CN206551993U - A kind of PKE automobile encrypted antitheft systems based on quantum key card - Google Patents

Abstract

The utility model discloses a kind of PKE automobile encrypted antitheft systems based on quantum key card, including the transponder in car key and installing in the base station in automobile, it is characterized in that, also include respectively with the transponder and the quantum key card of base station matches, the transponder obtains dynamic key crypto identity information from the quantum key card matched, and the base station obtains dynamic key from the quantum key card matched and the identity information from transponder is decrypted.The identity information of interaction between base station and transponder is encrypted using the dynamic key of truly random formation in PKE automobile encrypted antitheft systems of the present utility model based on quantum key card, dynamic key is generated using the key seed and random parameter that regularly update, to reduce the association between dynamic key, the security of PKE automobile encrypted antitheft systems is substantially increased.

Description

A kind of PKE automobile encrypted antitheft systems based on quantum key card

Technical field

The utility model is related to road vehicle component, and in particular to a kind of PKE automobiles encryption based on quantum key card Burglary-resisting system.

Background technology

With the increasingly mature of automotive telematics technology and widely use, safe antitheft of the people to automobile in life Higher and higher requirement is proposed with property easy to use.Keyless door guard system (PKE) can not only realize it is long-range seek car function, it is remote Cheng Kaisuo locking functions, can also realize that exempting from operation unlocking locks, its with the advantage such as security, comfortableness and personalized designs into The focus paid close attention to and studied for each automobile production manufacturer.

In the various AESs that keyless door guard system (PKE) is used, aes algorithm with anti-attack ability it is strong, be easy to it is soft Part is realized, has very big application space without the advantage that patent protection is limited.Such as Patent No. CN201410779050《One Plant the anti-method for interception of radiofrequency signal of automobile key remote control system》Described in, encryption equipment and decipher are calculated using DES algorithms, AES Method or HITAG3 algorithms are encrypted or decrypted；Number of patent application is CN201510221253《A kind of compound PKE automobiles encryption is anti- Theft system》Described in using AES-128CCM AESs produce one encryption rolling code instruction.

Because the initial key of aes algorithm solidifies in the chips, so there is the risk of password leakage, prior art passes through Carry out computing to update and replace dynamic key with the synchronous code of continuous renewal on the basis of initial key, lacked with making up this Point.This causes the dynamic key relevance between front and rear double probate larger, reduces the security of dynamic key.Therefore design one Plant independent of synchronous code to generate the PKE automobile encrypted antitheft systems of dynamic key, the raising to future automobile security is just outstanding For necessity.

The authentication procedures of the existing automobile no-key gate control system based on AES encryption algorithm, dynamic key is used Fixed initial key, its synchronous code numerical value of change property dependent on the limited digit of XOR on the basis of initial key, is caused Dynamic key relevance between front and rear double probate is larger, and security is low.

Utility model content

In view of the shortcomings of the prior art, the utility model provides a kind of PKE automobiles encryption based on quantum key card and prevented Theft system.

A kind of PKE automobile encrypted antitheft systems based on quantum key card, including transponder in car key and Install in the base station in automobile, in addition to respectively with the transponder and the quantum key card of base station matches, the transponder Dynamic key crypto identity information is obtained from the quantum key card matched, the base station is from the quantum key card matched Dynamic key is obtained the identity information from transponder is decrypted.

Key generating device is provided with the quantum key card of the transponder and base station matches, for according to the amount of being pre-stored in The true random number generation dynamic key of sub-key card.

Preferably, the true random number is quantum true random number.

It is described to answer to ensure that transponder and base station obtain identical dynamic key in same authentication operating process It is identical with the true random number prestored in the quantum key card of base station matches to answer device, and key generating device is identical.

Using true random number as close during true random number formation dynamic key of the key generating device in quantum key card Key seed, then generates corresponding dynamic key according to built-in key schedule.

The amount of the storable true random number of quantum key card, and the size of key seed need setting according to user.

It should be noted that the utility model key generating device is identical, it is thus understood that key is given birth in transponder and base station The key schedule used into device is identical, to ensure the key of transponder and base station employed in an encryption process It is identical.

Described transponder includes data-interface and encrypting module, and the quantum that the data-interface matches for connecting is close Key card, the encrypting module is added for obtaining dynamic key from the quantum key card matched by the data-interface It is close.

