CN107277805B - Data transmission method and terminal based on man-machine interaction - Google Patents

Abstract

The present invention provides a data transmission method and terminal based on human-computer interaction, wherein the method includes: the terminal receives a sending request from a user, and the sending request includes a data unit to be transmitted and a trusted storage root type identifier; The root type identifier is used to determine the trusted storage root corresponding to the trusted storage root type identifier; the terminal stores the data unit to be transmitted in the trusted storage root corresponding to the trusted storage root type identifier; The network corresponding to the type identifier sends the trusted storage root storing the data unit to be transmitted to the receiving device, so that various types of to-be-transmitted units are transmitted through the corresponding network, saving network resources.

Description

Data transmission method and terminal based on human-computer interaction

technical field

The invention relates to the field of information security, in particular to a data transmission method and terminal based on human-computer interaction.

Background technique

With the development of communication technology, trusted computing platforms have begun to be applied to the communication field. Trusted computing platforms are widely used in computing and communication systems based on the support of hardware security modules. Trusted computing platforms can improve the security of communication systems. .

In the trusted computing platform of the prior art, the terminal can receive the user's input or the selected data unit, and then the terminal and the network, or the terminal and the terminal perform data interaction, and then transmit the data unit.

However, in the prior art, a terminal will transmit all types of data units to another terminal or network through the same network. Such a transmission method will make the data units meet the requirements of the same network, and then need to perform data transmission before network transmission. Unit adjustment; for example, after the data unit that needs to be encrypted and other processing contacts the key, it is transmitted through the network that cannot be encrypted, or, after the data unit that does not need encryption and other processing is encrypted, it is transmitted through the network that must be encrypted; Reduce the speed at which data units are transmitted while wasting network resources.

SUMMARY OF THE INVENTION

The present invention provides a data transmission method and device based on human-computer interaction, which are used to solve the problem of low data unit transmission speed and waste of network resources in the prior art.

One aspect of the present invention provides a data transmission method based on human-computer interaction, comprising:

The terminal receives the sending request from the user, and the sending request includes the data unit to be transmitted and the type identifier of the trusted storage root;

The terminal determines, according to the trusted storage root type identifier, a trusted storage root corresponding to the trusted storage root type identifier;

The terminal stores the data unit to be transmitted in the trusted storage root corresponding to the trusted storage root type identifier;

The terminal sends the trusted storage root storing the data unit to be transmitted to the receiving device through the network corresponding to the trusted storage root type identifier.

In the above method, the trusted storage root type identifier is a basic relationship trusted storage root type identifier;

Correspondingly, the terminal determines the trusted storage root corresponding to the trusted storage root type identifier according to the trusted storage root type identifier, including:

The terminal determines, according to the basic relationship trusted storage root type identifier, a basic relationship trusted storage root corresponding to the basic relationship trusted storage root type identifier, and the basic relationship trusted storage root includes a unified extensible firmware interface identifier. , operating system identification, basic application identification;

Correspondingly, the terminal stores the data unit to be transmitted in the trusted storage root corresponding to the trusted storage root type identifier, including:

The terminal stores the data unit to be transmitted in the basic relationship trusted storage root corresponding to the basic relationship trusted storage root type identifier;

Correspondingly, the terminal sends the trusted storage root storing the data unit to be transmitted to the receiving device through the network corresponding to the trusted storage root type identifier, including:

The terminal sends the basic relationship trusted storage root storing the to-be-transmitted data unit to the receiving device through the computer network corresponding to the basic relationship trusted storage root type identifier.

In the above method, the trusted storage root type identifier is a mutual trust relationship trusted storage root type identifier;

Correspondingly, the terminal determines the trusted storage root corresponding to the trusted storage root type identifier according to the trusted storage root type identifier, including:

The terminal determines a mutual trust relationship trusted storage root corresponding to the mutual trust relationship trusted storage root type identifier according to the mutual trust relationship trusted storage root type identifier, and the mutual trust relationship trusted storage root includes a unified extensible firmware interface identifier. , operating system identification, multi-agent application identification;

Correspondingly, the terminal stores the data unit to be transmitted in the trusted storage root corresponding to the trusted storage root type identifier, including:

The terminal stores the to-be-transmitted data unit in the mutual trust relationship trusted storage root corresponding to the mutual trust relationship trusted storage root type identifier;

Correspondingly, the terminal sends the trusted storage root storing the data unit to be transmitted to the receiving device through the network corresponding to the trusted storage root type identifier, including:

The terminal sends the trusted storage root of the mutual trust relationship storing the data unit to be transmitted to the receiving device through the telecommunication network corresponding to the type identification of the trusted storage root of the mutual trust relationship.

