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

Abstract

The invention provides a data transmission method and a terminal based on man-machine interaction, wherein the method comprises the following steps: a terminal receives a sending request of a user, wherein the sending request comprises a data unit to be transmitted and a trusted storage root type identifier; the terminal determines a trusted storage root corresponding to the trusted storage root type identification according to the trusted storage root type identification; the terminal stores the data unit to be transmitted into a 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 type identifier of the trusted storage root, so that various types of units to be transmitted are transmitted through the corresponding network, and network resources are saved.

Description

Data transmission method and terminal based on man-machine interaction

Technical Field

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

Background

With the development of communication technology, a trusted computing platform is applied to the field of communication, the trusted computing platform is a platform widely used in computing and communication systems and supported by a hardware security module, and the trusted computing platform can improve the security of the communication systems.

In the trusted computing platform in the prior art, a terminal may receive a data unit input or selected by a user, and then the terminal performs a data interaction process with a network or the terminal and the terminal, so as to transmit the data unit.

However, in the prior art, a terminal transmits all types of data units to another terminal or network through the same network, and such a transmission manner causes the data units to have to meet the requirements of the same network, and further needs to adjust the data units before network transmission; for example, after a data unit which needs to be encrypted and the like is contacted with a key, the data unit is transmitted through a network which cannot be encrypted, or after a data unit which does not need to be encrypted and the like is encrypted, the data unit is transmitted through a network which needs to be encrypted; which in turn reduces the speed of data unit transmission and wastes network resources.

Disclosure of Invention

The invention provides a data transmission method and device based on man-machine interaction, which are used for solving the problems of low transmission speed of data units 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, including:

a terminal receives a sending request of a user, wherein the sending request comprises a data unit to be transmitted and a trusted storage root type identifier;

the terminal determines a trusted storage root corresponding to the trusted storage root type identification according to the trusted storage root type identification;

the terminal stores the data unit to be transmitted into a trusted storage root corresponding to the trusted storage root type identification;

and the terminal sends the trusted storage root storing the data unit to be transmitted to a receiving device through a network corresponding to the trusted storage root type identification.

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

correspondingly, the determining, by the terminal, the trusted storage root corresponding to the trusted storage root type identifier according to the trusted storage root type identifier includes:

the terminal determines a basic relationship trusted storage root corresponding to the basic relationship trusted storage root type identification according to the basic relationship trusted storage root type identification, wherein the basic relationship trusted storage root comprises a unified extensible firmware interface identification, an operating system identification and a basic application program identification;

correspondingly, the terminal stores the data unit to be transmitted into the trusted storage root corresponding to the trusted storage root type identifier, and the method includes:

the terminal stores the data unit to be transmitted into a basic relationship trusted storage root corresponding to the basic relationship trusted storage root type identification;

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, and the method includes:

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

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

correspondingly, the determining, by the terminal, the trusted storage root corresponding to the trusted storage root type identifier according to the trusted storage root type identifier includes:

the terminal determines a trusted relationship trusted storage root corresponding to the trusted relationship trusted storage root type identification according to the trusted relationship trusted storage root type identification, wherein the trusted relationship trusted storage root comprises a unified extensible firmware interface identification, an operating system identification and a multi-body application program identification;

correspondingly, the terminal stores the data unit to be transmitted into the trusted storage root corresponding to the trusted storage root type identifier, and the method includes:

the terminal stores the data unit to be transmitted into a credible mutual trust relationship storage root corresponding to the credible mutual trust relationship storage root type identification;

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, and the method includes:

and the terminal sends the credible mutual trust relationship storage root storing the data unit to be transmitted to a receiving device through a telecommunication network corresponding to the credible mutual trust relationship storage root type identification.

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

correspondingly, the determining, by the terminal, the trusted storage root corresponding to the trusted storage root type identifier according to the trusted storage root type identifier includes:

the terminal determines a credible storage root corresponding to the credible storage root type identification according to the credible storage root type identification of the credible relation, wherein the credible storage root comprises a unified extensible firmware interface identification, an operating system identification and a public application program identification;

correspondingly, the terminal stores the data unit to be transmitted into the trusted storage root corresponding to the trusted storage root type identifier, and the method includes:

the terminal stores the data unit to be transmitted into a credible public trust relationship storage root corresponding to the credible public trust relationship storage root type identification;

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, and the method includes:

and the terminal sends the credible public trust relationship storage root storing the data unit to be transmitted to a receiving device through a broadcast television information network corresponding to the credible public trust relationship storage root type identification.

