CN117707744B - DSM data service management method, device, electronic equipment and medium - Google Patents

Abstract

The application relates to the technical field of data management, in particular to a DSM data service management method, a DSM data service management device, electronic equipment and a DSM data service medium, wherein the DSM data service management method comprises the steps of identifying information to be checked in access data service and judging whether the access data service is abnormal or not according to the information to be checked; if not, identifying service characteristics in the access data service and determining an initial packaging channel based on the service characteristics; determining the waiting time length and the historical abnormality probability of each initial packaging channel according to the channel log information, so as to determine a target packaging channel and a packaging address; updating a platform service display list according to the package address, and determining a DSM data service model based on the business base data and the platform service display list; when a call request is detected, determining a to-be-called package address from the DSM data service model according to the call requirement, and when the to-be-called package address is accessible by the identity authority, determining target call data according to the call requirement and feeding back. The application can improve the operation efficiency during management.

Description

DSM data service management method, device, electronic equipment and medium

Technical Field

The present application relates to the field of data management technologies, and in particular, to a method, an apparatus, an electronic device, and a medium for managing a DSM data service.

Background

In order to adapt to the change of modern markets and meet the increasing business demands, many enterprises choose to carry out digital transformation, namely, the working efficiency and productivity of the enterprises are improved through automation and optimization of business processes, and the digital transformation can enable the enterprises to collect and analyze a large amount of data, so that customer behaviors, market trends, business operations and the like are better understood. Related enterprises often use DSM (DATA SERVICE MANAGEMENT, data services management) platforms to manage data services within the enterprise to implement enterprise digital transformations. DSM is a process of converting data assets inside or outside an enterprise into usable services to meet different user needs for creating, maintaining, and monitoring data services.

However, due to the large number and variety of operations that the DSM platform can support, the corresponding configuration process may be complex, requiring many fine adjustments and a large number of manual operations, and in addition, the functions in the DSM platform may not be consistent with the actual business requirements, and the relevant users may lack sufficient training when using the DSM platform to perform access or call operations, so that the operation efficiency may be affected when using the DSM platform to manage the enterprise internal data services.

Disclosure of Invention

In order to improve the operation efficiency when managing the enterprise internal data service by using the DSM platform, the application provides a DSM data service management method, a DSM data service management device, electronic equipment and a medium.

In a first aspect, the present application provides a DSM data service management method, which adopts the following technical scheme:

A DSM data service management method, comprising:

acquiring business basic data and access data service;

identifying information to be checked in the access data service, and judging whether the access data service is abnormal or not according to the information to be checked and a preset checking rule;

If the access data service is not abnormal, identifying service characteristics in the access data service, and determining at least one initial packaging channel from a plurality of preset packaging channels based on the service characteristics;

Obtaining channel log information, determining waiting time length and historical abnormality probability of each initial packaging channel according to the channel log information, determining a target packaging channel from at least one initial packaging channel based on each waiting time length and historical abnormality probability, and obtaining a packaging address corresponding to the access data service through the target packaging channel, wherein the target packaging channel is used for packaging a service address of the access data service;

updating a platform service display list according to the package address, and determining a DSM data service model based on the business basic data and the platform service display list, wherein the platform service display list comprises at least one package address corresponding to access data service;

When a call request is detected, identifying a call requirement and a call identity authority in the call request, determining a corresponding to-be-called package address from a DSM data service model according to the call requirement, and judging whether the call identity authority can access the to-be-called package address according to a mapping relation between the call identity authority and the identity authority, wherein the mapping relation between the to-be-called package address and the access authority;

And if the calling identity authority can access the to-be-called package address, determining target calling data according to the calling requirement and the access data service corresponding to the to-be-called package address, and feeding back the target calling data.

By adopting the technical scheme, through integrating the business basic data corresponding to the business end into the construction process of the DSM data service model, the adaptation degree of the actual business demands and the DSM data service model is convenient to improve, so that the familiarity and training time of related users on the DSM data service model can be reduced, namely, the operation familiarity of related users is convenient to improve, and therefore, the operation efficiency of the related users can be improved.

In one possible implementation, the determining the target packaging channel from the at least one initial packaging channel based on each waiting duration and the historical anomaly probability includes:

identifying the number of transfer nodes in each initial wrapper channel, and determining the initial wrapper channel with the minimum number of transfer nodes as the optimal initial wrapper channel;

When the waiting time corresponding to the optimal initial packaging channel is longer than a first preset waiting time, determining the channel score of each other initial packaging channel based on a first mapping relation and a second mapping relation, and the waiting time and the historical anomaly probability corresponding to each other initial packaging channel, and determining the other initial packaging channel with the highest channel score as a target packaging channel, wherein the first mapping relation is the corresponding relation between the waiting time and the waiting score, the second mapping relation is the corresponding relation between the historical anomaly probability and the anomaly score, the channel score is the sum of the waiting score and the anomaly score, and the other initial packaging channels are other initial packaging channels except the optimal initial packaging channel in the at least one initial packaging channel;

and when the waiting time corresponding to the optimal initial packaging channel is not longer than the preset waiting time, determining the optimal initial packaging channel as a target packaging channel.

By adopting the technical scheme, as the number of the transfer nodes contained in each initial packaging channel is different, the fewer the number of the transfer nodes, the stronger the practicability of the packaging channel is represented, but when a plurality of service addresses are needed to be packaged, the optimal packaging channel may need to be queued, but when the waiting time is long, the waiting time is not always stagnant, and the filtering is carried out from other non-optimal packaging channels in a characteristic comparison mode, the efficiency of adopting the target packaging channel to carry out the packaging address can be improved by analyzing the waiting time, and in addition, the probability of abnormality occurrence in the process of adopting the target packaging channel to carry out the packaging address can be reduced by analyzing the historical abnormality probability, so that the efficiency in the process of packaging the address can be improved.

In one possible implementation manner, after the determining the optimal initial packaging channel as the target packaging channel, the method further includes:

identifying initial waiting time and initial historical abnormality probability corresponding to other initial packaging channels with highest channel scores;

Determining a time length difference value between the initial waiting time length and the waiting time length corresponding to the optimal initial packaging channel, determining the optimal initial packaging channel as a final target packaging channel when the time length difference value and the initial historical abnormality probability meet preset conditions,

The preset conditions are as follows:

the time length difference value is lower than a second preset waiting time length; and, in addition, the method comprises the steps of,

The initial anomaly probability is higher than a preset anomaly probability.

By adopting the technical scheme, when the waiting time of the optimal initial packaging channel is longer, the target packaging channel is generally determined from other initial packaging channels, and as the situation that the packaging abnormality occurs, more time is spent for solving and eliminating the abnormality, when the waiting time of the target packaging channel selected from the other initial packaging channels is slightly lower than the waiting time corresponding to the optimal initial packaging channel and the occurrence probability of the history abnormality is higher, the optimal initial packaging channel is still selected as the target packaging channel, so that the probability of the abnormality occurring in the packaging process of the service address can be reduced, and the packaging efficiency is improved.