In the above method, the trusted storage root type identifier is a public trust relationship trusted storage root type identifier;

Correspondingly, the terminal determines the trusted storage root corresponding to the trusted storage root type identifier according to the trusted storage root type identifier, including:

The terminal determines the public trust relationship trusted storage root corresponding to the public trust relationship trusted storage root type identifier according to the public trust relationship trusted storage root type identifier, and the public trust relationship trusted storage root includes the unified extensible firmware interface identifier. , operating system logo, public application logo;

Correspondingly, the terminal stores the data unit to be transmitted in the trusted storage root corresponding to the trusted storage root type identifier, including:

The terminal stores the to-be-transmitted data unit in the public trust relationship trusted storage root corresponding to the public trust relationship trusted storage root type identifier;

Correspondingly, the terminal sends the trusted storage root storing the data unit to be transmitted to the receiving device through the network corresponding to the trusted storage root type identifier, including:

The terminal sends the public trust relationship trusted storage root storing the to-be-transmitted data unit to the receiving device through the radio and television information network corresponding to the public trust relationship trusted storage root type identifier.

In the above method, the trusted storage root corresponding to the trusted storage root type identifier is stored in the storage unit corresponding to the trusted storage root type identifier in the terminal;

In addition, the storage unit corresponding to the trusted storage root type identifier and the network corresponding to the trusted storage root type identifier are connected through the network fusion interface card NCIC.

Another aspect of the present invention provides a terminal, comprising:

a receiving module, configured to receive a sending request from a user, where the sending request includes a data unit to be transmitted and a trusted storage root type identifier;

a determining module, configured to determine a trusted storage root corresponding to the trusted storage root type identifier according to the trusted storage root type identifier;

a storage module, configured to store the data unit to be transmitted in a trusted storage root corresponding to the trusted storage root type identifier;

The sending module is configured to send the trusted storage root storing the data unit to be transmitted to the receiving device through the network corresponding to the trusted storage root type identifier.

In the above terminal, the trusted storage root type identifier is a basic relationship trusted storage root type identifier;

Correspondingly, the determining module is specifically used for:

According to the basic relationship trusted storage root type identifier, a basic relationship trusted storage root corresponding to the basic relationship trusted storage root type identifier is determined, and the basic relationship trusted storage root includes a unified extensible firmware interface identifier, an operating system Identification, basic application identification;

Correspondingly, the storage module is specifically used for:

The terminal stores the data unit to be transmitted in the basic relationship trusted storage root corresponding to the basic relationship trusted storage root type identifier;

Correspondingly, the sending module is specifically used for:

The terminal sends the basic relationship trusted storage root storing the to-be-transmitted data unit to the receiving device through the computer network corresponding to the basic relationship trusted storage root type identifier.

In the above terminal, the trusted storage root type identifier is a mutual trust relationship trusted storage root type identifier;

Correspondingly, the determining module is specifically used for:

The terminal determines a mutual trust relationship trusted storage root corresponding to the mutual trust relationship trusted storage root type identifier according to the mutual trust relationship trusted storage root type identifier, and the mutual trust relationship trusted storage root includes a unified extensible firmware interface identifier. , operating system identification, multi-agent application identification;

Correspondingly, the storage module is specifically used for:

The terminal stores the to-be-transmitted data unit in the mutual trust relationship trusted storage root corresponding to the mutual trust relationship trusted storage root type identifier;

Correspondingly, the sending module is specifically used for:

The terminal sends the trusted storage root of the mutual trust relationship storing the data unit to be transmitted to the receiving device through the telecommunication network corresponding to the type identification of the trusted storage root of the mutual trust relationship.

In the above terminal, the trusted storage root type identifier is a public trust relationship trusted storage root type identifier;

Correspondingly, the determining module is specifically used for:

The terminal determines the public trust relationship trusted storage root corresponding to the public trust relationship trusted storage root type identifier according to the public trust relationship trusted storage root type identifier, and the public trust relationship trusted storage root includes the unified extensible firmware interface identifier. , operating system logo, public application logo;

Correspondingly, the storage module is specifically used for:

The terminal stores the to-be-transmitted data unit in the public trust relationship trusted storage root corresponding to the public trust relationship trusted storage root type identifier;

Correspondingly, the sending module is specifically used for:

The terminal sends the public trust relationship trusted storage root storing the to-be-transmitted data unit to the receiving device through the radio and television information network corresponding to the public trust relationship trusted storage root type identifier.

In the above-mentioned terminal, it also includes:

Each storage unit, each storage unit corresponds to each trusted storage root type identifier, the storage unit is connected between the storage module and the sending module, and the storage unit corresponding to the trusted storage root type identifier and the The network corresponding to the trusted storage root type identification is connected through NCIC;

The storage unit corresponding to the trusted storage root type identifier is used to store the trusted storage root corresponding to the trusted storage root type identifier.

