CN111143889B - Block chain-based stimulant detection information management method, device and equipment - Google Patents

Abstract

The disclosure discloses a block chain-based stimulant detection information management method, device and equipment, and belongs to the technical field of networks. The method comprises the following steps: receiving a stimulant detection information entry request, the stimulant detection information entry request including stimulant detection information of an athlete to be recorded; generating a first block based on the agonist detection information entry request, the first block for storing the athlete's agonist detection information; the first block is added to a blockchain system. By writing the stimulant detection information into the blockchain for storage, the information in the blockchain cannot be changed or illegally destroyed, so that the possibility of human tampering or counterfeiting of the stimulant detection result is reduced, and the authenticity of the stimulant detection result can be ensured.

Description

Block chain-based stimulant detection information management method, device and equipment

Technical Field

The disclosure relates to the field of network technology, and in particular relates to a method, a device and equipment for managing stimulant detection information based on a blockchain.

Background

The stimulant detection refers to detection of urine or blood of athletes by special medical staff of each level of sports organizations before, after and even at ordinary times to determine whether the athletes use forbidden substances or forbidden methods.

The international impact on the stimulant is very severe, and once the athlete is suspected of being challenged by the stimulant, the lighter and the heavier cancel the performance, even the lifetime ban. However, the stimulant is also a channel for some institutions and organizations to gain illegal benefits while protecting the fairness and fairness of sports, and the detection result of the stimulant is controlled illegally, so that the sports are not fair and not fair.

Disclosure of Invention

The embodiment of the disclosure provides a method, a device and equipment for managing stimulant detection information based on a blockchain, which can reduce the possibility that a stimulant detection result is not real. The technical scheme is as follows:

in one aspect, a blockchain-based stimulant detection information management method is provided, the method comprising:

receiving a stimulant detection information entry request, the stimulant detection information entry request including stimulant detection information of an athlete to be recorded;

generating a first block based on the agonist detection information entry request, the first block for storing the athlete's agonist detection information;

the first block is added to a blockchain system.

In one aspect, there is provided a blockchain-based agonist detection information management apparatus, the apparatus comprising:

The system comprises a receiving module, a recording module and a recording module, wherein the receiving module is used for receiving a stimulant detection information recording request, and the stimulant detection information recording request comprises stimulant detection information of an athlete to be recorded;

a generation module for generating a first block based on the stimulant detection information entry request, the first block for storing the stimulant detection information of the athlete;

and the storage module is used for adding the first block into a blockchain system.

In one aspect, embodiments of the present application provide a computer device including a processor and a memory having at least one instruction, at least one program, a set of codes, or a set of instructions stored therein, the at least one instruction, the at least one program, the set of codes, or the set of instructions being loaded and executed by the processor to implement the method of agonist detection information management as described above.

In one aspect, embodiments of the present application provide a computer-readable storage medium having stored therein at least one instruction, at least one program, a set of codes, or a set of instructions, the at least one instruction, the at least one program, the set of codes, or the set of instructions being loaded and executed by a processor to implement the method of stimulant detection information management as described above.

The technical scheme provided by the embodiment of the disclosure has the beneficial effects that:

by writing the stimulant detection information into the blockchain for storage, the information in the blockchain cannot be changed or illegally destroyed, so that the possibility of human tampering or counterfeiting of the stimulant detection result is reduced, and the authenticity of the stimulant detection result can be ensured.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present disclosure, the drawings required for the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present disclosure, and other drawings may be obtained according to these drawings without inventive effort for a person of ordinary skill in the art.

FIG. 1 is a schematic diagram of a blockchain system provided by embodiments of the present disclosure;

FIG. 2 is a flow chart of a method for blockchain-based agonist detection information management provided in an embodiment of the present disclosure;

FIG. 3 is a flow chart of a method for blockchain-based agonist detection information management provided in an embodiment of the present disclosure;

FIG. 4 is a schematic diagram of an interface included in a stimulant detection system, according to an embodiment of the present disclosure;

Fig. 5 is a schematic diagram of interaction between a terminal device and a blockchain system provided in an embodiment of the disclosure;

fig. 6 is a schematic diagram of an information input interface corresponding to an input interface provided in an embodiment of the disclosure;

fig. 7 is a schematic diagram of an information input interface corresponding to an input interface provided in an embodiment of the disclosure;

fig. 8 is a schematic diagram of an information input interface corresponding to an input interface provided in an embodiment of the disclosure;

fig. 9 is a schematic diagram of an information input interface corresponding to an input interface provided in an embodiment of the disclosure;

FIG. 10 is a schematic diagram of a block chain based agonist test information management apparatus according to an embodiment of the present disclosure;

fig. 11 is a schematic diagram of a computer device provided in an embodiment of the present disclosure.

