CN115080251B

CN115080251B - Archive data security management method and system based on cloud migration platform

Info

Publication number: CN115080251B
Application number: CN202211009406.7A
Authority: CN
Inventors: 祝杰
Original assignee: Guangzhou Hongfang Network Technology Co ltd
Current assignee: Guangzhou Hongfang Network Technology Co ltd
Priority date: 2022-08-23
Filing date: 2022-08-23
Publication date: 2022-11-15
Anticipated expiration: 2042-08-23
Also published as: CN115080251A

Abstract

The invention provides a method and a system for archive data security management based on a cloud migration platform, which relate to the technical field of digital processing, and the method comprises the following steps: acquiring archive data to be migrated; performing file type analysis to obtain file type information and file quantity information; classifying the migration archive data to determine multi-stage migration archive data; acquiring deployment environment information of a system; sending the migration instruction to a cloud computing platform for environment configuration, and acquiring a migration instruction; and sending the multi-order migration archive data to a migration decision model, outputting a migration decision result according to the migration decision model, and performing security management on the multi-order migration archive data. The technical problem that migration efficiency is low due to the fact that migration time resources cannot be reasonably distributed while readability of migration data is guaranteed is solved, and the technical effects that migration time resources of data are reasonably and efficiently utilized while readability of the migration data is guaranteed, and migration efficiency of archive data is improved are achieved.

Description

Archive data security management method and system based on cloud migration platform

Technical Field

The invention relates to the technical field of digital processing, in particular to a method and a system for archive data security management based on a cloud migration platform.

Background

In the data migration process, the data operation environment of a system of the device before the migration and a system of the device after the migration are inconsistent, so that the read/write operation of the migration data cannot be performed after the data migration, in the data transmission process, the probability of channel delay and shutdown phenomenon (migration during working time) exists, if the data migration is performed in non-working time and low-demand time, a large amount of time needs to be left for the data migration in both the system of the device before the migration and the system of the device after the migration, the problem of time resource waste of the device exists, the migration management of the archive data does not meet the actual migration requirement, the stability of the migration process cannot be guaranteed, and the migration efficiency is low.

The prior art has the technical problem that migration time resources cannot be reasonably distributed while readability of migration data is guaranteed, so that migration efficiency is low.

Disclosure of Invention

According to the archive data security management method and system based on the cloud migration platform, the technical problem that migration time resources cannot be reasonably distributed while readability of migration data is guaranteed is solved, migration efficiency is low is achieved, and the technical effects that while readability of the migration data is guaranteed, the migration time resources of the data are reasonably and efficiently utilized, and migration efficiency of the archive data is improved are achieved.

In view of the foregoing problems, the present application provides a method and a system for archive data security management based on a cloud migration platform.

In a first aspect, the present application provides an archive data security management method based on a cloud migration platform, where the method is applied to an archive data security management system of the cloud migration platform, the system is in communication connection with a cloud computing platform, and the method includes: analyzing by connecting a file data management system to obtain file data to be migrated; performing archive type analysis according to the archive data to be migrated to obtain archive type information and archive quantity information; grading the archive data to be migrated according to the archive type information and the archive quantity information to determine multi-stage migration archive data; acquiring deployment environment information of a system where the multi-level migration archive data is located; sending the deployment environment to the cloud computing platform for environment configuration, and acquiring a migration instruction after the environment configuration is successful; according to the migration instruction, the multi-order migration archive data are sent to a migration decision model, and a migration decision result is output according to the migration decision model, wherein the migration decision model is embedded in the cloud computing platform; and carrying out safety management on the multi-level migration archive data according to the migration decision result.

