message meets a function offline condition, where the function offline condition includes an error reporting frequency condition, and an error type level condition.

The instruction sending module 330 is configured to send a function offline instruction to the client when the function error reporting message meets the function offline condition, so that the client switches the function corresponding to the function error reporting message to an unavailable state.

The embodiment provides a client function offline transfer, which can receive function error reporting messages sent by a plurality of clients and then judge whether the function error reporting messages meet function offline conditions; when the function error reporting message meets the function offline condition, a function offline instruction can be sent to the client, so that the client can switch the function corresponding to the function error reporting message into an unavailable state. Therefore, the server can receive and analyze the function error report message sent by the client; when the function error report message sent by the client meets the function offline condition, the server can send a function offline instruction to the client to control the function offline with errors. Therefore, by analyzing the function error reporting message reported by the client and controlling the client to take the function corresponding to the function error reporting message meeting the condition off line, the off-line time of the client application program function can be reduced, and the influence range is controlled to the maximum extent.

Optionally, referring to fig. 4, on the basis of the apparatus shown in fig. 3, the determining module 320 includes:

The classifying module 321 is configured to classify the functional error reporting message according to the error function to obtain a plurality of error reporting message groups.

And a condition determining module 322, configured to determine a functional offline condition according to the error function corresponding to the error reporting information group.

And the condition judgment module 323 is configured to judge whether the error report information group meets a corresponding function offline condition.

The functional error messages are classified according to the error function, the functional error messages corresponding to the same targeted function can be classified into one class, the functional error messages with the same error function are processed in a unified mode, the function offline condition is determined according to the error function corresponding to the error message group, and whether each function in the client has a problem or not can be judged in a targeted mode. Therefore, the analysis speed of the functional error message can be improved, and the server can still have higher response speed when receiving more functional error messages.

Optionally, referring to fig. 5, on the basis of the apparatus shown in fig. 4, the determining module 310 includes:

A frequency determining module 323-1, configured to count the number of functional error reporting messages in the error reporting information group, calculate an error reporting frequency according to the error reporting time and the number of functional error reporting messages, determine whether the error reporting frequency is greater than the error reporting frequency threshold, and determine that the functional error reporting message satisfies a functional offline condition when the error reporting frequency is greater than the error reporting frequency threshold.

The quantity judging module 323-2 is configured to count the quantity of the functional error reporting messages in the error reporting information group, judge whether the quantity of the functional error reporting messages is greater than the error reporting time threshold, and determine that the functional error reporting messages satisfy the functional offline condition when the quantity of the functional error reporting messages is greater than the error reporting time threshold.

A grade determining module 323-3, configured to count an error type grade of the functional error reporting message in the error reporting information group, determine whether the error reporting information group includes the functional error reporting message whose error type grade is greater than the error grade threshold, and determine that the functional error reporting message satisfies a functional offline condition when the error reporting information group includes the functional error reporting message whose error grade is greater than the error grade threshold.

Therefore, the error reporting frequency can be accurately determined according to the error reporting time and the number of the functional error reporting messages, so that whether the error function corresponding to the error reporting information group meets the function offline condition or not is judged. According to the analysis of the problems which may occur to the functions and the search of the error type grades corresponding to the error messages of each function in the error message group, the function error messages with higher severity can be found from a large number of function error messages, and whether the errors which occur to the error function exceed the possible tolerance range is judged.

Optionally, referring to fig. 6, on the basis of the apparatus shown in fig. 3, the instruction sending module 330 includes:

The interface selection module 331 is configured to search for a function switch interface corresponding to the error function according to the function interface relationship table, where the function interface relationship table includes a correspondence between a plurality of functions and function switch interfaces, and the function switch interface is used to turn on or turn off the corresponding error function.

An interface sending module 332, configured to send the function switch interface to a client of a function error reporting message as a function offline instruction, so that the client closes the error function through the function switch interface.

Therefore, the corresponding function switch interface is set for the error function, and the corresponding function can be directly closed through the interface to finish the off-line of the client function.

As can be seen from the above description of the embodiments, those skilled in the art can clearly understand that all or part of the steps in the above embodiment methods can be implemented by software plus a general hardware platform. Based on such understanding, the technical solution of the present application may be embodied in the form of a software product, which may be stored in a storage medium, such as a read-only memory (ROM)/RAM, a magnetic disk, an optical disk, or the like, and includes several instructions for enabling a computer device (which may be a personal computer, a server, or a network communication device such as a router) to execute the method according to the embodiments or some parts of the embodiments of the present application.

The embodiments in the present specification are described in a progressive manner, and the same and similar parts among the embodiments are referred to each other, and each embodiment focuses on the differences from the other embodiments. In particular, for the apparatus embodiment, since it is substantially similar to the method embodiment, it is relatively simple to describe, and reference may be made to some descriptions of the method embodiment for relevant points. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the present embodiment. One of ordinary skill in the art can understand and implement it without inventive effort.

The above description is only an exemplary embodiment of the present application, and is not intended to limit the scope of the present application.