Detailed Description

For the purposes of clarity, technical solutions and advantages of the present disclosure, the following further details the embodiments of the present disclosure with reference to the accompanying drawings.

In order to facilitate an understanding of the embodiments of the present disclosure, some terms appearing during the following detailed description are presented below:

agonist detection information: the information contained in the whole process of the agonist detection of the athlete comprises the collection information of an agonist detection sample, the transportation information of the agonist detection sample, the storage information of the agonist detection sample and the result information of the agonist detection. The collection information comprises collection personnel, collection sample types (urine samples and blood), collection quantity, collection conditions (information such as temperature and humidity) and condition information (such as body temperature, blood pressure, pulse and weight) of a collection object; the transportation information comprises information of each transit place, transit person and handover person for recording transportation in the sample transportation and handover process; the preservation information comprises information (integrity degree, temperature and the like) of the recorded sample at the time after the sample is sealed; the result information of the stimulant detection includes detection center information and a detection result report.

Information about agonist detection: refers to personnel and institutional information associated with the overall agonist testing procedure. For example, athlete information, healthcare worker information, and agonist detection task information, etc. may be included. The athlete information includes names, photos, publicable medical examination information, historical examination records, and outcome information, among others. The medical staff information comprises information such as names, photos, qualification descriptions, service institutions, historical participation examination records, professional levels and the like; the stimulant inspection agency can only pick the relevant person from the person database when the inspection task is delegated. The stimulant detection task information comprises task type, time, place, examination object and examination personnel information; behavioral records during inspection, such as personnel qualification presentation verification, athlete authentication, mutual notification information, sample collection information, and the like; and checking the result information after checking.

Blockchain system: the electronic devices that make up the blockchain system may be referred to as blockchain nodes in the blockchain system, which is a communication network of electronic devices that manage the agonist detection information. The blockchain system includes at least two blockchain nodes, each of which synchronizes the blockinformation through a wired or wireless network, and the blockinformation may include agonist detection information, related information of the agonist detection, and the like.

Blockchain: the distributed account book is globally shared, a distributed trust mechanism is established in a self-verification and serum-free mode, and the distributed account book has the characteristics of decentralization, high public confidence, non-falsification of data and the like.

Blockchains are novel application modes of computer technologies such as distributed data storage, point-to-point transmission, consensus mechanisms, encryption algorithms, and the like. The Blockchain (Blockchain), which is essentially a decentralised database, is a string of data blocks that are generated by cryptographic means in association, each data block containing a batch of information of network transactions for verifying the validity of the information (anti-counterfeiting) and generating the next block. The blockchain may include a blockchain underlying platform, a platform product services layer, and an application services layer.

The blockchain underlying platform may include processing modules for user management, basic services, smart contracts, operation monitoring, and the like. The user management module is responsible for identity information management of all blockchain participants, including maintenance of public and private key generation (account management), key management, maintenance of corresponding relation between the real identity of the user and the blockchain address (authority management) and the like, and under the condition of authorization, supervision and audit of transaction conditions of certain real identities, and provision of rule configuration (wind control audit) of risk control; the basic service module is deployed on all block chain node devices, is used for verifying the validity of a service request, recording the service request on a storage after the effective request is identified, for a new service request, the basic service firstly analyzes interface adaptation and authenticates the interface adaptation, encrypts service information (identification management) through an identification algorithm, and transmits the encrypted service information to a shared account book (network communication) in a complete and consistent manner, and records and stores the service information; the intelligent contract module is responsible for registering and issuing contracts, triggering contracts and executing contracts, a developer can define contract logic through a certain programming language, issue the contract logic to a blockchain (contract registering), invoke keys or other event triggering execution according to the logic of contract clauses to complete the contract logic, and simultaneously provide a function of registering contract upgrading; the operation monitoring module is mainly responsible for deployment in the product release process, modification of configuration, contract setting, cloud adaptation and visual output of real-time states in product operation, for example: alarms, monitoring network conditions, monitoring node device health status, etc.

The platform product service layer provides basic capabilities and implementation frameworks of typical applications, and developers can complete the blockchain implementation of business logic based on the basic capabilities and the characteristics of the superposition business. The application service layer provides the application service based on the block chain scheme to the business participants for use.

