CN110472377B - Automatic software activation verification method, server, user terminal and system - Google Patents

Abstract

The invention discloses a software automatic activation verification method, a server, a user terminal and a system. The method comprises the following steps: creating a user contract information table, establishing a comparison relation between contract numbers and second equipment identification information, and setting a preset number of activation codes based on the contract numbers; receiving first equipment identification information and second equipment identification information sent by a second server; acquiring the contract number according to the second equipment identification information and the user contract information table; and acquiring the activation code according to the contract number, and randomly distributing one activation code for the user terminal, so as to realize automatic activation of a software system of the user terminal. The invention can automatically complete the software activation verification of the user terminal without inputting any activation code information by the user, and is convenient and quick.

Description

Automatic software activation verification method, server, user terminal and system

Technical Field

The present invention relates to the field of wireless communications technologies, and in particular, to a method, a server, a user terminal, and a system for automatic software activation verification.

Background

Along with the promotion of technological progress and teaching diversification, the information equipment is used for teaching to become a trend, the research on the equipment is gradually increased at home and abroad, the equipment is represented as an electronic schoolbag, the use of the electronic schoolbag enriches the teaching information function, the teaching and learning efficiency is improved, and the burden of students is lightened. With the further development of digital campus construction and the Internet, the teaching application activities based on the electronic schoolbag are favored by more education institutions, teachers and students.

At present, a software product is required to be independently installed on a terminal device by using an electronic schoolbag, when a user installs a software system, the software system generates a registration certificate or a registration code according to key information of a user machine, the user sends the registration certificate to a software provider, the provider generates an activation code through the registration certificate, and then the user can complete authorization of the software system by inputting the activation code on the terminal device, and then can use the software.

Disclosure of Invention

Therefore, the invention aims to provide a software automatic activation verification method, a server, a user terminal and a system, which can enable a user to complete a software activation verification process without inputting any activation code information, and are convenient and quick to use.

Based on the above object, the method for automatically activating and verifying software provided by the invention is applied to a first server and comprises the following steps:

creating a user contract information table, establishing a comparison relation between contract numbers and second equipment identification information, and setting a preset number of activation codes based on the contract numbers; the second equipment identification information comprises equipment identification of the second server;

receiving first equipment identification information and second equipment identification information sent by a second server; the first equipment identification information comprises equipment identification of a user terminal, and the first equipment identification information is sent to the second server by the user terminal;

acquiring the contract number according to the second equipment identification information and the user contract information table;

and acquiring the activation code according to the contract number, and randomly distributing one activation code for the user terminal.

Preferably, the acquiring the activation code according to the contract number includes: acquiring the number of the activation codes, and if the number of the activation codes is larger than zero, randomly distributing the activation codes to the user terminal; and if the number of the activation codes is equal to zero, returning software activation verification failure information.

Preferably, after said randomly assigning said activation code to said ue, the method further comprises: and generating software activation success information, sending the software activation success information to the user terminal, and storing the first equipment identification information.

Preferably, the first device identification information includes a MAC address of the user terminal, and the second device identification information includes a MAC address of the second server.

The invention also provides a software automatic activation verification method which is applied to the second server and comprises the following steps:

receiving first equipment identification information sent by a user terminal, wherein the first equipment identification information comprises equipment identification of the user terminal;

acquiring second equipment identification information, and transmitting the first equipment identification information and the second equipment identification information to a first server; and enabling the first server to acquire a contract number according to the second equipment identification information and a user contract information table, acquiring an activation code according to the contract number, and randomly distributing one activation code for the user terminal.

The invention also provides a software automatic activation verification method which is applied to the user terminal and comprises the following steps:

acquiring first equipment identification information and sending the first equipment identification information to a second server; the second server generates second equipment identification information and sends the first equipment identification information and the second equipment identification information to the first server; and enabling the first server to acquire a contract number according to the second equipment identification information and a user contract information table, acquiring an activation code according to the contract number, and randomly distributing one activation code for the user terminal.

