CN113434603A - Data storage method, device and system based on credible account book database - Google Patents

Data storage method, device and system based on credible account book database Download PDF

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CN113434603A
CN113434603A CN202110831518.XA CN202110831518A CN113434603A CN 113434603 A CN113434603 A CN 113434603A CN 202110831518 A CN202110831518 A CN 202110831518A CN 113434603 A CN113434603 A CN 113434603A
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data
trusted
big data
data set
trusted storage
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孟硕
管亚阳
俞本权
关涛
张良模
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Ant Blockchain Technology Shanghai Co Ltd
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Alipay Hangzhou Information Technology Co Ltd
Ant Blockchain Technology Shanghai Co Ltd
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    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F16/00Information retrieval; Database structures therefor; File system structures therefor
    • G06F16/20Information retrieval; Database structures therefor; File system structures therefor of structured data, e.g. relational data
    • G06F16/27Replication, distribution or synchronisation of data between databases or within a distributed database system; Distributed database system architectures therefor
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F16/00Information retrieval; Database structures therefor; File system structures therefor
    • G06F16/20Information retrieval; Database structures therefor; File system structures therefor of structured data, e.g. relational data
    • G06F16/22Indexing; Data structures therefor; Storage structures
    • G06F16/2228Indexing structures
    • G06F16/2246Trees, e.g. B+trees
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F16/00Information retrieval; Database structures therefor; File system structures therefor
    • G06F16/20Information retrieval; Database structures therefor; File system structures therefor of structured data, e.g. relational data
    • G06F16/22Indexing; Data structures therefor; Storage structures
    • G06F16/2228Indexing structures
    • G06F16/2255Hash tables

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Abstract

The specification discloses a data storage method, device and system based on a trusted account book database. The method comprises the following steps: the big data client sends a target data set to a big data server, and sends a data record containing a hash value set corresponding to the target data set to a trusted storage end; under the appointed condition, the big data server side preprocesses the target data set, takes the preprocessed target data set as a data set to be analyzed, and sends a corresponding preprocessing process record to the trusted storage side; the pretreatment comprises the following steps: sequentially performing data extraction, data cleaning and data conversion; the big data server side executes big data analysis aiming at the data set to be analyzed and sends corresponding analysis process records to the trusted storage side; the trusted storage terminal maintains a trusted account book database; and the trusted storage end sequentially writes each record into the trusted account book database according to the sequence of the received records.

Description

Data storage method, device and system based on credible account book database
Technical Field
The embodiment of the specification relates to the field of data storage, in particular to a data storage method, device and system based on a trusted account book database.
Background
The big data analysis is mainly used for analyzing mass data according to the requirements of customers. In the process of big data analysis, problems of inaccurate customer data, data processing errors and the like may exist. For example, customer data is missing or redundant, customer data has erroneous data, or the analysis process of the data is performed erroneously, and so on.
The reasons for these problems may be errors by the client, errors by the server for big data analysis, errors during data transmission, etc.
However, since big data analysis is centralized, it is difficult for customers and big data analysis service providers to trust each other at a technical level, and thus it is difficult to determine responsible parties when the above problems occur.
Disclosure of Invention
In order to solve the technical problem, the present specification provides a data storage method, device and system based on a trusted account book database. The technical scheme is as follows.
A data storage method based on a credible account book database comprises the following steps:
the big data client sends a target data set to a big data server, and sends a data record containing a hash value set corresponding to the target data set to a trusted storage end;
under the appointed condition, the big data server side preprocesses the target data set, takes the preprocessed target data set as a data set to be analyzed, and sends a corresponding preprocessing process record to the trusted storage side; the pretreatment comprises the following steps: sequentially performing data extraction, data cleaning and data conversion;
the big data server side executes big data analysis aiming at the data set to be analyzed and sends corresponding analysis process records to the trusted storage side;
the trusted storage terminal maintains a trusted account book database; the trusted storage end sequentially writes each record into the trusted account book database according to the sequence of the received records; the trusted storage end provides the global hash corresponding to the time point to the big data client at each time point specified by a preset time plan; the global hash is a root hash of a merkel tree constructed based on all records in the ledger database at the time point.
A data storage system based on a credible account book database comprises a big data client, a big data server and a credible storage end;
the big data client is used for: sending a target data set to a big data server, and sending a data record containing a hash value set corresponding to the target data set to a trusted storage end;
the big data server is used for: under the appointed condition, preprocessing the target data set, taking the preprocessed target data set as a data set to be analyzed, and sending a corresponding preprocessing process record to the trusted storage end; the pretreatment comprises the following steps: sequentially performing data extraction, data cleaning and data conversion; executing big data analysis on the data set to be analyzed, and sending a corresponding analysis process record to the trusted storage terminal;
the trusted storage terminal maintains a trusted account book database;
the trusted storage is used for: writing each record into the credible account book database in sequence according to the sequence of the received records; the trusted storage end provides the global hash corresponding to the time point to the big data client at each time point specified by a preset time plan; the global hash is a root hash of a merkel tree constructed based on all records in the ledger database at the time point.