Fig. 1 is a schematic diagram of a blockchain system according to an embodiment of the present disclosure. The system includes a plurality of computer devices 101; multiple computer devices 101 may be configured with the same blockchain, i.e., the multiple computer devices 101 may form a blockchain system, with each computer device 101 being a node in the blockchain system. Here, the plurality of computer devices 101 may be a plurality of servers, which may be a plurality of servers of the same organization, or a plurality of servers belonging to different organizations, for example, a server of each stimulant detection center organization, a server of each international sports organization, etc. may be included in the blockchain system; of course, servers of various national sports authorities, servers of media authorities, etc. may also be included within the blockchain system. The user of each organization may access the servers of the organization through terminal devices 1011, and the plurality of terminal devices 1011 may be electronic devices capable of accessing the plurality of servers, which may be computers, smartphones, tablets, or other electronic devices.

For security verification, rights management, etc., a CA (Certificate Authority ) center 103 is configured in the blockchain system, and is used for storing accounts of each organization and users and corresponding keys (including public and private keys for signature verification), and each server in the blockchain system can obtain the keys of each organization from the CA center to perform processes such as encryption and decryption of data.

Based on the implementation environment provided in fig. 1 described above, it is desirable to manage agonist detection information via a blockchain system. In the disclosed embodiments, management may include entering and querying. The following describes the procedure of inputting the detection information of the stimulant. Fig. 2 is a flowchart of a method for managing agonist detection information based on a blockchain, which may be implemented by a server in a blockchain system, according to an embodiment of the present disclosure, and the method may include:

201. a stimulant detection information entry request is received, the stimulant detection information entry request including stimulant detection information of the athlete to be recorded.

A user who needs to enter the stimulant detection information sends a stimulant detection information entry request in the form of a transaction to a server using a terminal device (e.g., terminal device 1011 in fig. 1). The stimulant detection information entry request may include stimulant detection information.

The stimulant detection information entry request may also include an identification of the user, which may uniquely identify the user, for example, a employee identification number of a healthcare worker, or a unique code assigned to the user by the blockchain system (e.g., a user account number), or a user identification obtained by encrypting user information, and so forth.

For the relevant content of the agonist detection information, please refer to the explanation of the noun above, and will not be repeated here.

Alternatively, the stimulant detection information may be encrypted information.

202. A first block is generated based on the stimulant detection information entry request.

The first block is used for storing the stimulant detection information of the athlete.

203. The first block is added to the blockchain system.

In the embodiment of the disclosure, the stimulant detection information is written into the blockchain for storage, and the information in the blockchain cannot be changed or illegally destroyed, so that the possibility of manually falsifying or forging the stimulant detection result is reduced, and the authenticity of the stimulant detection result can be ensured.

In one possible implementation, this step 202 may include:

202A, verifying the validity of the stimulant detection information input request;

202B, generating a first block based on the athlete's stimulant detection information in response to the verification of validity of the stimulant detection information entry request passing.

In step 202A, the validity of the transaction is mainly verified. If the verification is passed, step 202B is performed. If the verification is not passed, the current flow is exited.

The validity of the transaction can be achieved by verifying the signature of the transaction, for example, when the user terminal sends a stimulant detection information input request, a private key is adopted to process the stimulant detection information to generate the signature, then the stimulant detection information input request with the signature is sent to a server, correspondingly, the server can verify the authenticity of the signature by adopting a public key corresponding to the user terminal, if the signature is authentic, the fact that the transaction is legal is indicated, and the verification is passed; if the signature is not true, the transaction is illegal, and the verification is failed.

In one possible implementation, this step 202B may include:

generating block record data based on the stimulant detection information of the athlete, and transmitting the block record data to a block chain system for consensus in a transaction form;

the first block is generated in response to all nodes of the blockchain system achieving consensus.

After obtaining the stimulant detection information in the stimulant detection information entry request, block record data is generated, the block record data indicates that a block writing operation is to be performed, the block record data is then transmitted to a block chain system in a transaction form for consensus, and after the consensus is achieved, a first block is generated.

Fig. 3 is a flowchart of a method for managing blockchain-based stimulant detection information, which may be implemented by a user's terminal device and a server in a blockchain system, according to an embodiment of the present disclosure.

Before entering the stimulant detection information, information related to the stimulant detection process, that is, the information related to the stimulant detection, needs to be entered. That is, embodiments of the present disclosure may also include steps related to information related to, for example, agonist detection. The process of entering relevant information for agonist detection may be seen in fig. 3.

300. The terminal equipment receives the related information of the stimulant detection and generates a detection related information input request, wherein the detection related information input request comprises the related information of the stimulant detection, and the related information of the stimulant detection comprises personnel and event information in the stimulant detection process.

The detection-related information entry request may also include an identification of the user, which may uniquely identify the user, for example, may be a employee identification number of a healthcare worker, or may also be a unique code (e.g., a user account number) assigned to the user by the blockchain system, or may also be a user identification obtained by encrypting user information, and so on.