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

and the storage unit corresponding to the credible storage root type identification and the network corresponding to the credible storage root type identification are connected through a network convergence interface card NCIC.

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

the receiving module is used for receiving a sending request of a user, wherein the sending request comprises a data unit to be transmitted and a trusted storage root type identifier;

the determining module is used for determining a trusted storage root corresponding to the trusted storage root type identification according to the trusted storage root type identification;

the storage module is used for storing the data unit to be transmitted into a trusted storage root corresponding to the type identifier of the trusted storage root;

and the sending module is used for sending the trusted storage root storing the data unit to be transmitted to a receiving device through a network corresponding to the type identifier of the trusted storage root.

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 configured to:

determining a basic relationship trusted storage root corresponding to the basic relationship trusted storage root type identification according to the basic relationship trusted storage root type identification, wherein the basic relationship trusted storage root comprises a unified extensible firmware interface identification, an operating system identification and a basic application program identification;

correspondingly, the storage module is specifically configured to:

the terminal stores the data unit to be transmitted into a basic relationship trusted storage root corresponding to the basic relationship trusted storage root type identification;

correspondingly, the sending module is specifically configured to:

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

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 configured to:

the terminal determines a trusted relationship trusted storage root corresponding to the trusted relationship trusted storage root type identification according to the trusted relationship trusted storage root type identification, wherein the trusted relationship trusted storage root comprises a unified extensible firmware interface identification, an operating system identification and a multi-body application program identification;

correspondingly, the storage module is specifically configured to:

the terminal stores the data unit to be transmitted into a credible mutual trust relationship storage root corresponding to the credible mutual trust relationship storage root type identification;

correspondingly, the sending module is specifically configured to:

and the terminal sends the credible mutual trust relationship storage root storing the data unit to be transmitted to a receiving device through a telecommunication network corresponding to the credible mutual trust relationship storage root type identification.

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

correspondingly, the determining module is specifically configured to:

the terminal determines a credible storage root corresponding to the credible storage root type identification according to the credible storage root type identification of the credible relation, wherein the credible storage root comprises a unified extensible firmware interface identification, an operating system identification and a public application program identification;

correspondingly, the storage module is specifically configured to:

the terminal stores the data unit to be transmitted into a credible public trust relationship storage root corresponding to the credible public trust relationship storage root type identification;

correspondingly, the sending module is specifically configured to:

and the terminal sends the credible public trust relationship storage root storing the data unit to be transmitted to a receiving device through a broadcast television information network corresponding to the credible public trust relationship storage root type identification.

The terminal as described above further includes:

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 network corresponding to the trusted storage root type identifier are connected through an NCIC;

and the storage unit corresponding to the trusted storage root type identification is used for storing the trusted storage root corresponding to the trusted storage root type identification.

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, so that the trusted storage root in which the data unit to be transmitted is stored 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 identification, 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 identification, so that various types of units to be transmitted are transmitted through the corresponding network, and network resources are saved.

Drawings

Fig. 1 is a flowchart of a data transmission method based on human-computer interaction according to an embodiment of the present invention;

fig. 2 is a flowchart of a data transmission method based on human-computer interaction according to a second embodiment of the present invention;

fig. 3 is a schematic structural diagram of a terminal according to a third embodiment of the present invention;

fig. 4 is a schematic structural diagram of a terminal according to a fourth embodiment of the present invention.

Detailed Description

In order to make the objects, 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 drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, 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 according to an embodiment of the present invention, as shown in fig. 1, the method of the embodiment includes:

step 101, a terminal receives a sending request of a user, wherein the sending request comprises a data unit to be transmitted and a trusted storage root type identifier.

In this embodiment, specifically, a user communicates with the trusted interface and inputs a request to the terminal, at this time, the user may select the trusted storage root type identifier of the trusted storage root, and the trusted storage root is divided into a basic-relationship trusted storage root, a mutual-trust-relationship trusted storage root, and a public-trust-relationship trusted storage root.

Meanwhile, the user needs to determine the data unit to be transmitted in the terminal.

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

And 102, the terminal determines a trusted storage root corresponding to the trusted storage root type identification according to the trusted storage root type identification.

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

And 103, the terminal stores the data unit to be transmitted into the trusted storage root corresponding to the trusted storage root type identification.