In one possible implementation manner, the determining, according to the call requirement and the access data service corresponding to the package address to be called, the target call data includes:

Identifying a calling range in the calling demand;

when the calling requirement accords with the callable range corresponding to the packaging address to be called, determining target calling data according to the calling range and the access data service corresponding to the packaging address to be called;

When the calling requirement does not accord with the callable range, determining an intersection calling range according to the callable range and the calling range, generating audit feedback comments based on the intersection calling range, reminding related callers to modify the calling requirement in the callable range according to the audit feedback comments, and determining target calling data according to the modified calling requirement.

By adopting the technical scheme, because the data contents contained in different access data services are different, the security levels corresponding to the different data contents may be different, so that some data contents may not be located in the callable range, when the calling requirement does not accord with the callable range, the related caller does not carry out repeated multiple modifications, but generates audit feedback comments directly according to the calling requirement and the callable range, and the accuracy and the speed of the related caller in modifying the calling requirement are convenient to improve according to the audit feedback comments.

In one possible implementation manner, the feeding back the target call data includes:

Identifying data features contained in the target call data, and identifying data types and data amounts of preset data features when the target call data contains the preset data features;

randomly generating coverage data according to the data type and the data quantity, and superposing the coverage data into the target call data to obtain encrypted call data;

Identifying calling interface information in the calling requirement, wherein the calling interface information comprises a calling interface protocol conversion rule, a calling information format conversion rule and a calling information display form;

and converting the encrypted call data according to the call interface information to obtain converted encrypted data, and feeding back the converted encrypted data.

By adopting the technical scheme, in the feedback process of the target call data, privacy data or data with higher security level in the target call data can be protected in a data feature identification and coverage data superposition mode, and format conversion is carried out on the data in the feedback process, so that the adaptation degree between the feedback data and the call interface is improved, and the probability of abnormal data at the call interface is reduced.

In one possible implementation, the method further includes:

identifying service characteristics of the access data service, and determining a preset migration flow chart corresponding to the service characteristics according to the service characteristics and migration mapping relations, wherein the migration mapping relations are relations between the service characteristics and the preset migration flow chart, the preset migration flow chart comprises at least one preset migration flow node, and each preset migration flow node comprises a corresponding preset migration standard;

Acquiring actual migration data of the access data service, determining a predicted migration node based on the actual migration data, and updating the preset migration flow chart according to the predicted migration node to obtain an updated migration flow chart, wherein the actual migration data is a migration flow node at the current moment;

And determining a prediction migration standard corresponding to the prediction migration node according to the prediction migration node and the standard mapping relation, superposing each prediction migration standard on the corresponding prediction migration node of the updated migration flow chart to obtain a superposition migration flow chart, and feeding back the superposition migration flow chart.

By adopting the technical scheme, after the access data service is written into the DSM data service management platform, the data service audit, the data service call and the like may need to be completed through multiple migration or streaming, so that the migration or the circulation process of each access data service can be supervised by determining a migration flow chart updating mode, and related calling personnel are conveniently reminded to prepare for the operation of the next migration node in advance by predicting the next migration node and superposing the predicted migration standard corresponding to the next migration node, and the waiting time generated by submitting the proving material or the upper transmission of evidence clear data is conveniently reduced, so that the migration rate is conveniently improved.

In one possible implementation, the method further includes:

Identifying migration operation characteristics of each prediction migration standard in the overlapped migration flow chart, and judging whether a detachable migration node exists in the overlapped migration flow chart according to each migration operation characteristic;

If yes, splitting the access data service according to the migration operation characteristics of the split node when the access data service is detected to be migrated to the split migration node at the current moment, so as to obtain at least two split data services;

And asynchronously migrating the at least two split data services to a next predicted migration node based on the superposition migration flow chart.

By adopting the technical scheme, because the data amounts corresponding to different access data services can be different, when the data amount of the access data service to be migrated is larger, the migration can be carried out in batches in a data splitting mode, and the access data to be migrated is dispersed into a plurality of batches for processing, so that the calculation load is reduced, the system pressure is reduced, and the data migration rate can be improved.

In a second aspect, the present application provides a DSM data service management apparatus, which adopts the following technical scheme:

a DSM data service management apparatus, comprising:

the data acquisition module is used for acquiring business basic data and accessing data services;

the auditing judging module is used for identifying information to be audited in the access data service and judging whether the access data service is abnormal or not according to the information to be audited and a preset auditing rule;

the service characteristic identifying module is used for identifying service characteristics in the access data service if the access data service is not abnormal, and determining at least one initial packaging channel from a plurality of preset packaging channels based on the service characteristics;

The system comprises a target packaging channel determining module, a data service access module and a data service access module, wherein the target packaging channel determining module is used for acquiring channel log information, determining the waiting time length and the historical abnormality probability of each initial packaging channel according to the channel log information, determining a target packaging channel from at least one initial packaging channel based on each waiting time length and the historical abnormality probability, and obtaining a packaging address corresponding to the access data service through the target packaging channel, wherein the target packaging channel is used for packaging the service address of the access data service;

The digital model generating module is used for updating a platform service display list according to the package address, determining a DSM data service model based on the business basic data and the platform service display list, wherein the platform service display list comprises at least one package address corresponding to the access data service;

The identity verification module is used for identifying a calling requirement and a calling identity authority in the calling request when the calling request is detected, determining a corresponding packaging address to be called from a DSM data service model according to the calling requirement, and judging whether the calling identity authority can access the packaging address to be called according to the mapping relation of the calling identity authority and the identity authority, wherein the mapping relation of the identity authority is a corresponding relation between the packaging address to be called and the access authority;

And the data feedback module is used for determining target calling data according to the calling requirement and the access data service corresponding to the to-be-called packaging address if the calling identity authority can access the to-be-called packaging address, and feeding back the target calling data.

By adopting the technical scheme, through integrating the business basic data corresponding to the business end into the construction process of the DSM data service model, the adaptation degree of the actual business demands and the DSM data service model is convenient to improve, so that the familiarity and training time of related users on the DSM data service model can be reduced, namely, the operation familiarity of related users is convenient to improve, and therefore, the operation efficiency of the related users can be improved.

In a third aspect, the present application provides an electronic device, which adopts the following technical scheme:

an electronic device, the electronic device comprising:

At least one processor;

A memory;

at least one application, wherein the at least one application is stored in memory and configured to be executed by at least one processor, the at least one application configured to: and executing the DSM data service management method.

In a fourth aspect, the present application provides a computer readable storage medium, which adopts the following technical scheme:

A computer-readable storage medium, comprising: a computer program capable of being loaded by a processor and executing the DSM data service management method as described above is stored.

In summary, the present application includes at least one of the following beneficial technical effects:

the service basic data corresponding to the service end are integrated into the construction process of the DSM data service model, so that the adaptation degree of the actual service demand and the DSM data service model is convenient to improve, familiarity and training time of related users to the DSM data service model can be reduced, namely, the operation familiarity of related users can be improved, in addition, when the service address corresponding to the access data service is packaged, the service address is not packaged by using the same packaging protocol, but is selected according to the service characteristics pertinence of the access data service, when the initial packaging channel comprises a plurality of service addresses, the packaging efficiency when the service address is packaged is convenient to improve, the access data service is convenient to protect by packaging the service address, in addition, the identity of a caller is also verified in a permission verification mode before the call so as to further protect the access data service, and in the call process, the access data service is not fed back directly or fed back randomly, but is fed back accurately according to the call demand of the related caller so as to reduce the related call efficiency of the related caller, thereby improving the related operation times of the related caller.

