CN107465995B - Communication mode switching method and intelligent password equipment - Google Patents

Abstract

The invention provides a communication mode switching method and intelligent password equipment, wherein the method comprises the following steps: in an initial mode, the intelligent password equipment sends a high-speed switching request to external equipment; receiving a high-speed switching response, starting a high-speed clock, starting a screen, starting a power supply of the security chip, and switching to a high-speed communication mode; in a high-speed communication mode, the intelligent password equipment is in service data communication with external equipment; after the service data communication is finished, switching to an initial mode; in an initial mode, sending a low-speed switching request to external equipment, receiving a low-speed switching response, closing a screen, closing a high-speed clock, closing a power supply of a security chip, and switching to a low-speed communication mode; in the low-speed communication mode, if a service awakening instruction is received, switching to the initial mode, skipping to the initial mode, sending a high-speed switching request to the external equipment, and continuing to execute.

Description

Communication mode switching method and intelligent password equipment

Technical Field

the present invention relates to the field of electronic technologies, and in particular, to a method for switching communication modes and an intelligent password device.

background

After the intelligent password device supporting the bluetooth communication interface successfully establishes the bluetooth connection with the external device, data communication is performed according to a certain fixed time period, which is called a communication connection interval. To increase the communication rate, a smaller communication connection interval is generally selected; in order to reduce the power consumption of the smart password device, a larger communication connection interval is generally selected in consideration of increasing the sleep time. Under different application scenes, the intelligent password device selects a proper communication connection interval so as to be switched to a proper communication mode to communicate with the external device, and the intelligent password device is crucial to ensuring the communication quality and efficiency.

in the prior art, the mode switching of the intelligent password device is as follows: after the connection between the intelligent password equipment and the external equipment is established, when business transaction is needed, the intelligent password equipment is switched to a high-speed mode for business transaction, the communication connection interval in the high-speed mode is small, the communication efficiency is improved, after the business transaction is completed, the intelligent password equipment is switched to a low-speed mode, the communication connection interval in the low-speed mode is large, the power consumption is reduced, and the intelligent password equipment is switched to the high-speed mode when the next transaction is completed. However, with the existing scheme, when the external device does not support switching from the low-speed mode to the high-speed mode, a switching failure may be caused, which affects normal communication between the smart password device and the external device.

Disclosure of Invention

the present invention is directed to solving the above problems.

The invention mainly aims to provide a method for switching communication modes;

Another object of the present invention is to provide an intelligent cryptographic device.

In order to achieve the purpose, the technical scheme of the invention is realized as follows:

one aspect of the present invention provides a method for switching communication modes, including: step 101, in an initial mode, an intelligent password device sends a high-speed switching request to an external device through a Bluetooth link, wherein the high-speed switching request carries communication parameters in a high-speed communication mode, and the communication parameters at least comprise communication connection intervals; 102, the intelligent password device receives a high-speed switching response sent by the external device through the Bluetooth link, starts a high-speed clock, starts a screen, starts a power supply of a security chip, and switches to the high-speed communication mode according to communication parameters in the high-speed communication mode; 103, in the high-speed communication mode, the intelligent password device communicates service data with the external device; step 104, after the service data communication of the intelligent password device is finished, the intelligent password device sends an initial switching request to the external device through the bluetooth link, wherein the initial switching request carries communication parameters in the initial mode, and the communication connection interval in the initial mode is greater than that in the high-speed communication mode; step 105, the intelligent password device receives an initial switching response sent by the external device through the Bluetooth link, and switches to the initial mode according to the communication parameters in the initial mode; 106, in the initial mode, the intelligent password device sends a low-speed switching request to the external device through the bluetooth link, where the low-speed switching request carries communication parameters in a low-speed communication mode, and a communication connection interval in the low-speed communication mode is greater than a communication connection interval in the initial mode; step 107, the intelligent password device receives a low-speed switching response sent by the external device through the bluetooth link, the intelligent password device turns off the screen, turns off the high-speed clock, turns off the power supply of the security chip, and switches to a low-speed communication mode according to the communication parameters in the low-speed communication mode; step 108, in the low-speed communication mode, if the intelligent password device receives a service wake-up instruction, the intelligent password device sends an initial switching request to the external device through the bluetooth link, wherein the initial switching request carries communication parameters in the initial mode; step 109, the intelligent password device receives an initial switching response sent by the external device through the bluetooth link, switches to the initial mode according to the communication parameters in the initial mode, and jumps to step 101: and in the initial mode, the intelligent password equipment sends a high-speed switching request to the external equipment through the Bluetooth link and continues to execute.

before the intelligent password device sends the low-speed switching request to the external device, the method further includes: the intelligent password equipment executes a process of switching to an intermediate communication mode and enters the intermediate communication mode, wherein the communication connection interval in the intermediate communication mode is larger than the communication connection interval in the initial mode, and the communication connection interval in the intermediate communication mode is smaller than the communication connection interval in the low-speed communication mode; the intelligent password device sends the low-speed switching request to the external device, specifically: and in the intermediate-level communication mode, the intelligent password device sends the low-speed switching request to the external device.

The number of the intermediate communication modes is one, and the intelligent password device executes a process of switching to the intermediate communication mode, specifically: the intelligent password equipment sends a middle-level switching request to the external equipment, wherein the middle-level switching request carries communication parameters in the middle-level communication mode; and the intelligent password equipment receives a middle-level switching response sent by the external equipment and switches to the middle-level communication mode according to the communication parameters in the middle-level communication mode.