The invention proposes a server comprising:

the creating module is used for creating a user contract information table, creating a comparison relation between contract numbers and second equipment identification information, and setting a preset number of activation codes based on the contract numbers; the second equipment identification information comprises equipment identification of the second server;

the first receiving module is used for receiving the first equipment identification information and the second equipment identification information sent by the second server; the first equipment identification information comprises equipment identification of a user terminal, and the first equipment identification information is sent to the second server by the user terminal;

the first acquisition module is used for acquiring the contract number according to the second equipment identification information and the user contract information table;

and the distribution module is used for acquiring the activation codes according to the contract numbers and randomly distributing one activation code for the user terminal.

The invention also provides a micro cloud server, which comprises:

the second receiving module is used for receiving first equipment identification information sent by the user terminal, wherein the first equipment identification information comprises equipment identification of the user terminal;

the sending module is used for obtaining second equipment identification information and sending the first equipment identification information and the second equipment identification information to a first server; and enabling the first server to acquire a contract number according to the second equipment identification information and a user contract information table, acquiring an activation code according to the contract number, and randomly distributing one activation code for the user terminal.

The invention also provides a user terminal, which comprises:

the second acquisition module is used for acquiring first equipment identification information, generating a software activation request according to the first equipment identification information and sending the software activation request to a second server; the second server generates second equipment identification information and sends the first equipment identification information and the second equipment identification information to the first server; and enabling the first server to acquire a contract number according to the second equipment identification information and a user contract information table, acquiring an activation code according to the contract number, and randomly distributing one activation code for the user terminal.

The invention also provides a software automatic activation verification system, which comprises:

the server according to any one of the preceding claims, the micro cloud server according to any one of the preceding claims, and at least one user terminal according to any one of the preceding claims.

From the above, it can be seen that the software system installed in the user terminal can automatically perform the activation verification of the software system, and the method, the server, the user terminal and the system for automatically activating and verifying the software system do not need to manually input the activation code returned by the server into the software for verification as in the traditional software verification method, so that the software activation step is simplified, the operation of the user is facilitated, and the user experience is better.

Drawings

FIG. 1 is a flowchart of a software automatic activation verification method according to an embodiment of the present invention;

FIG. 2 is a flowchart of a method for verifying automatic activation of software on a second server according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a first server according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of a second server according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a software automatic activation verification system according to an embodiment of the present invention.

Detailed Description

The present invention will be further described in detail below with reference to specific embodiments and with reference to the accompanying drawings, in order to make the objects, technical solutions and advantages of the present invention more apparent.

It should be noted that, in the embodiments of the present invention, all the expressions "first" and "second" are used to distinguish two entities with the same name but different entities or different parameters, and it is noted that the "first" and "second" are only used for convenience of expression, and should not be construed as limiting the embodiments of the present invention, and the following embodiments are not described one by one.

FIG. 1 is a flow chart of a software auto-activation verification method according to the present invention. The embodiment of the invention provides a software automatic activation verification method which is applied to a first server and comprises the following steps:

s101, creating a user contract information table, building a comparison relation between contract numbers and second equipment identification information, and setting a preset number of activation codes based on the contract numbers; the second device identification information includes a device identification of the second server.

Preferably, a user contract information table can be directly created in a database of the first server, a comparison relation between contract numbers and second equipment identification information is established, and a preset number of activation codes are set based on the contract numbers; the user contract information including the contract number, the second device identification information, the activation code, and the like may also be directly imported into the user contract information table in the database.

Preferably, the second device identification information may include a MAC address of the second server, for implementing a unique identification of the second server.

In a specific embodiment, the first server is a cloud management platform, and the second server is a micro cloud server capable of supporting multiple protocols for information transmission, including the MQTT protocol.

Further, the electronic schoolbag device needs to be deployed, and the electronic schoolbag device comprises a router, a second server (i.e. a micro cloud server) and at least one terminal device, wherein the terminal device is provided with a software system to be activated, and the terminal device is in network communication connection with the second server through the router.

S102, receiving first equipment identification information and second equipment identification information sent by a second server; the first device identification information includes a device identification of the user terminal, and the first device identification information is transmitted by the user terminal to the second server.

When the software activation operation is to be performed, a user opens a software activation interface on the user terminal, and at this time, the user terminal equipment acquires the first equipment identification information of the user terminal equipment and sends the first equipment identification information to the second server through the MQTT protocol. Specifically, the first device identification information may include a MAC address of the user terminal, to implement unique identification of the user terminal.