In a second aspect, the present application provides an archive data security management system based on a cloud migration platform, wherein the system is in communication connection with a cloud computing platform, and the system includes: the data acquisition unit is used for analyzing by connecting a file data management system to acquire file data to be migrated; the type analysis unit is used for carrying out archive type analysis according to the archive data to be migrated to acquire archive type information and archive quantity information; the data grading unit is used for grading the archive data to be migrated according to the archive type information and the archive quantity information to determine multi-stage migration archive data; the information deployment unit is used for acquiring deployment environment information of a system where the multi-level migration archive data are located; the instruction acquisition unit is used for sending the deployment environment to the cloud computing platform for environment configuration, and acquiring a migration instruction after the environment configuration is successful; the data processing unit is used for sending the multi-order migration archive data to a migration decision model according to the migration instruction and outputting a migration decision result according to the migration decision model, wherein the migration decision model is embedded in the cloud computing platform; and the safety management unit is used for carrying out safety management on the multi-stage migration archive data according to the migration decision result.

One or more technical solutions provided in the present application have at least the following technical effects or advantages:

because the archive data to be migrated is acquired by connecting the archive data management system for analysis; performing file type analysis to obtain file type information and file quantity information; grading the archive data to be migrated to determine multi-stage migration archive data; acquiring deployment environment information of a system; sending the environment configuration information to the cloud computing platform for environment configuration, and acquiring a migration instruction after the environment configuration is successful; sending the multi-order migration archive data to a migration decision model, and outputting a migration decision result according to the migration decision model; and carrying out safety management on the multi-level migration archive data according to the migration decision result. According to the embodiment of the application, the technical effects that the readability of the migration data is guaranteed, meanwhile, the migration time resources of the data are reasonably and efficiently utilized, and the migration efficiency of the archive data is improved are achieved.

Drawings

Fig. 1 is a schematic flowchart of a method for managing archive data security based on a cloud migration platform according to the present application;

fig. 2 is a schematic flowchart illustrating migration of multi-level migration archive data implemented by the archive data security management method based on the cloud migration platform according to the present application;

fig. 3 is a schematic flowchart of a target deployment environment optimization of the archive data security management method based on the cloud migration platform according to the present application;

fig. 4 is a schematic structural diagram of an archive data security management system based on a cloud migration platform according to the present application.

Description of reference numerals: a data acquisition unit 11, a type analysis unit 12, a data staging unit 13, an information deployment unit 14, an instruction acquisition unit 15, a data processing unit 16, and a security management unit 17.

Detailed Description

Example one

As shown in fig. 1, the present application provides an archive data security management method based on a cloud migration platform, where the method is applied to an archive data security management system of the cloud migration platform, the system is in communication connection with a cloud computing platform, and the method includes:

s100: analyzing by connecting a file data management system to obtain file data to be migrated;

s200: performing archive type analysis according to the archive data to be migrated to acquire archive type information and archive quantity information;

specifically, the archive data to be migrated corresponds to a user facing the cloud migration platform, and is a common user, where the user may be a group user of an enterprise, the archive data to be migrated includes basic information of personnel, operation management information, and related enterprise information of the enterprise, and the archive data to be migrated is target migration data facing the cloud migration platform, and generally, the archive data to be migrated has a storage security requirement, and the archive data to be migrated is lost and leaked, which may cause a certain degree of user loss, that is, both storage and migration of the archive data to be migrated have a data privacy security requirement.

S300: grading the archive data to be migrated according to the archive type information and the archive quantity information to determine multi-stage migration archive data;

further, the archive data to be migrated is ranked according to the archive type information and the archive quantity information, and multi-rank migration archive data is determined, where the step S300 includes:

s310: acquiring a file migration security level according to the file type information;

s320: obtaining a file migration quantization level according to the file quantity information;

s330: inputting the file migration security level and the file migration quantization level into a binary logic decision device to obtain a hierarchical decision result, wherein the hierarchical decision result is a decision result for determining whether each file type is hierarchical or not, and comprises file hierarchy and file non-hierarchy;

s340: and grading the archive data to be migrated according to the grading decision result to determine the multi-grade migration archive data.

