CN114024881A - Hardware identification method and system of IP protocol simulation tester - Google Patents

Abstract

The application discloses a hardware identification method and a system of an IP protocol simulation tester, wherein the method comprises the following steps: acquiring first verification result information in the dongle; acquiring second checking result information in the license file; acquiring third checking result information in the IP protocol simulation tester; judging whether the first check result information, the second check result information and the third check result information are matched or not and obtaining a first judgment result; and identifying hardware of the IP protocol simulation tester based on the first judgment result. According to the method and the system, the authentication of the IP protocol simulation tester copied to the extra IP protocol simulation tester fails through hardware identification, the loss of equipment manufacturers is reduced, and the service specification of the authorized IP protocol simulation tester is controlled through the service specification.

Description

Hardware identification method and system of IP protocol simulation tester

Technical Field

The invention relates to the field of tester identification, in particular to a hardware identification method and a hardware identification system of an IP protocol simulation tester.

Background

At present, an IP protocol simulation tester is an electronic measurement instrument in the technical field of electronics and communications, and is mainly used for testing an IP network, and is a device capable of detecting the operating conditions of a physical layer, a data link layer, and a network layer defined by an OSI model.

The traditional IP protocol simulation tester generally uses software license document to identify hardware, and when a user purchases one IP protocol simulation tester, a set of software license document is used for license identification and authentication.

In the related technology, a user can apply a set of license files to a plurality of IP protocol simulation testers, namely, the software of the testers is copied to a server to run privately, so that the user can identify and authenticate the plurality of IP protocol simulation testers through the set of license files, and great loss is caused to equipment manufacturers.

Disclosure of Invention

In order to solve the problem that a user privately copies tester software to a server to run so as to cause loss of equipment manufacturers, the application provides a hardware identification method and a hardware identification system of an IP protocol simulation tester.

The hardware identification method and system for the IP protocol simulation tester adopt the following technical scheme:

the hardware identification method of the IP protocol simulation tester comprises the following steps:

acquiring first verification result information in the dongle;

acquiring second checking result information in the license file;

acquiring third checking result information in the IP protocol simulation tester;

judging whether the first verification result information, the second verification result information and the third verification result information are matched or not and obtaining a first judgment result;

and identifying hardware of the IP protocol simulation tester based on the first judgment result.

By adopting the technical scheme, the IP protocol simulation tester is subjected to hardware identification by judging whether the first check result information, the second check result information and the third check result information are matched, when a user privately copies the software of the IP protocol simulation tester to a server and operates behaviors such as identification and authentication on a plurality of IP protocol simulation testers, the authentication of the extra IP protocol simulation tester copied by the hardware identification is failed, and the loss of equipment manufacturers is reduced.

Optionally, the method further includes:

judging whether the first check result information and the second check result information are matched or not and obtaining a second judgment result;

and controlling the service specification of the IP protocol simulation tester based on the second judgment result.

By adopting the technical scheme, whether the first check result information is matched with the second check result information can be judged, so that the service specification control of the IP protocol simulation tester is realized.

Optionally, the obtaining the first verification result information in the dongle includes:

establishing the connection between the dongle and the IP protocol simulation tester;

and acquiring first verification result information in the dongle.

By adopting the technical scheme, the connection between the dongle and the IP protocol simulation tester is established, so that the dongle can carry out data circulation with the IP protocol tester.

Optionally, the establishing of the connection between the dongle and the IP protocol simulation tester includes:

judging whether the dongle is in place;

if not, stopping the installation of the license file;

if yes, judging whether the dongle corresponds to the current IP protocol simulation tester;

if not, forbidding the use of the IP protocol simulation tester for simulation test;

if yes, establishing the connection between the dongle and the IP protocol simulation tester.

By adopting the technical scheme, whether the dongle is in place or not is judged, if so, whether the in-place dongle corresponds to the current IP protocol simulation tester or not is judged, and the connection between the dongle and the IP protocol simulation tester is established after double judgment.

Optionally, the obtaining of the second verification result information in the license file includes:

loading the license file in the IP protocol simulation tester;

and acquiring a second check result based on the license file.

