CN116248682A - Big data processing method based on cloud service linkage and intelligent digital AI system - Google Patents

Abstract

The invention discloses a big data processing method based on cloud service linkage and an intelligent digital AI system, which comprises the following steps: firstly, responding to a cloud service execution request, and carrying out user identity assessment on the cloud service execution request; then, after the evaluation result of the user identity evaluation is characterized as passing the evaluation, selecting a current service server from the server cluster; acquiring a service parameter cloud service linkage instruction, and determining a linkage service data set between a current service server and an auxiliary service server; and finally, executing the cloud service based on the linkage service data set, and feeding back an execution result corresponding to the cloud service to the target interface.

Description

Big data processing method based on cloud service linkage and intelligent digital AI system

Technical Field

The invention relates to the field of cloud computing, in particular to a big data processing method based on cloud service linkage and an intelligent digital AI system.

Background

Along with the development of the internet, the richness and diversity of cloud services are increased, and many cloud services often need more than one server to perform linkage operation, but along with the arrival of big data age, how to improve the linkage processing efficiency of the cloud services is needed to be solved by the technicians in the field facing the increase of the number of users and service data.

Disclosure of Invention

The invention aims to provide a big data processing method based on cloud service linkage and an intelligent digital AI system.

In a first aspect, an embodiment of the present invention provides a big data processing method based on cloud service linkage, including:

responding to the cloud service execution request, and carrying out user identity assessment on the cloud service execution request;

after the evaluation result of the user identity evaluation is characterized as that the evaluation is passed, selecting a current service server from the server cluster, wherein the current service server is associated with a cloud service corresponding to the cloud service execution request;

acquiring a service parameter cloud service linkage instruction, determining a linkage service data set between a current service server and an auxiliary service server, and determining an auxiliary service server which needs to be in service linkage with the current service server by the service parameter cloud service linkage instruction;

and executing the cloud service based on the linkage service data set, and feeding back an execution result corresponding to the cloud service to the target interface.

In a second aspect, an embodiment of the present invention provides an intelligent digitized AI system, including a server configured to execute the method provided in the first aspect.

Compared with the prior art, the invention has the beneficial effects that: by adopting the big data processing method and the intelligent digital AI system based on cloud service linkage, disclosed by the invention, user identity evaluation is carried out on a cloud service execution request by responding to the cloud service execution request; then, after the evaluation result of the user identity evaluation is characterized as passing the evaluation, selecting a current service server from the server cluster; acquiring a service parameter cloud service linkage instruction, and determining a linkage service data set between a current service server and an auxiliary service server; and finally, executing the cloud service based on the linkage service data set, and feeding back an execution result corresponding to the cloud service to the target interface.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described. It is appreciated that the following drawings depict only certain embodiments of the invention and are therefore not to be considered limiting of its scope. Other relevant drawings may be made by those of ordinary skill in the art without undue burden from these drawings.

Fig. 1 is a schematic step flow diagram of a big data processing method based on cloud service linkage according to an embodiment of the present invention;

fig. 2 is a schematic diagram of a server structure according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more clear, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

The following describes specific embodiments of the present invention in detail with reference to the drawings.

In order to solve the technical problems in the foregoing background technology, fig. 1 is a schematic flow chart of a big data processing method based on cloud service linkage according to an embodiment of the present disclosure, and the big data processing method based on cloud service linkage is described in detail below.

Step S101, responding to a cloud service execution request, and carrying out user identity assessment on the cloud service execution request;

step S102, after the evaluation result of user identity evaluation is characterized as that the evaluation is passed, selecting a current service server from a server cluster, wherein the current service server is associated with a cloud service corresponding to a cloud service execution request;

step S103, acquiring a service parameter cloud service linkage instruction, determining a linkage service data set between a current service server and an auxiliary service server, and determining an auxiliary service server which needs to be in service linkage with the current service server by the service parameter cloud service linkage instruction;

step S104, executing cloud service based on the linkage service data set, and feeding back an execution result corresponding to the cloud service to the target interface.

In the embodiment of the invention, the cloud service can be various services performed on the cloud by a user, for example, the cloud service is used for game login, operation, transaction and the like performed on a cloud game scene, or data storage, update and the like performed on a cloud data storage scene, or online transaction, asset change and the like performed on a cloud financial scene. The user can trigger the required cloud service through logging in the corresponding interface. After the cloud service is triggered by the user, a cloud service execution request is generated, and user identity evaluation can be performed on the user who initiates the cloud service request, wherein the evaluation mode can be in a verification code mode or can be identified through biological characteristics, and the method is not limited. After the cloud service is evaluated to be the user himself, that is, the evaluation result is characterized as that the evaluation is passed, the current server can be selected from the server cluster corresponding to the cloud service as the server mainly processing the cloud service. It should be understood that in the embodiment of the present invention, the cloud service does not have a fixed server as a processing server, and in the process of performing the cloud service, a user may need different servers to provide corresponding data, and a linkage service data set between the current service server and the auxiliary service server may be determined based on the service parameter cloud service linkage indication, and finally, execution of the cloud service is implemented according to the linkage service data set and fed back to a target interface, for example, a user terminal. By the design, the linkage efficiency of cloud service can be improved, the waiting time of users is reduced, and individual perception of the users is optimized.

In order to more clearly describe the solution provided by the embodiment of the present invention, the foregoing step S103 may be implemented by the following detailed implementation manner.

Step S201, acquiring a service parameter cloud service linkage indication.

The service parameter cloud service linkage indication determines an auxiliary service server which needs to be in service linkage with the current service server.

For example, the service parameter request can be directly acquired, for example, a user triggers to acquire an auxiliary service server which performs service linkage with the current service server through service requirements, so as to trigger to generate a service parameter cloud service linkage indication, the service parameter cloud service linkage indication can carry information of the auxiliary service server, the service parameter cloud service linkage indication is sent to the service parameter processing device, and the service parameter processing can directly receive the service parameter cloud service linkage indication. When the number of auxiliary service servers which need to be in service linkage with the current service server is large, service parameter cloud service linkage indication can be indirectly obtained, for example, a user triggers to obtain information of a plurality of auxiliary service servers which need to be in service linkage with the current service server through service operation, auxiliary service server cluster information is generated, the auxiliary service server cluster information is stored in an external safety server to obtain a storage position of the auxiliary service server cluster information, service parameter cloud service linkage indication is generated, the storage position is added to the service parameter cloud service linkage indication, the service parameter cloud service linkage indication added with the storage position is sent to a service parameter processing device, and after the service parameter processing device receives the service parameter cloud service linkage indication, the storage position is extracted, and the auxiliary service server cluster information is obtained in the external safety server according to the extracted storage position.