Because the number of the transfer nodes contained in each initial packaging channel is different, the smaller the number of the transfer nodes is, the stronger the practicability of the packaging channel is represented, but when a plurality of service addresses need to be packaged, the optimal packaging channel possibly needs to be queued, but when the waiting time is long, the waiting time is not always stagnant, and the filtering is carried out from other non-optimal packaging channels in a characteristic comparison mode, the efficiency of adopting the target packaging channel to package the address can be improved by analyzing the waiting time, and in addition, the probability of abnormality in the process of adopting the target packaging channel to package the address can be reduced by analyzing the historical abnormality probability.

Drawings

FIG. 1 is a flow chart of a DSM data service management method according to an embodiment of the present application;

Fig. 2 is a schematic structural diagram of a DSM data service management apparatus according to an embodiment of the present application;

Fig. 3 is a schematic structural diagram of an electronic device according to an embodiment of the present application.

Detailed Description

The application is described in further detail below with reference to fig. 1-3.

Modifications of the embodiments which do not creatively contribute to the application may be made by those skilled in the art after reading the present specification, but are protected by patent laws within the scope of the claims of the present application.

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present application more apparent, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments of the present application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

Specifically, the embodiment of the application provides a DSM data service management method, which is executed by an electronic device, wherein the electronic device can be a server or a terminal device, and the server can be an independent physical server, a server cluster or a distributed system formed by a plurality of physical servers, or a cloud server for providing cloud computing service. The terminal device may be a smart phone, a tablet computer, a notebook computer, a desktop computer, etc., but is not limited thereto, and the terminal device and the server may be directly or indirectly connected through a wired or wireless communication manner, which is not limited herein.

Referring to fig. 1, fig. 1 is a flow chart of a DSM data service management method according to an embodiment of the present application, the method includes steps S110 to S170, wherein:

Step S110: and acquiring business basic data and accessing data services.

Specifically, the service base data may be uploaded to the electronic device by the service end, where the service base data characterizes an operation habit of related service personnel in a process of actually processing or generating the data service in the enterprise, for example, creating and maintaining information such as a name, a code, a description, a data service manager, and the like of the data service, and defining parameter names, codes, data types, descriptions, and the like in request parameters and return parameters of the data service. By introducing business basic data in the DSM data service management process, the adaptation degree between the management method and actual business operation is convenient to improve, namely, the familiarity of related business personnel on the management method can be increased, and extra training time is not required to be consumed when the management method provided by the application is applied to managing the enterprise internal data service, so that the experience of the related business personnel in the use process can be improved.

The data service in the enterprise refers to a series of data support services provided by the enterprise for meeting business requirements, and specifically includes data services in aspects of data acquisition, data storage, data processing, data analysis and the like, and the access data service is the data service to be written into the electronic equipment and can be uploaded to the electronic equipment by related access requesters.

Step S120: identifying information to be checked in the access data service, and judging whether the access data service is abnormal or not according to the information to be checked and a preset checking rule.

Specifically, before uploading the access data to the electronic device, the relevant access requester needs to fill in the information to be audited, that is, an access application, where the access application includes an application identity, an interface manager, and interface information corresponding to the access data service, and the interface information includes an interface type, an interface address, a message format, and the like. After receiving the access application uploaded by the related access request person, the electronic equipment can directly match the access application with a preset auditing rule to judge whether the access data service corresponding to the access request is abnormal, namely whether the access data service can be written into the electronic equipment or not, and the electronic equipment can forward the received access application to the related auditing person for manual auditing.

Step S130: if the access data service is not abnormal, identifying service characteristics in the access data service, and determining at least one initial packaging channel from a plurality of preset packaging channels based on the service characteristics.

Specifically, the preset auditing rule may be that access to a certain interface type, or a certain interface address, or a certain data service in a message format is refused, and the specific content of the preset auditing rule is not specifically limited in the embodiment of the present application, and may be set by a related technician. And when the access request accords with a preset auditing rule, the access data service is characterized as not having abnormality. The service features can be identified from the access data service by adopting the feature identification technology, initial packaging channels corresponding to different identification service features are different, the service features can be service names, service types and the like in the access data service, and specific feature identification technology and specific forms of the service features are not particularly limited in the embodiment of the application, so long as the corresponding access data service can be uniquely determined through the identified service features. The packaging channel is used for packaging the service address of the access data service, and the real address of the access data service in the electronic equipment can be hidden by packaging the service address, so that the access data service is protected.

According to the mapping relationship between the service feature and the channel, at least one initial packaging channel corresponding to the service feature can be determined, the initial packaging channel is a preset packaging channel capable of packaging the service address corresponding to the service feature, the packaging modes adopted by different initial packaging channels may be different, but the packaging results corresponding to different initial packaging channels may be the same, for example, the service feature x needs to package the corresponding service address a into an address B, the initial packaging channel 1 can directly package the service address a into the address B, and the initial packaging channel 2 needs to package the service address a into an address C and then package the address C into the address B, so that the same service feature comprises at least one initial packaging channel.

Step S140: the method comprises the steps of obtaining channel log information, determining waiting time length and historical abnormality probability of each initial packaging channel according to the channel log information, determining a target packaging channel from at least one initial packaging channel based on each waiting time length and historical abnormality probability, obtaining a packaging address corresponding to access data service through the target packaging channel, and packaging service addresses of the access data service through the target packaging channel.

Specifically, the channel log information is used to record the working condition of each initial packaging channel, and different access data services may have the same service characteristics, so that the determined initial packaging channel may be in a busy state or may be in an idle state, the longer the waiting time of the initial packaging channel is, the more busy the initial packaging channel is represented, the history anomaly probability is the probability of occurrence of packaging anomaly of each initial packaging channel in a history time period, the history time period is a period of time before the current time, may be 5 hours before the current time, may be 10 hours before the current time, and the specific time length is not specifically limited in the embodiment of the present application and may be set by related technicians.

When a plurality of initial packaging channels exist, screening can be performed according to waiting duration and historical abnormality probability of each initial packaging channel, and a target packaging channel is determined from the plurality of initial packaging channels, wherein in order to improve efficiency in a packaging address process, the target packaging channel is determined from at least one initial packaging channel based on each waiting duration and historical abnormality probability, and the method comprises the following steps:

Identifying the number of transfer nodes in each initial wrapper channel, and determining the initial wrapper channel with the minimum number of transfer nodes as the optimal initial wrapper channel; when the waiting time corresponding to the optimal initial packaging channel is longer than a first preset waiting time, determining the channel score of each other initial packaging channel based on a first mapping relation and a second mapping relation, and the waiting time and the historical abnormality probability corresponding to each other initial packaging channel, and determining the other initial packaging channel with the highest channel score as a target packaging channel, wherein the first mapping relation is the corresponding relation between the waiting time and the waiting score, the second mapping relation is the corresponding relation between the historical abnormality probability and the abnormality score, the channel score is the sum of the waiting score and the abnormality score, and the other initial packaging channels are other initial packaging channels except the optimal initial packaging channel in at least one initial packaging channel; and when the waiting time corresponding to the optimal initial packaging channel is not longer than the preset waiting time, determining the optimal initial packaging channel as a target packaging channel.