A data storage device based on a credible account book database is applied to a big data server; the device comprises:
a receiving unit: the system comprises a data processing module, a data processing module and a data processing module, wherein the data processing module is used for receiving a target data set sent by a big data client; wherein the big data client further sends data records containing a set of hash values corresponding to the target data set to a trusted storage;
a pretreatment unit: the system comprises a trusted storage end, a target data set and a target data set, wherein the trusted storage end is used for preprocessing the target data set under a specified condition, taking the preprocessed target data set as a data set to be analyzed and sending a corresponding preprocessing process record to the trusted storage end; the pretreatment comprises the following steps: sequentially performing data extraction, data cleaning and data conversion;
an analysis unit: the system comprises a trusted storage end and a data analysis module, wherein the trusted storage end is used for executing big data analysis on the data set to be analyzed and sending a corresponding analysis process record to the trusted storage end;
the trusted storage terminal maintains a trusted account book database; the trusted storage end sequentially writes each record into the trusted account book database according to the sequence of the received records; the trusted storage end provides the global hash corresponding to the time point to the big data client at each time point specified by a preset time plan; the global hash is a root hash of a merkel tree constructed based on all records in the ledger database at the time point.
Through the technical scheme, all the relevant information (including data records, preprocessing process records and analysis process records) of the whole process of big data analysis can be stored in the credible account book database, and the credible storage of the relevant information of the whole process of big data analysis is realized based on the credible account book database, so that each step in the big data analysis can be checked according to the credible stored relevant information of the whole process, thereby being convenient for determining a wrong responsible party when problems occur, and avoiding disputes.
Drawings
In order to more clearly illustrate the embodiments of the present specification or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the embodiments of the present specification, and other drawings can be obtained by those skilled in the art according to the drawings.
FIG. 1 is a schematic structural diagram of a global Mercker tree provided in an embodiment of the present disclosure;
fig. 2 is a schematic flowchart of a data storage method based on a trusted ledger database according to an embodiment of the present specification;
FIG. 3 is a schematic flow chart of a method for verifying an analysis result according to an embodiment of the present disclosure;
fig. 4 is a schematic structural diagram of a data storage system based on a trusted ledger database provided in an embodiment of the present specification;
fig. 5 is a schematic structural diagram of a data storage device based on a trusted ledger database according to an embodiment of the present specification;
fig. 6 is a schematic structural diagram of an apparatus for configuring a method according to an embodiment of the present disclosure.
Detailed Description
In order to make those skilled in the art better understand the technical solutions in the embodiments of the present specification, the technical solutions in the embodiments of the present specification will be described in detail below with reference to the drawings in the embodiments of the present specification, and it is obvious that the described embodiments are only a part of the embodiments of the present specification, and not all the embodiments. All other embodiments derived by one of ordinary skill in the art from the embodiments given herein are intended to fall within the scope of the disclosure.
The big data analysis is mainly used for analyzing mass data according to the requirements of customers. In the process of big data analysis, problems of inaccurate customer data, data processing errors and the like may exist. For example, customer data is missing or redundant, customer data has erroneous data, or the analysis process of the data is performed erroneously, and so on.
The reasons for these problems may be errors by the client, errors by the server for big data analysis, errors during data transmission, etc.
For example, when a client selects mass data requiring large data analysis, the selection is usually performed manually, so that selection errors are easy to occur; when a large data analysis service provider receives massive data, part of the data may be omitted due to negligence or program problems; the service provider of the big data analysis can also intentionally omit part of data subjectively, reduce the calculated amount and save the cost, and the big data analysis result is usually the result of the service level, so the problem is difficult to be found; in the process of transmitting mass data, there may be some problems such as unsuccessful transmission of data or transmission errors due to the limitation of the transmission technology.
After the above problems occur, since the big data analysis is centralized, it is difficult for the customer and the big data analysis service provider to trust each other at a technical level, so that it is difficult to determine the responsible party when the above problems occur.
For example, the actual error cause is that a problem occurs in the transmission process of mass data, and a client determines that there is no problem in the data sent by the client, and meanwhile, a service provider for analyzing the mass data also determines that the client does not tamper with the received data, thereby causing the two parties to perform meaningless mutual accountability.
In order to facilitate mutual trust in a technical level and facilitate timely determination of a wrong responsible party, the specification provides a data storage method based on a trusted ledger database.
The trusted storage means that the information is difficult to modify technically after the information is trusted stored, or the modification of the information is discovered certainly.
The method provides a trusted storage end, and the related information in the whole flow of the big data analysis can be stored in the trusted storage end, so that the client and the server for big data analysis can trust the stored related information in the whole flow of the big data analysis based on the difficulty in modification of the trusted storage end in the technical level, and further the determination of the wrong responsible party is facilitated. The related information in the big data analysis full flow can also be regarded as audit information aiming at the big data analysis full flow, so that the follow-up audit aiming at the big data analysis full flow is facilitated.
The following explains how data stored in a trusted storage is difficult to modify at a technical level.
The trusted storage side can maintain a trusted ledger database in which data which is stored by the trusted storage side in a trusted manner is stored. The trusted ledger database may be a centralized database. Therefore, the trusted account book database is used for trusted storage, and compared with other decentralized or distributed trusted storage schemes, the trusted account book database has the advantages of higher storage efficiency and lower storage cost.
The structure of the trusted account book database may be the same as that of a general database or the block chain structure. In an alternative embodiment, the trusted ledger in the trusted ledger database may be a block chain ledger. The description is not intended to be limiting. If the structure of the trusted account book database is the same as the block chain structure, it is difficult to modify the stored information, otherwise, modification and recalculation are required for each subsequent block.
