CN108259445B - MS Windows desktop security login system based on smart phone and login method thereof - Google Patents

Abstract

The invention discloses a smart phone-based MS Windows desktop security login system, which comprises a registration program installed in a smart phone, an auxiliary login client installed in the smart phone, a login control server and a login control client installed in an MS Windows system client. The smart phone signs a digital double certificate to a third-party certificate authentication management center through a registration program, registers on the MS Windows system client according to the digital double certificate, and logs in the MS Windows system client by scanning a login account two-dimensional code displayed on a login interface of the MS Windows system client. The invention has the beneficial effects that: 1. the safety of account information is ensured by adopting a digital envelope in a PKI technology; 2. the universal smart phone is adopted, so that a user can carry the smart phone, and the smart phone is convenient and safe; 3. the user logs in the system without inputting complex and lengthy passwords, and the system is convenient and practical.

Description

MS Windows desktop security login system based on smart phone and login method thereof

Technical Field

The invention relates to the technical field of computer security login systems, in particular to a smart phone-based MS Windows desktop security login system and a login method thereof.

Background

The smart phone is widely popularized and is a necessary tool for modern people to carry about. After the smart phone is combined with the PKI digital certificate, the mature PKI technology can be fully utilized, so that the security and the convenience of the smart phone in some traditional application fields are greatly expanded.

The combination of the smart phone and the Windows login system further expands the safety and convenience of the smart phone to a Windows operating system platform. Because the personal computer of the microsoft Windows system is logged in by a user name/password (even without using the password), great hidden danger is brought to the security, in addition, the user is required to remember the password, and the user is required to change the password frequently to prevent the password from being leaked, which brings great inconvenience to the user.

The applicant has therefore made an advantageous search and attempt to solve the above-mentioned problems, in the context of which the technical solutions to be described below have been created.

Disclosure of Invention

One of the technical problems to be solved by the present invention is: aiming at the defects of the prior art, the MS Windows desktop security login system based on the smart phone is provided, the security login system logs in the MS Windows operating system desktop through the digital double-certificate installed in the smart phone, the login security is enhanced, and the convenience of logging in the operating system by a user is improved.

The second technical problem to be solved by the present invention is: the login method of the MS Windows desktop security login system based on the smart phone is provided.

The invention relates to a smart phone-based MS Windows desktop security login system, which comprises:

the intelligent mobile phone issues a digital double certificate to a third party certificate authentication management center through the registration program, and binds the intelligent mobile phone to a specific MS Windows system client according to the digital double certificate;

the intelligent mobile phone scans the login account two-dimensional code displayed by the MS Windows system client through the auxiliary login client, decodes the acquired login account two-dimensional code by using the digital double certificate to obtain decoding information, and sends the decoding information to the login control server so as to log in the MS Windows operating system desktop;

the login control server receives the decoding information sent by the auxiliary login client, identifies the validity of the decoding information and then sends the effective decoding information to the corresponding MS Windows system client; and

and the login control client is installed in the MS Windows system client, receives the effective decoding information sent by the login control server, verifies the decoding information with the information of the smart phone and the certificate information registered by the local machine, and allows logging in the MS Windows system operating system desktop if the account information corresponding to the successfully verified decoding information.

The login method of the smart phone-based MS Windows desktop secure login system as the second aspect of the invention comprises the following steps:

step S10, the smart phone issues the digital double certificate to the third party certificate authentication management center through the registration program installed in the smart phone, and the digital double certificate is stored in the smart phone;

step S20, the smart phone registers on the MS Windows system client needing login protection according to the digital double certificate;

and step S30, the smart phone logs in the MS Windows system client by scanning the login account two-dimensional code displayed on the login interface of the MS Windows system client and enters the operating system desktop of the MS Windows system client.

In a preferred embodiment of the present invention, the step S10 includes the following sub-steps:

step S11, the registration program of the smart phone generates public and private key pairs and generates a certificate request, and sends the certificate request to a third party certificate authentication management center;

step S12, after receiving the certificate request, the third party certificate authentication management center generates a digital double certificate composed of a signature certificate and an encryption certificate, and issues the digital double certificate to the smart phone for storage.

In a preferred embodiment of the present invention, the step S20 includes the following sub-steps:

step S21, establishing association between the smart phone and the MS Windows system client needing login protection;

step S22, the registration program of the smart phone sends an encryption certificate to the MS Windows system client needing login protection;

step S23, inputting the account information of MS Windows system on the MS Windows system client needing login protection;

step S24, using the encrypted certificate to encrypt the input account information, generating a digital envelope;

and step S25, saving the digital envelope to the MS Windows system client needing login protection.