In this embodiment, the trusted storage root corresponding to the trusted storage root type identifier is determined according to the trusted storage root type identifier, and then the data unit to be transmitted is stored in the trusted storage root corresponding to the trusted storage root type identifier, Therefore, the trusted storage root storing the data unit to be transmitted can be sent to the receiving device through the network corresponding to the trusted storage root type identifier. Therefore, after the user selects the trusted storage root type identifier, the trusted storage root is sent to the network or the terminal of the other party according to the network corresponding to the trusted storage root type identifier, so that various types of units to be transmitted pass through the corresponding Network transmission, saving network resources.

Description of drawings

1 is a flowchart of a data transmission method based on human-computer interaction provided in Embodiment 1 of the present invention;

2 is a flowchart of a data transmission method based on human-computer interaction provided by Embodiment 2 of the present invention;

3 is a schematic structural diagram of a terminal according to Embodiment 3 of the present invention;

FIG. 4 is a schematic structural diagram of a terminal according to Embodiment 4 of the present invention.

Detailed ways

In order to make the purposes, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments These are some embodiments of the present invention, but not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those of ordinary skill in the art without creative efforts shall fall within the protection scope of the present invention.

FIG. 1 is a flowchart of a data transmission method based on human-computer interaction provided by Embodiment 1 of the present invention. As shown in FIG. 1 , the method of this embodiment includes:

Step 101: The terminal receives a sending request from the user, and the sending request includes the data unit to be transmitted and the identifier of the trusted storage root type.

In this embodiment, specifically, the user enters a sending request into the terminal through the man-machine trust interface, and the user can select the trusted storage root type identifier of the trusted storage root. The trusted storage root is divided into the basic relationship trusted storage root. Storage root, trusted storage root of mutual trust relationship and trusted storage root of public trust relationship.

At the same time, the user needs to determine the data unit to be transmitted in the terminal.

Therefore, the terminal receives the sending request consisting of the data unit to be transmitted and the trusted storage root type identifier.

Step 102: The terminal determines a trusted storage root corresponding to the trusted storage root type identifier according to the trusted storage root type identifier.

In this embodiment, specifically, the terminal determines the trusted storage root corresponding to the trusted storage root type identifier according to the trusted storage root type identifier in the sending request. Trusted storage root is divided into basic relationship trusted storage root, mutual trust relationship trusted storage root and public trust relationship trusted storage root, so if the trusted storage root type identifier is the basic relationship trusted storage root type identifier, it can be determined that The basic relationship trusted storage root corresponding to the relationship trusted storage root type identifier, if the trusted storage root type identifier is the mutual trust relationship trusted storage root type identifier, it can be determined that the mutual trust relationship corresponding to the mutual trust relationship trusted storage root type identifier can be determined. Trust storage root, if the trusted storage root type identifier is the trust relationship trusted storage root type identifier, the trust relationship trust storage root corresponding to the trust relationship trust storage root type identifier can be determined.

Step 103: The terminal stores the data unit to be transmitted in the trusted storage root corresponding to the trusted storage root type identifier.

In this embodiment, specifically, the trusted storage root may be physically isolated into four storage spaces, one of which is used to store data units. Therefore, the terminal can store the data unit to be transmitted in the trusted storage root corresponding to the trusted storage root type identifier.

Step 104: The terminal sends the trusted storage root storing the data unit to be transmitted to the receiving device through the network corresponding to the trusted storage root type identifier.

In this embodiment, specifically, different types of trusted storage roots are respectively connected to different types of networks, so that there is a one-to-one correspondence between trusted storage root type identifiers, trusted storage roots, and bearer networks.

The terminal may send the trusted storage root storing the data unit to be transmitted in step 103 to the receiving device through the network corresponding to the trusted storage root type identifier. The receiving apparatus may be a server or a terminal of the other party.

In this embodiment, the trusted storage root corresponding to the trusted storage root type identifier is determined according to the trusted storage root type identifier, and then the data unit to be transmitted is stored in the trusted storage root corresponding to the trusted storage root type identifier, Therefore, the trusted storage root storing the data unit to be transmitted can be sent to the receiving device through the network corresponding to the trusted storage root type identifier. Therefore, after the user selects the trusted storage root type identifier, the trusted storage root is sent to the network or the terminal of the other party according to the network corresponding to the trusted storage root type identifier, so that various types of units to be transmitted pass through the corresponding Network transmission, saving network resources.