Described base station includes data-interface and deciphering module, and the data-interface is used to connect the quantum key matched Card, the deciphering module is decrypted for obtaining dynamic key from quantum key card by the data-interface.

Deciphering module in the transponder encrypting module and the base station matches.

It should be noted that the deciphering module in transponder encrypting module and the base station matches it will be appreciated that response In the AES and deciphering module built in encrypting module in device built-in decipherment algorithm match, i.e., through in transponder Encrypting module encryption after identity information, can smoothly be decrypted in a base station.

Preferably, alarm module is equipped with the transponder and base station, for the true random number in quantum key card Amount be less than default lowest threshold when carry out alarm.The lowest threshold can be adjusted according to practical situations.

Further preferably, it is arranged with a shell, the shell and is additionally provided with for installing quantum key outside the transponder The installation position of card.In use, the quantum key card that transponder is matched is installed in the installation position, and ensure in quantum key card Correctly install when installation position, quantum key card can successfully dock with the data-interface of transponder and realize data transfer.

Compared with existing PKE automobiles encrypted antitheft system, the PKE automobiles encryption of the present utility model based on quantum key card The identity information of interaction between base station and transponder is carried out plus solution using the dynamic key of true random number formation in burglary-resisting system It is close, dynamic key is generated using the key seed and random parameter that regularly update, to reduce the association between dynamic key, significantly Improve the security of PKE automobile encrypted antitheft systems.

Brief description of the drawings

Fig. 1 is the structural representation of the PKE automobile encrypted antitheft systems based on quantum key card of the present embodiment；

Fig. 2 is the flow chart of generation dynamic key method；

Fig. 3 for the present embodiment the PKE automobile encrypted antitheft systems based on quantum key card in transponder structured flowchart；

Fig. 4 for the present embodiment the PKE automobile encrypted antitheft systems based on quantum key card in base station structured flowchart；

Fig. 5 is the data encapsulation flow chart that transponder sends high frequency response message；

Fig. 6 is the workflow diagram of transponder in authentication procedures；

Fig. 7 is the workflow diagram of base station in authentication procedures.

Embodiment

The utility model is described further below with reference to the drawings and specific embodiments.

As shown in figure 1, the PKE automobile encrypted antithefts system based on quantum key card of the present embodiment includes being arranged on car key Spoon in transponder and install in the base station in automobile, in addition to respectively with the transponder and the quantum key of base station matches Card, transponder obtains dynamic key crypto identity information from the quantum key card matched, and base station is close from the quantum matched Dynamic key is obtained in key card the identity information from transponder is decrypted.

Key generating device is provided with the quantum key card of transponder and base station matches, for according in quantum key card The true random number generation dynamic key prestored.

In the present embodiment, the true random number prestored in quantum key card is divided into several key seeds, key generating device Dynamic key is generated according to key seed.When implementing, during key generating device generation dynamic key, in addition it is also necessary to which random number is joined Number.Key seed, true random number key generation mark and key schedule life of the key generating device in memory module Generated once into finite number of time (specific number of times is determined by security requirement, the length of key seed and key schedule) The dynamic key used when the one true random number key become is as final encryption.

The quantum key generating means of the present embodiment safeguard true random number key generation mark, close by the true random number Key generation mark is used as the pointer and required random number parameter of the true random number of key seed when providing each authentication Deng.

The method of the quantum key generating means generation dynamic key of the present embodiment is as shown in Fig. 2 first according to truly random Number keys generation mark, calls corresponding true random number key seed (i.e. key seed), and with identify in the random number that includes Parameter together substitutes into key schedule, and computing draws the dynamic key needed for this certification.It is continuous due to random number parameter Change, and true random number key seed renewal on schedule, true random number key is substantially the dynamic key of one time one change, and dynamic There is relatively low relevance between state key.

The true random number prestored in quantum key card comes from the quantum service station in quantum communication network, by from quantum Download and obtain in service station.Quantum service station is the communication node of quantum network, and quantum is used as generation and application true random number Key, includes quantum key distribution terminal, quantum random number generator and supporting communication and management equipment, quantum key distribution Terminal produces the quantum key of share in different areas, for secure communication of the two places based on quantum key；Quantum random number generator is produced The raw true random number for being available for local mobile terminal to download and use, for the data that safe class is slightly lower or required size of key is huge Encryption process.