In a preferred embodiment of the present invention, the step S30 includes the following sub-steps:

step S31, the MS Windows system client generates a random key according to the registered smart phone, the digital certificate and the login account information, encodes the random key to form a login account two-dimensional code, and displays the login account two-dimensional code on a login interface;

step S32, the smart phone scans the two-dimensional code of the login account through an auxiliary login client installed in the smart phone to acquire the information of the two-dimensional code of the login account;

step S33, the smart phone decodes the acquired information of the two-dimensional code of the login account by using a private key corresponding to the digital double certificate, and if the decoding is successful, the decoded information is sent to a login control server;

step S34, after the login control server receives the decoding information, the validity of the decoding information is identified, if the decoding information is identified to be valid, the valid decoding information is sent to the login control client of the corresponding MS Windows system client;

and step S35, after the login control client of the MS Windows system client receives the valid decoding information, verifying the valid decoding information with the information of the smart phone and the certificate information registered by the local computer, and if the verification is successful, logging in the MS Windows system client by using the account information corresponding to the successfully verified decoding information to enter the operating system desktop of the MS Windows system client.

Due to the adoption of the technical scheme, the invention has the beneficial effects that:

1. the safety of account information is ensured by adopting a digital envelope in a PKI technology;

2. the universal smart phone is adopted, so that a user can carry the smart phone, and the smart phone is convenient and safe;

3. the user logs in the system without inputting complex and lengthy passwords, and the system is convenient and practical.

According to the MS Windows desktop security login system based on the smart phone, the account information is made into the digital envelope, so that the envelope can be decrypted only if the corresponding private key is held, namely, the corresponding person of the smart phone is held, and the security of a login user is ensured. Other people without the smart phone can not log in the Windows system client of the user even though the account information of the user is stolen; meanwhile, the owner of the smart phone can conveniently log in the registered corresponding Windows desktop system.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a flow chart of a login method of the present invention.

Fig. 2 is a flowchart of issuing a digital dual certificate to a third-party certificate authority according to the present invention.

FIG. 3 is a flow chart of the present invention for registering on a MS Windows system client.

FIG. 4 is a flow chart of the present invention for logging onto a MS Windows system client via a smart phone.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further explained below by combining the specific drawings.

The invention discloses a smart phone-based MS Windows desktop secure login system, which comprises a registration program, an auxiliary login client, a login control server and a login control client. The smart Phone of the present invention includes, but is not limited to, android phones, Windows Phone phones, apple phones, etc.

The registration program is installed in the smart phone, the smart phone issues a digital double certificate to the third-party certificate authentication management center through the registration program, and the smart phone is bound to a specific MS Windows system client according to the digital double certificate.

The auxiliary login client is installed on an auxiliary login client in the smart phone, the smart phone scans the login account two-dimensional code displayed by the MS Windows system client through the auxiliary login client, decodes the acquired login account two-dimensional code by using a digital double certificate to obtain decoding information, and sends the decoding information to the login control server so as to log in the MS Windows operating system desktop.

The login control server receives the decoding information sent by the auxiliary login client, identifies the validity of the decoding information, and then sends the identified valid decoding information to the corresponding MS Windows system client.

The login control client is installed in the MS Windows system client, receives the effective decoding information sent by the login control server, verifies the decoding information with the information of the smart phone and the certificate information registered by the local machine, and allows the login of the MS Windows system operating system desktop if the account information corresponding to the successfully verified decoding information.

The login method of the MS Windows desktop security login system based on the smart phone, disclosed by the invention, is shown in figure 1 and comprises the following steps:

step S10, the smart phone issues the digital double certificate to the third party certificate authentication management center through the registration program installed in the smart phone, and the digital double certificate is stored in the smart phone;

step S20, the smart phone registers on the MS Windows system client needing login protection according to the digital double certificate;

and step S30, the smart phone logs in the MS Windows system client by scanning the login account two-dimensional code displayed on the login interface of the MS Windows system client and enters the operating system desktop of the MS Windows system client.

Referring to fig. 2, the above step S10 includes the following sub-steps:

step S11, the registration program of the smart phone generates public and private key pairs and generates a certificate request, and sends the certificate request to a third party certificate authentication management center;

step S12, after receiving the certificate request, the third party certificate authentication management center generates a digital double certificate composed of a signature certificate and an encryption certificate, and issues the digital double certificate to the smart phone for storage.

Referring to fig. 3, the above step S20 includes the following sub-steps:

step S21, establishing association between the smart phone and the MS Windows system client needing login protection;

step S22, the registration program of the smart phone sends an encryption certificate to the MS Windows system client needing login protection;

step S23, inputting the account information of MS Windows system on the MS Windows system client needing login protection;

step S24, using the encrypted certificate to encrypt the input account information, generating a digital envelope;

and step S25, saving the digital envelope to the MS Windows system client needing login protection.