Specifically, since the packing manner of each initial packing lane may be different when packing the service address, and the different packing manners are represented by the transfer manners in the packing process, the number of transfer nodes included in the different initial packing lanes is different, for example, the initial packing lane 1 can directly pack the service address a into the program address B, that is, the number of transfer nodes in the initial packing lane 1 is 0; the initial packaging channel 2 needs to package the service address a into the address C and then package the address C into the address B, that is, the number of transit nodes in the initial packaging channel 2 is 1; the initial wrapper channel 3 needs to first wrapper the service address a into the address D, then wrapper the address D into the address E, and finally wrapper the address E into the address B, i.e. the number of transit nodes in the initial wrapper channel 3 is 2. The fewer the number of transit nodes in the initial wrapper channel, the shorter the time required for representing the initial wrapper channel when the service address is wrapped, so that the initial wrapper channel with the least number of transit nodes is determined as the optimal initial wrapper channel, and when the optimal initial wrapper channel is in an idle state or has shorter waiting time, the optimal initial wrapper channel is directly determined as the target wrapper channel corresponding to the access data service.

However, when the optimal initial packaging channel is in a busy state and the waiting time is long, one initial packaging channel needs to be selected from other initial packaging channels as a target packaging channel instead of consuming more time to queue, and the other initial packaging channels are other initial packaging channels except the optimal initial packaging channel.

The first mapping relation comprises waiting scores corresponding to different waiting time periods, the waiting scores corresponding to the shorter waiting time periods are higher, the second mapping relation comprises abnormal scores corresponding to different historical abnormal probabilities, the abnormal scores corresponding to the smaller historical abnormal probabilities are higher, the channel scores of other initial packaging channels can be determined through the first mapping relation and the second mapping relation, each channel score is the sum of the corresponding waiting score and the corresponding abnormal score, the specific content of the first mapping relation and the specific content of the second mapping relation are not limited in the embodiment of the application, and can be set by related technicians. After the channel score of each other initial packaging channel is determined, the other initial packaging channel with the highest channel score is determined as the target packaging channel.

After the target packaging channel corresponding to the access data service is determined, the service address of the access data service is communicated with the target packaging channel, the target packaging channel can directly package the service address of the access data service, the service address can be regarded as an internal address, the service address after packaging can be regarded as an external address, and the internal address corresponds to the external address.

Step S150: and updating a platform service display list according to the package address, determining a DSM data service model based on the business base data and the platform service display list, wherein the platform service display list comprises at least one package address corresponding to the access data service.

Specifically, the platform service display list includes all package addresses of access data services, the platform service display list is updated according to the package addresses, that is, the latest generated package addresses are written into the original platform service display list, the number of the package addresses in the platform service display list is not specifically limited, but a call period is limited for each access data service according to each access data service period, that is, a display period is set for each package address in the platform service display list, when the display period is exceeded, the newly written package address can directly cover the package address exceeding the display period, or the package address exceeding the display period can be directly removed from the platform service display list.

The DSM data service model is determined according to the business basic data and the platform service display list, and the specific model construction mode is not particularly limited in the embodiment of the application, so long as the constructed DSM data service model can manage the access data service in the platform service display list, and the management flow is adapted to the actual business operation.

Step S160: when a call request is detected, identifying a call requirement and a call identity authority in the call request, determining a corresponding to-be-called package address from the DSM data service model according to the call requirement, and judging whether the call identity authority can access the to-be-called package address according to a mapping relation between the call identity authority and the identity authority, wherein the mapping relation between the identity authority and the to-be-called package address is the corresponding relation between the to-be-called package address and the access authority.

Specifically, the established DSM data service model not only can satisfy the management of related service personnel, but also can satisfy the calling requirement of related calling personnel, and the calling request can be sent to the electronic device by the related calling personnel through the user terminal. The calling requirement in the calling request is a content identifier which is required to be called by a relevant caller, and the packaging address corresponding to the calling requirement can be determined by comparing the content identifier with the packaging address identifier in the platform service display list or comparing the content identifier with the interface identifier corresponding to each packaging address, wherein the specific forms of the packaging address identifier and the interface identifier are not particularly limited in the embodiment of the application, and can be set by relevant technicians as long as the characteristics of the corresponding access data service can be identified, so that the relevant caller can conveniently call.

The identity authority mapping relation comprises different package addresses to be called and corresponding access authorities, the specific content of the identity authority mapping relation is not specifically limited in the embodiment of the application, the identity authority of the package address to be called is a device identifier or an identity identifier which can access the package address to be called, when the device identifier or the identity identifier corresponding to the identity authority to be called is located in the identity authority of the package address to be called, the identity authority to be called can be characterized to access the package address to be called, wherein the device identifier can be a device id, the identity identifier can be an account id, the specific device identifier and the identity identifier are not specifically limited in the embodiment of the application, and the identity authority can be set by the related technicians, so long as the corresponding device or person can be uniquely determined according to the device identifier or the identity identifier.

Step S170: and if the calling identity authority can access the packaging address to be called, determining target calling data according to the calling requirement and the access data service corresponding to the packaging address to be called, and feeding back the target calling data.

Specifically, after the call identity verification of the related caller passes, the data service required to be called by the related caller can be fed back according to the call requirement, instead of directly feeding back all the access data services corresponding to the package address to be called, in addition, the call requirement may also include the data receiving requirement of the related caller corresponding to the call device, for example, the information format during return, and the like, and before the feedback, the format conversion and the like can be directly performed on the corresponding data service according to the call requirement, so as to improve the adaptation degree between the target call data and the related call device.

For the embodiment of the application, through integrating the business basic data corresponding to the business end into the construction process of the DSM data service model, the adaptation degree of the actual business requirement and the DSM data service model is convenient to improve, so that the familiarity and training time of related users on the DSM data service model can be reduced, namely, the operation familiarity of related users is convenient to improve, in addition, when the service address corresponding to the access data service is packaged, the service address is not packaged by using the same packaging protocol, but is selected according to the service characteristics of the access data service, when the initial packaging channel comprises a plurality of initial packaging channels, the packaging efficiency when the service address is packaged is convenient to improve, the identity of a caller is also convenient to protect the access data service by packaging the service address, so that the access data service is convenient to further protect by a permission verification mode before the call, in addition, the access data service is not fed back completely or randomly, the service address is not packaged by using the same packaging protocol, the service address is convenient to carry out the accurate feedback according to the call requirement of the related caller, and the related call operation frequency is convenient to reduce the related call efficiency.

Further, to reduce the probability of an anomaly occurring in the process of packaging the service address, the method further includes:

Identifying initial waiting time and initial historical abnormality probability corresponding to other initial packaging channels with highest channel scores; determining a time length difference value between the initial waiting time length and the waiting time length corresponding to the optimal initial packaging channel, and determining the optimal initial packaging channel as a final target packaging channel when the time length difference value and the initial historical abnormal probability meet preset conditions, wherein the preset conditions are as follows: the time difference value is lower than a second preset waiting time; and the initial anomaly probability is higher than the preset anomaly probability.

