Network authentication method and device for implementing the same
A network authentication method is to be implemented using a network authentication device and a user end for authenticating the user end. The network authentication method includes the steps of: configuring the network authentication device to store hardware information associated with unique identification codes of hardware components of the user end; when it is intended to verify identity of the user end, configuring the user end to execute a terminal program stored therein for scanning the hardware components thereof to obtain the identification codes of the hardware components, for establishing a hardware list according to the identification codes thus obtained, and for sending to the network authentication device verification data that is associated with the hardware list; and configuring the network authentication device to verify identity of the user end based on relationship between the verification data received from the user end and the hardware information stored therein.
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a network authentication method and device, more particularly to a network authentication method and device adapted for authenticating a user end using software.
2. Description of the Related Art
Currently, when a user wants to transfer money at a web bank provided by a banking institution, the user needs to input a unique user identification code (user ID) and a password to access the web bank. The user ID can be obtained using a card reader reading an integrated circuit card issued by the banking institution, or can be a preset code set by the user and certified by the banking institution. After accessing the web bank, the user needs to fill an electronic transfer sheet and to input a transfer password so as to complete the transfer.
Since the user ID, the password and the transfer password may be stolen, a token or an integrated circuit card is used to provide a one-time password (OTP) to be sent to a network server of the web bank for verifying the identity of the user. Further, a token or card reader including its own screen and keys, or a flash drive having public key infrastructure certificate can be used to prevent the user ID and the password from being stolen.
However, due to the variety of web transactions, increasing numbers of web users and web crimes, and continuously progress of criminal techniques, the current verification methods have the following drawbacks.
A network content provider needs to purchase an identity verification device for each user, and the cost of customer service for personalization, distribution and troubleshooting is considerable. Further, it is quite inconvenient to the user that the user needs to have different identity verification devices for different web sites. Moreover, aside from intercepting and stealing the user ID, the password and the transfer password, the hackers also try to manipulate transaction data. Therefore, the network content provider is often forced to change hardware equipments, and the cost for changing the hardware equipments is considerable.
SUMMARY OF THE INVENTION
Therefore, an object of the present invention is to provide a network authentication method and device for authenticating a user end using software.
Accordingly, a network authentication method of the present invention is to be implemented using a network authentication device and a user end for authenticating the user end. The user end stores a terminal program and includes a plurality of hardware components each of which has a unique identification code.
The network authentication method comprises the steps of:
a) configuring the network authentication device to store hardware information associated with the identification codes of the hardware components of the user end;
b) when it is intended to verify identity of the user end, configuring the user end to execute the terminal program for scanning the hardware components thereof to obtain the identification codes of the hardware components of the user end, for establishing a hardware list according to the identification codes of the hardware components thus obtained, and for sending to the network authentication device verification data that is associated with the hardware list; and
c) configuring the network authentication device to verify identity of the user end based on relationship between the verification data received from the user end in step b) and the hardware information stored in step a).
Preferably, the network authentication method is to be implemented further using a network server, and step b) includes the sub-steps of:
b1) in response to a login request from the user end for accessing the network server through a first communication channel, configuring the network server to redirect the user end for connecting with the network authentication device through a second communication channel; and
b2) configuring the network authentication device to enable the user end to execute the terminal program.
Preferably, the network authentication method further comprises the steps of:
d) configuring the network authentication device to generate a key according to the hardware information stored therein, and to send the key to the user end and the network server;
e) when the user end intends to conduct an electronic transaction with the network server, configuring the user end to generate a first digital signature corresponding to transaction data of the electronic transaction using the key sent by the network authentication device and to send the transaction data and the first digital signature to the network server, and configuring the network server to generate a second digital signature corresponding to the transaction data received from the user end using the key sent by the network authentication device; and
f) configuring the network server to compare the first digital signature from the user end with the second digital signature generated thereby, and to determine that the transaction data was not tampered during transmission from the user end to the network server when the first digital signature conforms with the second digital signature.