Specifically, files of the same type are determined through the file type information, level division is performed according to the file quantity information, a many-to-many relation between the file type information and the multi-level migration file data is formed, multi-level migration file data is determined, grading is performed through the file type information, in a simple way, the file type information corresponds to a photo file, the photo is a disclosed photo, the grading corresponding to the photo is the grading corresponding to the public information, the file type information corresponds to a physical file, the physical file is a creative device, the grading corresponding to the physical file is the grading corresponding to the private information, the grading is safe migration management of the corresponding file, and the safe protection mechanism corresponding to migration of the private information is superior to the safe protection mechanism corresponding to migration of the public information, so that reference is provided for subsequent data migration.

Specifically, according to the file type information, determining the disclosure degree and the file privacy degree of file contents, and obtaining a file migration security level by contrast, wherein generally, files with more sufficient disclosure and lower privacy degrees correspond to the files with lower file migration security level, and can be verified in an auxiliary way through a duplication checking platform to determine the disclosure degree of the file contents, the file privacy degree can be set in a user-defined way through the user requirements, and the file migration security level comprises a plurality of restriction intervals of the disclosure degree and the file privacy degree and a plurality of corresponding file migration security level division information; according to the archive quantity information, the archive type information needs to be determined firstly, specifically, the archive quantity information of the document archive can correspond to the word number of the document, the archive quantity information of the photo archive can correspond to the pixel point of the photo, and the archive is evaluated according to the archive quantity information to obtain an archive migration quantization grade, wherein the archive migration quantization grade comprises a plurality of archive quantity information limiting intervals and a plurality of corresponding archive migration quantization grade division information; the classification decision result is a decision result for classifying each file type, the decision result comprises file classification and file non-classification, the file migration security level and the file migration quantization level are input into a binary logic decision device, classification is carried out on migration file data, and a classification decision result is obtained, wherein the binary logic decision device is composed of a programmable logic device of a controlled machine logic, the output state of the binary logic decision device depends on the input state or part of the output state of the binary logic decision device, the classification result is controlled in a binary dynamic input mode, the problem of low steady-state precision in the classification process is neutralized, two safety and quantization indexes are used as binary input of the binary logic decision device, the classification result is used as output, and the output is multi-level migration file data, so that the stability of the multi-level migration file data is ensured.

Further, as shown in fig. 2, the embodiment of the present application further includes:

s341: establishing a multi-level migration channel according to the multi-level migration archive data, wherein the multi-level migration channel corresponds to the multi-level migration archive data;

s342: configuring a migration encryption algorithm according to the multi-order migration channel, wherein the multi-order migration channel is a channel of the cloud computing platform and a system where the multi-order migration archive data is located;

s343: and embedding the migration encryption algorithm in the multi-level migration channel to realize the migration of the multi-level migration archive data.

Specifically, the multi-order migration channel has an information transfer and migration function, the multi-order migration channel corresponds to the multi-order migration archive data, the correspondence is the correspondence of the multi-order migration channel to the multi-order in the multi-order migration archive data, the multi-order data in the multi-order migration archive data can be transferred in stages through the multi-order channels in the multi-order migration channel, the multi-order migration channel is established by contrasting and determining the multi-order channels of the migration channel according to the multi-order migration archive data, the multi-order migration channel meets the requirement corresponding to the archive migration security level corresponding to the multi-order migration archive data by configuring migration encryption algorithms with different security levels, the multi-order migration channel is a channel of a system where the cloud computing platform and the multi-order migration archive data are located, and the stability of information transfer inside the channel is verified; the migration encryption algorithm is embedded in the multi-level migration channel, so that the multi-level migration of the file data is realized, and the probability of file data leakage caused by the file data transmission and migration process is reduced.