The number of the intermediate communication modes is at least two, and the intelligent password device executes a process of switching to the intermediate communication mode, specifically: the intelligent password device firstly executes a process of switching to a first intermediate communication mode, under the first intermediate communication mode, the intelligent password device executes a process of switching to a next intermediate communication mode until the last intermediate communication mode of the at least two intermediate communication modes is switched, a communication connection interval from the first intermediate communication mode to the last intermediate communication mode is sequentially increased, the communication connection interval under the first intermediate communication mode is larger than that under the initial mode, and the communication connection interval under the last intermediate communication mode is smaller than that under the low-speed communication mode.

another aspect of the present invention provides an intelligent password device, including: the Bluetooth communication module is used for sending a high-speed switching request to external equipment through a Bluetooth link in an initial mode, wherein the high-speed switching request carries communication parameters in a high-speed communication mode; receiving a high-speed switching response sent by the external equipment through the Bluetooth link, wherein the communication parameters at least comprise a communication connection interval; the switching control module is used for starting a high-speed clock, starting a screen, starting a power supply of a security chip and controlling the intelligent password equipment to be switched to the high-speed communication mode according to the communication parameters in the high-speed communication mode; the Bluetooth communication module is also used for carrying out service data communication with the external equipment in the high-speed communication mode; after the service data communication is finished, sending an initial switching request to the external equipment through the Bluetooth link, wherein the initial switching request carries communication parameters in the initial mode, and the communication connection interval in the initial mode is larger than that in the high-speed communication mode; receiving an initial switching response sent by the external equipment through the Bluetooth link; the switching control module is further configured to control the intelligent password device to switch to the initial mode according to the communication parameters in the initial mode; the bluetooth communication module is further configured to send a low-speed handover request to the external device through the bluetooth link in the initial mode, where the low-speed handover request carries communication parameters in a low-speed communication mode, and a communication connection interval in the low-speed communication mode is greater than a communication connection interval in the initial mode; receiving a low-speed switching response sent by the external equipment through the Bluetooth link; the switching control module is further configured to close the screen, close the high-speed clock, close a power supply of the security chip, and control the intelligent password device to switch to the low-speed communication mode according to the communication parameters in the low-speed communication mode; the bluetooth communication module is further configured to, in the low-speed communication mode, send an initial handover request to the external device through the bluetooth link if the intelligent password device receives a service wake-up instruction, where the initial handover request carries communication parameters in the initial mode; and receiving an initial switching response sent by the external equipment through the Bluetooth link.

The switching control module is further configured to control the intelligent password device to switch to an intermediate communication mode, where a communication connection interval in the intermediate communication mode is greater than a communication connection interval in the initial mode, and the communication connection interval in the intermediate communication mode is smaller than the communication connection interval in the low-speed communication mode; the bluetooth communication module is specifically configured to send the low-speed switching request to the external device in the middle-level communication mode.

The bluetooth communication module is specifically configured to send an intermediate level switching request to the external device when the number of the intermediate level communication modes is one, where the intermediate level switching request carries communication parameters in the intermediate level communication mode; receiving a middle-level switching response sent by the external equipment; the switching control module is specifically configured to control the intelligent cryptographic device to switch to the intermediate-level communication mode according to the communication parameter in the intermediate-level communication mode;

The switching control module is specifically configured to control the intelligent cryptographic device to switch to a first intermediate-level communication mode when the number of the intermediate-level communication modes is at least two, and control the intelligent cryptographic device to switch to a next intermediate-level communication mode in the first intermediate-level communication mode until the intelligent cryptographic device switches to a last intermediate-level communication mode of the at least two intermediate-level communication modes, where a communication connection interval in the first intermediate-level communication mode increases progressively sequentially from a communication connection interval in the first intermediate-level communication mode to a communication connection interval in the last intermediate-level communication mode, the communication connection interval in the first intermediate-level communication mode is greater than the communication connection interval in the initial mode, and the communication connection interval in the last intermediate-level communication mode is smaller than the communication connection interval in the low-speed communication mode.

according to the technical scheme provided by the invention, when the high-speed communication mode is switched to the low-speed communication mode, the intelligent password equipment is firstly switched from the high-speed communication mode to the initial mode, and sends the low-speed switching request in the initial mode so as to request to be switched to the low-speed communication mode; when the low-speed communication mode is switched to the high-speed communication mode, the intelligent password equipment is firstly switched from the low-speed communication mode to the initial mode, and a high-speed switching request is sent in the initial mode to request to be switched to the high-speed communication mode; that is, in the present embodiment, no matter the high-speed communication mode is switched to the low-speed communication mode, or the low-speed communication mode is switched to the high-speed communication mode, it is necessary to switch to the initial mode first, and in the initial mode, a corresponding switching request is sent to trigger execution of corresponding mode switching.

compared with the prior art that the mode switching fails because the external device does not support the direct switching from the high-speed communication mode to the low-speed communication mode, the scheme provided by the invention has the advantages that the intelligent password device is switched to the initial mode first, and the external device supports the communication parameters in the initial mode, so that the mode switching success rate can be improved, and the problem of failure caused by the direct switching of the high-speed communication mode and the low-speed communication mode is avoided.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on the drawings without creative efforts.

fig. 1 is a flowchart of a method for switching communication modes according to embodiment 1 of the present invention;

fig. 2 is a schematic structural diagram of an intelligent cryptographic device provided in embodiment 2 of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention are clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without making any creative effort, shall fall within the protection scope of the present invention.

in the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or quantity or location.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

embodiments of the present invention will be described in further detail below with reference to the accompanying drawings.