The PKE automobile encrypted antitheft systems based on quantum key card of the present embodiment are using preceding needing quantum communications net Two tensor sub-key cards are applied in quantum service station in network, and are matched respectively with base station and transponder binding.

As shown in figure 3, transponder includes transponder microcontroller, and keyboard, the electricity being connected with transponder microcontroller Source, low frequency reception unit, high-frequency emission unit.In the present embodiment, the transponder microcontroller in transponder is provided with data-interface And encrypting module, data-interface is for connecting the quantum key card matched, and encrypting module is for passing through data-interface from quantum Obtained in key card after dynamic key is encrypted to the information (i.e. high frequency response message) for being sent to base station by high frequency transmitting element It is sent to base station.

As shown in figure 4, base station includes high frequency in the PKE automobile encrypted antitheft systems based on quantum key card of the present embodiment Receiving unit, low frequencies unit, base station microcontroller, power supply, CAN interface, wherein, high-frequency reception unit, low frequency hair Penetrate unit, power supply, CAN interface to be connected with base station microcontroller respectively, CAN interface passes through CAN channel and vapour Car associated control modules connect, to realize being in communication with each other between base station and automobile associated control modules, reach control automobile locking, Unlock, seek the purposes such as car.Further, in base station base station microcontroller include data-interface and deciphering module, data-interface use The quantum key card matched in connection, deciphering module is used to obtain dynamic close from quantum key card by the data-interface Identity information from transponder is decrypted key.

To ensure that the information of interaction between transponder and base station can be decrypted by other side, the encrypting module in transponder is adopted The decipherment algorithm that deciphering module in AES and base station is used needs to be mutually matched, and requires the key of use (i.e. dynamic key) is identical.Further, in addition it is also necessary to respectively with prestored in the quantum key card of transponder and base station matches it is true Random number (i.e. key seed) is identical, and key generating device is identical.

It should be noted that in the encrypted antitheft system (i.e. PKE automobiles encrypted antitheft system) of the present embodiment, with transponder Or between the quantum key card of base station matches and transponder or base station be pluggable communication connection.In use, can insert It is connected in data-interface, realizes communication；When not in use, it can disconnect.

Key generation is solidificated in due to generating the key schedule of dynamic key according to key seed and random number parameter In device, therefore, the service life that each key seed is set to improve security, in the present embodiment (uses frequency table more Show), the key seed is then abandoned after service life is reached.

The service life of key seed can be adjusted without particular/special requirement according to application security demand etc. in the present embodiment.

The true random number in quantum key card can be reduced constantly in use.When the amount of storage of true random number is inadequate When, dynamic key just can not be normally generated to be encrypted or decrypt.Therefore, when implementing, by transponder and base Station is provided with alarm module, and the amount for the true random number in quantum key card is alarmed when being less than default lowest threshold Prompting.When car owner receives alarm, quantum key card is removed from base station and transponder, and it is true to quantum service station download quantum Random number as storage inside true random number.

In the present embodiment, alarm module includes indicator lamp, by the lighting effects of indicator lamp by alarm to user (car owner).In transponder, the indicator lamp is connected with transponder microcontroller, and transponder microprocessor is obtained in quantum key card Remaining true random number amount, and control signal is sent to instruction according to comparative result after being compared with default lowest threshold Lamp；In a base station, the indicator lamp is connected with base station microcontroller, and it is identical with transponder to implement process, is analogized.

Because key seed after the access times threshold value for reaching setting using that can abandon, therefore, in use, quantum Key seed in key card can be gradually decreased, and dynamic key is generation, now the microcontroller in transponder and base station What is monitored should be the amount for enjoying key seed in quantum key card, when the amount of key seed is less than default lowest threshold, lead to Cross indicator light alarm.

It should be noted that the corresponding lowest threshold of key seed is without particular/special requirement, according to practical application security need Ask etc. and to set.

In the utility model, transponder and base station are to correspond to local mobile terminal, and quantum random number generator is produced True random number key seed store into quantum key card, for generate one time one change true random number key, for response The information encryption process of authentication between device and base station is used.