The relevant information of the agonist detection is explained by the terms of the above, and will not be repeated here.

Alternatively, the relevant information for agonist detection may be encrypted information. In an embodiment of the present disclosure, generating the detection-related information entry request includes encrypting the detection-related information of the stimulant using a system-assigned (server) public key, and generating the detection-related information entry request using a private key signature (of the terminal device).

In the present application, the stimulant detection system may be assigned an access code to each user (athlete, medical staff (sample collector), sample transporter, sample custodian, sample detector, or management center person) through which the user can log in to the stimulant detection system from the terminal device.

When the user successfully logs in, the terminal equipment provides a use interface, and the use interface provides a corresponding interface for the user to use through an input box, a button and the like. The agonist detection system of the present application includes an interface as shown in fig. 4, the interface provided by the system comprising: an input interface 41 and a query interface 44. The recording interface 41 is used for recording the related information 42 of the stimulant detection and the stimulant detection information 43 of the athlete, and after the related information 42 of the stimulant detection and the stimulant detection information 43 of the athlete are stored through the recording interface 41, data access can be performed through the query interface 44. The data transmission with the blockchain is realized through the interface, that is, the terminal device 1011 realizes the data transmission and the data access with the blockchain system through the interface, as shown in fig. 5.

The above-mentioned interface mentioned in the embodiments of the present disclosure may actually be composed of 1 or more pages, and a user may complete operations such as information input, query, etc. through input boxes, buttons, etc. in these pages. It should be noted that the interfaces in the page shown in fig. 4 are only examples, and the actual page may provide a greater or lesser number of interfaces, so long as the page can be guaranteed to provide the functions of recording relevant information of the stimulant detection, recording the stimulant detection information of the athlete, and inquiring the stimulant detection.

Fig. 6 is a schematic diagram of an information input interface corresponding to the input interface 41 provided in an embodiment of the disclosure. The information input interface can be a visible page after the management center personnel logs in, because the visible page after the system is logged in is different for different personnel, for example, the management center personnel and the medical personnel can select the information input interface, can select the inquiry page, and can only inquire the page for athletes. Of course, the page settings in the system for different users are also just one example here, and are not limited thereto.

Referring to fig. 6, the information entry interface may include an entry information type selection area 61, an information entry area 62, an information submission area 63, and the like.

Illustratively, the selectable information types of the entry information type selection area 61 are a combination of the following information types: collecting information of the stimulant detection sample, transportation information of the stimulant detection sample, storage information of the stimulant detection sample, result information of the stimulant detection, athlete information, medical staff information and stimulant detection task information.

Likewise, the type of information that can be selected in the entered information type selection field 61 is different for different persons. For example, the healthcare worker-selectable information types typically include only the collected information of the agonist test sample. The sample transporter may select transport information for the agonist test sample. The sample custodian may select custody information for the agonist test sample. The sample inspector may select the result information of the agonist test. The management center personnel can select athlete information, medical personnel information, stimulant detection task information and the like.

Referring again to fig. 6, in the information entry area 62, when the terminal device receives a different entry type selection instruction, the option boxes displayed in the information entry area 62 are also different, and these option boxes correspond to the information fields to be entered for that entry type.

For example, upon healthcare worker information entry (the shaded boxes in FIG. 6 indicate that they are selected), the boxes displayed in the information entry field 62 include: the medical staff information comprises corresponding option boxes such as names, photos, qualification descriptions, service institutions, historical participation examination records, professional level information and the like. Of course, the option box herein includes an input box and also includes an acquisition interface through which, for example, some of the content related to history information or to be authenticated may be acquired from the system.

When the content is completely recorded, the user can click a confirmation submitting button of the information submitting area 63 to carry the information filled in the information recording area 62 to the server in the blockchain.

When the terminal device completes the transmission of the input request, a dialog box for submitting success can be popped up on the interface to inform the user, as shown in fig. 7.

Optionally, after the blockchain stores the recorded information, confirmation information can be returned to the terminal device, and after the terminal device receives the confirmation information, a successful recording dialog box can be popped up on the interface to notify the user, as shown in fig. 8.

In the embodiment of the disclosure, a management center person can input medical personnel information and athlete information first, then input stimulant detection task information, input stimulant detection task information can select medical personnel and athletes who have completed information input in a selection mode, and input information of sample transportation personnel, sample custodian, sample detection personnel and the like.

In step 300, the end user enters relevant information for the detection of the stimulant via the entry interface 41.