The credibility of the credible ledger database can be reflected by the following 3 aspects.
1. Global mercker tree.
For each piece of information in the credible account book database, one leaf node of the global Merck tree corresponds to the leaf node.
In an alternative embodiment, for each piece of information in the trusted ledger database, a hash value of the information may be calculated as a leaf node, and added to the global merkel tree.
In the global merkel tree, new hash values may be calculated comprehensively for the hash values corresponding to the two child nodes (specifically, the hash values corresponding to the two child nodes may be added and then the sum hash value is calculated, or the hash values corresponding to the two child nodes are concatenated and then the hash value of the concatenation result is calculated) as parent nodes of the two child nodes. And obtaining the parent node through continuous calculation, and determining the hash value corresponding to the root node in the global Merckel tree.
In order to facilitate better understanding of the global merkel tree, fig. 1 is a schematic structural diagram of a global merkel tree provided in the present specification.
The method comprises two global Mercker tree structures, wherein in one structure, every two leaf nodes are grouped and a father node is calculated; and grouping the nodes obtained by calculation pairwise to calculate a father node. If a missing single child node exists in each two groups, the hash value corresponding to the child node can be copied to obtain two child node calculation father nodes. By continuously calculating the parent node, the hash value (i.e. root hash) corresponding to the root node can be finally determined.
In another structure, for each newly added leaf node, the leaf node and the current root node can be used together as two child nodes, a parent node is obtained through calculation, and the parent node obtained through calculation is used as the root node.
It is understood that, in an alternative embodiment, for each additional information in the trusted account book database, a corresponding hash value may be calculated to obtain a leaf node, and then an update root hash is calculated based on the above two groups, or an update root hash is calculated according to the leaf node and the current root node.
In an alternative embodiment, the root hash corresponding to the time point may be returned to the client at each time point scheduled at a preset time (i.e., periodically or aperiodically). Since the client retains the root hash of the history, the client has the ability to verify whether the trusted storage side modified the information, which can discover the modification to the information.
It should be noted that the global merkel tree may not be updated continuously, that is, the global merkel tree and the root hash may not be updated every time one piece of information is stored, but the global merkel tree and the root hash may be updated immediately according to all stored information when the root hash needs to be generated and returned to the client, so as to improve the utilization rate of the computing resources and reduce the time delay required for storage.
Through the global Merck tree, all information in the credible ledger database can be associated, if any information is subsequently modified, the whole global Merck tree is modified, the father node and the root hash are recalculated, and the difficulty of subsequently modifying the information is increased, so that the information stored in the credible ledger database is difficult to modify by a credible storage end, the credible storage of a technical level is realized, and the trust of a business level is not needed.
2. And (4) signing by multiple parties.
In an alternative embodiment, the information in the trusted ledger database may be digitally signed by the device sending the information, thereby preventing repudiation by the device and preventing subsequent modification of the information by the trusted storage. If the trusted storage terminal carries out subsequent modification on the information, the modified information cannot be matched with the digital signature, namely, the signature verification cannot pass.
In another alternative embodiment, for information in the trusted ledger database, in order to clarify the time when the information is stored in the trusted ledger database, and also in order to prevent the trusted storage side from communicating with the information sending side, a timestamp may be added to the information. In order to ensure the credibility of the timestamp, the information (or the unique identifier of the information, such as a hash value of the information) may be sent to the trusted time service mechanism by the trusted storage, digitally signed by the trusted time service structure for the received information and the current time point, and returned to the trusted storage. Obviously, the trusted time service will only sign based on the current point in time. If the trusted storage terminal and the information sender communicate badly and modify the stored information, the trusted time service mechanism cannot sign the information at the past time point and only signs the information based on the current time point, so that the subsequent modification of the information at different time points can be verified.
Because the trusted time service signature is carried out on each piece of information, the storage time delay is larger, and the subsequent modification usually occurs in a longer time after the information is stored, the trusted time service signature can be carried out on all the information stored in the time at intervals, so that the storage time delay is reduced; and the trusted time service signature can be carried out on the information every time a preset number of pieces of information are stored, so that the storage time delay is reduced.
In addition, in an optional embodiment, after the trusted storage side stores a certain piece of information, a signature of the trusted storage side for the information may be returned to the information sender, so as to determine that the trusted storage side has stored the information, and the trusted storage side is difficult to repudiate.
3. Public network account book.
In an alternative embodiment, the root hash of the history may be stored into the public network ledger for a global merkel tree. The public network account book can be acquired by any device in the public network, and the trusted storage end cannot determine which devices acquire the historical root hash in the public network account book, so that the trusted storage end is warned to not perform subsequent modification on the historical root hash based on the public property, and the credibility degree is improved.
Through the analysis of the trusted storage terminal, the trusted storage at the technical level can be realized without the trust at the service level. In the data storage method based on the trusted account book database provided in this specification, the customer data (or the hash value of the customer data) and all operation records included in the big data analysis may be stored in the trusted account book database of the trusted storage.
The following explains a data storage method based on a trusted account book database in detail with reference to the drawings.
Fig. 2 is a schematic flow chart of a data storage method based on a trusted account book database provided in this specification. The method relates to a big data client, a big data server and a trusted storage end. The trusted storage end can refer to the above explanation, the big data client is the device of the customer having the big data analysis requirement, and the big data server is the device of the service provider providing the big data analysis service.