Example 1

As shown in fig. 1, the present embodiment provides a method for switching a communication mode applied to an intelligent password device, including the following steps:

101. in an initial mode, the intelligent password equipment sends a high-speed switching request to external equipment through a Bluetooth link, wherein the high-speed switching request carries communication parameters in a high-speed communication mode;

in this embodiment, the intelligent password device is a device capable of implementing security operations such as digital signature and identity authentication based on a digital certificate, and the intelligent password device may be matched with an external device (e.g., a mobile phone, a POS device, a PC device, etc.) to complete the confirmation and signature of transaction data during a transaction process. This intelligence password equipment is equipped with the security chip, is used for the screen of display data, is used for realizing bluetooth communication's bluetooth communication interface, is used for the input to confirm the button of instruction and is used for triggering parts such as the bluetooth button of establishing the bluetooth connection, can be equipped with the bluetooth button on the intelligence password equipment usually to be convenient for opening and breaking off that convenience of customers manual control bluetooth is connected. It can be understood that, when the intelligent password device only supports the bluetooth communication mode, the intelligent password device may not set the bluetooth key, for example, the bluetooth connection is established after default power on, and the bluetooth connection is disconnected after power off, or the bluetooth key may be set, which is not limited herein. The keys on the intelligent password device can be realized by physical keys, and certainly, if the screen is a touch screen, the virtual keys can be displayed through the touch screen. The security chip stores key information such as a private key and a digital certificate, wherein the private key can be used for performing digital signature on received transaction data, and the digital certificate can be used for performing identity authentication and the like.

in this embodiment, after the intelligent password device is started, the intelligent password device broadcasts information such as a bluetooth address, the external device performs scanning of the bluetooth device, after the intelligent password device is scanned, a bluetooth connection establishment request is sent to the intelligent password device, the bluetooth connection establishment request carries initial communication parameters of the external device, after the intelligent password device receives the bluetooth connection establishment request sent by the external device, the initial communication parameters of the external device are stored and used as communication parameters of the intelligent password device in an initial mode, and the communication parameters are communicated with the external device according to the communication parameters in the initial mode, so that a bluetooth connection establishment process and a bluetooth security pairing process are completed.

Generally, after the bluetooth secure pairing procedure is executed between the smart password device and the external device, the smart password device needs to perform service processing with the external device. In the initial mode, the intelligent password device sends a high-speed switching request to the external device to request to switch to the high-speed communication mode so as to process the service.

102. The intelligent password equipment receives a high-speed switching response sent by the external equipment through the Bluetooth link, starts a high-speed clock, starts a screen, starts a power supply of a security chip, and switches to the high-speed communication mode according to the communication parameters in the high-speed communication mode;

In this embodiment, the high-speed switching request carries communication parameters in a high-speed communication mode supported by the intelligent cryptographic device, after receiving the high-speed switching request, the external device determines whether the external device also supports the communication parameters in the high-speed communication mode, and if the external device also supports the communication parameters in the high-speed communication mode, sends a high-speed switching response to the intelligent cryptographic device, where the high-speed switching response carries information indicating that switching to the high-speed communication mode is agreed. Meanwhile, the external device can also be switched to a communication mode matched with the high-speed communication mode of the intelligent password device according to the communication parameters in the high-speed communication mode.

It can be understood that, if the external device does not support the communication parameters in a certain mode, the switching response carries information indicating that the switching is not agreed, and at this time, the intelligent password device does not perform switching of the communication mode after receiving the switching response. This may result in a failure of the mode switching.

in this embodiment, the switching to the high-speed communication mode is initiated by the intelligent password device actively, and the high-speed switching request carries the communication parameters in the high-speed communication mode supported by the intelligent password device itself, and after receiving the high-speed switching request, the external device returns a high-speed switching response to notify the intelligent password device of performing the mode switching if the high-speed communication mode is also supported, and meanwhile, the external device also switches to the high-speed communication mode according to the communication parameters in the high-speed communication mode. Compared with the prior art, mode switching is usually initiated by external equipment, on one hand, the intelligent password equipment actively initiates to improve the safety of mode switching, and on the other hand, when the high-speed switching request is sent, the intelligent password equipment enables the external equipment to quickly acquire communication parameters supported by the intelligent password equipment by carrying communication parameters in a high-speed communication mode supported by the intelligent password equipment in the high-speed switching request, so that the external equipment can quickly trigger mode switching when supporting the communication parameters, and the efficiency of mode switching is improved.

In this embodiment, the communication parameters at least include communication connection intervals, and the communication connection intervals in different modes are different, where the communication connection interval in the initial mode is greater than the communication connection interval in the high-speed communication mode, and the communication connection interval in the low-speed communication mode is greater than the communication connection interval in the initial mode. For example, after the intelligent password device establishes bluetooth communication connection with the external device, a value range of a communication connection interval in the initial mode may be 30ms to 50ms, a minimum value of the communication connection interval in the high-speed communication mode is generally 7.5ms, and a value of the communication connection interval in the low-speed communication mode is generally greater than 500 ms.

In this embodiment, the communication parameters may include a communication connection delay and a communication connection timeout in addition to the communication connection interval, which is described in detail in the bluetooth communication protocol.

103. in the high-speed communication mode, the intelligent password equipment is in service data communication with the external equipment;

the service data communication in this embodiment may be, for example, that the intelligent password device receives transaction data sent by the external device through a bluetooth communication connection, and after the intelligent password device confirms and signs the transaction data, the intelligent password device returns the signed transaction data to the external device.