301. The terminal equipment sends a request for inputting detection related information to the server; the server receives a request for detecting the relevant information entry.

A user who needs to enter relevant information for detection of a stimulant sends a request for detection of relevant information entry in the form of a transaction to a server using a terminal device (e.g., terminal device 1011 in fig. 1). The detection-related information entry request may include information related to detection of a stimulant.

302. The server generates a second block based on the stimulant detection information entry request.

Here, the second block is used to store information about the detection of the stimulant.

Likewise, the same verification and consensus process as step 202 may also be performed in generating the second block.

Further, after signature verification is completed, the server also needs to decrypt with a private key (of the server) to obtain the plaintext of the relevant information detected by the stimulant.

303. The server adds the second block to the blockchain system.

The process of steps 301 to 303 is similar to the process of steps 201 to 203, and the detailed process may refer to steps 201 to 203, which will not be repeated here.

304. The terminal device receives the agonist detection information of the athlete to be recorded and generates an agonist detection information entry request, the agonist detection information entry request including the agonist detection information of the athlete to be recorded.

The stimulant detection information entry request may also include an identification of the user, which may uniquely identify the user, for example, a employee identification number of a healthcare worker, or a unique code assigned to the user by the blockchain system (e.g., a user account number), or a user identification obtained by encrypting user information, and so forth.

For the relevant content of the agonist detection information, please refer to the explanation of the noun above, and will not be repeated here.

Alternatively, the stimulant detection information may be encrypted information. In an embodiment of the present disclosure, generating the stimulant detection information entry request includes encrypting the stimulant detection information with a public key assigned by the system, and generating the stimulant detection information entry request using a private key signature.

In step 304, the end user enters the stimulant detection information via the entry interface 41.

Fig. 9 is a schematic diagram of an information entry interface corresponding to another entry interface 41 provided by an embodiment of the present disclosure. The information entry interface may be a page visible to the healthcare worker after logging in.

Referring to fig. 9, taking as an example the need to enter collected information, the information entry field 62 displays a box of options comprising: the stimulant detection task option box and the option boxes corresponding to the collection personnel, the collection sample type (urine sample, blood), the collection quantity, the collection condition (information such as temperature, humidity) and the condition information (such as body temperature, blood pressure, pulse and weight) of the collection object.

Here, the stimulant detection task information has been entered in step 300, and relevant detection personnel (medical staff, sample transportation personnel, etc.) are specified in the stimulant detection task information. Therefore, when the agonist detection task is selected, the terminal device can verify the qualification of the detection personnel before generating the information entry request.

The terminal device determines, for example, whether the agonist test task and the test person match. The judging process can be carried out locally based on the stimulant detection task information acquired from the system, and can also send the identification of the stimulant detection task and the identification of the detection personnel to the system for judgment. If the detection task is matched, each option box is in an available state, and if the detection task is not matched, each option box is in an unavailable state, so that information input can be performed only by a detector qualified for detection of the stimulant detection task, and the authenticity and accuracy of input information are ensured.

Whereas for sample forwarders, sample custodians and sample inspectors, when using terminal devices to enter information, the interface used is similar to that of fig. 9, differing only in the specific arrangement of the option boxes of the information entry area 62. In the same way, before information is input to the sample transportation personnel, the sample custodian and the sample inspection personnel, the process of verifying the qualification of the inspection personnel is also needed, and the input is allowed after the qualification verification is finished, so that the authenticity and the accuracy of input information in the processes of transportation, custody, inspection and the like are ensured.

In the process of collection, transportation, storage and inspection, besides the qualification verification in the online mode, the attendant management center personnel also need to perform manual qualification verification, such as certificate verification of the detection personnel, comparison verification of the true person and the certificate, and the like. After the manual qualification verification is completed, the management center personnel enter information into the system, wherein the information comprises personnel qualification presentation verification, athlete authentication, mutual information notification, sample acquisition information and the like. Here part of the information may be entered in one or more of text, pictures, video, audio, e.g. a person qualifies to present a verified picture or video, a mutually informed video, etc. By means of manual qualification verification and corresponding information input, personnel qualification in the processes of collection, transportation, storage, inspection and the like is guaranteed, and accordingly authenticity and accuracy of input information are guaranteed.

Through the double guarantee of on-line qualification verification and manual qualification verification, the fairness and fairness of the stimulant detection process are ensured.

305. The terminal equipment sends a stimulant detection information input request to a server; the server receives a stimulant detection information entry request.

A user who needs to enter the stimulant detection information sends a stimulant detection information entry request in the form of a transaction to a server using a terminal device (e.g., terminal device 1011 in fig. 1). The stimulant detection information entry request may include stimulant detection information.