The auxiliary service server can also receive the service parameter cloud service linkage indication. The specific receiving mode is the same as the receiving mode of the current service server equipment.

Step S202, according to the service parameter cloud service linkage indication, a first service data isolation area is set in a current service server, and an auxiliary service server is enabled to set a second service data isolation area in the current service server of the auxiliary service server.

The first service data isolation area and the second service data isolation area belong to independent storage areas, and the independent storage areas can be independently operated service data isolation areas in a safe mode and can be independent functions on a CPU. The function provides a secure service data isolation area by executing code and data and ensures their high security and data validity status. The independent storage area is protected by hardware devices. Other applications or processes in the device cannot directly access the independent storage area.

For example, after receiving the service parameter cloud service linkage instruction, the current service server device sets an independent storage area process, where the independent storage area process is used to initialize a security mode in a hardware area of the current service server, and a service data isolation area in the security mode may be called a first service data isolation area. Correspondingly, after the auxiliary service server receives the service parameter cloud service linkage instruction, the auxiliary service server can also set an independent storage area process for initializing another security mode in the current service server hardware area of the auxiliary service server, and taking the service data isolation area in the security mode as a second service data isolation area.

Optionally, after the first service data isolation area and the second service data isolation area are set, a state analysis operation is further required to be performed on the linkage states of the first service data isolation area and the second service data isolation area, so as to verify whether the linkage states of the first service data isolation area and the second service data isolation area reach a preset verification condition, and a specific verification mode may be as follows:

and performing hash operation on the memory attribute of the first service data isolation region, transmitting the first information abstract obtained by the hash operation to an auxiliary service server, enabling the auxiliary service server to execute state analysis operation on the linkage state of the first service data isolation region according to the first information abstract, receiving a linkage state analysis result of the first service data isolation region and a second information abstract of the memory attribute of the second service data isolation region provided by the auxiliary service server, determining that the linkage state analysis result of the second service data isolation region is normal when the second information abstract is equal to the standard information abstract, and determining that the first service data isolation region and the second service data isolation region reach the set linkage state when the linkage state analysis result of the first service data isolation region and the second service data isolation region is normal.

For example, a bottom code composition of the first service data isolation area is obtained, hash operation is performed on the bottom code composition to obtain a first information abstract, the first information abstract is sent to the auxiliary service server, so that the auxiliary service server compares the first information abstract with the standard information abstract, if the standard information abstract is identical to the first information abstract, the auxiliary service server determines that the linkage state of the first service data isolation area is normal, and if the standard information abstract is not identical to the first information abstract, the auxiliary service server determines that the linkage state verification of the first service data isolation area is not passed. In the process of executing the state analysis operation on the first service data isolation area, the auxiliary service server can also perform hash operation on the bottom code composition of the second service data isolation area to obtain a second information abstract. The auxiliary service server sends the linkage state analysis result of the second information abstract and the first service data isolation region to the current service server, the current service server equipment compares the second information abstract with the standard information abstract, and when the second information abstract is equal to the standard information abstract, the linkage state analysis result of the second service data isolation region is determined to be normal. When the linkage state analysis results of the first service data isolation area and the passenger security service data isolation area are normal, determining that the linkage state of the first service data isolation area and the second service data isolation area reaches the set linkage state.

Step S203, when the linkage state of the first service data isolation area and the second service data isolation area reaches the set linkage state, the linkage channel and the linkage security token between the first service data isolation area and the second service data isolation area are communicated.

The linkage channel can be a channel for safely transmitting data and is used for connecting a first service data isolation area of the current service server and a second service data isolation area of the auxiliary service server.

For example, when the linkage state of the first service data isolation region and the second service data isolation region reaches the set linkage state, the first interaction port of the first service data isolation region and the second interaction port of the second service data isolation region are obtained, and the data transmission channel is communicated between the first interaction port and the second interaction port by using the preset secure transmission protocol, for example, the data transmission channel can be communicated based on the transmission layer linkage state protocol, and the data transmission channel can be used as the linkage channel between the first service data isolation region and the second service data isolation region. And linking the security token file with the auxiliary service server through the linking channel to generate a linked security token between the first service data isolation area and the second service data isolation area. For example, a key file is mutually transmitted in a linkage channel through a key mutual transmission protocol and an auxiliary service server, a storage security token between a first service data isolation area and a second service data isolation area is generated according to the mutually provided key file, encryption calculation of session extension is carried out on the storage security token, a single key security token required by symmetric encryption and a verification key security token for generating an authentication character string are obtained, and the storage security token, the single key security token and the verification key security token are used as the linkage security token and are stored in the first service data isolation area and the second service data isolation area.

The linked security token generated by the current service server of the current service server and the linked security token generated by the auxiliary service server may be identical.

And S204, carrying out service linkage with the auxiliary service server through the linkage channel and the linkage security token, and determining a linkage service data set between the current service server and the auxiliary service server based on service data of service parameter linkage.

For example, the basic parameters of the service parameters held by the auxiliary service server may be mutually transmitted through the linkage channel, the basic parameters include the associated service number of the service parameters, the associated service number of the service parameters of the auxiliary service server and the associated service number of the first service parameter of the current service server are compared to determine the category of the auxiliary service server, the linkage service data set is performed with the auxiliary service server by using the preset linkage rule corresponding to the category of the auxiliary service server according to the linkage channel, the first service data isolation area and the linkage security token, and the linkage service data set between the current service server and the auxiliary service server is determined based on the service data linked by the service parameters, which may be specifically as follows:

Q1, mutually transmitting the basic parameters of the service parameters held by the auxiliary service server through the linkage channel.

The basic parameters include the associated service number of the first service parameter of the current service server and the associated service number of the second service parameter of the auxiliary service server, for example, the basic parameters may be data information such as data sizes in the first service parameter data set and the second service parameter data set.

For example, the basic parameters of the first service parameters of the current service server are obtained, the first service parameters are sent to the auxiliary service server, and the basic parameters of the second service parameters provided by the auxiliary service server are received, so that the current service server and the auxiliary service server of the current service server interact the basic parameters of the service parameters respectively held.

Q2, performing comparison operation on the associated service number of the second service parameter and the associated service number of the first service parameter to determine the category of the auxiliary service server.

For example, a service distinction degree between the number of associated services of the second service parameter and the number of associated services of the first service parameter may be determined, a comparison operation may be performed between the service distinction degree and a lower limit of the distinction degree, and when the service distinction degree is lower than the lower limit of the distinction degree, the class of the auxiliary service server may be determined as a primary auxiliary service server, and when the service distinction degree is higher than the lower limit of the distinction degree, the class of the auxiliary service server may be determined as a secondary auxiliary service server.