After receiving the first equipment identification information sent by the user terminal, the second server acquires the second equipment identification information of the local equipment, and uploads the first equipment identification and the second equipment identification information to the first server through an interface.

S103, acquiring the contract number according to the second equipment identification information and the user contract information table.

After receiving the first equipment identification information and the second equipment identification information sent by the second server, the first server retrieves the second equipment identification information in a user contract information table in a database and judges whether the second equipment identification information exists in the user contract information table; if so, acquiring a corresponding contract number according to the second equipment identification information.

S104, acquiring the activation code according to the contract number, and randomly distributing one activation code for the user terminal.

Preferably, after the corresponding contract number is obtained, the number of the activation codes corresponding to the contract number is searched first, if the number of the activation codes is greater than zero, the activation codes are randomly allocated to the user terminal, and at this time, the activation of the software installed on the user terminal is completed. If the number of the activation codes is equal to zero, returning software activation verification failure information, wherein the software activation is unsuccessful, and the user terminal receives corresponding activation failure prompt information.

Further, after randomly assigning an activation code to the ue, the method further includes: and generating software activation success information and sending the information to the user terminal, wherein the software activation is successful and can be normally used.

Preferably, the first server stores the first device identification information in its own database. When the user terminal which is activated to become functional uninstalls the software system due to other reasons, the software system is required to be reinstalled and an activation request is sent out later, at the moment, the user terminal can resend the first equipment identification information, the first server can search in the database after receiving the first equipment identification information, if the database has the first equipment identification information, the activation code cannot be reassigned, and the user terminal is directly enabled to be successfully activated, so that the situation that a certain user terminal is repeatedly uninstalled, installed and activated to consume more activation codes due to the fact that the software system is repeatedly uninstalled and activated is caused to consume more activation codes is avoided, and activation failure is caused by the fact that other user terminals are not assigned with the activation codes during verification.

In an alternative embodiment, a window for inputting an activation code can be reserved on a software system installed on the user terminal, meanwhile, the first server can send the activation code to the user terminal after the activation code is allocated, and a user can input the activation code on the user terminal to perform activation verification on the software system, so that the software system can be activated automatically or manually, and the requirements of different situations are met.

In other embodiments, the method for verifying automatic activation of software according to the embodiments of the present invention is applied to a second server, and as shown in fig. 2, the method includes:

s201, first equipment identification information sent by a user terminal is received, wherein the first equipment identification information comprises equipment identification of the user terminal.

Specifically, the first device identifier may include a MAC address of the user terminal, which is used to implement the unique identifier of the user terminal.

S202, acquiring second equipment identification information, and transmitting the first equipment identification information and the second equipment identification information to a first server; and enabling the first server to acquire a contract number according to the second equipment identification information and a user contract information table, acquiring an activation code according to the contract number, and randomly distributing one activation code for the user terminal.

Preferably, the second device identification information may include a MAC address of the second server, for implementing a unique identification of the second server. After receiving the first equipment identification information and the second equipment identification information sent by the second server, the first server retrieves the second equipment identification information in a user contract information table in a database and judges whether the second equipment identification information exists in the user contract information table; if so, acquiring a corresponding contract number according to the second equipment identification information. After the corresponding contract number is obtained, the first server firstly searches the number of the activation codes corresponding to the contract number, if the number of the activation codes is larger than zero, the activation codes are randomly distributed to the user terminal, and at the moment, the activation of the software installed on the user terminal is completed. If the number of the activation codes is equal to zero, returning software activation verification failure information, wherein the software activation is unsuccessful, and the user terminal receives corresponding activation failure prompt information.

Further, after the first server allocates an activation code to the user terminal, the software activation success information is generated and sent to the user terminal, and meanwhile, the first device identification information is stored.

In other embodiments, the present invention further provides a software automatic activation verification method, applied to a user terminal, where the method includes:

acquiring first equipment identification information, generating a software activation request according to the first equipment identification information, and sending the software activation request to a second server; the second server generates second equipment identification information and sends the first equipment identification information and the second equipment identification information to the first server; and enabling the first server to acquire a contract number according to the second equipment identification information and a user contract information table, acquiring an activation code according to the contract number, and randomly distributing one activation code for the user terminal.