S400: acquiring deployment environment information of a system where the multi-level migration archive data is located;

s500: sending the deployment environment to the cloud computing platform for environment configuration, and acquiring a migration instruction after the environment configuration is successful;

specifically, the system where the multistage migration archive data is located, that is, the system where the migration operation stage is not executed on the archive data to be migrated, is not specifically limited in type, and the deployment environment information is to ensure that the archive data to be migrated can be read/written after the migration is executed, and simply, the archive data to be migrated is migrated to the cloud platform, and subsequent reading/writing needs to be ensured, and data migration is performed directly, and it is not possible to ensure that the reading/writing and other use functions before and after migration of the archive data to be migrated can be docked, and cloud optimization needs to be performed on the application program where the data is located, for example, a relational database is replaced with a database service provided by a cloud service provider, and the deployment environment information before migration of the multistage migration archive data is obtained; and sending the deployment environment to the cloud computing platform for environment configuration, wherein the environment configuration is that readability configuration optimization is carried out before the platform is replaced, namely, "migration after repair" is carried out, after the environment configuration is successful, a migration instruction is obtained, and through the environment configuration, technical support is provided for guaranteeing readability of the multi-order migration archive data, and data messy codes and error codes caused by data migration are avoided.

Further, the deployment environment is sent to the cloud computing platform for environment configuration, and step S500 includes:

s510: sending the deployment environment to the cloud computing platform, wherein the deployment environment comprises an application architecture environment, a data source relation environment and a system load environment;

s520: and configuring a target deployment environment for the cloud computing platform based on the deployment environment, acquiring a configuration execution state, and acquiring the migration instruction when the configuration execution state is in an execution completion state.

Specifically, the deployment environment includes an application architecture environment, a data source relationship environment, and a system load environment, where the application architecture environment is environment information of an application program, the data source relationship environment is connection and dependency between the application program and a data source, the system load environment is an environment of a load peripheral device of a system before migration, the deployment environment is sent to the cloud computing platform through the communication connection, the target deployment environment is environment information of a system after migration, the target deployment environment is consistent with a data type of the deployment environment, and no further description is given here, and based on the deployment environment, the target deployment environment is configured by the cloud computing platform to obtain a configuration execution state, where the configuration execution state includes an unexecuted state, an executing state, and an executing completion state, and when the configuration execution state is in the executing completion state, the migration instruction is obtained, and is used to control sending the multistage migration archive migration data to the backend device, and in combination with updating of the configuration execution state, technical support is provided for ensuring timeliness of the migration instruction.

Further, as shown in fig. 3, after the configuring state executing state is in the executing complete state, step S520 further includes:

s521: when the configuration state execution state is in an execution completion state, acquiring an environment test instruction;

s522: acquiring a load test result, a fault test result and a redundancy test result according to the environment test instruction;

s523: outputting an environment test result according to the load test result, the fault test result and the redundancy test result;

s524: and optimizing the target deployment environment configured by the cloud computing platform according to the environment test result.

Specifically, when the execution state of the configuration state is in the execution completion state, an environment test instruction is obtained, and the environment test instruction is used for testing the performance of the target deployment environment; according to an environment test instruction, before data migration, comprehensively testing a target deployment environment under various load and pressure conditions, wherein the comprehensive test also comprises various fault conditions, obtaining a load test result, a fault test result and a redundancy test result, and outputting a performance test result of the target deployment environment according to the load test result, the fault test result and the redundancy test result to obtain an environment test result, wherein the environment test result comprises the load test result, the fault test result and the redundancy test result; and optimizing the target deployment environment configured by the cloud computing platform, wherein the optimization can be related optimization such as redundant configuration removal, and technical support is provided for ensuring the stability of the performance of the target deployment environment through environment testing and configuration optimization.

S600: according to the migration instruction, the multi-order migration archive data are sent to a migration decision model, and a migration decision result is output according to the migration decision model, wherein the migration decision model is embedded in the cloud computing platform;

s700: and performing security management on the multi-level migration archive data according to the migration decision result.

Further, according to the migration instruction, sending the multi-level migration archive data to a migration decision model, where step S600 further includes:

s610: acquiring a file migration characteristic set by analyzing the file information of the multi-stage migration file data;

s620: determining a decision level of each feature in the file migration features by performing information entropy calculation on each feature in the file migration feature set, and building the migration decision model;

s630: and sending the multi-order migration archive data to a migration decision model to obtain a migration decision result.