The primary auxiliary service server may be understood as an auxiliary service server in the same order of magnitude as the service parameters of the current service server device, and the secondary auxiliary service server may be understood as an auxiliary service server in a different order of magnitude as the service parameters of the current service server device.

And Q3, carrying out service linkage with the auxiliary service server by utilizing a preset linkage rule corresponding to the auxiliary service server type according to the linkage channel, the first service data isolation area and the linkage security token, and determining a linkage service data set between the current service server and the auxiliary service server based on service data of service parameter linkage.

For example, a target auxiliary service server for performing service linkage with a current service server may be extracted from the auxiliary service server according to a category of the auxiliary service server, a preset linkage rule of the target auxiliary service server is determined, a first service parameter and a second service parameter of the target auxiliary service server are performed service linkage through a linkage channel and a first service data isolation area according to the preset linkage rule and a linkage security token, and a linkage service data set between the current service server and the auxiliary service server is determined based on service data of the service parameter linkage, which may be specifically as follows:

And C1, extracting a target auxiliary service server for carrying out service linkage with the current service server from the auxiliary service servers according to the categories of the auxiliary service servers, and determining preset linkage rules of the target auxiliary service server.

For example, when the auxiliary service server is a primary auxiliary service server, the primary auxiliary service server is used as a target auxiliary service server for service linkage with the current service server, and a preset linkage rule of the target auxiliary service server is determined to be peer linkage. When the auxiliary service server is a secondary auxiliary service server, a set number of secondary auxiliary service servers are extracted from the secondary auxiliary service servers as target auxiliary service servers, for example, when only one order of secondary auxiliary service servers exist in the auxiliary service servers which are in service linkage with the current service server, the set number can be 1, when a plurality of orders of secondary auxiliary service servers exist in the auxiliary service servers which are in service linkage with the current service server, the set number can be a number corresponding to the orders of the orders, the set number of secondary auxiliary service servers are extracted from the secondary auxiliary service servers as target auxiliary service servers, and a preset linkage rule of the target auxiliary service servers is determined to be primary and secondary linkage. When the auxiliary service server comprises a primary auxiliary service server and a secondary auxiliary service server, a set number of secondary auxiliary service servers are extracted from the secondary auxiliary service servers, the set number of secondary auxiliary service servers and all primary auxiliary service servers are used as target auxiliary service servers, and a preset linkage rule of the target auxiliary service servers is determined to be comprehensive linkage.

The comprehensive linkage can be that the same-level linkage is performed with the first-level auxiliary service server, and the primary and secondary linkage is performed with the second-level auxiliary service server after the execution of the same-level linkage is finished.

And C2, carrying out service linkage on the first service parameter and the second service parameter of the target auxiliary service server through a linkage channel and the first service data isolation area according to a preset linkage rule and a linkage security token, and determining a linkage service data set between the current service server and the auxiliary service server based on service data of the service parameter linkage.

For example, when the preset linkage rule is peer linkage, the first service parameters with the same proportion are in service linkage with the second service parameters of the primary auxiliary service server through the linkage channel and the linkage safety token, and the linkage parameters between the first service parameters and the second service parameters of the primary auxiliary service server are determined in the first service data isolation area, so as to obtain a linkage service data set between the current service server and the auxiliary service server, when the preset linkage rule is primary linkage, the to-be-processed service parameters provided by the secondary auxiliary service server are received, and according to the to-be-processed service parameters, a linkage service data set between the current service server and the auxiliary service server is determined, when the preset linkage rule is comprehensive linkage, the first service parameters with the same proportion are in service linkage with the second service parameters of the primary auxiliary service server, and the linkage parameters between the first service parameters and the second service parameters of the primary auxiliary service server are determined in the first service data isolation area, so as to obtain the to-be-determined service data set provided by the secondary auxiliary service server, and the to-be-determined service data set is provided according to the to-be-processed service parameters provided by the secondary auxiliary service server. The method can be concretely as follows:

(1) When the preset linkage rule is peer linkage, the first service parameters with the same proportion are in service linkage with the second service parameters of the primary auxiliary service server through the linkage channel and the linkage security token, and the linkage parameters between the first service parameters and the second service parameters of the primary auxiliary service server are determined in the first service data isolation area, so that a linkage service data set between the current service server and the auxiliary service server is obtained.

For example, when the preset linkage rule is peer linkage, a preset duty ratio number of service parameters can be extracted from the first service parameters to serve as target first service parameters, the target first service parameters are sent to the primary auxiliary service server through the linkage channel and the linkage security token, target second service parameters provided by the primary auxiliary service server are received, the linkage parameters of the undetermined first service parameters and the target second service parameters which are not transmitted to the primary auxiliary service server are determined in the first service data isolation area, a first undetermined linkage data set is obtained, the first undetermined linkage data set is sent to the primary auxiliary service server, a second undetermined linkage data set provided by the primary auxiliary service server is received, and the first undetermined linkage data set and the second undetermined linkage data set are integrated to obtain a linkage service data set between the current service server and the auxiliary service server. The method can be concretely as follows:

B1, extracting service parameters with preset duty ratio from the first service parameters as target first service parameters, and sending the target first service parameters to the primary auxiliary service server through the linkage channel and the linkage security token.

For example, when the preset linkage rule is peer linkage, the preset duty ratio number of the current service server and the primary auxiliary service server for service linkage and the node number of the storage nodes for maintaining the service parameters are determined according to the basic parameters of the primary auxiliary service server, for example, the preset duty ratio number of the current service server and the primary auxiliary service server for service linkage can be determined according to the number of the primary auxiliary service servers, the number of the primary auxiliary service servers is k by way of example, and the current service server equipment interacted with the primary auxiliary service server is additionally arranged, so that the preset duty ratio number can be determined to be 1/(k+1) in order to ensure that the preset duty ratio number interacted between each auxiliary service server is equal. And determining the node number of the storage nodes for maintaining the service parameters according to the maximum storage space of the first service data isolation area and the second service data isolation area and the service association service number for service parameter linkage, wherein the storage space of the first service data isolation area and the second service data isolation area is 256M, each storage node can store 20M at most, the maximum data in the service association service number for user service parameter linkage is 400M, and the preset duty ratio number is 1/5 as an example, the association service number of the service data for service parameter linkage in the first service data isolation area and the second service data isolation area can be 80M at most, so that the node number of the storage nodes can be determined to be 4, and the node number can be stored in the current service server area outside the independent storage area. The method comprises the steps of setting first storage nodes corresponding to the number of nodes in a current service server area outside a first service data isolation area, conducting encryption operation on first service parameters by using a storage security token, dividing the service parameters of the current service server after the encryption operation into sub-service parameters corresponding to the number of nodes, determining node identifiers of each sub-service parameter stored in the first storage nodes, and placing the sub-service parameters in the first storage nodes corresponding to the node identifiers. For example, the encryption calculation is performed on the stored security token to obtain an encryption characteristic value, the encryption characteristic value is effective in the current service linkage, the encryption characteristic value is output to a current service server area outside the first service data isolation area and is stored as a salt value file, the encryption calculation is performed on the first service parameter of the current service server according to the encryption characteristic value in the salt value file, the encryption calculation algorithm can be a hash algorithm, the data division is performed on the operation result to place the converted first service parameter in a storage node, the MD5 algorithm can be used for converting the hash operation result into an integer value in a fixed range, the modulus can be the number of nodes, the first service parameter can be divided into sub service parameters corresponding to the number of nodes to obtain the node identifier of each sub service parameter, and then the sub service parameters are placed in the first storage node corresponding to the node identifier.