The method may comprise at least the following steps.
S101: and the big data client sends the target data set to the big data server, and sends the data record containing the hash value set corresponding to the target data set to the trusted storage terminal.
In S101, the big data client sends data to the big data server and the trusted storage respectively, and the time sequence between the two operations is not limited, and may be executed in parallel or in a sequential order.
Wherein the target data set can be a data set which is needed by a client to perform big data analysis.
For a target data set sent by a big data client to a big data server, in an optional embodiment, in order to ensure data security, a public key of the big data server may be used to encrypt the target data set, so that only the big data server may decrypt and view the target data set.
In another alternative embodiment, to ensure that the big data client does not repudiate, the big data client may also send the big data client a digital signature for the target data set to the big data server. Specifically, all data in the target data set may be used as calculation objects, a hash operation is performed once to obtain a single hash value, and the hash value is encrypted by using a private key of the big data client to obtain a digital signature.
When trusted storage is performed based on a target data set, all the target data sets may be generally sent to a trusted storage end for trusted storage, where to prevent data leakage, the target data set may be encrypted, and specifically, may be encrypted by using a public key of a big data client, so that only the big data client may view the target data set in the trusted storage end.
But the storage cost of such an embodiment is too high, in an alternative embodiment a unique identification of the target data set may be stored, for example, a set of hash values for the target data set.
For the hash value set, the obtaining method may be to perform a hash operation once with all data in the target data set as calculation objects to obtain a hash value; or aiming at each piece of data in the target data set, taking the piece of data as a calculation object, and performing a hash operation to obtain a hash value corresponding to the piece of data.
In addition, in order to facilitate locating the modified data, based on the embodiment that the hash value set includes the hash value of each piece of data, the big data client may further send the correspondence between the hash value of each piece of data and the identifier of the piece of data to the trusted storage end for trusted storage. The identifier of the data may specifically be a primary key value or a unique label of the data, and the corresponding data may be uniquely determined in the target data set.
Obviously, if there is a problem with the hash value of a certain piece of data, the error data corresponding to the target data set can be determined from the corresponding data representation.
In order to further improve the credibility of the target data set of the big data client, in an alternative embodiment, the metadata of the target data set may also be sent to the trusted storage for trusted storage. In another optional embodiment, a timestamp may be further added to the metadata of the target data set, the hash value set, or the correspondence between the hash value of each piece of data and the identifier of the piece of data, so as to prevent the trusted storage from being modified in series with the big data client. Specific examples of the timestamp can be found in the signature of the trusted time service in the multi-party signature in the trusted ledger database.
S102: under the appointed condition, the big data server side preprocesses the target data set, the preprocessed target data set is used as a data set to be analyzed, and the corresponding preprocessing process record is sent to the trusted storage side.
Before preprocessing, in order to prevent a target data set which is actually needed to be subjected to big data analysis by a big data client from being different from the target data set received by a big data server (for example, a client sends error data manually or data is lost during transmission), verification can be performed on the target data set.
The specified condition may be a condition that characterizes the target data set as passing the verification.
In an alternative embodiment, based on the signature of the big data client for the target data set in S101, signature verification may be performed to verify whether the target data set is modified.
Specifically, the big data server executes a hash operation once with the received target data set as a calculation object to obtain a single hash value to be verified. And then, for the received digital signature, decrypting by using a public key of the big data client to obtain a standard hash value.
If the hash value to be checked is the same as the standard hash value, the target data set can be determined not to be modified, and even if the client considers that the data has errors, the problem can be located in the client instead of errors occurring in the transmission process or the data is modified by a large data server.
If the hash value to be checked is different from the standard hash value, it can be determined that the target data set is modified, and the big data client can be requested to send the correct target data set again.
Correspondingly, the specified situation may specifically be that the target data set is not modified.
In another alternative embodiment, since the unique identifier of the target data set is already stored in the trusted storage, the unique identifier can be used for verification.
Specifically, the big data server side acquires the data record written into the trusted storage side, and checks whether the hash value set contained in the data record is matched with the target data set.
Corresponding to the different obtaining methods of the hash value sets, the big data server side can perform the same hash value set obtaining method for the received target data set, determine the hash value set to be verified, and further verify whether the hash value set to be verified is the same as the hash value set contained in the data record.
If so, it may be determined that the target data set has not been modified and the subsequent steps may be performed; if not, it may be determined that the target data set has been modified and the big data client may be requested to send the correct target data set again.
Correspondingly, the specific case may be specifically that the hash value set contained in the data record matches the target data set.
In a given situation, the service provider of big data analysis needs to pre-process the customer's data before actually doing the big data analysis. The pre-processing may include: data extraction, data cleansing, and data conversion are performed in sequence.
Wherein, the data extraction can be extracting data related to big data analysis from customer data (target data set); the data cleaning can be to screen data with analysis value from customer data (target data set) so as to avoid the influence of error data or other data influencing analysis on the analysis result, for example, in the case of performing big data analysis on user data, an illegal user, a false user, etc. can be cleaned; the data conversion may be to convert a data structure of the client data (target data set) into a data structure required for big data analysis, for example, when big data analysis is performed on the user data, a field in the user data contains "username", and when big data analysis is performed, unified conversion into "username" is required, so as to facilitate subsequent big data analysis.