104. After the service data communication of the intelligent password equipment is finished, the intelligent password equipment sends an initial switching request to the external equipment through the Bluetooth link, wherein the initial switching request carries communication parameters in the initial mode;

In this embodiment, the manner for the intelligent cryptographic device to determine that the service data communication is ended may be: after the service processing is executed and the data after the service processing is sent to the external device, for example, when the service processing is signature service, the intelligent password device signs the transaction data to obtain the signed transaction data, and after the signed transaction data is sent to the external device, it is determined that the service data communication is ended. Of course, the manner for the intelligent cryptographic device to determine the end of the service data communication may also be: and receiving notification information of service data communication end sent by the external equipment. The specific implementation is not limited herein.

105. The Bluetooth link of the intelligent password equipment receives an initial switching response sent by the external equipment and switches to the initial mode according to the communication parameters in the initial mode;

in this embodiment, after the intelligent password device sends the initial switching request to the external device, the communication parameters in the initial mode are supported by the external device, so that the external device returns an initial switching response to the intelligent password device, and carries information agreeing to switching in the initial switching response, and meanwhile, the external device itself also switches to a mode matched with the initial mode according to the communication parameters in the initial mode.

106. In the initial mode, the intelligent password device sends a low-speed switching request to the external device through the Bluetooth link, wherein the low-speed switching request carries communication parameters in a low-speed communication mode;

In this embodiment, after the intelligent password device sends the low-speed switching request to the external device, the external device receives the low-speed switching request, and if the communication parameter in the low-speed mode is supported by the external device, the external device returns a low-speed switching response to the intelligent password device, where the low-speed switching response carries information for agreeing to switching, and meanwhile, the external device itself also switches to a mode matched with the low-speed mode according to the communication parameter in the low-speed mode.

In this embodiment, in order to reduce the power consumption of the intelligent password device, after the intelligent password device and the external device perform service data communication, the mode is switched to a low power consumption mode, for example, a low-speed communication mode.

107. The intelligent password equipment receives a low-speed switching response sent by the external equipment through the Bluetooth link, closes the screen, closes the high-speed clock, closes the power supply of the security chip, and switches to a low-speed communication mode according to the communication parameters in the low-speed communication mode;

In this embodiment, the intelligent password device is in a sleep state after entering the low-speed communication mode, so as to reduce power consumption.

108. In the low-speed communication mode, if the intelligent password device receives a service wake-up instruction, the intelligent password device sends an initial switching request to the external device through the Bluetooth link, wherein the initial switching request carries communication parameters in the initial mode;

In this embodiment, the service wake-up instruction may be a service processing instruction generated when the user clicks a certain service icon, or the intelligent password device receives a service processing instruction from an external device, or the like. According to different applications, the form of the service awakening instruction is different, and the service awakening instruction can be used as the service awakening instruction as long as the instruction can trigger the intelligent password device to be switched to the high-speed communication mode.

109. The intelligent password device receives an initial switching response sent by the external device through the Bluetooth link, switches to the initial mode according to the communication parameters in the initial mode, jumps to step 101, and sends a high-speed switching request to the external device through the Bluetooth link and continues to execute the high-speed switching request in the initial mode.

In this embodiment, the step 103-107 realizes the switching from the high-speed communication mode to the low-speed communication mode, the step 108-109, and then the step 101-102 are skipped to realize the switching from the low-speed communication mode to the high-speed communication mode.

In this embodiment, when switching from the high-speed communication mode to the low-speed communication mode, the intelligent password device will first switch from the high-speed communication mode to the initial mode, and send a low-speed switching request in the initial mode to request switching to the low-speed communication mode; when the low-speed communication mode is switched to the high-speed communication mode, the intelligent password equipment is firstly switched from the low-speed communication mode to the initial mode, and a high-speed switching request is sent in the initial mode to request to be switched to the high-speed communication mode; that is, in the present embodiment, no matter the high-speed communication mode is switched to the low-speed communication mode, or the low-speed communication mode is switched to the high-speed communication mode, it is necessary to switch to the initial mode first, and in the initial mode, a corresponding switching request is sent to trigger execution of corresponding mode switching.

Compared with the prior art that the mode switching fails because the external device does not support the direct switching from the high-speed communication mode to the low-speed communication mode, in the scheme provided by this embodiment, the intelligent password device is switched to the initial mode first, and because the external device supports the communication parameters in the initial mode, the intelligent password device is switched to the corresponding mode again in the initial mode, so that the problem of failure caused by the direct switching of the high-speed and low-speed communication modes can be avoided.

In addition, in this embodiment, before the intelligent password device performs the mode switching for the first time, the bluetooth security pairing procedure needs to be performed first, that is, the bluetooth security pairing procedure is performed first, and then the mode switching procedure is performed, so that it is ensured that the intelligent password device and the external device are successfully paired, and then the mode switching procedure is performed, thereby avoiding the problem of disconnection of bluetooth connection when the bluetooth pairing procedure and the mode switching procedure are performed simultaneously.

It should be noted that, in the prior art, when the high-speed communication mode is directly switched to the low-speed communication mode, if the selected communication connection interval is too large, the external device may refuse to perform the switching, which may result in a switching failure. By adopting the embodiment, when the high-speed communication mode is switched to the low-speed communication mode, the initial mode is firstly switched, and when the initial mode is switched to the low-speed communication mode, the intermediate-stage communication mode is firstly switched and then the low-speed communication mode is switched from the intermediate-stage communication mode in a step-by-step switching mode, so that the probability of switching failure is reduced.

in an optional implementation manner of this embodiment, before the intelligent password device sends the low-speed switching request to the external device, the method further includes: the intelligent password equipment executes a process of switching to an intermediate communication mode and enters the intermediate communication mode; the intelligent password device sends the low-speed switching request to the external device, specifically: and in the intermediate-level communication mode, the intelligent password device sends the low-speed switching request to the external device.