According to another aspect of this invention, a network authentication device is used for authenticating a user end. The user end includes a plurality of hardware components each of which has a unique identification code, and is configured to scan the hardware components thereof to obtain the identification codes of the hardware components, and to establish verification data associated with the identification codes of the hardware components thus obtained.
The network authentication device comprises a database module for storing hardware information associated with the identification codes of the hardware components of the user end, and a verification module for verifying identity of the user end based on relationship between the verification data received from the user end and the hardware information stored in the database module.
BRIEF DESCRIPTION OF THE DRAWINGS
Other features and advantages of the present invention will become apparent in the following detailed description of the preferred embodiments with reference to the accompanying drawings, of which:
FIG. 1 is a block diagram illustrating a first preferred embodiment of a network authentication device according to the present invention;
FIG. 2 is a flow chart illustrating a registration procedure of a network authentication method implemented using the network authentication device of the first preferred embodiment according to the present invention;
FIG. 3 is a flow chart illustrating a login procedure of the network authentication method implemented using the network authentication device of the first preferred embodiment;
FIG. 4 is a schematic diagram illustrating the network authentication device implementing the network security authentication method for processing a digital signature;
FIG. 5 is a block diagram illustrating a second preferred embodiment of a network authentication device according to the present invention;
FIG. 6 is a flow chart illustrating a registration procedure of a network authentication method implemented using the network authentication device of the second preferred embodiment according to the present invention;
FIG. 7 is a block diagram illustrating the network authentication device of the second preferred embodiment that is configured to implement login and transaction procedures of the network authentication method of the present invention;
FIG. 8 is a flow chart illustrating the login procedure of the network authentication method implemented using the network authentication device of the second preferred embodiment; and
FIG. 9 is a flow chart illustrating the transaction procedure of the network authentication method implemented using the network authentication device of the second preferred embodiment.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
Before the present invention is described in greater detail, it should be noted that like elements are denoted by the same reference numerals throughout the disclosure.
Referring to FIG. 1, the first preferred embodiment of a network authentication device according to the present invention is a verification server 1 operable to cooperate with a plurality of user ends 2 and a network server 3 (e.g., an internet contents provider or ICP) to implement a network authentication method. The verification server 1 includes a database module 10, a control module 11, a verification module 12, and a transmission module 13. For exemplary purposes, the network server 3 may be, but is not limited to, an online game server 3 a, a web bank server 3 b, or any other server that provides a network service requiring identity verification, such as a portal website. The user ends 2 include first, second and third user ends 2 a, 2 b and2 c associated with first, second and third users 51, 52 and 53, respectively. The user ends 2 a, 2 b and 2 c may be electronic equipment or handheld electronic devices capable of Internet browsing or data communications, such as notebook computers, smart phones, personal digital assistants, etc. Particularly, the user ends 2 are connected to the network server 3 through a first communication channel 300 a in a communication network 300, and are connected to the verification server 1 through a second communication channel300 b in the communication network 300 that is separate from the first communication channel 300 a. Accordingly, it is relatively difficult to attack the first and second communication channels 300 a and 300 b simultaneously for stealing information associated with the users 51-53. Moreover, the network server 3 is connected to the verification server 1 through a special channel. For example, the online game server 3 a and the web bank server 3 b are connected to the verification server 1 through special channels 301 and 302, respectively.
Taking the first user end 2 a as an example, the first user end 2 a includes a motherboard 20, a central processing unit 21, a storage device 22, a network interface 23, a basic input/output system (BIOS) unit 24, a read module 25, an external peripheral device 251, an input device 261 and a display device 262. In this embodiment, the motherboard 20, the central processing unit 21 and the BIOS unit 24 have unique identification codes (A), (B) and (C), respectively. Further, the read module 25 is a universal serial bus (USB) interface, and the corresponding external peripheral device 251 is a USB storage device (e.g., a memory card or a USB flash drive) and has a unique identification code (D). In other embodiments, the external peripheral device 251 may be a radio frequency identification (RFID) device or a near field communication (NFC) device. It should be noted that the unique identification code of the network interface 23 may be used for the network authentication method in other embodiments, and hardware components of the first user end 2 a are also not limited to the disclosure herein.