After preprocessing, a data set to be analyzed can be obtained.
In order to retain the complete full-flow related information, the records related to the preprocessing are required to be stored in the trusted storage end, and in an alternative embodiment, the records related to the preprocessing process may be sent to the trusted storage end for trusted storage, where the records related to the preprocessing process include each operation information executed in the preprocessing process.
When data verification is performed subsequently, each operation aiming at the target data set can be restored based on each operation information which is stored in the trusted storage terminal and is in the preprocessing process, and therefore verification aiming at the preprocessing process in the whole process is achieved.
Further, in another alternative embodiment, the pre-processing procedure record may include each operation information performed in the pre-processing procedure, and an intermediate operation result corresponding to each operation information.
Based on the intermediate operation results, each operation and the corresponding operation result in the preprocessing process can be checked step by step, and the operation with the problem can be positioned.
In order to save storage costs, in another alternative embodiment, the pre-processing procedure record may include each operation information performed in the pre-processing procedure, and a unique identification of the intermediate operation result corresponding to each operation information.
The unique identifier may specifically be a hash value of the intermediate operation result. In the subsequent data verification process, the intermediate operation result can be obtained from the big data server, and each operation and the corresponding operation result in the preprocessing process are gradually verified. Since the trusted storage end stores the hash value of the intermediate operation result, whether the intermediate operation result of the big data server is modified or not can be verified.
Also to save storage costs, in another alternative embodiment, the pre-processing procedure record may include each operation information performed in the pre-processing procedure, and an intermediate operation result of the partial operation information (or a unique identification of the intermediate operation result corresponding to the partial operation information).
S103: and the big data server executes big data analysis on the data set to be analyzed and sends corresponding analysis process records to the trusted storage terminal.
Wherein, referring to the above pre-processing process record, the analyzing process record may comprise: each operation information executed in the big data analysis process; or each operation information executed in the big data analysis process and an intermediate operation result corresponding to each operation information; or each operation information performed in the big data analysis process, and a unique identification (hash value) of the intermediate operation result corresponding to each operation information.
For further explanation, reference may also be made to the above explanation of the pre-processing procedure record, which is not described in detail here.
In addition, in an alternative embodiment, the big data server may send the analysis result of the big data analysis to the trusted storage; the trusted storage side can write the analysis result into the trusted ledger database.
For the trusted storage end, the trusted storage end can maintain a trusted ledger database; the trusted storage end sequentially writes each record into the trusted account book database according to the sequence of the received records; the trusted storage end can provide the global hash corresponding to each time point (which can be regular or irregular) specified by a preset time plan to the big data client; the global hash may be a root hash of a merkel tree constructed based on all records in the trusted ledger database at that point in time.
It should be noted that, referring to the above explanation of the multi-party signature in the trusted ledger database, in an alternative embodiment, after each record is received, the signature of each record may be verified, and the record may be written into the trusted ledger database only after the signature is determined to match the corresponding record.
Through the method and the process, the relevant information (including data records, preprocessing process records and analysis process records) of the whole process of the big data analysis can be stored in the credible account book database, and the credible storage of the relevant information of the whole process of the big data analysis is realized based on the credible account book database, so that each step in the big data analysis can be checked according to the credible stored relevant information of the whole process, thereby being convenient for determining a wrong responsible party when a problem occurs and not generating disputes.
The specification also provides an embodiment of an analysis result verification method based on the method flow.
Fig. 3 is a schematic flow chart of an analysis result verification method provided in the present specification. The big data client already obtains the analysis result of the big data analysis performed by the big data server, but the big data client wants to check the whole big data analysis process, and this embodiment can be used to implement the big data analysis.
The method may include the following steps.
S201: and the big data client acquires the hash value set which is stored by the trusted storage end and corresponds to the target data set, and checks whether the hash value set is matched with the target data set stored by the big data client.
S202: and if the data set is matched with the target data set, acquiring a preprocessing process record stored by the trusted storage terminal, and executing the same operation aiming at the target data set stored by the big data client terminal based on the preprocessing process record to obtain a data set to be verified.
Correspondingly, if not, the subsequent steps may not be performed, and the target data set of the big data client is determined to be problematic.
S203: and acquiring an analysis process record stored in the trusted storage terminal, and executing the same operation aiming at the data set to be checked based on the analysis process record to obtain an analysis result to be checked.
S204: and the big data client checks whether the analysis result to be checked is the same as the analysis result of the big data analysis.
If so, it can be determined that there is no problem with the full flow of big data analysis.
If the data analysis result is not the same, the problem exists in the whole flow of the big data analysis, and the problem exists in the big data server. In an alternative embodiment, if the trusted storage side also stores the intermediate operation result of each operation record, the operation record with the problem can be quickly determined.
The present specification also provides a system embodiment.
Fig. 4 is a schematic structural diagram of a data storage system based on a trusted ledger database provided in this specification. The system can comprise a big data client 301, a big data server 302 and a trusted storage 303.
Big data client 301 may be used to: the target data set is sent to the big data server 302 and the data records containing the set of hash values corresponding to the target data set are sent to the trusted storage 303.