By adopting the technical scheme, the license file is loaded, so that the corresponding second check result information can be obtained from the license file, and the license file is not installed in the IP protocol simulation tester in the loading file, but the corresponding second check result is obtained from the license file.

Optionally, the first verification result information, the second verification result information, and the third verification result information all include hardware identification information of the IP protocol simulation tester,

and the hardware identification of the IP protocol emulation tester based on the first determination result includes:

judging whether the hardware identification information of the first verification result information, the hardware identification information of the second verification result information and the hardware identification information of the third verification result information are the same or not;

if the license file is different from the license file, stopping the installation of the license file;

and if the license file is the same as the license file, installing the license file in the IP protocol simulation tester.

By adopting the technical scheme, the hardware identification information of the first verification result information, the hardware identification information of the second verification result information and the hardware identification information of the third verification result information can be judged, and whether the license file is installed or not is determined according to the judgment result, so that the hardware identification of the license file in the IP protocol simulation tester is completed.

Optionally, the first verification result information and the second verification result information further include software identification information of the IP protocol simulation tester, and determining whether the first verification result information and the second verification result information are matched and obtaining a second determination result includes:

judging whether the software identification information of the first verification result information is the same as the software identification information of the second verification result information;

if the license file is the same as the service file, installing the license file in the IP protocol simulation tester and acquiring the service specification information in the dongle;

performing service specification control on the IP protocol simulation tester based on the service specification information;

and if the license file is different from the license file, stopping the installation of the license file.

By adopting the technical scheme, whether the software identification in the first check result information is the same as the software identification information in the second check result information is judged, so that the service specification control can be carried out on the IP protocol simulation tester, and when a user copies the software of the IP protocol simulation tester to a server privately and the number of service network cards is increased by carrying out identification authentication and other actions on a plurality of IP protocol simulation testers, the service specification control can be carried out on the IP protocol simulation tester through the software identification.

Optionally, the performing, based on the service specification information, service specification control on the IP protocol simulation tester includes:

transmitting the service specification information to the IP protocol simulation tester;

and controlling the authorized use specification of the IP protocol simulation tester based on the service specification information.

By adopting the technical scheme, the obtained service specification information is transmitted to the IP protocol simulation tester, so that the IP simulation tester can operate according to the service specification.

A hardware identification system for an IP protocol emulation tester, comprising:

the information acquisition module is used for acquiring first verification result information in the dongle, second verification result information in the license file and third verification result information in the IP protocol simulation tester;

the first information judgment module is used for judging whether the first verification result information, the second verification result information and the third verification result information are matched and obtaining a first judgment result;

and the hardware identification module is used for carrying out hardware identification on the IP protocol simulation tester based on the judgment result.

And the service specification control module is used for controlling the service specification of the IP protocol simulation tester based on the judgment result.

By adopting the technical scheme, the information comparison module acquires first verification result information in the dongle, second verification result information in the license file and third verification result information in the IP protocol simulation tester; the first information judgment module judges whether the first check result information, the second check result information and the third check result information are matched and obtains a judgment result, the hardware identification module carries out hardware identification on the IP protocol simulation tester based on the judgment result, and the service specification control module carries out service specification control on the IP protocol simulation tester based on the judgment result.

In summary, the present application includes at least one of the following beneficial technical effects:

1. hardware identification is carried out on the IP protocol simulation tester by judging whether the first check result information, the second check result information and the third check result information are matched, when a user privately copies IP protocol simulation tester software to a server to operate behaviors such as identification and authentication to a plurality of IP protocol simulation testers, the authentication of the extra IP protocol simulation tester copied to the server fails through the hardware identification, and the loss of equipment manufacturers is reduced;

2. and when a user copies IP protocol simulation tester software to a server privately and operates to increase the number of service network cards for behaviors such as identification and authentication of a plurality of IP protocol simulation testers, the service specification of the IP protocol simulation tester can be controlled through software identification.