For example, taking the preset duty ratio number as 1/2 as an example, since the number of storage nodes in the current service server device and the auxiliary service server is equal, a singular division manner may be utilized, and an exemplary manner may be that the current service server extracts a first service parameter in a first storage node with a preset numerical label from the first service parameter as a target first service parameter, and then the corresponding target second service parameter extracted by the auxiliary service server may be that a second service parameter in a second storage node with an even number is taken as a target second service parameter. The target first service parameters are placed in a first service data isolation area, the target first service parameters in the storage node are encrypted one by utilizing a single key security token in the first service data isolation area, and a plurality of encryption algorithms can be adopted. And determining an authentication character string for the target first service parameter by using the authentication key security token, attaching the authentication character string to the head of the ciphertext of the target first service parameter to obtain the converted target first service parameter, sending the converted target first service parameter to the primary auxiliary service server through the linkage channel, and utilizing various transmission modes through the mode provided by the linkage channel.

And B2, receiving a target second service parameter provided by the primary auxiliary service server, and determining a linkage parameter of the undetermined first service parameter and the target second service parameter which are not transmitted to the primary auxiliary service server in the first service data isolation area to obtain a first undetermined linkage data set.

For example, receiving a target second service parameter provided by the primary auxiliary service server, in the first service data isolation area, performing a state analysis operation on a data valid state of the target second service parameter by using the verification key security token, wherein verification of the data valid state is mainly used for verifying whether the target second service parameter is complete, the verification method can determine an authentication character string by using the verification key security token, compare the authentication character string with a character string at the beginning of the target second service parameter, if the authentication character string is the same with the character string at the beginning of the target second service parameter, it can be determined that the data valid state of the target second service parameter passes verification, otherwise, it is determined that the data valid state of the target second service parameter does not pass verification, and at the moment, the target second service parameter is deleted. When the data valid state of the target second service parameter passes verification, a single-key security token is utilized to perform reverse conversion operation on the target second service parameter, then linkage parameters between the target second service parameter after the reverse conversion and the undetermined first service parameter which is not transmitted to the primary auxiliary service server are determined, a first undetermined linkage data set is obtained, for example, the target first service parameter in a storage node corresponding to a preset numerical value label is transmitted to the auxiliary service server, the undetermined first service parameter in the storage node corresponding to the preset numerical value label which is not transmitted to the auxiliary service server is stored in the first service data isolation area, and comparison operation is performed on the undetermined first service parameter and the target second service parameter, and the equivalent service parameter is used as the first undetermined linkage data set.

And B3, transmitting the first pending linkage data set to the primary auxiliary service server, and receiving a second pending linkage data set provided by the primary auxiliary service server.

The second pending linkage data set may be a linkage parameter between a pending second service parameter determined by the primary auxiliary service server and not transmitted to the current service server and the target first service parameter.

For example, when the current service server device sends the target second service parameter to the primary auxiliary service server, the primary auxiliary service server determines a linkage parameter between the undetermined second service parameter and the target first service parameter which are not transmitted to the current service server by using a determination mode equivalent to that of the current service server device, so as to obtain a second undetermined linkage data set. The primary auxiliary service server and the current service server device interact the respectively determined undetermined linkage data set through the linkage channel.

And B4, executing integration operation on the first pending linkage data set and the second pending linkage data set to obtain a linkage service data set between the current service server and the auxiliary service server.

For example, the first pending linkage data set and the second pending linkage data set are combined, for example, the first pending linkage data set and the second pending linkage data set are compared, if no equivalent service parameter exists in the first pending linkage data set and the second pending linkage data set, the service parameters in the two pending linkage data sets are directly combined into a new linkage data set, so as to obtain a linkage service data set between the current service server and the auxiliary service server, and if equivalent service parameters exist in the first pending linkage data set and the second pending linkage data set, the equivalent service parameters are calculated as one service parameter, and then the service parameters are combined with other non-equivalent service parameters, so as to obtain the linkage service data set between the current service server and the auxiliary service server.

(2) And when the preset linkage rule is primary and secondary linkage, receiving the service parameters to be processed provided by the secondary auxiliary service server, and determining a linkage service data set between the current service server and the auxiliary service server according to the service parameters to be processed.

For example, when the preset linkage rule is primary and secondary linkage, the number of the associated services of the first service parameter and the number of the associated services of the second service parameter of the secondary auxiliary service server are required to be compared, when the number of the associated services of the first service parameter is higher than the number of the associated services of the second service parameter of the secondary auxiliary service server, the first service parameter to be processed provided by the secondary auxiliary service server is received, the linkage parameter between the first service parameter and the first service parameter to be processed is determined in the first service data isolation area according to the linkage security token, so that a linkage service data set between the current service server and the auxiliary service server is obtained, when the number of the associated services of the first service parameter is lower than the number of the associated services of the second service parameter of the secondary auxiliary service server, the first service parameter is transmitted to the secondary auxiliary service server after being converted according to the linkage security token, the second service parameter to be processed provided by the secondary auxiliary service server is received, and the second service parameter to be processed as the service data set between the current service server and the auxiliary service server. The method can be concretely as follows:

A1, when the number of the associated services of the first service parameters is higher than the number of the associated services of the second service parameters of the second auxiliary service server, receiving the first service parameters to be processed provided by the second auxiliary service server, and determining linkage parameters between the first service parameters and the first service parameters to be processed in a first service data isolation area according to the linkage security token so as to obtain a linkage service data set between the current service server and the auxiliary service server.

The first service parameter may be a second service parameter converted by the secondary auxiliary service server.