Specifically, after the service address is packaged and an abnormality occurs in the process of packaging, a great amount of time is likely to be consumed for waiting for repair, and at this time, when a packaging channel with a high history abnormality probability is selected for packaging the service address, a great risk exists, so after other initial packaging channels with the highest channel scores are determined as target packaging channels, the initial waiting time and the initial history abnormality probability corresponding to the target packaging channels are extracted, and further data comparison is performed to determine whether the target packaging channel is determined as a final target packaging channel.

And if the waiting time length of the target packaging channel selected from the other initial packaging channels is shorter than the waiting time length of the optimal initial packaging channel, and the target packaging channel has higher historical abnormality probability, directly determining the optimal initial packaging channel as the final target packaging channel, wherein the first preset time length is longer than the second preset time length, and the specific contents of the first preset time length, the second preset time length and the preset abnormality probability are not particularly limited in the embodiment of the application. For example, the first preset duration is 5min, the second preset duration is 50s, the preset anomaly probability is 42%, and the initial packaging channel 1 can directly package the service address A into the program address B; the initial packaging channel 2 needs to package the service address A into the address C and then package the address C into the address B; the initial packaging channel 3 needs to package the service address a into the address D, then packages the address D into the address E, finally packages the address E into the address B, and can directly determine the initial packaging channel 1 as the optimal initial packaging channel by identifying the number of transfer nodes corresponding to each initial packaging channel, wherein the waiting time corresponding to the optimal initial packaging channel is 6min and higher than a first preset time, screening is needed from the initial packaging channel 2 and the initial packaging channel 3 to determine a target packaging channel, and the channel scores corresponding to the initial packaging channel 2 and the initial packaging channel 3 are analyzed and calculated to determine that the initial packaging channel 2 can serve as the target packaging channel, if the time difference between the waiting time of the initial packaging channel 2 and the waiting time of the optimal initial packaging channel is lower than 50s and the initial anomaly probability corresponding to the initial packaging channel 2 is higher than 42%, the optimal initial packaging channel is directly determined as the final target packaging channel.

Further, in the calling process, in order to improve accuracy and speed of the related caller when modifying the calling requirement, determining the target calling data according to the calling requirement and the access data service corresponding to the package address to be called specifically may include:

Identifying a calling range in the calling demand; when the calling requirement accords with the callable range corresponding to the packaging address to be called, determining target calling data according to the calling range and the access data service corresponding to the packaging address to be called; when the calling requirement does not accord with the callable range, determining an intersection calling range according to the callable range and the calling range, generating audit feedback comments based on the intersection calling range, reminding related callers to modify the calling requirement in the callable range according to the audit feedback comments, and determining target calling data according to the modified calling requirement.

Specifically, the calling scope is used for characterizing the content that the related caller needs to call actually, for example, when the access data service is an order data service, the calling scope can be a sales order of the product a in 2019-2021, the calling scope of the related caller can be determined from the calling requirement in a feature recognition mode, and because some access data services may have life cycle or some more sensitive data content, after the calling scope is recognized, all access data services corresponding to the calling scope are not fed back to the related caller, but the calling scope is checked, only after the checking is passed, feedback is carried out, during the checking, the calling scope can be directly fed back to related auditors, manual checking is carried out by related auditors, and the calling scope can be automatically checked by preset checking rules, so that the specific checking mode is not limited specifically in the embodiment of the application.

When the calling range is positioned in the callable range, the target calling data can be determined from the access data service directly according to the calling range; when the calling range does not belong to the callable range, returning a result to be null; when the calling range does not completely belong to the callable range, an intersection calling range of the calling range and the callable range can be determined, and audit feedback comments are generated based on the intersection calling range, when the calling requirement does not accord with the callable range, the related caller does not carry out repeated multiple modifications, but generates audit feedback comments directly according to the calling requirement and the callable range, and accuracy and speed of the related caller when the calling requirement is modified are convenient to improve according to the audit feedback comments.

In order to improve data security, the method specifically includes:

And identifying service characteristics of the access data service, and determining a preset migration flow chart corresponding to the service characteristics according to the service characteristics and the migration mapping relation, wherein the migration mapping relation is a relation between the service characteristics and the preset migration flow chart, the preset migration flow chart comprises at least one preset migration flow node, and each preset migration flow node comprises a corresponding preset migration standard.

Specifically, the service features in the access data service may be identified by using a feature identification algorithm, where the service features are used to characterize the service content corresponding to the access data service, and the specific form is not limited in the embodiment of the present application, so long as the corresponding access data service can be uniquely identified by the service features. The migration mapping relationship includes various service features and corresponding preset migration flow charts, the specific content is not limited in the embodiment of the present application, the preset migration flow charts include at least one preset migration flow chart node, each access data service flows among various functional components in the electronic device during writing into the electronic device, during storage in the electronic device and during being called from the electronic device, each functional component can be regarded as a migration flow chart node, and because different access data service contents are different, migration processes corresponding to different access data services may be different, corresponding preset migration flow charts corresponding to different access data services may be different, and at least one preset migration flow chart node included in the preset migration flow charts is a node where the access data service corresponding to the current service feature flows with a high probability.

The preset migration flow node can be a node corresponding to the data maintenance functional component and is used for continuously iterating and optimizing the access data service so as to meet the changing requirements and challenges, the access data service can be ensured to always keep higher availability and adaptability through examination, updating and upgrading of the access service content, in addition, the performance and stability of the access data service are required to be concerned, and the access data service quality and response speed can be improved through adjustment and optimization of service resources. Because the functional operations to be performed by each preset migration flow node are different, the corresponding preset migration criteria are also different, and the preset migration criteria are uploaded by the related technicians in advance, for example, when the preset migration flow node is a maintenance node, the corresponding preset migration criteria may be that the response speed of accessing the data service is not lower than the preset response speed.

Acquiring actual migration data of the access data service, determining a predicted migration node based on the actual migration data, and updating a preset migration flow chart according to the predicted migration node to obtain an updated migration flow chart, wherein the actual migration data is the migration flow node at the current moment.

Specifically, actual migration data can be obtained through a work log, the actual migration data records migration paths of related access data services in electronic equipment, migration paths of the related access data services in a period of time in the future can be predicted by analyzing the actual migration data, when a predicted migration node is determined according to the actual migration data, a migrated flow node corresponding to the actual migration data can be identified first, the migrated flow node is input into a preset path diagram to predict a path to be migrated, then the predicted migration node is determined based on the predicted path to be migrated, the number of the predicted migration nodes can be one or a plurality of, the specific number is not specifically limited in the embodiment of the application, the preset path diagram comprises a plurality of predicted paths, the specific content of the preset path diagram is not specifically limited in the embodiment of the application, and the preset path diagram can be set by a related technician. And updating the migration flow chart, namely adding the determined predicted migration node into the preset migration flow chart.

According to the mapping relation between the predicted migration nodes and the standard, determining the predicted migration standards corresponding to the predicted migration nodes, superposing each predicted migration standard to the corresponding predicted migration node of the updated migration flow chart to obtain a superposed migration flow chart, and feeding back the superposed migration flow chart.