Claims (10)

1. A method for a client function to be offline, the method comprising:

Receiving functional error reporting messages sent by a plurality of clients, wherein the functional error reporting messages comprise error functions, error reporting time and error type grades;

Judging whether the function error reporting message meets a function offline condition, wherein the function offline condition comprises an error reporting frequency condition, an error reporting frequency condition and an error type grade condition;

And when the function error reporting message meets the function offline condition, sending a function offline instruction to the client so that the client can switch the error function corresponding to the function error reporting message to an unavailable state.

2. The method of claim 1, wherein determining whether the function error message satisfies a function offline condition comprises:

Classifying the functional error reporting messages according to the error function to obtain a plurality of error reporting information groups;

Determining function off-line conditions according to the error function corresponding to the error reporting information group;

And judging whether the error reporting information group meets the corresponding function offline condition or not.

3. The method according to claim 2, wherein when the functional off-line condition corresponding to the error reporting information group is an error reporting frequency condition, the error reporting frequency condition includes an error reporting frequency threshold, and the determining whether the functional error reporting message satisfies the functional off-line condition includes:

Counting the number of functional error messages in the error message group;

Calculating error reporting frequency according to the error reporting time and the number of the functional error reporting messages;

Judging whether the error reporting frequency is greater than the error reporting frequency threshold value;

And when the error reporting frequency is greater than the error reporting frequency threshold, determining that the functional error reporting message meets a functional offline condition.

4. The method according to claim 2, wherein when the functional offline condition corresponding to the error reporting information group is an error reporting time condition, the error reporting time condition includes an error reporting time threshold, and the determining whether the functional error reporting message satisfies the functional offline condition includes:

Counting the number of functional error messages in the error message group;

Judging whether the number of the functional error reporting messages is larger than the threshold of the error reporting times or not;

And when the number of the functional error reporting messages is larger than the error reporting time threshold value, determining that the functional error reporting messages meet functional offline conditions.

5. The method according to claim 2, wherein when the function offline condition corresponding to the error reporting information group is an error type level condition, the error type level condition includes an error type level threshold, and the determining whether the function error reporting message satisfies the function offline condition includes:

Counting the error type grade of the functional error reporting message in the error reporting information group;

Judging whether a functional error message with an error type grade larger than the error type grade threshold exists in the error message group;

And when the error reporting information group comprises the functional error reporting information with the error grade larger than the error grade threshold value, determining that the functional error reporting information meets the functional offline condition.

6. The method of claim 1, wherein sending a function logoff instruction to a client comprises:

Searching a function switch interface corresponding to the error function according to the function interface relation table, wherein the function interface relation table comprises a plurality of corresponding relations between functions and function switch interfaces, and the function switch interfaces are used for starting or closing the corresponding error function;

And sending the function switch interface as a function offline instruction to a client of a function error reporting message so that the client can close the error function through the function switch interface.

7. A client function downline apparatus, the apparatus comprising:

The system comprises an information receiving module, a data processing module and a data processing module, wherein the information receiving module is used for receiving functional error reporting messages sent by a plurality of clients, and the functional error reporting messages comprise an error function, error reporting time and error type grades;

The judging module is used for judging whether the function error reporting message meets a function offline condition or not, wherein the function offline condition comprises an error reporting frequency condition, an error reporting frequency condition and an error type grade condition;

And the instruction sending module is used for sending a function offline instruction to the client when the function error reporting message meets the function offline condition so that the client can switch the function corresponding to the function error reporting message to an unavailable state.

8. The apparatus of claim 7, wherein the determining module comprises:

The classification module is used for classifying the functional error reporting messages according to the error function to obtain a plurality of error reporting information groups;

The condition determining module is used for determining functional off-line conditions according to the error function corresponding to the error reporting information group;

And the condition judgment module is used for judging whether the error reporting information group meets the corresponding function offline condition.

9. The apparatus of claim 8, wherein the condition determining module comprises:

The frequency judging module is used for counting the number of the functional error reporting messages in the error reporting information group, calculating error reporting frequency according to the error reporting time and the number of the functional error reporting messages, judging whether the error reporting frequency is greater than the error reporting frequency threshold value or not, and determining that the functional error reporting messages meet functional off-line conditions when the error reporting frequency is greater than the error reporting frequency threshold value;

The quantity judging module is used for counting the quantity of the functional error reporting messages in the error reporting information group, judging whether the quantity of the functional error reporting messages is greater than the error reporting time threshold value or not, and determining that the functional error reporting messages meet functional offline conditions when the quantity of the functional error reporting messages is greater than the error reporting time threshold value or not;

And the grade judging module is used for counting the error type grade of the functional error reporting message in the error reporting information group, judging whether the error reporting information group comprises the functional error reporting message of which the error type grade is greater than the error grade threshold value, and determining that the functional error reporting message meets the functional off-line condition when the error reporting information group comprises the functional error reporting message of which the error grade is greater than the error grade threshold value.

10. The apparatus of claim 7, wherein the instruction sending module comprises:

The interface selection module is used for searching a function switch interface corresponding to the error function according to the function interface relation table, the function interface relation table comprises a plurality of corresponding relations between the functions and the function switch interface, and the function switch interface is used for starting or closing the corresponding error function;

And the interface sending module is used for sending the function switch interface as a function offline instruction to the client of the function error reporting message so that the client can close the error function through the function switch interface.

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