For example, when the number of associated services of the first service parameter is higher than the number of associated services of the second service parameter of the second auxiliary service server, the first service parameter to be processed provided by the auxiliary service server is received, a state analysis operation is performed on the data valid state of the first service parameter to be processed by using the verification key security token in the first service data isolation area, the verification method can determine an authentication character string by using the verification key security token, the authentication character string is compared with the character string at the beginning of the first service parameter to be processed, if the comparison is the same, the data valid state of the first service parameter to be processed can be determined to pass the verification, otherwise, the data valid state of the first service parameter to be processed is determined to not pass the verification, and at the moment, the first service parameter to be processed is deleted. And when the data effective state of the first service parameter to be processed passes the verification, performing reverse conversion operation on the first service parameter to be processed by using the single-key security token in the first service data isolation area, and determining linkage parameters between the first service parameter to be processed after the reverse conversion and the first service parameter in the first service data isolation area to obtain a target linkage service data set. And taking the target linkage service data set as the linkage service data set between the current service server and the auxiliary service server.

A2, when the number of the associated services of the first service parameters is lower than the number of the associated services of the second service parameters of the second auxiliary service server, sending the converted first service parameters to the second auxiliary service server according to the linkage security token, receiving the second service parameters to be processed provided by the second auxiliary service server, and taking the second service parameters to be processed as a linkage service data set between the current service server and the auxiliary service server.

For example, when the number of associated services of the first service parameter is lower than the number of associated services of the second service parameter of the second auxiliary service server, the first service parameter may be subjected to encryption operation by using the storage security token, and the encrypted first service parameter may be placed in a storage node, for example, the storage security token may be subjected to encryption calculation to obtain an encryption feature value, the encryption feature value is valid in the current service linkage, the encryption feature value is output to a current service server area outside the first service data isolation area, and is stored as a salt value file, the encryption feature value in the salt value file is used to perform encryption calculation with salt on the first service parameter of the current service server, an algorithm of the encryption calculation may be a hash algorithm, and data division is performed on an operation result to place the converted first service parameter in the storage node, for example, the result of the encryption calculation may be converted into an integer value by using the MD5 algorithm, and modulus may be the number of nodes, so that the first service parameter may be divided into sub-service parameters corresponding to the number of nodes, and then each sub-service parameter identifier is placed in the storage node. The first storage node is placed in the first service data isolation area, the first service parameters in the storage node are encrypted one by utilizing the single-key security token in the first service data isolation area, and the encryption algorithm can be multiple. Determining an authentication character string for the first service parameter by using the authentication key security token, attaching the authentication character string to the head of the ciphertext of the first service parameter to obtain a converted first service parameter, transmitting the converted first service parameter to a secondary auxiliary service server through a linkage channel, the second-level auxiliary service server determines the first service parameter after conversion and a second linkage service data set held by the second-level auxiliary service server to obtain a second service parameter to be processed, receives the second service parameter to be processed provided by the second-level auxiliary service server, and takes the second service parameter to be processed as the linkage service data set between the current service server and the auxiliary service server.

(3) When the preset linkage rule is integrated linkage, carrying out service linkage on the first service parameters with the same duty ratio and the second service parameters of the primary auxiliary service server, determining the linkage parameters between the first service parameters and the second service parameters of the primary auxiliary service server in the first service data isolation area to obtain a pending linkage data set, receiving the second service parameters provided by the secondary auxiliary service server, and determining the linkage service data set between the current service server and the auxiliary service server according to the pending linkage data set and the second service parameters provided by the secondary auxiliary service server.

For example, a current first service parameter for service linkage is extracted from the first service parameters, a linkage security token is used for performing a conversion operation on the current first service parameter, for example, a storage security token is used for performing encryption operation on the first service parameter, the encrypted first service parameter is placed in a first storage node, a first service parameter corresponding to a preset duty ratio number is extracted from the first storage node as the current first service parameter, the current first service parameter is placed in a first service data isolation area, and a single-key security token and a verification key security token are used for performing the conversion operation on the current first service parameter in the first service data isolation area. The method comprises the steps of sending converted current first service parameters to a primary auxiliary service server through a linkage channel, receiving current second service parameters provided by the primary auxiliary service server, determining linkage parameters of the current second service parameters and the service parameters except for the service parameters to be processed in a first service data isolation area, so as to obtain a to-be-determined linkage data set between the first service parameters and the second service parameters of the primary auxiliary service server, for example, sending the converted current first service parameters to the primary auxiliary service server, receiving the current second service parameters provided by the primary auxiliary service server, executing state analysis operation on the data valid state of the current second service parameters by using a verification key security token in the first service data isolation area, determining an authentication character string by using the verification key security token, comparing the authentication character string with the character string at the beginning of the current second service parameters, and determining that the data valid state of the current second service parameters passes verification if the comparison is the same, otherwise, determining that the data valid state of the current second service parameters passes verification, and deleting the current second service parameters. When the data effective state of the current second service parameter passes verification, a single key security token is utilized to perform reverse conversion operation on the current second service parameter, linkage parameters of the current second service parameter after the reverse conversion and the service parameters except the service parameters to be processed in the first service data isolation area are determined, a first linkage data set to be processed is sent to a primary auxiliary service server, a second linkage data set to be processed provided by the primary auxiliary service server is received, and an integration operation is performed on the first linkage data set to be processed and the second linkage data set to be processed to obtain a linkage data set to be determined of the first service parameter of the current service server and the second service parameter of the primary auxiliary service server.

And performing comparison operation on the associated service number of the service parameters in the undetermined linkage data set and the total number of the second service parameters of the secondary auxiliary service server, wherein the preset linkage rule between the current service server and the auxiliary service server returns to primary and secondary linkage. When the number of associated services of the service parameters in the pending linkage data set is higher than the number of associated services of the second service parameters of the secondary auxiliary service server, receiving the current second service parameters provided by the secondary auxiliary service server, determining linkage parameters between the pending linkage data set and the current second service parameters, for example, receiving the current second service parameters provided by the secondary auxiliary service server, wherein the current second service parameters are obtained by encrypting the second service parameters held by the secondary auxiliary service server by using a storage security token, performing encryption operation on the second service parameters by using a second storage security token, storing the second service parameters in a second storage node, and continuously encrypting the second service parameters in the second service data isolation area by using a single-key security token and a verification key security token. The current service server of the current service server performs a state analysis operation on the data valid state of the current second service parameter in the first service data isolation area by using the verification key security token, the verification method can determine an authentication character string by using the verification key security token, compare the authentication character string with a character string at the beginning of the current second service parameter, if the comparison is the same, the data valid state of the current second service parameter can be determined to pass the verification, otherwise, the data valid state of the current second service parameter is determined to not pass the verification, and at the moment, the current second service parameter is deleted. When the data effective state of the current second service parameter passes verification, performing reverse conversion operation on the current second service parameter by utilizing a single-key security token in a first service data isolation area, determining linkage parameters between the current second service parameter after the reverse conversion and a pending linkage data set in the first service data isolation area to obtain a current linkage service data set, and taking the current linkage service data set as a linkage service data set between a current service server and an auxiliary service server.