Referring to fig. 4, the above step S30 includes the following sub-steps:

step S31, the MS Windows system client generates a random key according to the registered smart phone, the digital certificate and the login account information, encodes the random key to form a login account two-dimensional code, and displays the login account two-dimensional code on a login interface;

step S32, the smart phone scans the two-dimensional code of the login account through an auxiliary login client installed in the smart phone to acquire the information of the two-dimensional code of the login account;

step S33, the smart phone decodes the acquired information of the two-dimensional code of the login account by using a private key corresponding to the digital double certificate, and if the decoding is successful, the decoded information is sent to a login control server;

step S34, after the login control server receives the decoding information, the validity of the decoding information is identified, if the decoding information is identified to be valid, the valid decoding information is sent to the login control client of the corresponding MS Windows system client;

and step S35, after the login control client of the MS Windows system client receives the valid decoding information, verifying the valid decoding information with the information of the smart phone and the certificate information registered by the local computer, and if the verification is successful, logging in the MS Windows system client by using the account information corresponding to the successfully verified decoding information to enter the operating system desktop of the MS Windows system client.

In step S30, the smartphone is rejected from logging in the MS Windows system client if the smartphone fails to decode the information of the login account two-dimensional code, the login control server identifies that the decoded information is invalid, and the login control client of the MS Windows system client verifies the valid decoded information with the smartphone information and the certificate information registered by the smartphone.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (4)

1. A safe login method of an MS Windows desktop based on a smart phone is characterized by comprising the following steps:

step S10, the smart phone issues the digital double certificate to the third party certificate authentication management center through the registration program installed in the smart phone, and the digital double certificate is stored in the smart phone;

step S20, the smart phone registers on the MS Windows system client needing login protection according to the digital double certificate;

step S30, the smart phone logs in the MS Windows system client by scanning the login account two-dimensional code displayed on the login interface of the MS Windows system client and enters the operating system desktop of the MS Windows system client;

the step S30 includes the following sub-steps:

step S31, the MS Windows system client generates a random key according to the registered smart phone, the digital certificate and the login account information, encodes the random key to form a login account two-dimensional code, and displays the login account two-dimensional code on a login interface;

step S32, the smart phone scans the two-dimensional code of the login account through an auxiliary login client installed in the smart phone to acquire the information of the two-dimensional code of the login account;

step S33, the smart phone decodes the acquired information of the two-dimensional code of the login account by using a private key corresponding to the digital double certificate, and if the decoding is successful, the decoded information is sent to a login control server;

step S34, after the login control server receives the decoding information, the validity of the decoding information is identified, if the decoding information is identified to be valid, the valid decoding information is sent to the login control client of the corresponding MS Windows system client;

and step S35, after the login control client of the MS Windows system client receives the valid decoding information, verifying the valid decoding information with the information of the smart phone and the certificate information registered by the local computer, and if the verification is successful, logging in the MS Windows system client by using the account information corresponding to the successfully verified decoding information to enter the operating system desktop of the MS Windows system client.

2. The login method according to claim 1, wherein the step S10 comprises the sub-steps of:

step S11, the registration program of the smart phone generates public and private key pairs and generates a certificate request, and sends the certificate request to a third party certificate authentication management center;

step S12, after receiving the certificate request, the third party certificate authentication management center generates a digital double certificate composed of a signature certificate and an encryption certificate, and issues the digital double certificate to the smart phone for storage.

3. The login method according to claim 2, wherein the step S20 comprises the sub-steps of:

step S21, establishing association between the smart phone and the MS Windows system client needing login protection;

step S22, the registration program of the smart phone sends an encryption certificate to the MS Windows system client needing login protection;

step S23, inputting the account information of MS Windows system on the MS Windows system client needing login protection;

step S24, using the encrypted certificate to encrypt the input account information, generating a digital envelope;

and step S25, saving the digital envelope to the MS Windows system client needing login protection.

4. A system for implementing the MS Windows desktop secure login method based on smart phone according to any of claims 1 to 3, comprising:

the system comprises a registration program installed in a smart phone, wherein the smart phone issues a digital double certificate to a third-party certificate authentication management center through the registration program, and binds the smart phone to a specific MS windows system client according to the digital double certificate;

the intelligent mobile phone scans the login account two-dimensional code displayed by the MS Windows system client through the auxiliary login client, decodes the acquired login account two-dimensional code by using the digital double certificate to obtain decoding information, and sends the decoding information to the login control server so as to log in the MS Windows operating system desktop;

the login control server receives the decoding information sent by the auxiliary login client, identifies the validity of the decoding information and then sends the effective decoding information to the corresponding MS Windows system client; and

and the login control client is installed in the MS Windows system client, receives the effective decoding information sent by the login control server, verifies the decoding information with the information of the smart phone and the certificate information registered by the local machine, and allows logging in the MS Windows system operating system desktop if the account information corresponding to the successfully verified decoding information.

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