Drawings

FIG. 1 is a schematic flow chart diagram illustrating an embodiment of a hardware identification and service specification control method for an IP protocol emulation tester according to the present invention;

FIG. 2 is a schematic flowchart of step S1100 in an embodiment of a method for hardware identification and business specification control of an IP protocol emulation tester according to the present invention;

fig. 3 is a schematic flowchart of step S2100 in an embodiment of the hardware identification and service specification control method for an IP protocol emulation tester according to the present application;

fig. 4 is a schematic flowchart of step S1200 in an embodiment of the method for hardware identification and service specification control of an IP protocol emulation tester according to the present application;

fig. 5 is a schematic flowchart of step S1300 in an embodiment of the method for hardware identification and service specification control of an IP protocol emulation tester according to the present application;

FIG. 6 is a flowchart illustrating a step S1500 in an embodiment of a method for hardware identification and business specification control of an IP protocol emulation tester according to the present invention;

FIG. 7 is a flowchart illustrating the steps of performing business specification control on an IP protocol emulation tester based on the determination result in an embodiment of the method for hardware identification and business specification control of an IP protocol emulation tester according to the present application;

fig. 8 is a schematic flowchart of step S7200 in an embodiment of the method for hardware identification and service specification control of the IP protocol emulation tester of the present application.

Detailed Description

The present application is described in further detail below with reference to the attached drawings.

The embodiment of the application discloses a hardware identification and service specification control method and system of an IP protocol simulation tester.

Referring to fig. 1, a hardware identification and service specification control method of an IP protocol emulation tester includes the following steps:

s1100, first verification result information in the dongle is obtained.

The dongle is a software and hardware encryption product for computers, industrial personal computers, cloud systems and the like, and software and hardware developers manage the authorization of the software and hardware through the dongle, so that unauthorized use is prevented or piracy threats are resisted. In the embodiment of the application, the dongle is inserted in the IP protocol simulation tester, and the data exchange between the dongle and the IP protocol simulation tester is performed through a port in the IP protocol simulation tester, so that the IP protocol simulation tester can obtain the first verification result information in the dongle, and the first verification result information is encrypted by the dongle, and if there is no corresponding decryption measure and means, the first verification result information cannot be obtained or known.

S1200, acquiring second checking result information in the license file.

The license file comprises second check result information special for identifying the IP protocol simulation tester, the second check result information is obtained after the license file is loaded, the license file is not installed when the license file is loaded, and only the second check result information in the license file can be obtained at the moment.

And S1300, acquiring third verification result information in the IP protocol simulation tester.

The third verification result information in the IP protocol simulation tester is set as a serial number of the IP protocol simulation tester in this embodiment, and the third verification result information may also be an equipment information code, a factory serial number, and the like in other embodiments.

S1400, whether the first verification result information, the second verification result information and the third verification result information are matched or not is judged, and a first judgment result is obtained.

And judging whether the first check result information, the second check result information and the third check result information are matched, and identifying the hardware when the first check result information, the second check result information and the third check result information are matched.

S1500, hardware identification is carried out on the IP protocol simulation tester based on the first judgment result.

In the embodiment of the application, hardware identification is performed on the IP protocol simulation tester based on the first judgment result, so that the problem of corresponding hardware identification is solved, a set of license files are prevented from being used on a plurality of IP protocol simulation testers, and the loss of equipment suppliers is reduced.

The implementation principle of the hardware identification method of the IP protocol simulation tester in the embodiment of the application is as follows: and hardware identification is carried out on the IP protocol simulation tester by judging whether the first check result information, the second check result information and the third check result information are matched, when a user privately copies the software of the IP protocol simulation tester to a server and operates behaviors such as identification and authentication on a plurality of IP protocol simulation testers, the authentication of the IP protocol simulation tester copied to the extra IP protocol simulation tester fails through the hardware identification, and the loss of equipment manufacturers is reduced.

Referring to fig. 2, the hardware identification and service specification control method of the IP protocol emulation tester further includes the following steps:

s2100, judging whether the first checking result information and the second checking result information are matched and obtaining a second judgment result.

The first check result information and the second check result information also comprise information related to business specification control, and the business specification is controlled when judging whether the first check result information is matched with the second result information.

S2200, controlling the service specification of the IP protocol simulation tester based on the second judgment result.

The implementation principle of the service specification control method of the IP protocol simulation tester in the embodiment of the present application is further: and performing service specification control on the IP protocol simulation tester by judging whether the first check result information is matched with the second check result information.