When the number of associated services of the service parameters in the pending linkage data set is lower than the number of associated services of the second service parameters of the secondary auxiliary service server, the pending linkage data set is sent to the secondary auxiliary service server after being converted according to the linkage security token, for example, the pending linkage data set can be subjected to encryption operation by using the storage security token and placed in a first storage node, the first storage node is placed in a first service data isolation area, the pending linkage data set in the first storage node is subjected to conversion operation by using the verification key security token and the single key security token in the main security control, for example, the pending linkage data set can be directly subjected to conversion operation by using the single key security token, and the encryption conversion algorithm can be various and is not limited. Determining an authentication character string for the first service parameter by using a verification key security token, attaching the authentication character string to the head of a ciphertext of the pending linkage data set, executing conversion operation for the data valid state of the pending linkage data set, finally obtaining a converted pending linkage data set, sending the converted pending linkage data set to a secondary auxiliary service server, executing state analysis operation for the data valid state of the converted pending linkage data set by using the verification key security token in a second service data isolation area by using the secondary auxiliary service server, determining the authentication character string by using the verification key security token, comparing the authentication character string with the character string at the beginning of the converted pending linkage data set, if the comparison is the same, determining that the data valid state of the converted pending linkage data set passes the verification, otherwise determining that the data valid state of the converted pending linkage data set does not pass the verification, and deleting the converted pending linkage data set at the moment. When the data effective state of the converted undetermined linkage data set passes verification, performing reverse conversion operation on the converted undetermined linkage data set by utilizing a single-key security token in a second service data isolation area, determining linkage parameters of the undetermined linkage data set subjected to reverse conversion and second service parameters held by the undetermined linkage data set in the second service data isolation area, obtaining a service parameter data set subjected to interaction comparison aiming at the undetermined linkage data set, transmitting the service parameter data set to a current service server, and taking the service parameter data set as a linkage service data set between the current service server and an auxiliary service server by the current service server after receiving the service parameter data set provided by the second auxiliary service server aiming at interaction comparison of the undetermined linkage data set.

It should be noted that, if the auxiliary service server includes a plurality of levels or a plurality of orders of magnitude of associated service numbers of the second service parameters corresponding to each other, the initial data set obtained after the interactive comparison between the current service server and the first auxiliary service server is respectively compared with the second service parameters held by the second auxiliary service servers of different orders of magnitude, and the service parameter data set is obtained after interactive comparison between the pending linkage data set and the second service parameters held by all the second auxiliary service servers as the service parameter data set between the current service server and the auxiliary service servers. For the secondary auxiliary service servers, if the service distinction degree of the number of the related services between the secondary auxiliary service servers is lower than the preset service distinction degree, the same secondary auxiliary service servers can automatically utilize the same-level linkage to carry out interaction comparison, and the current service server only needs to carry out interaction comparison with any secondary auxiliary service server on the order of magnitude after the interaction comparison execution is finished. For example, after the current service server and the first-stage auxiliary service server are interactively compared, a pending linkage data set is obtained, the second-stage auxiliary service server comprises a first second-stage auxiliary service server, a second-stage auxiliary service server and a third second-stage auxiliary service server, wherein the service distinction degree between the number of related services of the first second-stage auxiliary service server and the second-stage auxiliary service server is lower than the preset service distinction degree, the first-stage auxiliary service server and the second-stage auxiliary service server can be considered to be a first-stage auxiliary service server relationship, therefore, when the pending linkage data set is in primary and secondary linkage between the three second-stage auxiliary service servers, one linkage service data set can be obtained for primary and secondary linkage between the first-stage auxiliary service server and the third-stage auxiliary service server, at the moment, the first-stage auxiliary service server and the second-stage auxiliary service server are interactively compared by using the same interaction to obtain another linkage service data set, and the two linkage service data sets are executed to integrate operation, so that the linkage data set between the current service server and the auxiliary service server can be obtained.

Optionally, for the case that a plurality of auxiliary service servers exist, the interactive comparison operation can be further performed by using the current service server and any one of the auxiliary service servers to obtain a linkage parameter between a first service parameter of the current service server and a second service parameter of one of the auxiliary service servers, then, the interactive comparison operation is performed again on another linkage parameter obtained after the interactive comparison operation is continued between the current service server and each of the two auxiliary service servers, and the like, until the interactive comparison of the second service parameters of all the auxiliary service servers is completed, the linkage parameter of the service parameter between the current service server and the auxiliary service server can be obtained, for example, the service parameter processing system can include a first service parameter stored with the current service server and a second service parameter held by the auxiliary service servers, and is described by taking the existence of 3 auxiliary service servers as an example, the first service parameter of the current service server and the second service parameter of one of the auxiliary service servers are subjected to interactive comparison determination, so as to obtain a first initial service data set, and the interactive comparison of the second service parameters of all the auxiliary service servers is performed, so as to obtain the initial linkage parameter of the service data set, and the first service parameter of the second service parameter is obtained, and the initial linkage parameter of the second service parameter is obtained.

As can be seen from the above, after the service parameter cloud service linkage indication is obtained, the embodiment of the invention determines that the auxiliary service server needs to perform service linkage with the current service server, sets a first service data isolation region at the current service server according to the service parameter cloud service linkage indication, and enables the auxiliary service server to set a second service data isolation region at the current service server of the auxiliary service server, when the linkage state of the first service data isolation region and the second service data isolation region reaches the preset verification condition, the linkage channel and the linkage security token between the first service data isolation region and the second service data isolation region are linked, service linkage is performed with the auxiliary service server through the linkage channel and the linkage security token, and the linkage service data set between the current service server and the client is determined based on the service data of the service parameter linkage; according to the scheme, independent storage areas are respectively arranged in the current service server and the auxiliary service server, the linkage channel and the linkage security token between the first service data isolation area and the second service data isolation area are communicated, the service parameters are directly processed in the independent storage areas through the linkage channel and the linkage security token, the service parameters are not required to be processed through a third-party server, and the linkage state and the processing speed of the service parameter processing can be greatly improved.