In practical applications, for example, the value of the communication connection interval in the intermediate-level communication mode may be 500ms, and the value of the communication connection interval in the low-speed communication mode may be 1000 ms.

In an optional implementation manner of this embodiment, the number of the intermediate-level communication modes is one, and the process of switching to the intermediate-level communication mode is executed by the intelligent password device, specifically: the intelligent password equipment sends a middle-level switching request to the external equipment, wherein the middle-level switching request carries communication parameters in the middle-level communication mode; the intelligent password equipment receives a middle-level switching response sent by the external equipment and switches to the middle-level communication mode according to the communication parameters in the middle-level communication mode;

In an optional implementation manner of this embodiment, the number of the intermediate-level communication modes is at least two, and the process of switching to the intermediate-level communication mode is executed by the intelligent password device, specifically: the intelligent password device firstly executes a process of switching to a first intermediate communication mode, under the first intermediate communication mode, the intelligent password device executes a process of switching to a next intermediate communication mode until the last intermediate communication mode of the at least two intermediate communication modes is switched, a communication connection interval from the first intermediate communication mode to the last intermediate communication mode is sequentially increased, the communication connection interval under the first intermediate communication mode is larger than that under the initial mode, and the communication connection interval under the last intermediate communication mode is smaller than that under the low-speed communication mode.

in this embodiment, the flow for performing the switching to the first intermediate-level communication mode is roughly implemented as follows: the method comprises the steps that firstly, the intelligent password equipment sends a switching request to the external equipment, the switching request carries communication parameters in a first intermediate communication mode, the external equipment judges whether the external equipment supports the communication parameters in the first intermediate communication mode after receiving the switching request, if the external equipment supports the communication parameters, the external equipment sends a switching response to the intelligent password equipment, the switching response carries information used for indicating that switching is agreed, and after receiving the switching response, the intelligent password equipment executes switching to the first intermediate communication mode according to the communication parameters in the first intermediate communication mode.

in this embodiment, the process of performing the switch to the next intermediate-level communication mode is substantially implemented as the above process of performing the switch to the first intermediate-level communication mode, which can be referred to the related description in the above process of performing the switch to the first intermediate-level communication mode, and is not described again here.

Example 2

The present embodiment provides an intelligent cryptographic device, which is a device capable of implementing security operations such as digital signature and identity authentication based on a digital certificate, and the intelligent cryptographic device may be matched with an external device (e.g., a mobile phone, a POS device, a PC device, etc.) to complete verification and signature of transaction data during a transaction process. This intelligence password equipment is equipped with the security chip, is used for the screen of display data, is used for realizing bluetooth communication's bluetooth communication interface, is used for the input to confirm the button of instruction and is used for triggering parts such as the bluetooth button of establishing the bluetooth connection, can be equipped with the bluetooth button on the intelligence password equipment usually to be convenient for opening and breaking off that convenience of customers manual control bluetooth is connected. It can be understood that, when the intelligent password device only supports the bluetooth communication mode, the intelligent password device may not set the bluetooth key, for example, the bluetooth connection is established after default power on, and the bluetooth connection is disconnected after power off, or the bluetooth key may be set, which is not limited herein. The keys on the intelligent password device can be realized by physical keys, and certainly, if the screen is a touch screen, the virtual keys can be displayed through the touch screen. The security chip stores key information such as a private key and a digital certificate, wherein the private key can be used for performing digital signature on received transaction data, and the digital certificate can be used for performing identity authentication and the like.

as shown in fig. 2, the intelligent password device provided in this embodiment includes: a bluetooth communication module 21, a switching control module 22 and a security chip 23.

The bluetooth communication module 21 is configured to, in an initial mode, send a high-speed switching request to an external device through a bluetooth link by using an intelligent password device, where the high-speed switching request carries communication parameters in a high-speed communication mode, and the communication parameters at least include a communication connection interval; receiving a high-speed switching response sent by the external equipment through the Bluetooth link;

the switching control module 22 is configured to start a high-speed clock, start a screen, start a power supply of the security chip 23, and control the intelligent password device to switch to the high-speed communication mode according to the communication parameters in the high-speed communication mode;

The bluetooth communication module 21 is further configured to perform service data communication with the external device in the high-speed communication mode; after the service data communication is finished, sending an initial switching request to the external equipment through the Bluetooth link, wherein the initial switching request carries communication parameters in the initial mode, and the communication connection interval in the initial mode is larger than that in the high-speed communication mode; receiving an initial switching response sent by the external equipment through the Bluetooth link;

the switching control module 22 is further configured to control the intelligent password device to switch to the initial mode according to the communication parameters in the initial mode;

The bluetooth communication module 21 is further configured to send a low-speed handover request to the external device through the bluetooth link in the initial mode, where the low-speed handover request carries communication parameters in a low-speed communication mode, and a communication connection interval in the low-speed communication mode is greater than a communication connection interval in the initial mode; receiving a low-speed switching response sent by the external equipment through the Bluetooth link;

The switching control module 22 is further configured to close the screen, close the high-speed clock, close a power supply of the security chip 23, and control the intelligent password device to switch to the low-speed communication mode according to the communication parameter in the low-speed communication mode;

The bluetooth communication module 21 is further configured to, in the low-speed communication mode, send an initial handover request to the external device through the bluetooth link if the intelligent password device receives a service wakeup instruction, where the initial handover request carries communication parameters in the initial mode; and receiving an initial switching response sent by the external equipment through the Bluetooth link.