Referring to fig. 3, acquiring first verification result information in the dongle includes the following steps:

s3100, establishing a connection between the dongle and the IP protocol simulation tester.

In the embodiment of the application, when a user receives the IP protocol simulation tester, the dongle is inserted into the IP protocol simulation tester in advance.

S3200, obtaining first verification result information in the dongle.

The first verification result information comprises hardware identification information of the IP protocol simulation tester, so that the IP protocol simulation tester can identify hardware through the first verification structure information.

The implementation principle of acquiring the first verification result information in the dongle is as follows: and establishing a connection between the dongle and the IP protocol simulation tester, so that corresponding first verification result information can be obtained from the dongle.

Referring to fig. 4, the establishment of the connection between the dongle and the IP protocol simulation tester includes the following steps:

s4100, judging whether the dongle is in place.

Judging whether the dongle is in place or not is to judge whether a data relationship is established between the dongle and the IP protocol simulation tester or not, or whether the IP protocol simulation tester can perform data transmission with the dongle to obtain encryption information contained in the dongle.

S4200, if not, the license file installation is stopped.

If the dongle is not in place, the dongle is not the dongle corresponding to the IP protocol simulation tester or the dongle is not inserted in the IP protocol simulation tester, that is, the IP protocol simulation tester cannot establish contact with the dongle, the IP protocol simulation tester cannot obtain the first verification result information from the dongle, and at this time, the installation of the license file is stopped.

S4300, if yes, judging whether the dongle corresponds to the current IP protocol simulation tester.

In the embodiment, one dongle is corresponding to a unique IP protocol simulation tester, and when the judgment result is yes, that is, the dongle is in place, whether the dongle in place corresponds to the current IP protocol simulation tester is judged again.

S4400, if not, forbidding to use the IP protocol simulation tester to carry out simulation test.

And when the judgment result is negative, the judgment result indicates that the current dongle is not the dongle corresponding to the current IP protocol simulation tester and is a dongle error used by the user or the dongle corresponding to other IP protocol simulation testers used by the user, and the simulation test by using the IP protocol simulation tester is forbidden.

And S4500, if so, establishing the connection between the dongle and the IP protocol simulation tester.

And when the judgment result is yes, establishing the contact between the dongle and the IP protocol simulation tester, namely the dongle is in place, and if the dongle is the dongle corresponding to the IP protocol simulation tester, establishing the contact between the dongle and the IP protocol simulation tester so that the IP protocol simulation tester can perform simulation test.

The implementation principle of establishing the connection between the dongle and the IP protocol simulation tester in the embodiment of the application is as follows: whether the dongle is in place or not is judged, whether the dongle is the dongle corresponding to the current IP protocol simulation tester or not is judged when the dongle is in place, the contact of the IP protocol simulation tester is established when the dongle is the dongle corresponding to the current IP protocol simulation tester, and the simulation test of the IP protocol simulation tester is forbidden when the IP protocol simulation tester corresponding to the dongle is used.

Referring to fig. 5, acquiring second verification result information in the license file includes the following steps:

s5100, loading a license file in the IP protocol simulation tester.

The license file is not installed in the IP protocol simulation tester when being loaded and is only used for acquiring second checking result information in the license file, the license file is loaded to log in the tester through a web UI or a client, the web UI is an interaction website designed corresponding to the IP protocol simulation tester and is used for carrying out related data interaction with the IP protocol simulation tester in a networking state, and the client is a client corresponding to the IP protocol simulation tester and is also used for carrying out data interaction with the IP protocol simulation tester and controlling the IP protocol simulation tester to carry out related actions. Logging in an IP protocol simulation tester through a web UI or a client, then uploading a license file to the IP protocol simulation tester, and decoding the license file after the license file is received by the IP protocol simulation tester to obtain authentication information in the license file.

S5200, acquiring second check result information in the license file.

The second check result information comprises hardware identification information of the IP protocol simulation tester, so that hardware identification can be carried out through the second check result information in the license.