The installation position being additionally provided with a shell, shell for installing quantum key card is arranged with outside transponder.Quantum key Card and transponder are arranged in shell, and quantum key card has mobility relative to transponder.

It should be noted that transponder and base station internal memory contain identical key number ID, automobile ID, vendor code and low frequency Wake-up sequence.

The PKE automobile encrypted antithefts system of the present embodiment supports unidirectional or two-way two kinds of certification modes, as shown in figure 1, During unilateral authentication, car owner by the keyboard trigger command of transponder, as above locking key, solving locking key, seek car key etc., transponder hair Send the high frequency response message encrypted by dynamic key to base station, ciphertext decryption and authentication by rear, are performed correlation by base station Order；In mutual authentication process, base station is initially in resting state, constantly outwards launches low frequency interrogation signal, when matching Transponder be waken up when entering range of receiving (key number ID that the transponder of matching refers to store in the base station and transponder, Automobile ID, vendor code are consistent with low frequency wake-up sequence), transponder obtains dynamic key from the quantum key card matched High frequency response message (identity information, the command information that include transponder itself) is encrypted to base station, base station is from the quantum matched Dynamic key is obtained in key card by ciphertext decryption and authentication by rear, related command is performed.Unilateral authentication pattern is general Applied to remote operation, two-way authentication may be implemented between transponder and base station automobile in short range it is automatic locking, close window, The operation such as unblock.As shown in Figure 1, most important communication process is that transponder is sent out to base station during authentication between transponder and base station Send high frequency response message process.Fig. 5 is the data prep flow figure that transponder sends high frequency response message, prepares flow and is mainly Data are packaged, the data structure after encapsulation is as shown in figure 5, including header, identity code, command byte, truly random key Number generation mark, Message Authentication Code and check code, wherein, the burst of data of header to check code is high-frequency data frame, and header is used Start to receive data message in notifying base station to prepare；Identity code is the identity identification information related with key ID to automobile ID；Life Make byte corresponding with transponder key value, command byte is default value during low frequency wake-up；True random number key generation mark is used for Identical true random number key seed is called in base station in quantum key card, and using identical random number parameter to pass through key Generating algorithm calculates identical dynamic key, is used as decruption key；Message Authentication Code is base station authentication transponder identity and life The main authority of order, there is two kinds of selections:One kind be using transponder encrypted result all as Message Authentication Code, it is another be from should Answer and specified byte is intercepted in device encrypted result as identifying code；Check code is used for the error detection of data frame.