306. The server generates a first block based on the stimulant detection information entry request.

The first block is used for storing the stimulant detection information of the athlete.

In generating the first block, the same verification and consensus process as step 202 may be performed.

Further, after signature verification is completed, the server also needs to decrypt by using a private key to obtain the plaintext of the stimulant detection information.

307. The server adds the first block to the blockchain system.

When the stimulant detection information is recorded, the mechanism and the athlete can query the related information of the stimulant detection. After the agonist detection information is entered, both the institution and athlete may query the agonist detection information. Therefore, in the whole flow of the detection of the stimulant, the legality of a medical staff and a detection task for detecting the stimulant can be verified in time, and detection results and the like can be checked in time. That is, embodiments of the present disclosure may further include the step of querying the agonist detection information and related information. See in particular steps 308-312 below.

308. The terminal device receives input information of data to be queried and generates a stimulant detection query request, wherein the stimulant detection query request comprises a data identifier of first data to be queried.

The data input information to be queried can be description information about data to be queried, such as names of athletes, names of medical staff, and the like, which are input by a user, or can be data generated by clicking the athlete and the medical staff selected by the user through page options. After the terminal device obtains the input information, the data identifier of the first data can be obtained based on the corresponding relation stored locally. Or, the data identification of the first data is obtained from the server.

The stimulant detection query request may also include an identification of the user, which may uniquely identify the user, for example, a employee identification number of a healthcare worker, or a unique code assigned to the user by the blockchain system (e.g., a user account number), or a user identification obtained by encrypting user information, and so forth.

Here, the data identifier of the first data to be queried may be carried in the request in an encrypted manner, so as to facilitate the validity verification of the subsequent agonist detection query request. In an embodiment of the present disclosure, generating the stimulant detection query request includes encrypting a data identification of first data to be queried using a public key assigned by the system, and generating the stimulant detection query request using a private key signature.

In step 308, the end user inputs the stimulant detection information via the query interface 44, waits for query data input information, and then generates a stimulant detection query request.

In the embodiment of the disclosure, the interface corresponding to the query interface is simpler than the interface corresponding to the input interface, and mainly includes type options of information to be queried, such as athlete information, medical staff information, detection results and the like. Then, an input box of the corresponding query keyword is input, for example, an athlete name, a task name, and the like may be input. And, further includes a confirmation submit button, etc. After the submission, the terminal device may pop up the dialog box of the successful submission at the interface. After the query result is obtained, the terminal device may display the query result on the interface.

309. The terminal equipment sends an excitation detection query request to the server; the server receives a stimulant detection query request.

A user who needs to inquire about related information of the agonist detection or agonist detection information sends an agonist detection inquiry request to a server in the form of a transaction using a terminal device (e.g., terminal device 1011 in fig. 1).

310. The server verifies the legitimacy of the stimulant detection query request.

Here, the same verification method as that of step 202A may be adopted for the verification method of the stimulant detection inquiry request.

Alternatively, the method may verify the query rights in addition to verifying the validity of the request. That is, for the stimulant detection information and related information, different users have different authority ranges, that is, the coverage ranges of data that different users can query are different. For example, a healthcare worker may query athlete information, healthcare worker information, test result information, etc., while a media worker may query only test result information.

Therefore, the server can acquire the user identification carried in the stimulant detection inquiry request; determining the authority range of the identification of the user; determining whether the first data belongs to the authority range; if so, continuing to execute step 311, and if not, ending the flow.

In embodiments of the present disclosure, the scope of authority of different users may be assigned by the system or manually configured, such as for athletes, healthcare workers, and media workers, the system automatically assigning different authorities. The scope of authority of each user may be stored on the blockchain. In the foregoing process, the authority ranges of the identifications of the respective users may be obtained from the blockchain.

311. The server responds to the validity verification of the stimulant detection inquiry request, and obtains first data from the blockchain system according to the data identification.

312. The server sends the first data to the terminal equipment; the terminal equipment receives the first data sent by the server.

And after receiving the first data, the terminal equipment displays the first data on the use interface.

Optionally, the method further comprises: generating query record information based on the steps 308-312; generating a third block based on the query record information; a third block is added to the blockchain system. Here, the third block may be first identified before the third block is produced, and the third block may be regenerated after the identification is achieved.

For example, an athlete may be required to query the healthcare worker for qualification, i.e., the athlete, via the system provided herein, for information about the healthcare worker (information pertaining to the detection of a stimulant) from the blockchain prior to performing the detection of the stimulant. The detection of the stimulant is only performed when the relevant information of the medical staff is queried and the detection qualification is confirmed and the detection is not an impostor. Likewise, the qualification of the athlete, the legality of the detection task and the like can be detected in the same way, so that the legality of the detection of the stimulant is ensured, and the counterfeiting is avoided.