Big data server 302 may be used to: under the specified condition, preprocessing is carried out on the target data set, the preprocessed target data set is used as a data set to be analyzed, and a corresponding preprocessing process record is sent to the trusted storage terminal 303; the pre-processing may include: sequentially performing data extraction, data cleaning and data conversion; performs big data analysis on the dataset to be analyzed and sends corresponding analysis process records to the trusted storage 303.
The trusted storage 303 may maintain a trusted ledger database.
Trusted storage 303 may be configured to: writing each record into a credible account book database in sequence according to the sequence of the received records; the trusted storage terminal 303 provides the global hash corresponding to each time point specified by the preset time plan to the big data client 301; the global hash is a root hash of the merkel tree constructed based on all records in the ledger database at that point in time.
Big data client 301 may also be used to: acquiring a hash value set corresponding to a target data set stored by the trusted storage terminal 303, and checking whether the hash value set is matched with the locally stored target data set; if the data set is matched with the target data set, acquiring a preprocessing process record stored in the trusted storage terminal 303, and executing the same operation aiming at the locally stored target data set based on the preprocessing process record to obtain a data set to be verified; acquiring an analysis process record stored in the trusted storage terminal 303, and executing the same operation aiming at the data set to be checked based on the analysis process record to obtain an analysis result to be checked; and checking whether the analysis result to be checked is the same as the analysis result of the big data analysis.
The present specification also provides an apparatus embodiment.
Fig. 5 is a schematic structural diagram of a data storage device based on a trusted ledger database provided in this specification. The device can be applied to a big data server and at least comprises the following units.
The receiving unit 401: the system comprises a data processing module, a data processing module and a data processing module, wherein the data processing module is used for receiving a target data set sent by a big data client; and the big data client also sends the data records containing the hash value set corresponding to the target data set to the trusted storage end.
The preprocessing unit 402: the system comprises a trusted storage end, a target data set and a target data set, wherein the trusted storage end is used for preprocessing the target data set under a specified condition, taking the preprocessed target data set as a data set to be analyzed and sending a corresponding preprocessing process record to the trusted storage end; the pretreatment comprises the following steps: data extraction, data cleansing, and data conversion are performed in sequence.
The analysis unit 403: the system is used for executing big data analysis on the data set to be analyzed and sending the corresponding analysis process record to the trusted storage terminal.
The trusted storage terminal maintains a trusted account book database; the trusted storage end sequentially writes each record into the trusted account book database according to the sequence of the received records; the trusted storage end provides the global hash corresponding to the time point to the big data client at each time point specified by the preset time plan; the global hash is a root hash of the merkel tree constructed based on all records in the ledger database at that point in time.
For the explanation of the above system embodiment and apparatus embodiment, reference may be made to the above method embodiment, which is not described herein again.
The present specification further provides a computer device, which at least includes a memory, a processor, and a computer program stored in the memory and executable on the processor, where the processor executes the program to implement an operation performed by a big data server in a data storage method based on a trusted ledger database as shown in fig. 2, or an analysis result verification method as shown in fig. 3.
Fig. 6 is a schematic diagram illustrating a more specific hardware structure of a computer device according to an embodiment of the present disclosure, where the device may include: a processor 1010, a memory 1020, an input/output interface 1030, a communication interface 1040, and a bus 1050. Wherein the processor 1010, memory 1020, input/output interface 1030, and communication interface 1040 are communicatively coupled to each other within the device via bus 1050.
The processor 1010 may be implemented by a general-purpose CPU (Central Processing Unit), a microprocessor, an Application Specific Integrated Circuit (ASIC), or one or more Integrated circuits, and is configured to execute related programs to implement the technical solutions provided in the embodiments of the present disclosure.
The Memory 1020 may be implemented in the form of a ROM (Read Only Memory), a RAM (Random Access Memory), a static storage device, a dynamic storage device, or the like. The memory 1020 may store an operating system and other application programs, and when the technical solution provided by the embodiments of the present specification is implemented by software or firmware, the relevant program codes are stored in the memory 1020 and called to be executed by the processor 1010.
The input/output interface 1030 is used for connecting an input/output module to input and output information. The i/o module may be configured as a component in a device (not shown) or may be external to the device to provide a corresponding function. The input devices may include a keyboard, a mouse, a touch screen, a microphone, various sensors, etc., and the output devices may include a display, a speaker, a vibrator, an indicator light, etc.
The communication interface 1040 is used for connecting a communication module (not shown in the drawings) to implement communication interaction between the present apparatus and other apparatuses. The communication module can realize communication in a wired mode (such as USB, network cable and the like) and also can realize communication in a wireless mode (such as mobile network, WIFI, Bluetooth and the like).
Bus 1050 includes a path that transfers information between various components of the device, such as processor 1010, memory 1020, input/output interface 1030, and communication interface 1040.
It should be noted that although the above-mentioned device only shows the processor 1010, the memory 1020, the input/output interface 1030, the communication interface 1040 and the bus 1050, in a specific implementation, the device may also include other components necessary for normal operation. In addition, those skilled in the art will appreciate that the above-described apparatus may also include only those components necessary to implement the embodiments of the present description, and not necessarily all of the components shown in the figures.
Embodiments of the present specification further provide a computer-readable storage medium, on which a computer program is stored, where the computer program, when executed by a processor, implements an operation performed by a big data server in a data storage method based on a trusted ledger database, as shown in fig. 2, or implements an analysis result verification method, as shown in fig. 3.