FIG. 2 is a flowchart of a data transmission method based on human-computer interaction provided by Embodiment 2 of the present invention. On the basis of Embodiment 1, as shown in FIG. 2 , in the method of this embodiment, the trusted storage root type identifier is Basic relationship trusted storage root type identifier;

Correspondingly, step 102 specifically includes:

Step 102a, the terminal determines the basic relationship trusted storage root corresponding to the basic relationship trusted storage root type identifier according to the basic relationship trusted storage root type identifier, and the basic relationship trusted storage root includes the unified extensible firmware interface identifier, the operating system Identification, basic application identification;

Correspondingly, step 103 specifically includes:

Step 103a, the terminal stores the data unit to be transmitted in the basic relationship trusted storage root corresponding to the basic relationship trusted storage root type identifier;

Correspondingly, step 104 specifically includes:

Step 104a: The terminal sends the basic relationship trusted storage root storing the data unit to be transmitted to the receiving device through the computer network corresponding to the basic relationship trusted storage root type identifier.

In this embodiment, specifically, if the user determines the trust level of the basic relationship selected through the man-machine trust interface in step 101, the user determines to select the basic relationship trusted storage root type identifier.

Then, the terminal can determine the basic relationship trusted storage root corresponding to the basic relationship trusted storage root type identifier according to the basic relationship trusted storage root type identifier. Since the trusted storage root is physically separated into four storage spaces, the four storage spaces in the basic relationship trusted storage root are the storage space identified by the Unified Extensible Firmware Interface (UEFI), the storage space identified by the operating system ( The storage space identified by the Operating System, referred to as OS), the storage space identified by the basic application program (Applications, referred to as App), and the storage space of the independent data unit. Therefore, the basic relationship trusted storage root includes the unified extensible firmware interface identifier, the operating system identifier, the basic application program identifier, and also includes the storage space of the independent data unit, which is large, but there is no data to be transmitted in the storage space of the independent data unit at this time. unit.

Further, the terminal stores the data unit to be transmitted in the basic relationship trusted storage root corresponding to the basic relationship trusted storage root type identifier. Specifically, the terminal stores the to-be-transmitted data unit in the basic relationship trusted storage root. in the storage space of an independent data unit.

Since the basic relationship trusted storage root is correspondingly connected with the computer network, the basic relationship trusted storage root type identifier is corresponding to the computer network. The terminal sends the basic relationship trusted storage root storing the data unit to be transmitted to the receiving device through the computer network.

Therefore, the purpose of sending the basic relational trusted storage root storing the data unit to be transmitted through the corresponding computer network can be achieved.

Or, the trusted storage root type identifier is the trusted storage root type identifier of the mutual trust relationship;

Correspondingly, step 102 specifically includes:

Step 102b, the terminal determines the mutual trust relationship trusted storage root corresponding to the mutual trust relationship trusted storage root type identifier according to the mutual trust relationship trusted storage root type identifier, and the mutual trust relationship trusted storage root includes the unified extensible firmware interface identifier, the operating system Identity, multi-agent application identity;

Correspondingly, step 103 specifically includes:

Step 103b, the terminal stores the data unit to be transmitted in the mutual trust relationship trusted storage root corresponding to the mutual trust relationship trusted storage root type identifier;

Correspondingly, step 104 specifically includes:

Step 104b: The terminal sends the trusted storage root of the mutual trust relationship storing the data unit to be transmitted to the receiving device through the telecommunication network corresponding to the type identifier of the trusted storage root of the mutual trust relationship.

In this embodiment, specifically, if the user determines the trust level of the mutual trust relationship selected through the man-machine trust interface in step 101, the user determines to select the trusted storage root type identifier of the mutual trust relationship.

Then, the terminal may determine the mutual trust relationship trusted storage root corresponding to the mutual trust relationship trusted storage root type identifier according to the mutual trust relationship trusted storage root type identifier. Since the trusted storage root is physically separated into four storage spaces, the four storage spaces in the trusted storage root of the mutual trust relationship are respectively the storage space identified by the Unified Extensible Firmware Interface (UEFI), the storage space identified by the operating system ( The storage space identified by the Operating System, referred to as OS), the storage space identified by the multi-subject application (Groupware Applications, referred to as GApp), and the storage space of the independent data unit. Therefore, the trusted storage root of the mutual trust relationship includes the unified extensible firmware interface identification, the operating system identification, the multi-agent application identification, and also includes the storage space of the independent data unit, which is large, but there is no storage space to be transmitted in the storage space of the independent data unit at this time. data unit.

Further, the terminal stores the data unit to be transmitted in the mutual trust relationship trusted storage root corresponding to the type identifier of the mutual trust relationship trusted storage root. Specifically, the terminal stores the to-be-transmitted data unit in the mutual trust relationship trusted storage root. in the storage space of an independent data unit.