Specifically, the standard mapping relationship includes migration standards corresponding to a plurality of migration nodes, the predicted migration standard corresponding to each predicted migration node can be determined through the standard mapping relationship, and the standard mapping relationship can be set by related technicians. The prediction migration standard can be overlapped to the corresponding prediction migration flow nodes through the AR overlapping technology, the overlapped form can be text overlapped and form data overlapped, the specific form is not particularly limited in the embodiment of the application, and only relevant calling personnel can visually check. The migration or circulation process of each access data service can be supervised by determining the updated migration flow chart, and the related caller is conveniently reminded to prepare for the operation of the next migration node in advance by predicting the next migration node and superposing the predicted migration standard corresponding to the next migration node, so that the waiting time generated by submitting the proving material or the transmission of evidence clear data is reduced, and the migration rate is conveniently improved.

Further, to enhance the data migration rate, the method further includes:

Identifying migration operation characteristics of each prediction migration standard in the superposition migration flow chart, and judging whether a detachable migration node exists in the superposition migration flow chart according to each migration operation characteristic; if yes, splitting the access data service according to the migration operation characteristics of the split node when the access data service is detected to be migrated to the split migration node at the current moment, so as to obtain at least two split data services; based on the superposition migration flow chart, at least two split data services are asynchronously migrated to the next predicted migration node.

Specifically, the operation content required by the predicted migration flow node can be determined through a migration operation standard, migration operation characteristics are used for representing corresponding operation content, the operation content can be access audit, application management, service application, service call, service optimization and the like, operation objects corresponding to different operation content are different, and operation objects of some operation content are whole access data service, such as access audit; the operation object of some operation content is a partial access data service, such as service optimization.

The operation characteristics corresponding to different operation contents are different, the node type can be determined for different operation characteristics according to a preset classification rule, the node type comprises a detachable type and a non-detachable type, wherein the preset classification rule comprises all operation characteristics and the node type corresponding to each operation characteristic, and the specific content of the preset classification rule is not specifically limited in the embodiment of the application.

When the access data service corresponding to the current moment is detected to be migrated to the detachable migration node, the access data service corresponding to the current moment can be detached according to the operation object, and at least two detached data services are obtained. And transferring at least two split data services to the next predicted transfer node in batches, wherein when the data quantity of the access data service needing to be transferred is large, the calculation load of the electronic equipment can be reduced in a batch transfer mode, so that the pressure of the electronic equipment in the data service transfer process can be reduced, and the data transfer rate can be further improved.

The above embodiments describe a DSM data service management method from the viewpoint of a method flow, and the following embodiments describe a DSM data service management apparatus from the viewpoint of a virtual module or a virtual unit, and the following embodiments are described in detail.

An embodiment of the present application provides a DSM data service management apparatus, as shown in fig. 2, which specifically may include a data acquisition module 210, an audit judgment module 220, a service feature identification module 230, a target packaging channel determination module 240, a digital model generation module 250, an identity verification module 260, and a data feedback module 270, wherein:

An acquisition data module 210, configured to acquire service basic data and access data services;

The audit judging module 220 is configured to identify information to be audited in the access data service, and judge whether the access data service is abnormal according to the information to be audited and a preset audit rule;

The service feature identifying module 230 is configured to identify a service feature in the access data service if there is no abnormality in the access data service, and determine at least one initial packaging channel from a plurality of preset packaging channels based on the service feature;

The determining target packaging channel module 240 is configured to obtain channel log information, determine a waiting duration and a historical anomaly probability of each initial packaging channel according to the channel log information, determine a target packaging channel from at least one initial packaging channel based on each waiting duration and the historical anomaly probability, and obtain a packaging address corresponding to an access data service through the target packaging channel, where the target packaging channel is configured to package a service address of the access data service;

the digital model generating module 250 is configured to update a platform service display list according to the package address, determine a DSM data service model based on the business base data and the platform service display list, where the platform service display list includes a package address corresponding to at least one access data service;

the identity verification module 260 is configured to identify a call requirement and a call identity authority in the call request when the call request is detected, determine a corresponding to-be-called wrapper address from the DSM data service model according to the call requirement, and determine whether the call identity authority can access the to-be-called wrapper address according to a mapping relationship between the call identity authority and the identity authority, where the mapping relationship between the identity authority and the to-be-called wrapper address is a correspondence relationship between the to-be-called wrapper address and the access authority;

and the data feedback module 270 is configured to determine target call data according to the call requirement and the access data service corresponding to the to-be-called package address if the to-be-called package address is accessible by the call identity authority, and feed back the target call data.

In one possible implementation, the determine target packaging lane module 240 is specifically configured to, when determining the target packaging lane from at least one initial packaging lane based on each waiting duration and the historical anomaly probability:

Identifying the number of transfer nodes in each initial wrapper channel, and determining the initial wrapper channel with the minimum number of transfer nodes as the optimal initial wrapper channel;

When the waiting time corresponding to the optimal initial packaging channel is longer than a first preset waiting time, determining the channel score of each other initial packaging channel based on a first mapping relation and a second mapping relation, and the waiting time and the historical abnormality probability corresponding to each other initial packaging channel, and determining the other initial packaging channel with the highest channel score as a target packaging channel, wherein the first mapping relation is the corresponding relation between the waiting time and the waiting score, the second mapping relation is the corresponding relation between the historical abnormality probability and the abnormality score, the channel score is the sum of the waiting score and the abnormality score, and the other initial packaging channels are other initial packaging channels except the optimal initial packaging channel in at least one initial packaging channel;

And when the waiting time corresponding to the optimal initial packaging channel is not longer than the preset waiting time, determining the optimal initial packaging channel as a target packaging channel.

In one possible implementation, the apparatus further includes:

the identifying feature module is used for identifying initial waiting time length and initial historical abnormal probability corresponding to other initial packaging channels with the highest channel scores;

A condition judgment module for determining a time length difference between the initial waiting time length and the waiting time length corresponding to the optimal initial packaging channel, determining the optimal initial packaging channel as a final target packaging channel when the time length difference and the initial history abnormal probability meet preset conditions,

The preset conditions are as follows:

the time difference value is lower than a second preset waiting time; and, in addition, the method comprises the steps of,

The initial anomaly probability is higher than the preset anomaly probability.

In one possible implementation manner, the data feedback module 270 is specifically configured to, when determining the target call data according to the call requirement and the access data service corresponding to the package address to be called:

Identifying a calling range in the calling demand;

when the calling requirement accords with the callable range corresponding to the packaging address to be called, determining target calling data according to the calling range and the access data service corresponding to the packaging address to be called;

When the calling requirement does not accord with the callable range, determining an intersection calling range according to the callable range and the calling range, generating audit feedback comments based on the intersection calling range, reminding related callers to modify the calling requirement in the callable range according to the audit feedback comments, and determining target calling data according to the modified calling requirement.

In one possible implementation, the data feedback module 270 is specifically configured to, when feeding back the target call data:

identifying data features contained in the target call data, and identifying data types and data amounts of the preset data features when the target call data contains the preset data features;

randomly generating coverage data according to the data type and the data quantity, and overlapping the coverage data into target call data to obtain encrypted call data;

Identifying calling interface information in the calling requirement, wherein the calling interface information comprises a calling interface protocol conversion rule, a calling information format conversion rule and a calling information display form;

and converting the encrypted call data according to the call interface information to obtain converted encrypted data, and feeding back the converted encrypted data.