The method for managing the detection information of the stimulant is suitable for detecting the stimulant outside a race, and the detection of the stimulant outside the race is easier to falsify, so that the falsification can be greatly reduced by adopting the scheme of the application, and the authenticity of the detection of the stimulant is improved. Of course, the solution is also applicable to detection scenarios within a stimulant race.

The data storage is operated on the blockchain, and the safe storage of the data is realized by utilizing the distributed storage, encryption and verification scheme of the blockchain, so that the purpose of being incapable of being illegally tampered is achieved; from the perspective of information security, the method and the device have higher data security; from the application point of view, the method can prevent the examination of the stimulant from being illegally utilized, ensure the pureness and fairness of the sports field, and protect the athlete from being unnecessarily and affecting the sports life.

Fig. 10 is a schematic structural diagram of a block chain-based agonist testing information management apparatus according to an embodiment of the present disclosure. Referring to fig. 10, the apparatus includes:

a receiving module 501, configured to receive a stimulant detection information entry request, where the stimulant detection information entry request includes stimulant detection information of an athlete to be recorded;

a generation module 502 for generating a first block based on the stimulant detection information entry request, the first block for storing the stimulant detection information of the athlete;

The storage module 503 is configured to add the first block to the blockchain system.

In one possible implementation, the generating module 502 may include:

a verification sub-module 521, configured to verify the validity of the agonist test information entry request;

a generation sub-module 522 for generating a first block based on the athlete's stimulant detection information in response to the verification of the validity of the stimulant detection information entry request passing.

In one possible implementation, the generation sub-module 522 is configured to generate block record data based on the athlete's stimulant detection information and send the block record data to the blockchain system for consensus in the form of a transaction; the first block is generated in response to all nodes of the blockchain system achieving consensus.

In one possible implementation, the agonist detection information includes at least one of: collecting information of the stimulant detection sample, transportation information of the stimulant detection sample, storage information of the stimulant detection sample, and result information of the stimulant detection.

In one possible implementation, the receiving module 501 is further configured to receive a detection related information entry request, where the detection related information entry request includes related information of a stimulant detection, and the related information of the stimulant detection includes personnel and event information in a stimulant detection process;

The generating module 502 is further configured to generate a second block based on the agonist detection information entry request, where the second block is configured to store information related to agonist detection;

the storage module 503 is configured to add the second block to the blockchain system.

In one possible implementation, the information related to agonist detection includes at least one of: athlete information, healthcare worker information, and stimulant detection task information.

In one possible implementation, the receiving module 501 is further configured to receive a stimulant detection query request, where the stimulant detection query request includes a data identifier of the first data to be queried;

the apparatus further comprises: a verification module 504, configured to verify the validity of the stimulant detection query request;

an obtaining module 505, configured to obtain, according to a data identifier, first data from the blockchain system in response to passing of validity verification of the agonist detection query request.

In the embodiment of the disclosure, the stimulant detection information is written into the blockchain for storage, and the information in the blockchain cannot be changed or illegally destroyed, so that the possibility of manually falsifying or forging the stimulant detection result is reduced, and the authenticity of the stimulant detection result can be ensured.

Any combination of the above-mentioned optional solutions may be adopted to form an optional embodiment of the present disclosure, which is not described herein in detail.

Fig. 11 is a schematic diagram of a computer device provided in an embodiment of the disclosure, where the computer device 600 may have a relatively large difference due to configuration or performance, and may include one or more processors (Central Processing Units, CPU) 601 and one or more memories 602, where the memories 602 store at least one instruction that is loaded and executed by the processor 601 to implement the blockchain-based agonist detection information management method provided in the various method embodiments described above. Of course, the computer device may also have a wired or wireless network interface, a keyboard, an input/output interface, and other components for implementing the functions of the device, which are not described herein.

In an exemplary embodiment, a computer readable storage medium, such as a memory including instructions executable by a processor in a terminal to perform the blockchain-based agonist detection information management method of the above embodiments is also provided. For example, the computer readable storage medium may be Read-Only Memory (ROM), random-access Memory (Random Access Memory, RAM), compact disc Read-Only Memory (CD-ROM), magnetic tape, floppy disk, optical data storage device, etc.

It will be understood by those skilled in the art that all or part of the steps for implementing the above embodiments may be implemented by hardware, or may be implemented by a program for instructing relevant hardware, where the program may be stored in a computer readable storage medium, and the storage medium may be a read-only memory, a magnetic disk or an optical disk, etc.