In this embodiment, after the intelligent password device is started, the intelligent password device broadcasts information such as a bluetooth address, the external device performs scanning of the bluetooth device, after the intelligent password device is scanned, a bluetooth connection establishment request is sent to the intelligent password device, the bluetooth connection establishment request carries initial communication parameters of the external device, after the intelligent password device receives the bluetooth connection establishment request sent by the external device, the initial communication parameters of the external device are stored and used as communication parameters of the intelligent password device in an initial mode, and the communication parameters are communicated with the external device according to the communication parameters in the initial mode, so that a bluetooth connection establishment process and a bluetooth security pairing process are completed.

Generally, after the bluetooth secure pairing procedure is executed between the smart password device and the external device, the smart password device needs to perform service processing with the external device. In the initial mode, the intelligent password device sends a high-speed switching request to the external device to request to switch to the high-speed communication mode so as to process the service.

In this embodiment, the high-speed switching request carries communication parameters in a high-speed communication mode supported by the intelligent cryptographic device, after receiving the high-speed switching request, the external device determines whether the external device also supports the communication parameters in the high-speed communication mode, and if the external device also supports the communication parameters in the high-speed communication mode, sends a high-speed switching response to the intelligent cryptographic device, where the high-speed switching response carries information indicating that switching to the high-speed communication mode is agreed.

In this embodiment, the switching to the high-speed communication mode is initiated by the intelligent password device actively, and the high-speed switching request carries the communication parameters in the high-speed communication mode supported by the intelligent password device itself, and after receiving the high-speed switching request, the external device returns a high-speed switching response to notify the intelligent password device of performing the mode switching if the high-speed communication mode is also supported, and meanwhile, the external device also switches to the high-speed communication mode according to the communication parameters in the high-speed communication mode. Compared with the prior art, mode switching is usually initiated by external equipment, on one hand, the intelligent password equipment actively initiates to improve the safety of mode switching, and on the other hand, when the high-speed switching request is sent, the intelligent password equipment enables the external equipment to quickly acquire communication parameters supported by the intelligent password equipment by carrying communication parameters in a high-speed communication mode supported by the intelligent password equipment in the high-speed switching request, so that the external equipment can quickly trigger mode switching when supporting the communication parameters, and the efficiency of mode switching is improved.

in this embodiment, the communication parameters at least include communication connection intervals, and the communication connection intervals in different modes are different, for example, after the intelligent password device establishes bluetooth communication connection with the external device, a value range of the communication connection interval in the initial mode may be 30ms to 50ms, a minimum value of the communication connection interval in the high-speed communication mode is generally 7.5ms, and a value of the communication connection interval in the low-speed communication mode is generally greater than 500 ms.

In this embodiment, the communication parameters may include a communication connection delay and a communication connection timeout in addition to the communication connection interval, which is described in detail in the bluetooth communication protocol.

In this embodiment, when switching from the high-speed communication mode to the low-speed communication mode, the intelligent password device will first switch from the high-speed communication mode to the initial mode, and send a low-speed switching request in the initial mode to request switching to the low-speed communication mode; when the low-speed communication mode is switched to the high-speed communication mode, the intelligent password equipment is firstly switched from the low-speed communication mode to the initial mode, and a high-speed switching request is sent in the initial mode to request to be switched to the high-speed communication mode; that is, in the present embodiment, no matter the high-speed communication mode is switched to the low-speed communication mode, or the low-speed communication mode is switched to the high-speed communication mode, it is necessary to switch to the initial mode first, and in the initial mode, a corresponding switching request is sent to trigger execution of corresponding mode switching.

Compared with the prior art that the mode switching fails because the external device does not support the direct switching from the high-speed communication mode to the low-speed communication mode, in the scheme provided by this embodiment, the intelligent password device is switched to the initial mode first, and because the external device supports the communication parameters in the initial mode, the intelligent password device is switched to the corresponding mode again in the initial mode, so that the problem of failure caused by the direct switching of the high-speed and low-speed communication modes can be avoided.

In addition, in this embodiment, before the intelligent password device performs the mode switching for the first time, the bluetooth security pairing procedure needs to be performed first, that is, the bluetooth security pairing procedure is performed first, and then the mode switching procedure is performed, so that it is ensured that the intelligent password device and the external device are successfully paired, and then the mode switching procedure is performed, thereby avoiding the problem of disconnection of bluetooth connection when the bluetooth pairing procedure and the mode switching procedure are performed simultaneously.

It should be noted that, in the prior art, when the high-speed communication mode is directly switched to the low-speed communication mode, if the selected communication connection interval is too large, the external device may refuse to perform the switching, which may result in a switching failure. By adopting the embodiment, when the high-speed communication mode is switched to the low-speed communication mode, the initial mode is firstly switched, and when the initial mode is switched to the low-speed communication mode, the intermediate-stage communication mode is firstly switched and then the low-speed communication mode is switched from the intermediate-stage communication mode in a step-by-step switching mode, so that the probability of switching failure is reduced.