In one possible implementation, the apparatus further includes:

The system comprises an identification service feature module, a migration mapping relation module and a data service access module, wherein the identification service feature module is used for identifying service features of access data service, determining a preset migration flow chart corresponding to the service features according to the service features and the migration mapping relation, wherein the migration mapping relation is a relation between the service features and the preset migration flow chart, the preset migration flow chart comprises at least one preset migration flow node, and each preset migration flow node comprises a corresponding preset migration standard;

The migration flow chart determining module is used for acquiring actual migration data accessed to the data service, determining a predicted migration node based on the actual migration data, and updating a preset migration flow chart according to the predicted migration node to obtain an updated migration flow chart, wherein the actual migration data is the migration flow chart node at the current moment;

And the module for determining the superposition migration flow chart is used for determining the prediction migration standard corresponding to the prediction migration node according to the mapping relation between the prediction migration node and the standard, superposing each prediction migration standard at the corresponding prediction migration node of the updated migration flow chart to obtain the superposition migration flow chart, and feeding back the superposition migration flow chart.

In one possible implementation, the apparatus further includes:

the identifying operation characteristic module is used for identifying the migration operation characteristics of each predicted migration standard in the overlapped migration flow chart and judging whether a detachable migration node exists in the overlapped migration flow chart according to each migration operation characteristic;

the data service splitting module is used for splitting the access data service according to the migration operation characteristics of the split nodes when the access data service is detected to be migrated to the split migration nodes at the current moment if yes, so as to obtain at least two split data services;

And the asynchronous migration module is used for asynchronously migrating at least two split data services to the next predicted migration node based on the superposition migration flow chart.

It will be clear to those skilled in the art that, for convenience and brevity of description, specific working procedures of the above-described systems, apparatuses and units may refer to corresponding procedures in the foregoing method embodiments, and are not repeated herein.

In an embodiment of the present application, as shown in fig. 3, an electronic device 300 shown in fig. 3 includes: a processor 301 and a memory 303. Wherein the processor 301 is coupled to the memory 303, such as via a bus 302. Optionally, the electronic device 300 may also include a transceiver 304. It should be noted that, in practical applications, the transceiver 304 is not limited to one, and the structure of the electronic device 300 is not limited to the embodiment of the present application.

The processor 301 may be a CPU (Central Processing Unit ), general purpose processor, DSP (DIGITAL SIGNAL processor, data signal processor), ASIC (application SPECIFIC INTEGRATED circuit), FPGA (Field Programmable GATE ARRAY ) or other programmable logic device, transistor logic device, hardware component, or any combination thereof. Which may implement or perform the various exemplary logic blocks, modules and circuits described in connection with this disclosure. Processor 301 may also be a combination that implements computing functionality, e.g., comprising one or more microprocessor combinations, a combination of a DSP and a microprocessor, etc.

Bus 302 may include a path to transfer information between the components. Bus 302 may be a PCI (PERIPHERAL COMPONENT INTERCONNECT, peripheral component interconnect standard) bus or an EISA (Extended Industry Standard Architecture ) bus, or the like. Bus 302 may be divided into an address bus, a data bus, a control bus, and the like. For ease of illustration, only one line is shown in fig. 3, but not only one bus or one type of bus.

The memory 303 may be, but is not limited to, a ROM (read only memory) or other type of static storage device that can store static information and instructions, a RAM (Random Access Memory ) or other type of dynamic storage device that can store information and instructions, an EEPROM (ELECTRICALLY ERASABLE PROGRAMMABLE READ ONLY MEMORY ), a CD-ROM (Compact Disc Read Only Memory, compact disc read only memory) or other optical disk storage, optical disk storage (including compact discs, laser discs, optical discs, digital versatile discs, blu-ray discs, etc.), magnetic disk storage media or other magnetic storage devices, or any other medium that can be used to carry or store desired program code in the form of instructions or data structures and that can be accessed by a computer.

The memory 303 is used for storing application program codes for executing the inventive arrangements and is controlled to be executed by the processor 301. The processor 301 is configured to execute the application code stored in the memory 303 to implement what is shown in the foregoing method embodiments.

Among them, electronic devices include, but are not limited to: mobile terminals such as mobile phones, notebook computers, digital broadcast receivers, PDAs (personal digital assistants), PADs (tablet computers), PMPs (portable multimedia players), in-vehicle terminals (e.g., in-vehicle navigation terminals), and the like, and stationary terminals such as digital TVs, desktop computers, and the like. But may also be a server or the like. The electronic device shown in fig. 3 is only an example and should not be construed as limiting the functionality and scope of use of the embodiments of the application.

Embodiments of the present application provide a computer-readable storage medium having a computer program stored thereon, which when run on a computer, causes the computer to perform the corresponding method embodiments described above.

It should be understood that, although the steps in the flowcharts of the figures are shown in order as indicated by the arrows, these steps are not necessarily performed in order as indicated by the arrows. The steps are not strictly limited in order and may be performed in other orders, unless explicitly stated herein. Moreover, at least some of the steps in the flowcharts of the figures may include a plurality of sub-steps or stages that are not necessarily performed at the same time, but may be performed at different times, the order of their execution not necessarily being sequential, but may be performed in turn or alternately with other steps or at least a portion of the other steps or stages.

The foregoing is only a partial embodiment of the present application, and it should be noted that it will be apparent to those skilled in the art that modifications and adaptations can be made without departing from the principles of the present application, and such modifications and adaptations are intended to be comprehended within the scope of the present application.

Claims (8)

1. A method of DSM data service management, comprising:

acquiring business basic data and access data service;

identifying information to be checked in the access data service, and judging whether the access data service is abnormal or not according to the information to be checked and a preset checking rule;

If the access data service is not abnormal, identifying service characteristics in the access data service, and determining at least one initial packaging channel from a plurality of preset packaging channels based on the service characteristics;

Obtaining channel log information, determining waiting time length and historical abnormality probability of each initial packaging channel according to the channel log information, determining a target packaging channel from at least one initial packaging channel based on each waiting time length and historical abnormality probability, and obtaining a packaging address corresponding to the access data service through the target packaging channel, wherein the target packaging channel is used for packaging a service address of the access data service;

updating a platform service display list according to the package address, and determining a DSM data service model based on the business basic data and the platform service display list, wherein the platform service display list comprises at least one package address corresponding to access data service;

When a call request is detected, identifying a call requirement and a call identity authority in the call request, determining a corresponding to-be-called package address from a DSM data service model according to the call requirement, and judging whether the call identity authority can access the to-be-called package address according to a mapping relation between the call identity authority and the identity authority, wherein the mapping relation between the to-be-called package address and the access authority;

If the calling identity authority can access the packaging address to be called, determining target calling data according to the calling requirement and access data service corresponding to the packaging address to be called, and feeding back the target calling data;

wherein said determining a target packaging lane from said at least one initial packaging lane based on each waiting duration and historical anomaly probabilities comprises:

Identifying the number of transfer nodes in each initial wrapper channel, and determining the initial wrapper channel with the minimum number of transfer nodes as the optimal initial wrapper channel; when the waiting time corresponding to the optimal initial packaging channel is longer than a first preset waiting time, determining the channel score of each other initial packaging channel based on a first mapping relation and a second mapping relation, and the waiting time and the historical anomaly probability corresponding to each other initial packaging channel, and determining the other initial packaging channel with the highest channel score as a target packaging channel, wherein the first mapping relation is the corresponding relation between the waiting time and the waiting score, the second mapping relation is the corresponding relation between the historical anomaly probability and the anomaly score, the channel score is the sum of the waiting score and the anomaly score, and the other initial packaging channels are other initial packaging channels except the optimal initial packaging channel in the at least one initial packaging channel; when the waiting time corresponding to the optimal initial packaging channel is not longer than the preset waiting time, determining the optimal initial packaging channel as a target packaging channel;

wherein after the optimal initial packaging channel is determined as the target packaging channel, the method further comprises:

Identifying initial waiting time and initial historical abnormality probability corresponding to other initial packaging channels with highest channel scores; determining a time length difference value between the initial waiting time length and the waiting time length corresponding to the optimal initial packaging channel, and determining the optimal initial packaging channel as a final target packaging channel when the time length difference value and the initial historical anomaly probability meet preset conditions, wherein the preset conditions are as follows: the time length difference value is lower than a second preset waiting time length; and the initial historical anomaly probability is higher than a preset anomaly probability.