The foregoing description of the preferred embodiments of the present disclosure is provided for the purpose of illustration only, and is not intended to limit the disclosure to the particular embodiments disclosed, but on the contrary, the intention is to cover all modifications, equivalents, alternatives, and alternatives falling within the spirit and principles of the disclosure.

Claims (7)

1. A method of blockchain-based agonist detection information management, the method comprising:

receiving a stimulant detection information entry request, the stimulant detection information entry request including stimulant detection information of an athlete to be recorded;

generating a first block based on the agonist detection information entry request, the first block for storing the athlete's agonist detection information;

adding the first block to a blockchain system,

before the receiving the agonist detection information entry request, the method further comprises:

Receiving a detection-related information entry request, the detection-related information entry request including information related to a stimulant detection, the information related to a stimulant detection including athlete information, healthcare worker information, and stimulant detection task information, wherein the healthcare worker information and the athlete information are entered prior to the stimulant detection task information, and the stimulant detection task information is generated by selecting healthcare workers and athletes that have completed information entry by a selective manner;

generating a second block based on the stimulant detection information entry request, the second block for storing information related to the stimulant detection;

adding the second block to a blockchain system;

after finishing the stimulant detection task and before receiving the stimulant detection information input request, determining whether the detection personnel and the stimulant detection task are matched according to the identification of the stimulant detection task and the identification of the detection personnel; in response to the inspector and the stimulant inspection task matching, receiving the stimulant inspection information entry request,

the method further comprises the steps of:

receiving a stimulant detection query request, the stimulant detection query request including a data identifier of first data;

Verifying the validity of the stimulant detection inquiry request;

and responding to the validity verification passing of the stimulant detection inquiry request, and acquiring the first data from the blockchain system according to the data identification.

2. The method of claim 1, wherein the generating a first block based on the stimulant detection information entry request comprises:

verifying the validity of the stimulant detection information input request;

the first block is generated based on the athlete's stimulant detection information in response to a verification of validity of the stimulant detection information entry request passing.

3. The method of claim 2, wherein the generating the first block based on the athlete's stimulant detection information comprises:

generating block record data based on the stimulant detection information of the athlete, and transmitting the block record data to a block chain system for consensus in a transaction form;

the first block is generated in response to all nodes of the blockchain system achieving consensus.

4. A method according to any one of claims 1 to 3, wherein the agonist detection information comprises at least one of: collecting information of the stimulant detection sample, transportation information of the stimulant detection sample, storage information of the stimulant detection sample, and result information of the stimulant detection.

5. A blockchain-based stimulant detection information management device, the device comprising:

the system comprises a receiving module, a recording module and a recording module, wherein the receiving module is used for receiving a stimulant detection information recording request, and the stimulant detection information recording request comprises stimulant detection information of an athlete to be recorded;

a generation module for generating a first block based on the stimulant detection information entry request, the first block for storing the stimulant detection information of the athlete;

a storage module for adding the first block to a blockchain system,

the receiving module is further used for receiving a detection related information recording request, the detection related information recording request comprises related information of stimulant detection, the related information of stimulant detection comprises athlete information, medical personnel information and stimulant detection task information, wherein the medical personnel information and the athlete information are recorded before the stimulant detection task information, and the stimulant detection task information is generated by selecting medical personnel and athletes who have completed information recording in a selective mode;

the generating module is further used for generating a second block based on the stimulant detection information input request, and the second block is used for storing related information of the stimulant detection;

The storage module is further configured to add the second block to a blockchain system;

the receiving module is further used for determining whether the detection personnel are matched with the stimulant detection task according to the identification of the stimulant detection task and the identification of the detection personnel after the stimulant detection task is selected and before the stimulant detection information input request is received; receiving the stimulant detection information entry request in response to the detection personnel and the stimulant detection task matching;

receiving a stimulant detection query request, the stimulant detection query request including a data identifier of first data;

the apparatus further comprises:

the verification module is used for verifying the validity of the stimulant detection inquiry request;

and the acquisition module is used for responding to the passing of the validity verification of the stimulant detection inquiry request and acquiring the first data from the blockchain system according to the data identifier.

6. A computer device comprising a processor and a memory having stored therein at least one instruction, at least one program, code set, or instruction set that is loaded and executed by the processor to implement the method of agonist detection information management of any of claims 1 to 4.

7. A computer-readable storage medium having stored therein at least one instruction, at least one program, code set, or instruction set, the at least one instruction, the at least one program, the code set, or instruction set being loaded and executed by a processor to implement the method of stimulant detection information management according to any one of claims 1-4.

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