Since the trusted storage root of the mutual trust relationship is correspondingly connected to the telecommunication network, the type identifier of the trusted storage root of the mutual trust relationship is corresponding to the telecommunication network. The terminal sends the trusted storage root of the mutual trust relationship storing the data unit to be transmitted to the receiving device through the telecommunication network.

Therefore, the purpose of storing the trust storage root of the mutual trust relationship of the data unit to be transmitted can be realized, and the purpose of sending it through the corresponding telecommunication network can be realized.

Or, the trusted storage root type identifier is the public trust relationship trusted storage root type identifier;

Correspondingly, step 102 specifically includes:

Step 102c, the terminal determines the public trust relationship trusted storage root corresponding to the public trust relationship trusted storage root type identifier according to the public trust relationship trusted storage root type identifier, and the public trust relationship trusted storage root includes the unified extensible firmware interface identifier, the operating system Logos, public application logos;

Correspondingly, step 103 specifically includes:

Step 103c, the terminal stores the data unit to be transmitted in the public trust relationship trusted storage root corresponding to the public trust relationship trusted storage root type identifier;

Correspondingly, step 104 specifically includes:

Step 104c: The terminal sends the public trust relationship trusted storage root storing the data unit to be transmitted to the receiving device through the radio and television information network corresponding to the public trust relationship trusted storage root type identifier.

In this embodiment, specifically, if the user determines the trust level of the public trust relationship through the man-machine trust interface in step 101, the user determines to select the trusted storage root type identifier of the public trust relationship.

Then, the terminal may determine the public trust relationship trusted storage root corresponding to the public trust relationship trusted storage root type identifier according to the public trust relationship trusted storage root type identifier. Because the trusted storage root is physically separated into four storage spaces, the four storage spaces in the trusted storage root of the public trust relationship are the storage space identified by the Unified Extensible Firmware Interface (UEFI), the storage space identified by the operating system ( The storage space identified by the Operating System, referred to as OS), the storage space identified by the public application (PApp Public Applications, referred to as PApp), and the storage space of the independent data unit. Therefore, the trusted storage root of the public trust relationship includes the unified extensible firmware interface identification, the operating system identification, the public application identification, and also includes the storage space of the independent data unit, which is large, but there is no data to be transmitted in the storage space of the independent data unit at this time. unit.

Further, the terminal stores the data unit to be transmitted in the public trust relationship trusted storage root corresponding to the public trust relationship trusted storage root type identifier. Specifically, the terminal stores the to-be-transmitted data unit in the public trust relationship trusted storage root. in the storage space of an independent data unit.

Since the public trust relationship trusted storage root is correspondingly connected with the radio and television information network, the type identifier of the public trust relationship trusted storage root is corresponding to the radio and television information network. The terminal sends the public trust relationship trusted storage root storing the data unit to be transmitted to the receiving device through the radio and television information network; the radio and television information network directly transmits the public trust relationship trusted storage root in the physical channel by broadcasting.

Therefore, it is possible to achieve the purpose of storing the public trust relationship trusted storage root of the data unit to be transmitted and sending it through the corresponding radio and television information network.

In the second embodiment, in the Basic Input Output System (Basic Input Output System, BIOS for short) setting, the controller of the terminal after the user performs input and output is handed over to the optical disc drive for control. Each storage unit in the terminal corresponds to each trusted storage root type identifier, so the trusted storage root corresponding to the trusted storage root type identifier will be stored in the terminal corresponding to the trusted storage root type identifier. in the unit.

The storage unit corresponding to the trusted storage root type identifier and the network corresponding to the trusted storage root type identifier will be connected through NCIC. Specifically, different types of trusted storage roots are directly connected to their corresponding networks through NCIC. . The NCIC is also connected to the receiving device, for example, the NCIC is connected to the controller, and the controller is connected to the real device, or the memory, or the CPU.

In this embodiment, the trusted storage root containing the data unit to be sent is divided into three types: the basic relationship trusted storage root, the mutual trust relationship trusted storage root, and the public trust relationship trusted storage root. When the user selects the trusted storage root type After the identification, the data unit to be transmitted is stored in the trusted storage root corresponding to the trusted storage root type identification, and then the trusted storage root is sent to the network or the other party's terminal according to the network corresponding to the trusted storage root type identification. , so that various types of units to be transmitted are transmitted through the corresponding network, saving network resources. At the same time, the terminal is regarded as a platform, which realizes the credibility of the human-computer interaction platform.