Further, the embodiment of the present application further includes:

s611: analyzing the file information of the multi-order migration file data to obtain a migration efficiency influence factor, wherein the migration efficiency influence factor is an index influencing the utilization rate of a time sequence in the migration process;

s612: and judging according to the influence strength of the migration efficiency influence factors, screening N influence factors with influence strengths larger than preset influence strengths, and generating the archive migration characteristic set according to the N influence factors.

Specifically, the migration decision model is a migration decision scheme optimization model, the optimization logic of the migration decision model corresponds to a user requirement, if the user requirement is high in migration efficiency, the classification characteristics of the migration decision model can be determined as an index related to aging, the migration decision model is arranged in the cloud computing platform, the migration decision result is an optimal migration decision scheme determined by the migration decision model, the optimal setting is optimal to aging, namely, the migration decision result is high in archive data migration efficiency corresponding to the migration decision result, the multi-order migration archive data is sent to the migration decision model according to the migration instruction, the decision migration decision result is output by the decision migration decision model, the multi-order migration archive data comprises parameter indexes corresponding to the archive migration quantization levels, the migration decision result is optimal to archive classification corresponding to the archive migration quantization levels, and the multi-order migration archive data is safely managed through the migration decision result, so that the aging of archive data migration management is guaranteed.

Further specifically, in the process of data migration, the files corresponding to the quantization levels of file migration are optimized in stages, which can ensure the transmission efficiency of the multi-stage migration channels, and the transmission efficiency of the multi-stage migration channels in parallel transmission is greater than the transmission efficiency of the multi-stage migration channels in serial transmission, illustratively, 10 bits of data need to be migrated, where 7 bits of data are of the same data type, 2 bits of data are of the same data type, 1 bit of data are of the same data type, and the number of channels of the corresponding multi-stage migration channels is 4, where the 7 bits of data correspond to the first and second migration channels, the 2 bits of data correspond to the third migration channel, and the 1 bit of data corresponds to the fourth migration channel, which need 4 clock cycles, and in combination with time division multiplexing, the utilization rate of the migration channels can be effectively improved, data migration is performed by matching the optimal migration decision scheme corresponding to the decision levels of each feature, the data migration is performed in a migration cycle corresponding to the data migration decision result, that is 3 clock cycles, in a third clock cycle, an idle third or fourth migration channel is used, and by matching each feature flag, the optimal transition decision scheme is obtained by converting the data in a data migration cycle, so that the data migration period corresponding to the data migration is optimized in a minimum number of the remaining migration period, which is not less than 3.5.

Specifically, index analysis is performed on file information of the multi-level migration file data to obtain a file migration feature set, the file migration feature set comprises N elements, information entropy calculation is performed on N element features in the file migration feature set respectively to obtain information entropies of the N element features, the information entropies of the N element features correspond to decision levels of all the features in the file migration features, the decision level corresponding to the information entropy is high, the information entropy is simply stated, the corresponding element features are features which are located at feature classification and close to roots, and the decision level is high; the information entropy is low, the corresponding element characteristics are characteristics in characteristic classification close to leaf nodes, namely the decision level is low, the decision level of each characteristic in the file migration characteristics is respectively determined, and a migration decision model is built through the decision level of each characteristic; and sending the multi-order migration archive data to a migration decision model for preferential screening processing to obtain a migration decision result, thereby ensuring the stability of the migration decision result.