The implementation principle of acquiring the second check result information in the license file in the embodiment of the application is as follows: and uploading the license file to an IP protocol simulation tester through a web UI or a client, and decoding the license file to obtain second checking result information in the license file.

Referring to fig. 6, the first verification result information, the second verification result information, and the third verification result information each include hardware identification information of the IP protocol simulation tester, and the hardware identification of the IP protocol simulation tester based on the first determination result includes the following steps:

s6100 determines whether the hardware identification information of the first verification result information, the hardware identification information of the second verification result information, and the hardware identification information of the third verification result information are the same.

The third verification result information is hardware identification information representing uniqueness of the IP protocol simulation tester, which is carried by the IP protocol simulation tester from factory, in the application, the third verification result information is a serial number of the IP protocol simulation tester, and in other embodiments, the third verification result information can be other identification information such as an equipment information code.

S6200, if the answer is different, the license file is stopped to be installed.

The IP protocol simulation tester cannot be used continuously after installation of the license file is stopped or part of functional modules of the IP protocol simulation tester after installation of the license file is stopped are limited to be used, so that loss of equipment manufacturers producing the IP protocol simulation tester is reduced.

And S6300, if the two are the same, installing a license file in the IP protocol simulation tester.

The implementation principle of hardware identification of the IP protocol simulation tester based on the judgment result in the embodiment of the application is as follows: and judging whether the hardware identification information in the first verification result information, the hardware identification information in the second verification result information and the hardware identification information in the third verification result information are the same or not, thereby performing hardware judgment on the IP protocol simulation tester.

Referring to fig. 7, the first verification result information and the second verification result information further include software identification information of the IP protocol simulation tester, and the service specification control of the IP protocol simulation tester based on the determination result includes the following steps:

s7100, judging whether the software identification information of the first checking result information is the same as the software identification information of the second checking result information.

And software identification information for software identification is arranged in the first verification result information and the second verification result information, and software authentication is carried out on the IP protocol simulation tester when the software identification information of the first verification result information and the software identification information of the second verification result information are the same.

And S7200, if the two are the same, installing license files in the IP protocol simulation tester and acquiring the service specification information in the dongle.

The service specification information in the dongle comprises the network card type, the number of network ports, the supported functional characteristics, the maximum performance specification and the like supported by the IP protocol simulation tester, and can be acquired only when the software identification information in the first verification result information and the second verification result information are the same, and the service specification information is encrypted by the dongle and is in an encrypted state before the acquisition.

S7300, controlling the service specification of the IP protocol simulation tester based on the service specification information.

The service specification control of the IP protocol emulation tester based on the service specification information includes authorizing the corresponding IP protocol emulation tester to open the corresponding functional module and acquiring the corresponding information in the service specification range, for example, acquiring the information of the corresponding supported network card type, the information of the number of network ports and the information of the supported functional characteristics based on the service specification information, and the service specification ranges of different IP protocol emulation testers are different.

And S7400, if the difference is not the same, stopping the installation of the license file.

The implementation principle of the embodiment of the application for controlling the service specification of the IP protocol simulation tester based on the judgment result is as follows: and performing service specification control on the IP protocol simulation tester by judging whether the software identification information in the first check result information is the same as the software identification information in the second check result information, and performing service specification control on the IP protocol simulation tester only when the software identification information in the first check result information is the same as the software identification information in the second check result information.

Referring to fig. 8, the service specification control of the IP protocol emulation tester based on the service specification information includes the following steps:

and S8100, transmitting the service specification information to an IP protocol simulation tester.

S8200, controlling the authorized use specification of the IP protocol simulation tester based on the service specification information.

The implementation principle of the embodiment of the application for controlling the service specification of the IP protocol simulation tester based on the service specification information is as follows: and transmitting the encrypted service specification information in the dongle to the IP protocol simulation tester, so that the IP protocol simulation tester can open the corresponding service specification according to the service specification information.

A hardware identification system for an IP protocol emulation tester, comprising: the information acquisition module is used for acquiring first verification result information in the dongle, second verification result information in the license file and third verification result information in the IP protocol simulation tester;

the first information judgment module is used for judging whether the first verification result information, the second verification result information and the third verification result information are matched and obtaining a judgment result;

the hardware identification module is used for identifying hardware of the IP protocol simulation tester based on the judgment result;

and the service specification control module is used for controlling the service specification of the IP protocol simulation tester based on the judgment result.