Since each of the identification codes (A), (B), (C) and (D) of the hardware components (the motherboard 20, the central processing unit 21, the BIOS unit 24 and the external peripheral device 251) of the first user end 2 a is unique, a combination of the identification codes (A), (B), (C) and (D) is certainly different from a combination of identification codes of hardware components of any one of other user ends 2. Thus, the combination of the identification codes of the first user end 2 a is like a unique fingerprint of the first user end 2 a, and can be used for verifying the identity of the first user 51. Therefore, it is not possible to use other user ends having different hardware components to verify the identity of the first user 51.
Referring to FIGS. 1 and 2, the verification server 1 cooperates with the first user end 2 a and the network server 3 to implement a registration procedure of the network authentication method according to the present invention. The registration procedure of the network authentication method includes the following steps.
In step S201, the first user 51 inputs personal information, a user identification (ID), and a password using the input device261 of the first user end 2 a at a website provided by the network server 3. The personal information, the user ID, and the password are transmitted to the network server 3 through the first communication channel 300 a. In response to receipt of the personal information, the user ID and the password, the network server 3 is operable to check whether the personal information, the user ID and the password are correct in step S300. If affirmative, the network server 3 is operable to redirect the first user end 2 a for connecting with the verification server 1 in step S301, so that the verification server 1 is operable to enable the first user end 2 a to download a terminal program 411 from a program medium 4 in step S101. Otherwise, the network server 3 is operable to send an error message to the first user end 2 a for displaying on the display device 262 of the first user end 2 a in step S205.
It should be noted that, although the program medium 4 is an external website separate from the verification server 1 as shown in FIG. 1 in this embodiment, it may be integrated as a part of the network server 3 or the verification server 1 in other embodiments. Moreover, this invention is not limited to downloading of the terminal program 411 from the network; for example, the program medium 4 may be a compact disc or other data carrier storing the terminal program 411 in practice.
Subsequently, after the first user end 2 a stores and installs the terminal program 411 in the storage device 22 as a terminal program 221, the first user end 2 a is operable to execute the terminal program 221, in step S202, for scanning the hardware components of the first user end 2 a to obtain the identification codes (A)-(D) of the hardware components, and for establishing a reference hardware list 10 a according to the identification codes of the hardware components thus obtained after the first user 51 inputs the user ID. In step S203, the first user end 2 a is operable to encrypt the reference hardware list 10 a with a session key and to directly send the encrypted reference hardware list to the verification server 1through the second communication channel 300 b.
In practice, the terminal program 221 allows the first user 51 to decide whether the external peripheral device 251 is scanned in step S202. Further, when the external peripheral device 251 of the first user end 2 a does not have a unique identification code, the control module 11 of the verification server 1 is operable to generate a device-assigned identification code, and the transmission module 13 is operable to transmit the device-assigned identification code to the first user end 2 a for storage in the external peripheral device 251 so as to serve as the identification code of the external peripheral device 251.
After the transmission module 13 of the verification server 1 receives the encrypted reference hardware list from the first user end 2 a, the control module 11 of the verification server 1 is operable, in step S102, to decrypt the encrypted reference hardware list so as to obtain the reference hardware list 10 a, and to store the reference hardware list 10 a in the database module 10 as hardware information associated with the first user end 2 a. In particular, the reference hardware list 10 a consists of the user ID associated with the first user 51, and the identification codes (A), (B), (C) and (D) of the hardware components (the motherboard 20, the central processing unit 21, the BIOS unit 24 and the external peripheral device 251) of the first user end 2 a. Similarly, the database module 10 further stores the reference hardware lists 10 band 10 c corresponding to the second and third user ends 2 b and 2 c, respectively.
The verification server 1 is further operable to send a notification to the network server 3 after storing the reference hardware list 10 a. Then, in response to the notification from the verification server 1, the network server 3 is operable, in step S302, to affirm that the registration procedure associated with the first user 51 is completed. Finally, the network server 3 is operable, in step S303, to send the first user end 2 a a notification that the registration procedure is completed, and the first user end 2 a is operable to receive the notification in step S204.