Specifically, the migration efficiency influencing factor is an index which influences the utilization rate of a clock cycle time sequence of the migration channel in the migration process, where the index includes an idle migration channel index and other related indexes, a migration channel with a migration cycle consistent with a clock cycle is the idle migration channel, that is, data sent by the idle migration channel is a clock cycle signal without a carrier, and in the test migration process, file information of the multi-level migration file data is analyzed to obtain the migration efficiency influencing factor, generally, with the data migration efficiency as a migration requirement, the migration efficiency influencing factor may be whether data backup is needed, whether a channel has a delay, whether a file is urgent, or not; the preset influence strength can be self-defined by archive data security management personnel of a cloud migration platform, the influence strength is the index association degree of a migration efficiency influence factor and the influence time sequence utilization rate, the index association degree is acquired through association analysis, and according to the influence strength of the migration efficiency influence factor, N influence factors of which the screening influence strength is greater than the preset influence strength are judged and screened, the N influence factors are the elements of an archive migration characteristic set, an archive migration characteristic set is generated, and technical support is provided for guaranteeing the reasonability of the archive migration characteristic set and improving the effectiveness of a migration decision model.

In summary, the archive data security management method and system based on the cloud migration platform provided by the present application have the following technical effects:

because the method is connected with the archive data management system for analysis, the archive data to be migrated is obtained, the archive type analysis is carried out, the archive type information and the archive quantity information are obtained, the archive data to be migrated is graded, and the multi-grade migrated archive data is determined; acquiring deployment environment information of a system, sending the deployment environment information to a cloud computing platform for environment configuration, and acquiring a migration instruction after the environment configuration is successful; and sending the multi-order migration archive data to a migration decision model, outputting a migration decision result according to the migration decision model, and performing security management on the multi-order migration archive data. By providing the archive data security management method and system based on the cloud migration platform, the technical effects that the readability of the migration data is guaranteed, the migration time resources of the data are reasonably and efficiently utilized, and the migration efficiency of the archive data is improved are achieved.

Because the multi-order migration file data is established according to the multi-order migration file data, the migration encryption algorithm is configured and embedded in the multi-order migration channel, the migration of the multi-order migration file data is realized, and the probability of file data leakage caused by the file data transmission and migration process is reduced.

The method comprises the steps of analyzing the archive information of multi-stage migration archive data to obtain an archive migration characteristic set; performing information entropy calculation on each feature, determining the decision level of each feature in the file migration feature, and building a migration decision model; and sending the multi-order migration archive data to the migration decision model, acquiring a migration decision result, optimizing archive levels corresponding to archive migration quantization levels, and providing technical support for ensuring the high efficiency of migration.

Example two

Based on the same inventive concept as the archive data security management method based on the cloud migration platform in the foregoing embodiment, as shown in fig. 4, the present application provides an archive data security management system based on the cloud migration platform, wherein the system is in communication connection with a cloud computing platform, and the system includes:

the data acquisition unit 11 is used for analyzing by connecting a file data management system to acquire file data to be migrated;

the type analysis unit 12 is configured to perform archive type analysis according to the archive data to be migrated, and acquire archive type information and archive quantity information;

a data ranking unit 13, wherein the data ranking unit 13 is configured to rank the archive data to be migrated according to the archive type information and the archive quantity information, and determine multi-level migration archive data;

an information deployment unit 14, where the information deployment unit 14 is configured to obtain deployment environment information of a system where the multi-level migration archive data is located;

the instruction obtaining unit 15 is configured to send the deployment environment to the cloud computing platform for environment configuration, and obtain a migration instruction after the environment configuration is successful;

the data processing unit 16 is configured to send the multi-order migration archive data to a migration decision model according to the migration instruction, and output a migration decision result according to the migration decision model, where the migration decision model is embedded in the cloud computing platform;

a security management unit 17, where the security management unit 17 is configured to perform security management on the multi-level migration archive data according to the migration decision result.

Further, the system comprises:

a migration security level obtaining unit, configured to obtain a file migration security level according to the file type information;

the quantization grade determining unit is used for obtaining a file migration quantization grade according to the file quantity information;

a step decision result obtaining unit, configured to input the file migration security level and the file migration quantization level into a binary logic decision device to obtain a step decision result, where the step decision result is a decision result of whether to perform step division on each file type, and includes file step division and file non-step division;

and the archive data grading unit is used for grading the archive data to be migrated according to the grading decision result to determine the multi-stage migration archive data.