In an optional implementation manner of this embodiment, the switching control module is further configured to perform switching of the intelligent cryptographic device to an intermediate-level communication mode; the bluetooth communication module is specifically configured to send the low-speed switching request to the external device in the middle-level communication mode.

in an optional implementation manner of this embodiment, the bluetooth communication module is specifically configured to send an intermediate level switching request to the external device when the number of the intermediate level communication modes is one, where the intermediate level switching request carries communication parameters in the intermediate level communication mode; receiving a middle-level switching response sent by the external equipment; the switching control module is specifically configured to switch the intelligent password device to the intermediate-level communication mode according to the communication parameters in the intermediate-level communication mode;

in an optional implementation manner of this embodiment, the switching control module is specifically configured to control the intelligent cryptographic device to switch to a first intermediate-level communication mode when the number of the intermediate-level communication modes is at least two, in the first intermediate-level communication mode, controlling the intelligent password device to switch to the next intermediate-level communication mode until switching to the last intermediate-level communication mode of the at least two intermediate-level communication modes, the communication connection interval in the first intermediate communication mode is sequentially incremented to the communication connection interval in the last intermediate communication mode, the communication connection interval in the first intermediate communication mode is larger than the communication connection interval in the initial mode, the communication connection interval in the last intermediate communication mode is smaller than the communication connection interval in the low-speed communication mode.

In this embodiment, the switching of the intelligent cryptographic device to the first intermediate-level communication mode is approximately implemented as follows: the method comprises the steps that the intelligent password equipment firstly sends a switching request to the external equipment, the switching request carries communication parameters in a first intermediate communication mode, the external equipment judges whether the external equipment supports the communication parameters in the first intermediate communication mode after receiving the switching request, if the external equipment supports the communication parameters, the external equipment sends a switching response to the intelligent password equipment, the switching response carries information used for representing the same switching, and after receiving the switching response, the intelligent password equipment executes switching to the first intermediate communication mode according to the communication parameters in the first intermediate communication mode.

in this embodiment, the implementation of switching to the next intermediate-level communication mode is substantially the same as the implementation of switching to the first intermediate-level communication mode, which can be referred to the related description in the implementation of switching to the first intermediate-level communication mode, and is not described again here.

It should be noted that, in this embodiment, reference may also be made to the related description of the intelligent password device in embodiment 1 for the functional implementation of each module of the intelligent password device. And will not be described in detail herein.

Any process or method descriptions in flow charts or otherwise described herein may be understood as representing modules, segments, or portions of code which include one or more executable instructions for implementing specific logical functions or steps of the process, and alternate implementations are included within the scope of the preferred embodiment of the present invention in which functions may be executed out of order from that shown or discussed, including substantially concurrently or in reverse order, depending on the functionality involved, as would be understood by those reasonably skilled in the art of the present invention.

it should be understood that portions of the present invention may be implemented in hardware, software, firmware, or a combination thereof. In the above embodiments, the various steps or methods may be implemented in software or firmware stored in memory and executed by a suitable instruction execution system. For example, if implemented in hardware, as in another embodiment, any one or combination of the following techniques, which are known in the art, may be used: a discrete logic circuit having a logic gate circuit for implementing a logic function on a data signal, an application specific integrated circuit having an appropriate combinational logic gate circuit, a Programmable Gate Array (PGA), a Field Programmable Gate Array (FPGA), or the like.

it will be understood by those skilled in the art that all or part of the steps carried by the method for implementing the above embodiments may be implemented by hardware related to instructions of a program, which may be stored in a computer readable storage medium, and when the program is executed, the program includes one or a combination of the steps of the method embodiments.

in addition, functional units in the embodiments of the present invention may be integrated into one processing module, or each unit may exist alone physically, or two or more units are integrated into one module. The integrated module can be realized in a hardware mode, and can also be realized in a software functional module mode. The integrated module, if implemented in the form of a software functional module and sold or used as a stand-alone product, may also be stored in a computer readable storage medium.

The storage medium mentioned above may be a read-only memory, a magnetic or optical disk, etc.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Although embodiments of the present invention have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made in the above embodiments by those of ordinary skill in the art without departing from the principle and spirit of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. a method for switching communication modes, comprising:

Step 101, in an initial mode, an intelligent password device sends a high-speed switching request to an external device through a Bluetooth link, wherein the high-speed switching request carries communication parameters in a high-speed communication mode, and the communication parameters at least comprise communication connection intervals;

102, the intelligent password device receives a high-speed switching response sent by the external device through the Bluetooth link, starts a high-speed clock, starts a screen, starts a power supply of a security chip, and switches to the high-speed communication mode according to communication parameters in the high-speed communication mode;

103, in the high-speed communication mode, the intelligent password device communicates service data with the external device;

Step 104, after the service data communication of the intelligent password device is finished, the intelligent password device sends an initial switching request to the external device through the bluetooth link, wherein the initial switching request carries communication parameters in the initial mode, and the communication connection interval in the initial mode is greater than that in the high-speed communication mode;

Step 105, the intelligent password device receives an initial switching response sent by the external device through the Bluetooth link, and switches to the initial mode according to the communication parameters in the initial mode;

106, in the initial mode, the intelligent password device sends a low-speed switching request to the external device through the bluetooth link, where the low-speed switching request carries communication parameters in a low-speed communication mode, and a communication connection interval in the low-speed communication mode is greater than a communication connection interval in the initial mode;

Step 107, the intelligent password device receives a low-speed switching response sent by the external device through the bluetooth link, the intelligent password device turns off the screen, turns off the high-speed clock, turns off the power supply of the security chip, and switches to a low-speed communication mode according to the communication parameters in the low-speed communication mode;

step 108, in the low-speed communication mode, if the intelligent password device receives a service wake-up instruction, the intelligent password device sends an initial switching request to the external device through the bluetooth link, wherein the initial switching request carries communication parameters in the initial mode;

Step 109, the intelligent password device receives an initial switching response sent by the external device through the bluetooth link, switches to the initial mode according to the communication parameters in the initial mode, and jumps to step 101: and in the initial mode, the intelligent password equipment sends a high-speed switching request to the external equipment through the Bluetooth link and continues to execute.