Referring to FIGS. 1 and 3, the verification server 1 cooperates with the first user end 2 a and the network server 3 to implement a login procedure of the network authentication method according to the present invention. The login procedure of the network authentication method includes the following steps.
In step S211, the first user 51 inputs the user ID and the password using the input device 261 of the first user end 2 a at the service website provided by the network server 3, and the first user end 2 a is operable to transmit the user ID and the password to the network server 3 through the first communication channel 300 a. In step S310, the network server 3 is operable to verify whether the user ID and the password thus received are correct. In particular, the network server 3 is operable to determine whether the user ID and the password inputted in step S211 conform with the user ID and the password provided in the above-mentioned registration procedure. In alternative embodiments, the verification server 1can be configured to verify the user ID and the password associated with the first user 51 instead of the network server 3.
If it is determined that either the user ID or the password is incorrect in step S310, the network server 3 is operable to send an error message to the first user end 2 a for displaying on the display device 262 of the first user end 2 a in step S215. If it is determined that both of the user ID and the password are correct in step S310, the network server 3 is operable to notify the verification server 1 that identity of the first user end 2 a associated with the first user 51 is to be verified in step S311. The network server 3 is further operable to redirect the first user end 2 a for connecting with the verification server 1through the second communication channel 300 b.
In step S103, the verification server 1 is operable to enable the first user end 2 a to execute the terminal program 221stored in the storage device 22 of the first user end 2 a. In step S212, the first user end 2 a is operable to execute the terminal program 221 for scanning the hardware components thereof to obtain the identification codes of the hardware components of the first user end 2 a, and for establishing a hardware list according to the identification codes of the hardware components thus obtained. Then, in step S213, the first user end 2 a is operable to encrypt the hardware list with the session key, and to send the encrypted hardware list as verification data for verifying identity of the first user end 2a to the verification server 1 through the second communication channel 300 b.
In step S104, the control module 11 of the verification server 1 is operable to decrypt the verification data from the first user end 2 a to obtain the hardware list. Then, the verification module 12 of the verification server 1 is operable to compare the hardware list thus obtained with the reference hardware list 10 a stored in the database module 10 for verifying the identity of the first user 51 associated with the first user end 2 a.
When the hardware list obtained in step S104 does not conform with the reference hardware list 10 a stored in the database module 10, the verification module 12 is operable to determine that the verification of the first user 51 is unsuccessful and to send the error message to the first user end 2 a. Accordingly, the first user end 2 a is denied access to the service website provided by the network server 3, and is operable to display the error message on the display device 262 in step S215. On the other hand, when the hardware list conforms with the reference hardware list 10 a, the verification module 12 is operable to determine that the verification of the first user 51 is successful, and to notify the network server 3 of the result of the verification made thereby. Thus, the network server 3 is operable to authenticate the identity of the first user 51 in step S312, and then, to redirect the first user end 2 a associated with the first user 51 for connecting with the service website provided by the network server 3 in step S313. In step S214, the first user end 2 a is authorized to access the service website.
After the first user end 2 a is authorized to access the service website in the login procedure, the verification server 1cooperates with the first user end 2 a and the network server 3 to further implement the network security authentication method for processing a digital signature when the first user 51 intends to conduct an electronic transaction with the network server 3. The network security authentication method for processing a digital signature will be described in detail below with reference to FIGS. 1 and 4.
The verification server 1 further includes a key-generating unit 50 and a decrypting module 45′, the terminal program 221includes a hash function 42 and an encrypting module 45, and the network server 3 includes a comparing module 46. The key-generating unit 50 of the verification server 1 is operable to generate a key 511 according to the reference hardware list 10 a stored in the database module 10. The key 511 is sent to the first user end 2 a through the second communication channel 300 b in the communication network 300, and is sent to the network server 3 through the special channel 301(302).