FIG. 3 is a schematic structural diagram of a terminal provided by Embodiment 3 of the present invention. As shown in FIG. 3 , the terminal provided by this embodiment includes:

The receiving module 31 is used for receiving a sending request from a user, and the sending request includes the data unit to be transmitted and the trusted storage root type identifier;

A determination module 32, configured to determine the trusted storage root corresponding to the trusted storage root type identifier according to the trusted storage root type identifier;

The storage module 33 is used to store the data unit to be transmitted in the trusted storage root corresponding to the trusted storage root type identifier;

The sending module 34 is configured to send the trusted storage root storing the data unit to be transmitted to the receiving device through the network corresponding to the trusted storage root type identifier.

The terminal in this embodiment can execute the data transmission method based on human-computer interaction provided in Embodiment 1 of the present invention, and the implementation principle thereof is similar, which is not repeated here.

In this embodiment, the trusted storage root corresponding to the trusted storage root type identifier is determined according to the trusted storage root type identifier, and then the data unit to be transmitted is stored in the trusted storage root corresponding to the trusted storage root type identifier, Therefore, the trusted storage root storing the data unit to be transmitted can be sent to the receiving device through the network corresponding to the trusted storage root type identifier. Therefore, after the user selects the trusted storage root type identifier, the trusted storage root is sent to the network or the terminal of the other party according to the network corresponding to the trusted storage root type identifier, so that various types of units to be transmitted pass through the corresponding Network transmission, saving network resources.

FIG. 4 is a schematic structural diagram of a terminal provided by Embodiment 4 of the present invention. On the basis of Embodiment 3, as shown in FIG. 4 , in the terminal provided by this embodiment, the trusted storage root type is identified as a basic relationship trusted storage root type identification;

Correspondingly, the determining module 32 is specifically used for:

According to the basic relationship trusted storage root type identification, determine the basic relationship trusted storage root corresponding to the basic relationship trusted storage root type identification. The basic relationship trusted storage root includes the unified extensible firmware interface identification, the operating system identification, the basic application program identification;

Correspondingly, the storage module 33 is specifically used for:

The terminal stores the data unit to be transmitted in the basic relationship trusted storage root corresponding to the basic relationship trusted storage root type identifier;

Correspondingly, the sending module 34 is specifically used for:

The terminal sends the basic relationship trusted storage root storing the data unit to be transmitted to the receiving device through the computer network corresponding to the basic relationship trusted storage root type identifier.

Or, the trusted storage root type identifier is the trusted storage root type identifier of the mutual trust relationship;

Correspondingly, the determining module 32 is specifically used for:

The terminal determines the mutual trust relationship trusted storage root corresponding to the mutual trust relationship trusted storage root type identifier according to the mutual trust relationship trusted storage root type identifier. The mutual trust relationship trusted storage root includes the unified extensible firmware interface identifier, the operating system identifier, the subject application ID;

Correspondingly, the storage module 33 is specifically used for:

The terminal stores the data unit to be transmitted in the trusted storage root of the mutual trust relationship corresponding to the type identifier of the trusted storage root of the mutual trust relationship;

Correspondingly, the sending module 34 is specifically used for:

The terminal sends the trusted storage root of the mutual trust relationship storing the data unit to be transmitted to the receiving device through the telecommunication network corresponding to the type identifier of the trusted storage root of the mutual trust relationship.

Or, the trusted storage root type identifier is the public trust relationship trusted storage root type identifier;

Correspondingly, the determining module 32 is specifically used for:

The terminal determines the public trust relationship trusted storage root corresponding to the public trust relationship trusted storage root type identifier according to the public trust relationship trusted storage root type identifier. The public trust relationship trusted storage root includes the unified extensible firmware interface identifier, the operating system identifier, the public trust relationship Application ID;

Correspondingly, the storage module 33 is specifically used for:

The terminal stores the data unit to be transmitted in the public trust relationship trusted storage root corresponding to the public trust relationship trusted storage root type identifier;

Correspondingly, the sending module 34 is specifically used for:

The terminal sends the public trust relationship trusted storage root storing the data unit to be transmitted to the receiving device through the radio and television information network corresponding to the public trust relationship trusted storage root type identifier.

The terminal provided by this embodiment further includes:

Each storage unit 41, each storage unit 41 corresponds to each trusted storage root type identifier, the storage unit 41 is connected between the storage module 33 and the sending module 34, and the storage unit 41 corresponding to the trusted storage root type identifier and the The network corresponding to the trusted storage root type identification is connected through NCIC;

The storage unit 41 corresponding to the trusted storage root type identifier is used to store the trusted storage root corresponding to the trusted storage root type identifier.

The terminal in this embodiment can execute the data transmission method based on human-computer interaction provided in Embodiment 2 of the present invention, and the implementation principle thereof is similar, which is not repeated here.