Computer-readable media, including both non-transitory and non-transitory, removable and non-removable media, may implement information storage by any method or technology. The information may be computer readable instructions, data structures, modules of a program, or other data. Examples of computer storage media include, but are not limited to, phase change memory (PRAM), Static Random Access Memory (SRAM), Dynamic Random Access Memory (DRAM), other types of Random Access Memory (RAM), Read Only Memory (ROM), Electrically Erasable Programmable Read Only Memory (EEPROM), flash memory or other memory technology, compact disc read only memory (CD-ROM), Digital Versatile Discs (DVD) or other optical storage, magnetic cassettes, magnetic disk storage or other magnetic storage devices, or any other non-transmission medium that can be used to store information that can be accessed by a computing device. As defined herein, a computer readable medium does not include a transitory computer readable medium such as a modulated data signal and a carrier wave.
From the above description of the embodiments, it is clear to those skilled in the art that the embodiments of the present disclosure can be implemented by software plus necessary general hardware platform. Based on such understanding, the technical solutions of the embodiments of the present specification may be essentially or partially implemented in the form of a software product, which may be stored in a storage medium, such as a ROM/RAM, a magnetic disk, an optical disk, etc., and includes several instructions for enabling a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the methods described in the embodiments or some parts of the embodiments of the present specification.
The systems, devices, modules or units illustrated in the above embodiments may be implemented by a computer chip or an entity, or by a product with certain functions. A typical implementation device is a computer, which may take the form of a personal computer, laptop computer, cellular telephone, camera phone, smart phone, personal digital assistant, media player, navigation device, email messaging device, game console, tablet computer, wearable device, or a combination of any of these devices.
The embodiments in the present specification are described in a progressive manner, and the same and similar parts among the embodiments are referred to each other, and each embodiment focuses on the differences from the other embodiments. In particular, for the apparatus embodiment, since it is substantially similar to the method embodiment, it is relatively simple to describe, and reference may be made to some descriptions of the method embodiment for relevant points. The above-described apparatus embodiments are merely illustrative, and the modules described as separate components may or may not be physically separate, and the functions of the modules may be implemented in one or more software and/or hardware when implementing the embodiments of the present disclosure. And part or all of the modules can be selected according to actual needs to achieve the purpose of the scheme of the embodiment. One of ordinary skill in the art can understand and implement it without inventive effort.
The foregoing is only a detailed description of the embodiments of the present disclosure, and it should be noted that, for those skilled in the art, many modifications and decorations can be made without departing from the principle of the embodiments of the present disclosure, and these modifications and decorations should also be regarded as protection for the embodiments of the present disclosure.

Claims (22)

1. A data storage method based on a credible account book database comprises the following steps:
the big data client sends a target data set to a big data server, and sends a data record containing a hash value set corresponding to the target data set to a trusted storage end;
under the appointed condition, the big data server side preprocesses the target data set, takes the preprocessed target data set as a data set to be analyzed, and sends a corresponding preprocessing process record to the trusted storage side; the pretreatment comprises the following steps: sequentially performing data extraction, data cleaning and data conversion;
the big data server side executes big data analysis on the data set to be analyzed and sends corresponding analysis process records to the trusted storage side so that the big data client side can conveniently check the big data analysis result;
the trusted storage terminal maintains a trusted account book database; and the trusted storage terminal stores the received record into the trusted account book database.
2. The method of claim 1, the verifying the big data analysis result, comprising:
and executing operation on the target data set based on the preprocessing process record and the analysis process record acquired from the trusted storage terminal to obtain an analysis result to be checked, and checking whether the analysis result to be checked is the same as the big data analysis result.
3. The method of claim 1, the storing the received record in the trusted ledger database comprising:
and writing each record into the credible account book database in sequence according to the sequence of the received records.
4. The method of claim 1, further comprising:
the trusted storage end provides the global hash corresponding to the time point to the big data client at each time point specified by a preset time plan; the global hash is a root hash of a global merkel tree constructed based on all records in the trusted ledger database at the time point.
5. The method of claim 1, a global merkel tree maintained in the trusted ledger database, the method further comprising:
and Hash and storing the history root of the global Mercker tree into a public network account book which can be acquired by any device in a public network.
6. The method of claim 5, further comprising:
and updating the global Merck tree at each time point planned by a preset time plan to obtain the updated root hash.
7. The method of claim 5, the global merkel tree updating method comprising:
and for each newly-added leaf node, the newly-added leaf node and the current root node are jointly used as two child nodes, a father node is obtained through calculation, and the father node obtained through calculation is used as an updated root node.
8. The method of claim 1, further comprising:
the trusted storage terminal sends the information to be signed to a trusted time service mechanism; the information to be signed comprises: the unique identification of the information meeting the preset requirement in the credible account book database;
and the trusted time service mechanism signs the information to be signed and the current time point to obtain a trusted time service signature, and returns the trusted time service signature to the trusted storage terminal.
9. The method of claim 8, wherein the information meeting preset requirements comprises:
all information stored in the trusted account book database within a preset time period; or
And newly adding a preset number of pieces of information in the credible account book database.
10. The method of claim 1, further comprising, prior to performing the pre-processing:
the big data server side obtains the data records written into the trusted storage side, and checks whether a hash value set contained in the data records is matched with a received target data set;
the specified cases include: the set of hash values contained in the data record matches the received target data set.