The implementation principle of the hardware identification and service specification control method and system of the IP protocol simulation tester in the embodiment of the application is as follows: the information comparison module acquires first verification result information in the dongle, second verification result information in the license file and third verification result information in the IP protocol simulation tester; and the information comparison module is used for judging whether the first check result information, the second check result information and the third check result information are matched and obtaining a judgment result, the hardware identification module is used for carrying out hardware identification on the IP protocol simulation tester based on the judgment result, and the service specification control module is used for carrying out service specification control on the IP protocol simulation tester based on the judgment result.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. A hardware identification method of an IP protocol simulation tester is characterized by comprising the following steps:

acquiring first verification result information in the dongle;

acquiring second checking result information in the license file;

acquiring third checking result information in the IP protocol simulation tester;

judging whether the first verification result information, the second verification result information and the third verification result information are matched or not and obtaining a first judgment result;

and identifying hardware of the IP protocol simulation tester based on the first judgment result.

2. The method of claim 1, further comprising:

judging whether the first check result information and the second check result information are matched or not and obtaining a second judgment result;

and controlling the service specification of the IP protocol simulation tester based on the second judgment result.

3. The method of claim 1, wherein the obtaining the first verification result information in the dongle comprises:

establishing the connection between the dongle and the IP protocol simulation tester;

and acquiring first verification result information in the dongle.

4. The method of claim 3, wherein said establishing contact between said dongle and said IP protocol emulation tester comprises:

judging whether the dongle is in place;

if not, stopping the installation of the license file;

if yes, judging whether the dongle corresponds to the current IP protocol simulation tester;

if not, forbidding the use of the IP protocol simulation tester for simulation test;

if yes, establishing the connection between the dongle and the IP protocol simulation tester.

5. The method according to claim 4, wherein the obtaining of the second check-up result information in the license file comprises:

loading the license file in the IP protocol simulation tester;

and acquiring a second check result based on the license file.

6. The method of claim, wherein the first verification result information, the second verification result information, and the third verification result information each include hardware identification information of the IP protocol emulation tester,

and the hardware identification of the IP protocol emulation tester based on the first determination result includes:

judging whether the hardware identification information of the first verification result information, the hardware identification information of the second verification result information and the hardware identification information of the third verification result information are the same or not;

if the license file is different from the license file, stopping the installation of the license file;

and if the license file is the same as the license file, installing the license file in the IP protocol simulation tester.

7. The method of claim 2, wherein the first and second verification result information further include software identification information of the IP protocol simulation tester, and wherein determining whether the first and second verification result information match and obtaining a second determination result includes:

judging whether the software identification information of the first verification result information is the same as the software identification information of the second verification result information;

if the license file is the same as the service file, installing the license file in the IP protocol simulation tester and acquiring the service specification information in the dongle;

performing service specification control on the IP protocol simulation tester based on the service specification information;

and if the license file is different from the license file, stopping the installation of the license file.

8. The method of claim 7, wherein the performing the service specification control on the IP protocol emulation tester based on the service specification information comprises:

transmitting the service specification information to the IP protocol simulation tester;

and controlling the authorized use specification of the IP protocol simulation tester based on the service specification information.

9. A hardware identification system of an IP protocol simulation tester is characterized by comprising:

the information acquisition module is used for acquiring first verification result information in the dongle, second verification result information in the license file and third verification result information in the IP protocol simulation tester;

the first information judgment module is used for judging whether the first verification result information, the second verification result information and the third verification result information are matched and obtaining a first judgment result;

the hardware identification module is used for carrying out hardware identification on the IP protocol simulation tester based on the judgment result;

and the service specification control module is used for controlling the service specification of the IP protocol simulation tester based on the judgment result.

10. A hardware identification system of an IP protocol simulation tester is characterized by further comprising:

the second information judgment module is used for judging whether the first check result information and the second check result information are matched and obtaining a second judgment result;

and the service specification control module is used for controlling the service specification of the IP protocol simulation tester based on the second judgment result.

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