When the first user 51 intends to conduct an electronic transaction with the network server 3 using the first user end 2 a, the first user end 2 a is operable to generate transaction data 41 related to the electronic transaction and to send the transaction data 41 to the network server 3 through the first communication channel 300 a in the communication network300. The terminal program 221 of the first user end 2 a uses the hash function 42 to draw out a data abstract 43 from the transaction data 41, and processes the data abstract 43 into a first digital signature 44 using the key 511 sent by the verification server 1. Then, the encrypting module 45 is operable to encrypt the first digital signature 44 with a session key521, and the encrypted first digital signature is sent to the verification server 1 through the second communication channel300 b. The decrypting module 45′ of the verification server 1 is operable to decrypt the encrypted first digital signature to obtain the first digital signature 44, and then, the first digital signature 44 is sent to the network server 3.
After the network server 3 receives the key 511 from the verification server 1 and the transaction data 41′ from the first user end 2 a, the network server 3 is operable to draw out a data abstract 43′ from the transaction data 41′ using the hash function 42. Then, the network server 3 is operable to process the data abstract 43′ into a second digital signature 44′ using the key 511 sent by the verification server 1. The comparing module 46 of the network server 3 is operable to compare the second digital signature 44′ with the first digital signature 44 generated by the first user end 2 a. When the second digital signature 44′ conforms with the first digital signature 44, the network server 3 is operable to determine that the transaction data 41 was not tampered during transmission from the first user end 2 a to the network server 3 as the transaction data 41′ through the first communication channel 300 a. Subsequently, the network server 3 is operable to implement a transaction procedure 47 for completing the electronic transaction according to the transaction data 41′. On the other hand, when the second digital signature 44′ does not conform with the first digital signature 44, the network server 3 is operable to determine that the transaction data 41′ was tampered during transmission from the first user end 2a to the network server so that the data abstract 43′ from the tampered transaction data 41′ is not identical to the data abstract 43 from the original transaction data 41. Thus, the network server 3 is operable to implement a rejection procedure 48 for rejecting the electronic transaction.
In alternative embodiments, the comparing module 46 of the network server 3 can be omitted, and the network server 3 is operable to send the second digital signature 44′ to the verification server 1. Then, the verification server 1 is configured to compare the second digital signature 44′ with the first digital signature 44 instead of the comparing module 46, and to send the comparing result to the network server 3. In response to the comparing result from the verification server 1, the network server 3 is operable to alternatively implement the transaction procedure 47 and the rejection procedure 48.
Referring to FIG. 5, the second preferred embodiment of a network authentication device according to the present invention is a management server 8 that integrates the functions of the verification server 1 and the network server 3 of the first preferred embodiment. In this embodiment, the user end is a portable electronic device 6, such as a smart phone.
The portable electronic device 6 includes a microprocessor 60, a screen 61, a communication module 62, a transmission interface 66, a memory device 63, an input module 64, and a read module 65. The communication module 62 is operable to communicate with the management server 8 through a communication network 300. The memory device 63 stores a terminal program 631, a reference hardware list 632, and a reference key 633 made from the reference hardware list 632. For instance, the read module 65 is a memory card reader, and an external peripheral device 651 connected thereto is a memory card. The reference hardware list 632 is associated with a combination of the identification codes of the microprocessor 60, the screen 61, the communication module 62, the transmission interface 66, the memory device 63, the input module 64, and/or the external peripheral device 651. While the terminal program 631 is similar to the terminal program 221 in the first preferred embodiment, it is required to input a correct personal identification number (PIN) for executing the terminal program 631 in this embodiment. In other embodiments, the user associated with the portable electronic device 6 only needs to input the PIN upon turning on the portable electronic device 6, and doest not need to input the PIN or a new PIN again for executing the terminal program 631.
Referring to FIGS. 5 and 6, the management server 8 is operable to cooperate with the portable electronic device 6 to implement a registration procedure of the network authentication method according to the present invention. The registration procedure of the network authentication method includes the following steps.