11. The method of claim 1, further comprising, prior to performing the pre-processing:
the big data client sends the digital signature aiming at the target data set to a big data server;
the big data server checks whether the received target data set is modified or not according to the received digital signature;
the specified cases include: the target data set is not modified.
12. The method of claim 1, wherein the obtaining of the set of hash values comprises:
taking all the data in the target data set as calculation objects, and executing one-time hash operation to obtain a hash value;
or
And aiming at each piece of data in the target data set, taking the piece of data as a calculation object, and executing a hash operation to obtain a hash value corresponding to the piece of data.
13. The method of claim 1, the pre-processing process records comprising:
each operation information executed in the preprocessing process;
or
Each operation information executed in the preprocessing process, and an intermediate operation result corresponding to each operation information.
14. The method of claim 1, the analyzing the process record comprising:
each operation information executed in the big data analysis process;
or
Each operation information executed in the big data analysis process, and an intermediate operation result corresponding to each operation information.
15. The method of claim 1, further comprising:
the big data server side sends the analysis result of the big data analysis to the trusted storage side;
and the trusted storage end writes the analysis result of the big data analysis into the trusted account book database.
16. The method of claim 1, the trusted ledger being a block-chained ledger.
17. A method for verifying an analysis result based on the method of any one of claims 1 to 16, comprising:
the big data client acquires a hash value set which is stored by the trusted storage end and corresponds to the target data set, and checks whether the hash value set is matched with the target data set stored by the big data client;
if the data set to be verified is matched with the target data set stored in the big data client, acquiring a preprocessing process record stored in the trusted storage terminal, and executing the same operation aiming at the target data set stored in the big data client based on the preprocessing process record to obtain the data set to be verified;
acquiring an analysis process record stored by the trusted storage terminal, and executing the same operation aiming at the data set to be checked based on the analysis process record to obtain an analysis result to be checked;
and the big data client checks whether the analysis result to be checked is the same as the analysis result of the big data analysis.
18. A data storage method based on a credible account book database is applied to a big data server; the method comprises the following steps:
receiving a target data set sent by a big data client; wherein the big data client further sends data records containing a set of hash values corresponding to the target data set to a trusted storage;
under the appointed condition, preprocessing the target data set, taking the preprocessed target data set as a data set to be analyzed, and sending a corresponding preprocessing process record to the trusted storage end; the pretreatment comprises the following steps: sequentially performing data extraction, data cleaning and data conversion;
executing big data analysis on the data set to be analyzed, and sending a corresponding analysis process record to the trusted storage terminal so that the big data client side can check the big data analysis result;
the trusted storage terminal maintains a trusted account book database; and the trusted storage terminal stores the received record into the trusted account book database.
19. A data storage system based on a credible account book database comprises a big data client, a big data server and a credible storage end;
the big data client is used for: sending a target data set to a big data server, and sending a data record containing a hash value set corresponding to the target data set to a trusted storage end;
the big data server is used for: under the appointed condition, preprocessing the target data set, taking the preprocessed target data set as a data set to be analyzed, and sending a corresponding preprocessing process record to the trusted storage end; the pretreatment comprises the following steps: sequentially performing data extraction, data cleaning and data conversion; executing big data analysis on the data set to be analyzed, and sending a corresponding analysis process record to the trusted storage terminal so that the big data client side can check the big data analysis result;
the trusted storage terminal maintains a trusted account book database;
the trusted storage is used for: and storing the received records in the credible account book database.
20. The system of claim 19, the big data client further to:
acquiring a hash value set corresponding to a target data set and stored by a trusted storage end, and checking whether the hash value set is matched with the locally stored target data set;
if the data set is matched with the target data set, acquiring a preprocessing process record stored by the trusted storage terminal, and executing the same operation aiming at the locally stored target data set on the basis of the preprocessing process record to obtain a data set to be verified;
acquiring an analysis process record stored by the trusted storage terminal, and executing the same operation aiming at the data set to be checked based on the analysis process record to obtain an analysis result to be checked;
and checking whether the analysis result to be checked is the same as the analysis result of the big data analysis.
21. A data storage device based on a credible account book database is applied to a big data server; the device comprises:
a receiving unit: the system comprises a data processing module, a data processing module and a data processing module, wherein the data processing module is used for receiving a target data set sent by a big data client; wherein the big data client further sends data records containing a set of hash values corresponding to the target data set to a trusted storage;
a pretreatment unit: the system comprises a trusted storage end, a target data set and a target data set, wherein the trusted storage end is used for preprocessing the target data set under a specified condition, taking the preprocessed target data set as a data set to be analyzed and sending a corresponding preprocessing process record to the trusted storage end; the pretreatment comprises the following steps: sequentially performing data extraction, data cleaning and data conversion;
an analysis unit: the big data analysis system is used for executing big data analysis on the data set to be analyzed and sending a corresponding analysis process record to the trusted storage terminal so that the big data client side can check the big data analysis result;
the trusted storage terminal maintains a trusted account book database; and the trusted storage terminal stores the received record into the trusted account book database.
22. A computer device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, wherein the processor implements the method of claim 17 or 18 when executing the program.
CN202110831518.XA 2021-02-07 2021-02-07 Data storage method, device and system based on credible account book database Pending CN113434603A (en)

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