Further, the system comprises:

a migration channel establishing unit, configured to establish a multi-level migration channel according to the multi-level migration archive data, where the multi-level migration channel corresponds to the multi-level migration archive data;

the encryption algorithm configuration unit is used for configuring a migration encryption algorithm according to the multi-order migration channels, wherein the multi-order migration channels are channels of the cloud computing platform and a system where the multi-order migration archive data are located;

and the migration algorithm embedding unit is used for embedding the migration encryption algorithm into the multi-order migration channel to realize the migration of the multi-order migration archive data.

Further, the system comprises:

the deployment environment sending unit is used for sending the deployment environment to the cloud computing platform, wherein the deployment environment comprises an application architecture environment, a data source relation environment and a system load environment;

and the cloud computing platform configuration unit is used for configuring a target deployment environment to the cloud computing platform based on the deployment environment, acquiring a configuration execution state, and acquiring the migration instruction when the configuration execution state is in an execution completion state.

Further, the system comprises:

the environment test instruction acquisition unit is used for acquiring an environment test instruction when the configuration state execution state is in an execution completion state;

the test result acquisition unit is used for acquiring a load test result, a fault test result and a redundancy test result according to the environment test instruction;

the environment test result output unit is used for outputting an environment test result according to the load test result, the fault test result and the redundancy test result;

and the optimization configuration unit is used for optimizing the target deployment environment configured by the cloud computing platform according to the environment test result.

Further, the system comprises:

a migration feature acquisition unit configured to acquire a file migration feature set by analyzing the file information of the multi-level migration file data;

the information entropy calculation unit is used for carrying out information entropy calculation on each feature in the file migration feature set, determining the decision level of each feature in the file migration features, and building the migration decision model;

and the migration decision result acquisition unit is used for sending the multi-order migration archive data to a migration decision model to acquire a migration decision result.

Further, the system comprises:

an influence factor obtaining unit, configured to obtain a migration efficiency influence factor by analyzing archive information of the multi-order migration archive data, where the migration efficiency influence factor is an index that influences a timing sequence utilization rate in a migration process;

and the archive migration characteristic set generating unit is used for judging according to the influence strength of the migration efficiency influence factors, screening N influence factors with influence strength larger than preset influence strength, and generating the archive migration characteristic set according to the N influence factors.

The specification and drawings are merely illustrative of the present application, and various modifications and combinations can be made thereto without departing from the spirit and scope of the application. Such modifications and variations of the present application are within the scope of the claims of the present application and their equivalents, and it is intended that the present application include such modifications and variations.

Claims

1. An archive data security management method based on a cloud migration platform is applied to an archive data security management system of the cloud migration platform, the system is in communication connection with a cloud computing platform, and the method comprises the following steps:

analyzing by connecting a file data management system to obtain file data to be migrated;

performing archive type analysis according to the archive data to be migrated to obtain archive type information and archive quantity information;

grading the archive data to be migrated according to the archive type information and the archive quantity information to determine multi-stage migration archive data;

acquiring deployment environment information of a system where the multi-level migration archive data is located;

sending the deployment environment to the cloud computing platform for environment configuration, and acquiring a migration instruction after the environment configuration is successful;

according to the migration instruction, the multi-order migration archive data are sent to a migration decision model, and a migration decision result is output according to the migration decision model, wherein the migration decision model is embedded in the cloud computing platform;

acquiring a file migration characteristic set by analyzing the file information of the multi-stage migration file data;

determining the decision level of each feature in the file migration features by performing information entropy calculation on each feature in the file migration feature set, and building the migration decision model;

sending the multi-order migration archive data to a migration decision model to obtain a migration decision result;

analyzing the file information of the multi-order migration file data to obtain a migration efficiency influence factor, wherein the migration efficiency influence factor is an index influencing the utilization rate of a time sequence in the migration process;