2. the method of claim 1, wherein before the smart password device sends the slow handover request to the external device, further comprising:

The intelligent password equipment executes a process of switching to an intermediate communication mode, wherein the communication connection interval in the intermediate communication mode is larger than the communication connection interval in the initial mode, and the communication connection interval in the intermediate communication mode is smaller than the communication connection interval in the low-speed communication mode;

The intelligent password device sends the low-speed switching request to the external device, specifically: and in the intermediate-level communication mode, the intelligent password device sends the low-speed switching request to the external device.

3. the method of claim 2,

The number of the middle-level communication modes is one, and the intelligent password device executes a process of switching to the middle-level communication mode, specifically: the intelligent password equipment sends a middle-level switching request to the external equipment, wherein the middle-level switching request carries communication parameters in the middle-level communication mode; and the intelligent password equipment receives a middle-level switching response sent by the external equipment and switches to the middle-level communication mode according to the communication parameters in the middle-level communication mode.

4. The method of claim 2,

The number of the intermediate communication modes is at least two, and the intelligent password device executes a process of switching to the intermediate communication mode, specifically: the intelligent password device firstly executes a process of switching to a first intermediate communication mode, under the first intermediate communication mode, the intelligent password device executes a process of switching to a next intermediate communication mode until the last intermediate communication mode of the at least two intermediate communication modes is switched, a communication connection interval from the first intermediate communication mode to the last intermediate communication mode is sequentially increased, the communication connection interval under the first intermediate communication mode is larger than that under the initial mode, and the communication connection interval under the last intermediate communication mode is smaller than that under the low-speed communication mode.

5. An intelligent cryptographic device, comprising:

The Bluetooth communication module is used for sending a high-speed switching request to external equipment through a Bluetooth link in an initial mode, wherein the high-speed switching request carries communication parameters in a high-speed communication mode; receiving a high-speed switching response sent by the external equipment through the Bluetooth link, wherein the communication parameters at least comprise a communication connection interval;

The switching control module is used for starting a high-speed clock, starting a screen, starting a power supply of a security chip and controlling the intelligent password equipment to be switched to the high-speed communication mode according to the communication parameters in the high-speed communication mode;

The Bluetooth communication module is also used for carrying out service data communication with the external equipment in the high-speed communication mode; after the service data communication is finished, sending an initial switching request to the external equipment through the Bluetooth link, wherein the initial switching request carries communication parameters in the initial mode, and the communication connection interval in the initial mode is larger than that in the high-speed communication mode; receiving an initial switching response sent by the external equipment through the Bluetooth link;

The switching control module is further configured to control the intelligent password device to switch to the initial mode according to the communication parameters in the initial mode;

the bluetooth communication module is further configured to send a low-speed handover request to the external device through the bluetooth link in the initial mode, where the low-speed handover request carries communication parameters in a low-speed communication mode, and a communication connection interval in the low-speed communication mode is greater than a communication connection interval in the initial mode; receiving a low-speed switching response sent by the external equipment through the Bluetooth link;

the switching control module is further configured to close the screen, close the high-speed clock, close a power supply of the security chip, and control the intelligent password device to switch to the low-speed communication mode according to the communication parameters in the low-speed communication mode;

the bluetooth communication module is further configured to, in the low-speed communication mode, send an initial handover request to the external device through the bluetooth link if the intelligent password device receives a service wake-up instruction, where the initial handover request carries communication parameters in the initial mode; and receiving an initial switching response sent by the external equipment through the Bluetooth link.

6. The intelligent cryptographic device of claim 5,

The switching control module is further configured to control the intelligent password device to switch to an intermediate communication mode, where a communication connection interval in the intermediate communication mode is greater than a communication connection interval in the initial mode, and the communication connection interval in the intermediate communication mode is smaller than the communication connection interval in the low-speed communication mode;

The bluetooth communication module is specifically configured to send the low-speed switching request to the external device in the middle-level communication mode.

7. The intelligent cryptographic device of claim 6,

The bluetooth communication module is specifically configured to send an intermediate level switching request to the external device when the number of the intermediate level communication modes is one, where the intermediate level switching request carries communication parameters in the intermediate level communication mode; receiving a middle-level switching response sent by the external equipment;

The switching control module is specifically configured to control the intelligent password device to switch to the intermediate-level communication mode according to the communication parameter in the intermediate-level communication mode.

8. the intelligent cryptographic device of claim 6,

the switching control module is specifically configured to control the intelligent cryptographic device to switch to a first intermediate-level communication mode when the number of the intermediate-level communication modes is at least two, and control the intelligent cryptographic device to switch to a next intermediate-level communication mode in the first intermediate-level communication mode until the intelligent cryptographic device switches to a last intermediate-level communication mode of the at least two intermediate-level communication modes, where a communication connection interval in the first intermediate-level communication mode increases progressively sequentially from a communication connection interval in the first intermediate-level communication mode to a communication connection interval in the last intermediate-level communication mode, the communication connection interval in the first intermediate-level communication mode is greater than the communication connection interval in the initial mode, and the communication connection interval in the last intermediate-level communication mode is smaller than the communication connection interval in the low-speed communication mode.