The embodiment of the invention also provides a server, referring to fig. 3, the server includes:

the creating module 11 is configured to create a user contract information table, establish a comparison relationship between a contract number and second device identification information, and set a preset number of activation codes based on the contract number; the second device identification information includes a device identification of the second server.

A first receiving module 12, configured to receive the first device identification information and the second device identification information sent by the second server; the first equipment identification information comprises equipment identification of a user terminal, and the first equipment identification information is contained in a software activation request sent to the second server by the user terminal;

a first obtaining module 13, configured to obtain the contract number according to the second device identification information and the user contract information table.

And the allocation module 14 is configured to obtain the activation code according to the contract number, and allocate one activation code to the user terminal randomly.

In a specific embodiment, the server described in the foregoing embodiment is a cloud server.

Preferably, the allocation module 14 is further configured to implement: acquiring the number of the activation codes, and if the number of the activation codes is larger than zero, randomly distributing the activation codes to the user terminal; and if the number of the activation codes is equal to zero, returning software activation verification failure information.

Preferably, the allocation module 14 is further configured to implement: after the activation code is randomly allocated to the user terminal, the method further comprises the steps of generating software activation success information, sending the software activation success information to the user terminal, and storing the first equipment identification information.

Preferably, the first device identification information includes a MAC address of the user terminal, and the second device identification information includes a MAC address of the second server.

In other embodiments, the present invention further provides a micro cloud server, as shown in fig. 4, including:

a second receiving module 21, configured to receive a software activation request sent by a user terminal; the software activation request comprises first equipment identification information, wherein the first equipment identification information comprises equipment identification of the user terminal;

a sending module 22, configured to obtain second device identification information, and send the first device identification information and the second device identification information to a first server; and enabling the first server to acquire a contract number according to the second equipment identification information and a user contract information table, acquiring an activation code according to the contract number, and randomly distributing one activation code for the user terminal.

The embodiment of the invention also provides a user terminal, which comprises:

the second acquisition module is used for acquiring first equipment identification information, generating a software activation request according to the first equipment identification information and sending the software activation request to a second server; the second server generates second equipment identification information and sends the first equipment identification information and the second equipment identification information to the first server; and enabling the first server to acquire a contract number according to the second equipment identification information and a user contract information table, acquiring an activation code according to the contract number, and randomly distributing one activation code for the user terminal.

Referring to fig. 5, an embodiment of the present invention further provides a software automatic activation verification system, which includes:

the server 30 according to any one of the above embodiments, the micro cloud server 31 according to any one of the above embodiments, and at least one of the user terminals 32 according to any one of the above embodiments.

In another embodiment, a server in the software auto-activation verification system may be in communication with a plurality of micro cloud servers, each of which may be in communication with a plurality of user terminals.

According to the software automatic activation verification method, the server, the user terminal and the system, the software system installed in the user terminal can automatically perform activation verification of the software system, the user is not required to manually input the activation code returned by the server into the software for verification as in the traditional software verification method, the software activation step is simplified, convenience and rapidness are achieved, the user operation is facilitated, and better user experience is achieved.

Those of ordinary skill in the art will appreciate that: the discussion of any of the embodiments above is merely exemplary and is not intended to suggest that the scope of the disclosure, including the claims, is limited to these examples; the technical features of the above embodiments or in the different embodiments may also be combined within the idea of the invention, the steps may be implemented in any order and there are many other variations of the different aspects of the invention as described above, which are not provided in detail for the sake of brevity.

The embodiments of the invention are intended to embrace all such alternatives, modifications and variances which fall within the broad scope of the appended claims. Therefore, any omission, modification, equivalent replacement, improvement, etc. of the present invention should be included in the scope of the present invention.

Claims (10)

1. A method for automatically activating and verifying software, which is applied to a first server, comprising:

creating a user contract information table, establishing a comparison relation between contract numbers and second equipment identification information, and setting a preset number of activation codes based on the contract numbers; the second equipment identification information comprises equipment identification of a second server;

receiving first equipment identification information and second equipment identification information sent by a second server; the first equipment identification information comprises equipment identification of a user terminal, and the first equipment identification information is sent to the second server by the user terminal;

acquiring the contract number according to the second equipment identification information and the user contract information table;

and acquiring the activation code according to the contract number, and randomly distributing one activation code for the user terminal.