By taking the identity authentication protocol using 128 AES encryption algorithms as an example, simply introduce transponder data in Fig. 5 and prepare Flow.Transponder microcontroller extracts identity code and command byte, is expanded to the data of 128 as be-encrypted data, Quantum key card generates marker extraction true random number key seed according to true random number key, and it is given birth to true random number key Enter key schedule into the random number parameter in mark together generation, produce 128 true random number keys needed for this certification, Aes algorithm is encrypted to form close using this 128 true random number keys to above-mentioned 128 be-encrypted datas in microcontroller Text, intercepts 64 data as Message Authentication Code, transponder is sending data using high frequency transmitting element from the ciphertext of generation During by header, identity code, command byte, true random number key generation mark, Message Authentication Code and check code together group Into communications data frame, high frequency response message is launched by pulse width modulation mode.Fig. 6 is the work of transponder in authentication procedures Flow chart.As shown in fig. 6, in order to reduce power consumption, transponder is typically in park mode, the condition for waking up transponder is：Car owner Triggered by button, or transponder enters the range of receiving of Base Transmitter low frequency interrogation signal.When car owner should by button triggering When answering device, the microcontroller (i.e. transponder microcontroller) in transponder reads key value, and prepares clear data；Equally, when When the low frequency interrogation signal that transponder is sent by base station wakes up, transponder checks whether header matches and verify inquiry data frame Legitimacy, if Header Match and inquiry data frame it is legal if transponder prepare clear data, during clear data is Fig. 5 herein Transponder data prepares 128 Bits Expanding data of flow；If header is mismatched or inquiry data frame is illegal, transponder will Inquiry data frame abandons and enters park mode, and wait is triggered or waken up again.Transponder calls AES encryption function to be aligned Standby clear data is encrypted, and this process is AES encryption process in Fig. 5.Transponder is sent out by high-frequency emission unit framing Ciphertext is sent, its data frame is serial data of the header described in Fig. 5 to check code.Transponder when high frequency response message is sent It is again introduced into park mode.Fig. 7 is the workflow diagram of base station in authentication procedures.Base station is received by high-frequency reception unit The high frequency reply data frame that transponder is sent, the header triggering base station of high frequency reply data frame prepares to receive data frame, base station inspection The identity code for surveying high frequency reply data frame in whether there is, and abandons the frame if being not present and returns to state to be triggered, if in the presence of Then base station checks its integrality to the data frame of receiving, if incomplete data frame and receive the time limit in the range of, base station after Continuous to prepare to receive next group of high frequency response message, base station, which abandons the data frame received and entered, if time-out is received waits triggering State.The data frame that base station checks are received is partial data, then base station microcontroller therefrom extracts ciphertext, and ciphertext is carried out Decryption and checking.First, the true random number key generation mark in high frequency reply data frame is inputted base station by base station microcontroller In quantum key card, the true random number key seed that base station quantum key card is included according to this true random number key generation mark refers to Pin transfers corresponding true random number key seed, and this true random number key seed and true random number key are produced in mark Random number parameter together inputs key schedule, and (i.e. dynamic is close with 128 true random number keys of identical in transponder for generation Key).Base station microcontroller is carried out after Data expansion to the identity code and command byte that receive using base station quantum key card fortune The true random number key drawn carries out AES encryption, and 64 data of interception are used as Message Authentication Code, this process and phase in Fig. 5 Close description identical.Base station microcontroller carries out Message Authentication Code contrast, and certification is no by then performing the order in high-frequency data frame Then abandon the frame and enter state to be triggered.So far the high frequency reply data frame that base station is encrypted to true random number key is received and located Reason is finished.

The technical solution of the utility model and beneficial effect are described in detail above-described embodiment, It should be understood that the foregoing is only most preferred embodiment of the present utility model, the utility model is not limited to, it is all at this Any modification, supplement and equivalent substitution made in the spirit of utility model etc., should be included in guarantor of the present utility model Within the scope of shield.

Claims (8)

1. a kind of PKE automobile encrypted antitheft systems based on quantum key card, including transponder and peace in car key Base station in automobile, it is characterised in that also including respectively with the transponder and the quantum key card of base station matches, institute State transponder and obtain dynamic key crypto identity information from the quantum key card matched, the base station is from the quantum matched Dynamic key is obtained in key card the identity information from transponder is decrypted.

2. the PKE automobile encrypted antitheft systems as claimed in claim 1 based on quantum key card, it is characterised in that described to answer Answer in the quantum key card of device and base station matches be provided with key generating device, for according to be pre-stored in quantum key card it is true with Machine number generates dynamic key.

3. the PKE automobile encrypted antitheft systems as claimed in claim 2 based on quantum key card, it is characterised in that described to answer It is identical with the true random number prestored in the quantum key card of base station matches to answer device, and key generating device is identical.

4. the PKE automobile encrypted antitheft systems as claimed in claim 1 based on quantum key card, it is characterised in that described Transponder includes data-interface and encrypting module, and the data-interface is used to connect the quantum key card matched, the encryption Module is encrypted for obtaining dynamic key from the quantum key card matched by the data-interface.

5. the PKE automobile encrypted antitheft systems as claimed in claim 4 based on quantum key card, it is characterised in that described Base station includes data-interface and deciphering module, and the data-interface is used to connect the quantum key card matched, the decryption mould Block is decrypted for obtaining dynamic key from quantum key card by the data-interface.

6. the PKE automobile encrypted antitheft systems as claimed in claim 5 based on quantum key card, it is characterised in that described to answer The deciphering module answered in device encrypting module and the base station matches.

7. the PKE automobile encrypted antitheft systems based on quantum key card as described in any one in claim 1~6, it is special Levy and be, alarm module is equipped with the transponder and base station, in quantum key card true random number less than default Alarm is carried out during lowest threshold.

8. the PKE automobile encrypted antitheft systems as claimed in claim 7 based on quantum key card, it is characterised in that described to answer Answer and a shell is arranged with outside device, the installation position for installing quantum key card is additionally provided with the shell.