2. The DSM data service management method according to claim 1, wherein the determining the target call data according to the call request and the access data service corresponding to the package address to be called, comprises:

Identifying a calling range in the calling demand;

when the calling requirement accords with the callable range corresponding to the packaging address to be called, determining target calling data according to the calling range and the access data service corresponding to the packaging address to be called;

When the calling requirement does not accord with the callable range, determining an intersection calling range according to the callable range and the calling range, generating audit feedback comments based on the intersection calling range, reminding related callers to modify the calling requirement in the callable range according to the audit feedback comments, and determining target calling data according to the modified calling requirement.

3. The DSM data service management method according to claim 2, wherein the feeding back the target call data, comprises:

Identifying data features contained in the target call data, and identifying data types and data amounts of preset data features when the target call data contains the preset data features;

randomly generating coverage data according to the data type and the data quantity, and superposing the coverage data into the target call data to obtain encrypted call data;

Identifying calling interface information in the calling requirement, wherein the calling interface information comprises a calling interface protocol conversion rule, a calling information format conversion rule and a calling information display form;

and converting the encrypted call data according to the call interface information to obtain converted encrypted data, and feeding back the converted encrypted data.

4. The DSM data service management method according to claim 1, further comprising:

identifying service characteristics of the access data service, and determining a preset migration flow chart corresponding to the service characteristics according to the service characteristics and migration mapping relations, wherein the migration mapping relations are relations between the service characteristics and the preset migration flow chart, the preset migration flow chart comprises at least one preset migration flow node, and each preset migration flow node comprises a corresponding preset migration standard;

Acquiring actual migration data of the access data service, determining a predicted migration node based on the actual migration data, and updating the preset migration flow chart according to the predicted migration node to obtain an updated migration flow chart, wherein the actual migration data is a migration flow node at the current moment;

And determining a prediction migration standard corresponding to the prediction migration node according to the prediction migration node and the standard mapping relation, superposing each prediction migration standard on the corresponding prediction migration node of the updated migration flow chart to obtain a superposition migration flow chart, and feeding back the superposition migration flow chart.

5. The DSM data service management method according to claim 4, further comprising:

Identifying migration operation characteristics of each prediction migration standard in the overlapped migration flow chart, and judging whether a detachable migration node exists in the overlapped migration flow chart according to each migration operation characteristic;

If yes, splitting the access data service according to the migration operation characteristics of the split migration node when the access data service is detected to migrate to the split migration node at the current moment, so as to obtain at least two split data services;

And asynchronously migrating the at least two split data services to a next predicted migration node based on the superposition migration flow chart.

6. A DSM data service management apparatus, comprising:

the data acquisition module is used for acquiring business basic data and accessing data services;

the auditing judging module is used for identifying information to be audited in the access data service and judging whether the access data service is abnormal or not according to the information to be audited and a preset auditing rule;

the service characteristic identifying module is used for identifying service characteristics in the access data service if the access data service is not abnormal, and determining at least one initial packaging channel from a plurality of preset packaging channels based on the service characteristics;

The system comprises a target packaging channel determining module, a data service access module and a data service access module, wherein the target packaging channel determining module is used for acquiring channel log information, determining the waiting time length and the historical abnormality probability of each initial packaging channel according to the channel log information, determining a target packaging channel from at least one initial packaging channel based on each waiting time length and the historical abnormality probability, and obtaining a packaging address corresponding to the access data service through the target packaging channel, wherein the target packaging channel is used for packaging the service address of the access data service;

The digital model generating module is used for updating a platform service display list according to the package address, determining a DSM data service model based on the business basic data and the platform service display list, wherein the platform service display list comprises at least one package address corresponding to the access data service;

The identity verification module is used for identifying a calling requirement and a calling identity authority in the calling request when the calling request is detected, determining a corresponding packaging address to be called from a DSM data service model according to the calling requirement, and judging whether the calling identity authority can access the packaging address to be called according to the mapping relation of the calling identity authority and the identity authority, wherein the mapping relation of the identity authority is a corresponding relation between the packaging address to be called and the access authority;

The data feedback module is used for determining target calling data according to the calling requirement and the access data service corresponding to the to-be-called packaging address if the calling identity authority can access the to-be-called packaging address, and feeding back the target calling data;

Wherein the determining a target packaging channel module is specifically configured to, when determining a target packaging channel from the at least one initial packaging channel based on each waiting duration and the historical anomaly probability:

Identifying the number of transfer nodes in each initial wrapper channel, and determining the initial wrapper channel with the minimum number of transfer nodes as the optimal initial wrapper channel; when the waiting time corresponding to the optimal initial packaging channel is longer than a first preset waiting time, determining the channel score of each other initial packaging channel based on a first mapping relation and a second mapping relation, and the waiting time and the historical anomaly probability corresponding to each other initial packaging channel, and determining the other initial packaging channel with the highest channel score as a target packaging channel, wherein the first mapping relation is the corresponding relation between the waiting time and the waiting score, the second mapping relation is the corresponding relation between the historical anomaly probability and the anomaly score, the channel score is the sum of the waiting score and the anomaly score, and the other initial packaging channels are other initial packaging channels except the optimal initial packaging channel in the at least one initial packaging channel; when the waiting time corresponding to the optimal initial packaging channel is not longer than the preset waiting time, determining the optimal initial packaging channel as a target packaging channel;

Wherein after the optimal initial packaging channel is determined as the target packaging channel, the method further comprises: identifying initial waiting time and initial historical abnormality probability corresponding to other initial packaging channels with highest channel scores; determining a time length difference value between the initial waiting time length and the waiting time length corresponding to the optimal initial packaging channel, and determining the optimal initial packaging channel as a final target packaging channel when the time length difference value and the initial historical anomaly probability meet preset conditions, wherein the preset conditions are as follows: the time length difference value is lower than a second preset waiting time length; and the initial historical anomaly probability is higher than a preset anomaly probability.

7. An electronic device, comprising:

At least one processor;

A memory;

At least one application, wherein the at least one application is stored in memory and configured to be executed by at least one processor, the at least one application configured to: a DSM data service management method according to any of claims 1 to 5.

8. A computer-readable storage medium, comprising: a computer program stored which can be loaded by a processor and which performs a DSM data service management method as claimed in any of claims 1 to 5.