In step S601, after the portable electronic device 6 is connected to the management server 8 using the communication module 62 through the communication network 300, a user associated with the portable electronic device 6 uses the input module 64 of the portable electronic device 6 to input a user identification (ID) and a password at a webs ite provided by the management server 8. In response to receipt of the user ID and the password, the management server 8 is operable to check whether the user ID and the password are correct in step S321. If either the user ID or the password is incorrect, the management server 8 is operable to reply with an error message to the portable electronic device 6 in step S322. On the other hand, if both the user ID and the password are correct, the management server 8 is operable to provide the terminal program 631 to the portable electronic device 6 in step S323.
When the user of the portable electronic device 6 inputs the correct PIN in step S602, the portable electronic device 6 is operable, in step S603, to execute the terminal program 631 for scanning hardware components of the portable electronic device 6 to obtain identification codes of the hardware components, and for establishing and storing the reference hardware list 632. Then, the portable electronic device 6 executes the terminal program 631 for generating the reference key 633 based on the reference hardware list 632 in step S604, and is operable to store the reference key 633 in the memory device 63 in step S605. In step S606, the portable electronic device 6 is operable to encrypt the reference key633 with a session key so as to obtain an encrypted key, and to send the encrypted key to the management server 8. In other embodiments, step S602 may be omitted since the user already inputted the PIN upon turning on the portable electronic device 6.
After receiving the encrypted key from the portable electronic device 6, the management server 8 is operable to decrypt the encrypted key so as to obtain the reference key 633 in step S324, and to store the reference key in step S325. Finally, in step S326, the management server 8 is operable to notify the portable electronic device 6 that the registration procedure is completed.
Referring to FIG. 7, the portable electronic device 6 is connected to a computer 7 through the transmission interface 66that may be either a cable transmission interface or a wireless transmission interface. The input module 64 of the portable electronic device 6 is a key panel or a touch panel for generating electronic data in responses to an input from the user of the portable electronic device 6. The electronic data is transmitted to the computer 7 through the transmission interface 66, and is subsequently sent to the management server 8 through the communication network 300. In the case of the portable electronic device 6 without the transmission interface 66, the user can use a keyboard of the computer 7 to input the electronic data displayed on the screen 61 of the portable electronic device 6 so as to transmit the electronic data to the management server 8.
Referring to FIGS. 7 and 8, the management server 8 is operable to cooperate with the portable electronic device 6 and the computer 7 to implement a login procedure of the network authentication method according to the present invention. The login procedure of the network authentication method includes the following steps.
First, the user of the portable electronic device 6 needs to input the PIN in step S610. Then, in step S611, the portable electronic device 6 is operable to determine whether the PIN inputted in step S610 is correct. If it is determined that the PIN is incorrect, the portable electronic device 6 is operable to generate an error message in step S614. If the PIN inputted in step S610 is correct, the portable electronic device 6 is operable, in step S612, to execute the terminal program 631 for scanning the hardware components of the portable electronic device 6 to obtain identification codes of the hardware components, for establishing a new hardware list according to the identification codes thus obtained, and for generating a new key based on the new hardware list 632 thus established. In other embodiments, step S610 and S611 may be omitted, and the portable electronic device 6 is operable to directly implement step S612 when the user wants to use the portable electronic device 6 for accessing the service website provided by the management server 8.
Then, in step S613, the portable electronic device 6 is operable to execute the terminal program 631 for comparing the new key generated in step S612 with the reference key 633 stored in the memory device 63. When the new key does not conform with the reference key 633, it can be determined that the new key was tampered or that the terminal program 631and the reference key 633 were moved to another device, and the flow goes to step S614. When the new key conforms with the reference key 633, it can be determined that the new key and the reference key 633 were generated using the same device and that the terminal program 631 and the reference key 633 were not moved to another device, and the portable electronic device 6 is operable to execute the terminal program 631 for further generating a one-time password (OTP) 40 a using the reference key 633 in step S615. Then, the OTP 40 a is transmitted to the computer 7 through the transmission interface 66 of the portable electronic device 6. In the case of the portable electronic device 6 without the transmission interface 66, the user can use the keyboard of the computer 7 to input the OTP 40 a displayed on the screen61 of the portable electronic device 6 in step S232.