judging according to the influence strength of the migration efficiency influence factors, screening N influence factors with influence strength larger than preset influence strength, and generating the archive migration characteristic set according to the N influence factors;

establishing a multi-level migration channel according to the multi-level migration archive data, wherein the multi-level migration channel corresponds to the multi-level migration archive data;

configuring a migration encryption algorithm according to the multi-order migration channels, wherein the multi-order migration channels are channels of the cloud computing platform and a system where the multi-order migration archive data are located;

embedding the migration encryption algorithm into the multi-level migration channel to realize the migration of the multi-level migration archive data;

and performing security management on the multi-level migration archive data according to the migration decision result.

2. The method of claim 1, wherein the archive data to be migrated is ranked according to the archive type information and the archive quantity information to determine multi-rank migration archive data, the method further comprising:

acquiring a file migration security level according to the file type information;

obtaining a file migration quantization level according to the file quantity information;

inputting the file migration security level and the file migration quantization level into a binary logic decision device to obtain a hierarchical decision result, wherein the hierarchical decision result is a decision result for determining whether each file type is hierarchical or not, and comprises file hierarchy and file non-hierarchy;

and grading the archive data to be migrated according to the grading decision result to determine the multi-grade migration archive data.

3. The method of claim 1, wherein the deployment environment is sent to the cloud computing platform for environment configuration, the method further comprising:

sending the deployment environment to the cloud computing platform, wherein the deployment environment comprises an application architecture environment, a data source relation environment and a system load environment;

and configuring a target deployment environment for the cloud computing platform based on the deployment environment, acquiring a configuration execution state, and acquiring the migration instruction when the configuration execution state is in an execution completion state.

4. The method of claim 3, wherein after the configuration state execution state is in an execution complete state, the method further comprises:

when the configuration state execution state is in an execution completion state, acquiring an environment test instruction;

acquiring a load test result, a fault test result and a redundancy test result according to the environment test instruction;

outputting an environment test result according to the load test result, the fault test result and the redundancy test result;

and optimizing the target deployment environment configured by the cloud computing platform according to the environment test result.

5. An archive data security management system based on a cloud migration platform, wherein the system is in communication connection with a cloud computing platform, and the system comprises:

the data acquisition unit is used for analyzing by connecting a file data management system to acquire file data to be migrated;

the type analysis unit is used for carrying out archive type analysis according to the archive data to be migrated to acquire archive type information and archive quantity information;

the data grading unit is used for grading the archive data to be migrated according to the archive type information and the archive quantity information to determine multi-stage migration archive data;

the information deployment unit is used for acquiring deployment environment information of a system where the multi-level migration archive data are located;

the instruction acquisition unit is used for sending the deployment environment to the cloud computing platform for environment configuration, and acquiring a migration instruction after the environment configuration is successful;

the data processing unit is used for sending the multi-order migration archive data to a migration decision model according to the migration instruction and outputting a migration decision result according to the migration decision model, wherein the migration decision model is embedded in the cloud computing platform;

a migration decision result obtaining unit, configured to send the multi-order migration archive data to a migration decision model, and obtain a migration decision result;

an influence factor obtaining unit, configured to obtain a migration efficiency influence factor by analyzing archive information of the multi-order migration archive data, where the migration efficiency influence factor is an index that affects timing sequence utilization in a migration process;

the archive migration characteristic set generating unit is used for judging according to the influence strength of the migration efficiency influence factors, screening N influence factors with influence strengths larger than preset influence strengths, and generating the archive migration characteristic set according to the N influence factors;

the encryption algorithm configuration unit is used for configuring a migration encryption algorithm according to the multi-order migration channel, wherein the multi-order migration channel is a channel of the cloud computing platform and a system where the multi-order migration archive data is located;

the migration algorithm embedding unit is used for embedding the migration encryption algorithm into the multi-order migration channel to realize the migration of the multi-order migration archive data;

and the safety management unit is used for carrying out safety management on the multi-stage migration archive data according to the migration decision result.