The embodiment of the invention provides a server 100, wherein the server 100 comprises a processor and a nonvolatile memory storing computer instructions, and when the computer instructions are executed by the processor, the server 100 executes the big data processing method based on cloud service linkage. As shown in fig. 2, fig. 2 is a block diagram of a server 100 according to an embodiment of the present invention. The server 100 includes a memory 111, a processor 112, and a communication unit 113. For data transmission or interaction, the memory 111, the processor 112 and the communication unit 113 are electrically connected to each other directly or indirectly.

The foregoing description, for purpose of explanation, has been presented with reference to particular embodiments. However, the illustrative discussions above are not intended to be exhaustive or to limit the disclosure to the precise forms disclosed. Many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the disclosure and its practical application, to thereby enable others skilled in the art to best utilize the disclosure and various embodiments with various modifications as are suited to the particular use contemplated. The foregoing description, for purpose of explanation, has been presented with reference to particular embodiments. However, the illustrative discussions above are not intended to be exhaustive or to limit the disclosure to the precise forms disclosed. Many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the disclosure and its practical application, to thereby enable others skilled in the art to best utilize the disclosure and various embodiments with various modifications as are suited to the particular use contemplated.

Claims (10)

1. The big data processing method based on cloud service linkage is characterized by comprising the following steps:

responding to a cloud service execution request, and carrying out user identity assessment on the cloud service execution request;

after the evaluation result of the user identity evaluation is characterized as that the evaluation is passed, selecting a current service server from a server cluster, wherein the current service server is associated with the cloud service corresponding to the cloud service execution request;

acquiring a service parameter cloud service linkage instruction, and determining a linkage service data set between a current service server and an auxiliary service server, wherein the service parameter cloud service linkage instruction determines the auxiliary service server which needs to be in service linkage with the current service server;

and executing the cloud service based on the linkage service data set, and feeding back an execution result corresponding to the cloud service to a target interface.

2. The method of claim 1, wherein the obtaining the service parameter cloud service linkage indication and determining the linkage service data set between the current service server and the auxiliary service server comprises:

acquiring a service parameter cloud service linkage indication;

according to the service parameter cloud service linkage indication, a first service data isolation area is set in a current service server, and the auxiliary service server sets a second service data isolation area in the current service server of the auxiliary service server, wherein the first service data isolation area and the second service data isolation area belong to independent storage areas, and the independent storage areas are service data isolation areas for realizing data isolation in a safety mode;

When the linkage state of the first service data isolation region and the second service data isolation region reaches a set linkage state, a linkage channel and a linkage security token between the first service data isolation region and the second service data isolation region are communicated;

and carrying out service linkage with the auxiliary service server through the linkage channel and the linkage security token, and determining a linkage service data set between the current service server and the auxiliary service server based on service data of service parameter linkage.

3. The method according to claim 2, wherein after setting independent storage areas in the current service server and the auxiliary service server according to the service parameter cloud service linkage indication, respectively, further comprises:

performing hash operation on the memory attribute of the first service data isolation region, and transmitting a first information abstract obtained by the hash operation to the auxiliary service server, so that the auxiliary service server performs state analysis operation on the linkage state of the first service data isolation region according to the first information abstract;

receiving a linkage state analysis result of the first service data isolation area and a second information abstract of the memory attribute of the second service data isolation area, which are provided by the auxiliary service server;

When the second information abstract is equal to the standard information abstract, determining that the linkage state analysis result of the second service data isolation area is normal;

and when the linkage state analysis results of the first service data isolation region and the second service data isolation region are normal, determining that the linkage state of the first service data isolation region and the second service data isolation region reaches the set linkage state.

4. The method of claim 2, wherein said performing service linkage with the auxiliary service server through the linkage path and the linkage security token and determining a linkage service data set between a current service server and the auxiliary service server based on service data of service parameter linkage comprises:

through the linkage channel, the basic parameters of the service parameters held by the auxiliary service server are mutually transmitted, wherein the basic parameters comprise the associated service number of the first service parameters of the current service server and the associated service number of the second service parameters of the auxiliary service server;

determining the service distinction degree of the associated service number of the second service parameter and the associated service number of the first service parameter of the current service server;

When the service distinction degree is lower than the distinction degree lower limit, determining the category of the auxiliary service server as a primary auxiliary service server;

when the service distinction degree is higher than the distinction degree lower limit, determining the category of the auxiliary service server as a secondary auxiliary service server;

and according to the linkage channel, the first service data isolation area and the linkage security token, carrying out service linkage with the auxiliary service server by utilizing a preset linkage rule corresponding to the auxiliary service server category, and determining a linkage service data set between the current service server and the auxiliary service server based on service data of service parameter linkage.

5. The method of claim 4, wherein the performing service linkage with the auxiliary service server according to the linkage path, the first service data isolation area, and the linkage security token using a preset linkage rule corresponding to the auxiliary service server class, and determining the linkage service data set between the current service server and the auxiliary service server based on the service data of the service parameter linkage, comprises:

when the auxiliary service server is a primary auxiliary service server, the primary auxiliary service server is used as a target auxiliary service server for carrying out service linkage with the current service server, and a preset linkage rule of the target auxiliary service server is determined to be in peer linkage;

When the auxiliary service server is a secondary auxiliary service server, extracting a set number of secondary auxiliary service servers from the secondary auxiliary service servers to serve as the target auxiliary service server, and determining a preset linkage rule of the target auxiliary service server as primary and secondary linkage;

when the auxiliary service server comprises the primary auxiliary service server and the secondary auxiliary service server, extracting a set number of secondary auxiliary service servers from the secondary auxiliary service servers, taking the set number of secondary auxiliary service servers and all primary auxiliary service servers as the target auxiliary service servers, determining that the preset linkage rule of the target auxiliary service servers is comprehensive linkage, wherein the comprehensive linkage is peer linkage with the primary auxiliary service server, and performing primary and secondary linkage with the secondary auxiliary service server after peer linkage execution is finished;

when the preset linkage rule is same-level linkage, extracting a service parameter with a preset proportion number from the first service parameters as a target first service parameter, and sending the target first service parameter to the primary auxiliary service server through the linkage channel and the linkage security token;

Receiving a target second service parameter provided by the primary auxiliary service server, and determining a linkage parameter of a first service parameter to be determined, which is not transmitted to the primary auxiliary service server, and the target second service parameter in the first service data isolation area to obtain a first linkage data set to be determined;

the first pending linkage data set is sent to the primary auxiliary service server, and a second pending linkage data set provided by the primary auxiliary service server is received, wherein the second pending linkage data set is a linkage parameter between a pending second service parameter which is determined by the primary auxiliary service server and is not transmitted to the current service server and the target first service parameter;

performing an integration operation on the first pending linkage data set and the second pending linkage data set to obtain a linkage service data set between a current service server and the auxiliary service server;

when the preset linkage rule is primary and secondary linkage, receiving to-be-processed service parameters provided by the secondary auxiliary service server, and determining a linkage service data set between a current service server and the auxiliary service server according to the to-be-processed service parameters;

And when the preset linkage rule is comprehensive linkage, carrying out service linkage on the first service parameters with the same proportion as the second service parameters of the primary auxiliary service server, determining linkage parameters between the first service parameters and the second service parameters of the primary auxiliary service server in the first service data isolation area, obtaining a pending linkage data set, receiving the second service parameters provided by the secondary auxiliary service server, and determining a linkage service data set between the current service server and the auxiliary service server according to the pending linkage data set and the second service parameters provided by the secondary auxiliary service server.