In this embodiment, the trusted storage root containing the data unit to be sent is divided into three types: the basic relationship trusted storage root, the mutual trust relationship trusted storage root, and the public trust relationship trusted storage root. When the user selects the trusted storage root type After the identification, the data unit to be transmitted is stored in the trusted storage root corresponding to the trusted storage root type identification, and then the trusted storage root is sent to the network or the other party's terminal according to the network corresponding to the trusted storage root type identification. , so that various types of units to be transmitted are transmitted through the corresponding network, saving network resources. At the same time, the terminal is regarded as a platform, which realizes the credibility of the human-computer interaction platform.

Those of ordinary skill in the art can understand that all or part of the steps of implementing the above method embodiments may be completed by program instructions related to hardware. The aforementioned program can be stored in a computer-readable storage medium. When the program is executed, the steps including the above method embodiments are executed; and the foregoing storage medium includes: ROM, RAM, magnetic disk or optical disk and other media that can store program codes.

Finally, it should be noted that the above embodiments are only used to illustrate the technical solutions of the present invention, but not to limit them; although the present invention has been described in detail with reference to the foregoing embodiments, those of ordinary skill in the art should understand that it can still be The technical solutions described in the foregoing embodiments are modified, or some technical features thereof are equivalently replaced; and these modifications or replacements do not make the essence of the corresponding technical solutions deviate from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. a data transmission method based on human-computer interaction, is characterized in that, comprises: The terminal receives the sending request from the user, and the sending request includes the data unit to be transmitted and the type identifier of the trusted storage root; The terminal determines, according to the trusted storage root type identifier, a trusted storage root corresponding to the trusted storage root type identifier; The terminal stores the data unit to be transmitted in the trusted storage root corresponding to the trusted storage root type identifier; The terminal sends the trusted storage root storing the data unit to be transmitted to the receiving device through the network corresponding to the trusted storage root type identifier; Among them, there is a one-to-one correspondence between the type identification of the trusted storage root, the trusted storage root and the network, and different trusted storage roots correspond to different networks. 2. The method according to claim 1, wherein the trusted storage root type identifier is a basic relationship trusted storage root type identifier; Correspondingly, the terminal determines the trusted storage root corresponding to the trusted storage root type identifier according to the trusted storage root type identifier, including: The terminal determines, according to the basic relationship trusted storage root type identifier, a basic relationship trusted storage root corresponding to the basic relationship trusted storage root type identifier, and the basic relationship trusted storage root includes a unified extensible firmware interface identifier. , operating system identification, basic application identification; Correspondingly, the terminal stores the data unit to be transmitted in the trusted storage root corresponding to the trusted storage root type identifier, including: The terminal stores the data unit to be transmitted in the basic relationship trusted storage root corresponding to the basic relationship trusted storage root type identifier; Correspondingly, the terminal sends the trusted storage root storing the data unit to be transmitted to the receiving device through the network corresponding to the trusted storage root type identifier, including: The terminal sends the basic relationship trusted storage root storing the to-be-transmitted data unit to the receiving device through the computer network corresponding to the basic relationship trusted storage root type identifier. 3. The method according to claim 1, wherein the trusted storage root type identifier is a mutual trust relationship trusted storage root type identifier; Correspondingly, the terminal determines the trusted storage root corresponding to the trusted storage root type identifier according to the trusted storage root type identifier, including: The terminal determines a mutual trust relationship trusted storage root corresponding to the mutual trust relationship trusted storage root type identifier according to the mutual trust relationship trusted storage root type identifier, and the mutual trust relationship trusted storage root includes a unified extensible firmware interface identifier. , operating system identification, multi-agent application identification; Correspondingly, the terminal stores the data unit to be transmitted in the trusted storage root corresponding to the trusted storage root type identifier, including: The terminal stores the to-be-transmitted data unit in the mutual trust relationship trusted storage root corresponding to the mutual trust relationship trusted storage root type identifier; Correspondingly, the terminal sends the trusted storage root storing the data unit to be transmitted to the receiving device through the network corresponding to the trusted storage root type identifier, including: The terminal sends the trusted storage root of the mutual trust relationship storing the data unit to be transmitted to the receiving device through the telecommunication network corresponding to the type identification of the trusted storage root of the mutual trust relationship. 