2. The method of claim 1, wherein the obtaining the activation code according to the contract number comprises: acquiring the number of the activation codes, and if the number of the activation codes is larger than zero, randomly distributing the activation codes to the user terminal; and if the number of the activation codes is equal to zero, returning software activation verification failure information.

3. The method for automatically activating and verifying software according to claim 2, wherein after said randomly assigning one of said activation codes to said user terminal, further comprising: and generating software activation success information, sending the software activation success information to the user terminal, and storing the first equipment identification information.

4. The software auto-activation verification method according to claim 1, wherein the first device identification information includes a MAC address of the user terminal, and the second device identification information includes a MAC address of the second server.

5. A method for automatically activating and verifying software, which is applied to a second server, comprising:

receiving first equipment identification information sent by a user terminal, wherein the first equipment identification information comprises equipment identification of the user terminal;

acquiring second equipment identification information, and transmitting the first equipment identification information and the second equipment identification information to a first server; the first server obtains a contract number according to the second equipment identification information and a user contract information table, obtains an activation code according to the contract number, and randomly distributes one activation code for the user terminal; the method comprises the steps that a first server creates a user contract information table, a comparison relation between contract numbers and second equipment identification information is established, and a preset number of activation codes are set based on the contract numbers; the second device identification information includes a device identification of a second server.

6. A method for automatically activating and verifying software, which is applied to a user terminal, comprising:

acquiring first equipment identification information and sending the first equipment identification information to a second server; the second server generates second equipment identification information and sends the first equipment identification information and the second equipment identification information to the first server; the first server obtains a contract number according to the second equipment identification information and a user contract information table, obtains an activation code according to the contract number, and randomly distributes one activation code for the user terminal;

the method comprises the steps that a first server creates a user contract information table, a comparison relation between contract numbers and second equipment identification information is established, and a preset number of activation codes are set based on the contract numbers; the second device identification information includes a device identification of a second server.

7. A server, comprising:

the creating module is used for creating a user contract information table, creating a comparison relation between contract numbers and second equipment identification information, and setting a preset number of activation codes based on the contract numbers; the second equipment identification information comprises equipment identification of a second server;

the first receiving module is used for receiving the first equipment identification information and the second equipment identification information sent by the second server; the first equipment identification information comprises equipment identification of a user terminal, and the first equipment identification information is sent to the second server by the user terminal;

the first acquisition module is used for acquiring the contract number according to the second equipment identification information and the user contract information table;

and the distribution module is used for acquiring the activation codes according to the contract numbers and randomly distributing one activation code for the user terminal.

8. A micro cloud server, comprising:

the second receiving module is used for receiving first equipment identification information sent by the user terminal, wherein the first equipment identification information comprises equipment identification of the user terminal;

the sending module is used for obtaining second equipment identification information and sending the first equipment identification information and the second equipment identification information to a first server; the first server obtains a contract number according to the second equipment identification information and a user contract information table, obtains an activation code according to the contract number, and randomly distributes one activation code for the user terminal; the method comprises the steps that a first server creates a user contract information table, a comparison relation between contract numbers and second equipment identification information is established, and a preset number of activation codes are set based on the contract numbers; the second device identification information includes a device identification of a second server.

9. A user terminal, comprising:

the second acquisition module is used for acquiring first equipment identification information, generating a software activation request according to the first equipment identification information and sending the software activation request to a second server; the second server generates second equipment identification information and sends the first equipment identification information and the second equipment identification information to the first server; the first server obtains a contract number according to the second equipment identification information and a user contract information table, obtains an activation code according to the contract number, and randomly distributes one activation code for the user terminal; the method comprises the steps that a first server creates a user contract information table, a comparison relation between contract numbers and second equipment identification information is established, and a preset number of activation codes are set based on the contract numbers; the second device identification information includes a device identification of a second server.

10. A software auto-activation verification system, comprising:

the server of claim 7, the micro cloud server of claim 8, and at least one user terminal of claim 9.