6. The method of claim 5, wherein the linkage security token comprises a storage security token, a single key security token, and a verification key security token, wherein the extracting a predetermined number of service parameters from the first service parameters as target first service parameters, and transmitting the target first service parameters to the primary auxiliary service server through the linkage path and the linkage security token, comprises:

Determining the preset duty ratio number of the current service server and the primary auxiliary service server for service linkage and the node number of the storage nodes for maintaining the service parameters according to the basic parameters of the primary auxiliary service server;

setting first storage nodes corresponding to the number of the nodes in a current service server area outside the first service data isolation area;

performing encryption calculation on the stored security token to obtain an encryption characteristic value, wherein the encryption characteristic value is effective in the current service linkage;

performing encryption operation on the first service parameter by utilizing the encryption characteristic value;

dividing the service parameters of the current service server after encryption operation into sub-service parameters corresponding to the number of the nodes, and determining the node identification of each sub-service parameter stored in the first storage node;

placing the sub-service parameters in a first storage node corresponding to the node identification;

extracting first service parameters corresponding to the preset duty ratio number from the first storage node as target first service parameters, and placing the target first service parameters in the first service data isolation area;

and in the first service data isolation area, performing conversion operation on the target first service parameters by using the single-key security token and the verification key security token, and sending the converted target first service parameters to the primary auxiliary service server through the linkage channel.

7. The method of claim 6, wherein determining linkage parameters of the pending first service parameters and the target second service parameters, which are not transmitted to the primary auxiliary service server, in the first service data isolation area, obtains a first pending linkage data set, comprising:

in the first service data isolation area, performing a state analysis operation on the data valid state of the target second service parameter by using the verification key security token;

when the data effective state of the target second service parameter is normal, performing reverse conversion operation on the target second service parameter by using the single-key security token;

and determining linkage parameters between the target second service parameters after the reverse conversion and the undetermined first service parameters which are not transmitted to the primary auxiliary service server, and obtaining a first undetermined linkage data set.

8. The method of claim 5, wherein the service parameters to be processed include a first service parameter to be processed and a second service parameter to be processed, wherein the receiving the service parameters to be processed provided by the secondary auxiliary service server, and determining the linkage service data set between the current service server and the auxiliary service server according to the service parameters to be processed, comprises:

When the number of the associated services of the first service parameter is higher than the number of the associated services of the second service parameter of the secondary auxiliary service server, receiving the first service parameter to be processed provided by the secondary auxiliary service server, wherein the linkage security token comprises a verification key security token and a single key security token;

executing state analysis operation on the data valid state of the first service parameter to be processed by using the verification key security token in the first service data isolation area;

when the data effective state of the first service parameter to be processed is normal, performing reverse conversion operation on the first service parameter to be processed by using the single-key security token in the first service data isolation area;

determining linkage parameters between a first to-be-processed service parameter after the reverse conversion and the first service parameter in the first service data isolation area to obtain a target linkage service data set, wherein the target linkage service data set is used as a linkage service data set between a current service server and the auxiliary service server, the first to-be-processed service parameter is a second service parameter after the conversion of the second auxiliary service server, and the linkage security token further comprises a storage security token;

When the associated service number of the first service parameter is lower than the associated service number of the second service parameter of the secondary auxiliary service server, carrying out encryption operation on the first service parameter by utilizing the storage security token, and placing the first service parameter after the encryption operation in a storage node;

placing the storage node in the first service data isolation area, and encrypting the first service parameters in the storage node by utilizing the single-key security token and the verification key security token to obtain converted first service parameters;

the converted first service parameters are sent to the secondary auxiliary service server, so that the secondary auxiliary service server determines linkage parameters of the converted first service parameters and second service parameters held by the secondary auxiliary service server, and the second service parameters to be processed are obtained;

and receiving the second service parameters to be processed provided by the secondary auxiliary service server, and taking the second service parameters to be processed as a linkage service data set between the current service server and the auxiliary service server, wherein the second service parameters to be processed are linkage parameters between the first service parameters determined by the secondary auxiliary service server and second service parameters held by the secondary auxiliary service server.

9. The method of claim 5, wherein the performing service linkage between the first service parameter and the second service parameter of the primary auxiliary service server with the same percentage is performed, determining a linkage parameter between the first service parameter and the second service parameter of the primary auxiliary service server in the first service data isolation area, obtaining a pending linkage data set, receiving the second service parameter provided by the secondary auxiliary service server, and determining a linkage service data set between a current service server and the auxiliary service server according to the pending linkage data set and the second service parameter provided by the secondary auxiliary service server, including:

extracting a current first service parameter for service linkage from the first service parameter, and executing conversion operation on the current first service parameter by utilizing the linkage security token;

transmitting the converted current first service parameters to the primary auxiliary service server through the linkage channel, and receiving current second service parameters provided by the primary auxiliary service server;

Determining linkage parameters of the current second service parameters and the service parameters except the service parameters to be processed in the first service data isolation area so as to obtain a pending linkage data set between the first service parameters and the second service parameters of the primary auxiliary service server;

when the number of associated services of the service parameters in the pending linkage data set is higher than the number of associated services of the second service parameters of the secondary auxiliary service server, receiving current second service parameters provided by the secondary auxiliary service server, determining linkage parameters between the pending linkage data set and the current second service parameters, obtaining a current linkage service data set, and taking the current linkage service data set as a linkage service data set between a current service server and the auxiliary service server;

when the number of associated services of the service parameters in the pending linkage data set is lower than the number of associated services of the second service parameters of the secondary auxiliary service server, according to the linkage security token, the pending linkage data set is transmitted to the secondary auxiliary service server after being converted, a service parameter data set provided by the secondary auxiliary service server after the interaction comparison of the pending linkage data set is received, and the service parameter data set is used as a linkage service data set between a current service server and the auxiliary service server.

10. An intelligent digitized AI system comprising a server for performing the method of any of claims 1-9.

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