4. The method according to claim 1, wherein the trusted storage root type identifier is a public trust relationship trusted storage root type identifier; Correspondingly, the terminal determines the trusted storage root corresponding to the trusted storage root type identifier according to the trusted storage root type identifier, including: The terminal determines the public trust relationship trusted storage root corresponding to the public trust relationship trusted storage root type identifier according to the public trust relationship trusted storage root type identifier, and the public trust relationship trusted storage root includes the unified extensible firmware interface identifier. , operating system logo, public application logo; Correspondingly, the terminal stores the data unit to be transmitted in the trusted storage root corresponding to the trusted storage root type identifier, including: The terminal stores the to-be-transmitted data unit in the public trust relationship trusted storage root corresponding to the public trust relationship trusted storage root type identifier; Correspondingly, the terminal sends the trusted storage root storing the data unit to be transmitted to the receiving device through the network corresponding to the trusted storage root type identifier, including: The terminal sends the public trust relationship trusted storage root storing the to-be-transmitted data unit to the receiving device through the radio and television information network corresponding to the public trust relationship trusted storage root type identifier. 5. The method according to any one of claims 1-4, wherein the trusted storage root corresponding to the trusted storage root type identifier is stored in the terminal corresponding to the trusted storage root type identifier. in the storage unit; In addition, the storage unit corresponding to the trusted storage root type identifier and the network corresponding to the trusted storage root type identifier are connected through the network fusion interface card NCIC. 6. A terminal, characterized in that, comprising: a receiving module, configured to receive a sending request from a user, where the sending request includes a data unit to be transmitted and a trusted storage root type identifier; a determining module, configured to determine a trusted storage root corresponding to the trusted storage root type identifier according to the trusted storage root type identifier; a storage module, configured to store the data unit to be transmitted in a trusted storage root corresponding to the trusted storage root type identifier; a sending module, configured to send the trusted storage root storing the data unit to be transmitted to the receiving device through the network corresponding to the trusted storage root type identifier; Among them, there is a one-to-one correspondence between the type identification of the trusted storage root, the trusted storage root and the network, and different trusted storage roots correspond to different networks. 7. The terminal according to claim 6, wherein the trusted storage root type identifier is a basic relationship trusted storage root type identifier; Correspondingly, the determining module is specifically used for: According to the basic relationship trusted storage root type identifier, a basic relationship trusted storage root corresponding to the basic relationship trusted storage root type identifier is determined, and the basic relationship trusted storage root includes a unified extensible firmware interface identifier, an operating system Identification, basic application identification; Correspondingly, the storage module is specifically used for: The terminal stores the data unit to be transmitted in the basic relationship trusted storage root corresponding to the basic relationship trusted storage root type identifier; Correspondingly, the sending module is specifically used for: The terminal sends the basic relationship trusted storage root storing the to-be-transmitted data unit to the receiving device through the computer network corresponding to the basic relationship trusted storage root type identifier. 8. The terminal according to claim 6, wherein the trusted storage root type identifier is a mutual trust relationship trusted storage root type identifier; Correspondingly, the determining module is specifically used for: The terminal determines a mutual trust relationship trusted storage root corresponding to the mutual trust relationship trusted storage root type identifier according to the mutual trust relationship trusted storage root type identifier, and the mutual trust relationship trusted storage root includes a unified extensible firmware interface identifier. , operating system identification, multi-agent application identification; Correspondingly, the storage module is specifically used for: The terminal stores the to-be-transmitted data unit in the mutual trust relationship trusted storage root corresponding to the mutual trust relationship trusted storage root type identifier; Correspondingly, the sending module is specifically used for: The terminal sends the trusted storage root of the mutual trust relationship storing the data unit to be transmitted to the receiving device through the telecommunication network corresponding to the type identification of the trusted storage root of the mutual trust relationship. 9. The terminal according to claim 6, wherein the trusted storage root type identifier is a public trust relationship trusted storage root type identifier; Correspondingly, the determining module is specifically used for: The terminal determines the public trust relationship trusted storage root corresponding to the public trust relationship trusted storage root type identifier according to the public trust relationship trusted storage root type identifier, and the public trust relationship trusted storage root includes the unified extensible firmware interface identifier. , operating system logo, public application logo; Correspondingly, the storage module is specifically used for: The terminal stores the to-be-transmitted data unit in the public trust relationship trusted storage root corresponding to the public trust relationship trusted storage root type identifier; Correspondingly, the sending module is specifically used for: The terminal sends the public trust relationship trusted storage root storing the to-be-transmitted data unit to the receiving device through the radio and television information network corresponding to the public trust relationship trusted storage root type identifier. 10. The terminal according to any one of claims 6-9, further comprising: Each storage unit, each storage unit corresponds to each trusted storage root type identifier, the storage unit is connected between the storage module and the sending module, and the storage unit corresponding to the trusted storage root type identifier and the The network corresponding to the trusted storage root type identification is connected through the network fusion interface card NCIC; The storage unit corresponding to the trusted storage root type identifier is used to store the trusted storage root corresponding to the trusted storage root type identifier.

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