In order to login the service website provided by the management server 8, the user needs to input the user ID using the keyboard of the computer 7 in step S231, and then, the user ID and the OTP 40 a are sent to the management server 8through the communication network 300.
In step S330, the management server 8 is operable to generate a reference one-time password 40 b using the reference key 633 stored therein in step S325 of the registration procedure. Upon receiving the user ID and the OTP 40 a from the computer 7, the management server 8 is operable to compare the OTP 40 a with the reference OTP 40 b and to determine whether the user ID is correct in step S331. If the OTP 40 a does not conform with the reference OTP 40 b or the user ID is incorrect, the management server 8 is operable to generate an error message in step S332. If the OTP 40 a conforms with the reference OTP 40 b and the user ID is correct, the management server 8 is operable to redirect the computer 7 for connecting with the service website provided by the management server 8 in step S333. In step S233, the computer 7 is authorized to access the service website.
After the computer 7 has received authorization to access the service website in the login procedure, the management server 8 cooperates with the portable electronic device 6 and the computer 7 to further implement the network security authentication method for processing a digital signature when the user intends to conduct an electronic transact ion with the management server 8. The network security authentication method for processing a digital signature will be described in detail below with reference to FIGS. 7 and 9.
For conducting the electronic transaction with the management server 8, the user needs to input a receiving account number in step S621 and to input a transfer amount in step S622 using the input module 64 of the portable electronic device 6. In step S623, the portable electronic device 6 is operable to generate transaction data 41 a related to the account number and the transfer amount, and to send the transaction data 41 a to the computer 7 through the transmission interface 66. Further, in step S624, the portable electronic device 6 is operable to execute the terminal program 631 for establishing a first digital signature 441 using the transaction data 41 a and the reference key 633, and to send the first digital signature 441 to the computer 7 through the transmission interface 66.
In response to receipt of the transaction data 41 a and the first digital signature 441, the computer 7 is operable to send the transaction data 41 a and the first digital signature 441 to the management server 8 through the communication network 300 in steps S241 and S242, respectively. It should be noted that, in the case of the portable electronic device 6without the transmission interface 66, the user may use the keyboard of the computer 7 to input the account number and the transfer amount so that the computer 7 is operable to obtain the transaction data 41 a consisting of the account number and the transfer amount.
The management server 8 is operable to receive transaction data 41 b corresponding to the transaction data 41 a from the computer 7 through the communication network 300 in step S341, and then, to establish a second digital signature 442using the received transaction data 41 b and the reference key 633 in step S342. In step S343, the management server 8is operable to receive the first digital signature 441, and to compare the first digital signature 441 with the second digital signature 442. If the first digital signature 441 does not conform with the second digital signature 442, the management server 8 is operable to determine that the transaction data 41 a was tampered during transmission and that the received transaction data 41 b is different from the transaction data 41 a. Therefore, the management server 8 is operable to reject the electronic transaction and to generate an error message in step S344. If the first digital signature 441 conforms with the second digital signature 442, the management server 8 is operable to determine that the received transaction data 41b is correct and is identical to the transaction data 41 a. Accordingly, the management server 8 is operable to implement the electronic transaction according to the account number and the transfer amount of the received transaction data 41 bin step S345. Finally, in step S346, the management server 8 is operable to notify the computer 7 that the electronic transaction is completed.
In sum, the network authentication method implemented using the network authentication device according to this invention has the following advantages. First, the user end may execute the terminal program for scanning the hardware components of the user end and for establishing the hardware list according to the identification codes of the hardware components thus obtained for subsequent use in authenticating the user. Thus, a network content provider does not need to purchase additional equipment for authentication, and does not need to provide the user with a personalized token, integrated circuit card, USB flash drive, etc. Also, the user does not need to have additional authentication devices for different websites. Further, in the first preferred embodiment, since the user end is connected to the network server through the first communication channel and is connected to the verification server through the second communication channel that is separate from the first communication channel, it is relatively difficult to attack the first and second communication channels simultaneously for stealing and tampering the data sent by the user end.
SRC=https://www.google.com.hk/patents/US20110185181
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