In this embodiment, specifically, the trusted storage root may be physically isolated into four storage spaces, where one storage space is used for storing the data unit. Therefore, the terminal can store the data unit to be transmitted into the trusted storage root corresponding to the trusted storage root type identifier.

And step 104, the terminal sends the trusted storage root storing the data unit to be transmitted to a receiving device through a network corresponding to the type identifier of the trusted storage root.

In this embodiment, specifically, different types of trusted storage roots are respectively and correspondingly connected to different types of networks, so that the trusted storage root type identifier, the trusted storage root, and the loaded network are in one-to-one correspondence.

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 another terminal.

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, so that the trusted storage root in which the data unit to be transmitted is stored 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 identification, 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 identification, so that various types of units to be transmitted are transmitted through the corresponding network, and network resources are saved.

Fig. 2 is a flowchart of a data transmission method based on human-computer interaction according to a second embodiment of the present invention, where on the basis of the first embodiment, as shown in fig. 2, in the method according to this embodiment, a trusted storage root type identifier is a basic relationship trusted storage root type identifier;

correspondingly, step 102 specifically includes:

102a, the terminal determines a basic relationship trusted storage root corresponding to a basic relationship trusted storage root type identifier according to the basic relationship trusted storage root type identifier, wherein the basic relationship trusted storage root comprises a unified extensible firmware interface identifier, an operating system identifier and a basic application program identifier;

correspondingly, step 103 specifically includes:

103a, the terminal stores the data unit to be transmitted into a basic relationship trusted storage root corresponding to the basic relationship trusted storage root type identification;

correspondingly, step 104 specifically includes:

and 104a, the terminal sends the basic relationship credible storage root storing the data unit to be transmitted to a receiving device through a computer network corresponding to the basic relationship credible storage root type identification.

In this embodiment, specifically, in step 101, if the user determines, through the human-machine trust interface, the trust hierarchy in which the basic relationship is selected, the user determines that the basic relationship trusted storage root type identifier is selected.

Then, the terminal may determine, 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. Because the trusted storage root is physically isolated from the four storage spaces, the four storage spaces in the basic relationship trusted storage root are respectively a storage space identified by a Unified Extensible Firmware Interface (UEFI), a storage space identified by an Operating System (OS), a storage space identified by a basic application program (App), and a storage space of an independent data unit. Therefore, the basic relationship trusted storage root comprises a unified extensible firmware interface identifier, an operating system identifier, a basic application program identifier and a storage space of the independent data unit, but the storage space of the independent data unit is large and does not have a data unit to be transmitted.

And then, the terminal stores the data unit to be transmitted into the basic relationship credible storage root corresponding to the basic relationship credible storage root type identifier, specifically, the terminal stores the data unit to be transmitted into the storage space of the independent data unit in the basic relationship credible storage root.

The type identification of the basic relationship trusted storage root corresponds to the computer network because the basic relationship trusted storage root is correspondingly connected with the computer network. And the terminal sends the trusted storage root of the basic relationship storing the data unit to be transmitted to the receiving device through a computer network.

Therefore, the purpose that the basic relationship credible storage root of the data unit to be transmitted is stored and is transmitted through the computer network corresponding to the basic relationship credible storage root can be achieved.

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

correspondingly, step 102 specifically includes:

102b, the terminal determines a trusted relationship trusted storage root corresponding to the trusted relationship trusted storage root type identification according to the trusted relationship trusted storage root type identification, wherein the trusted relationship trusted storage root comprises a unified extensible firmware interface identification, an operating system identification and a multi-body application program identification;

correspondingly, step 103 specifically includes:

103b, the terminal stores the data unit to be transmitted into a credible mutual trust relationship storage root corresponding to the credible mutual trust relationship storage root type identification;

correspondingly, step 104 specifically includes:

and step 104b, the terminal sends the credible mutual trust relationship storage root storing the data unit to be transmitted to the receiving device through the telecommunication network corresponding to the credible mutual trust relationship storage root type identification.

In this embodiment, specifically, in step 101, if the user determines, through the human-machine trust interface, the trust hierarchy that selects the mutual trust relationship, the user determines that the trusted storage root type identifier of the mutual trust relationship is selected.

Then, the terminal can determine the trusted relationship trusted storage root corresponding to the trusted relationship trusted storage root type identifier according to the trusted relationship trusted storage root type identifier. Because the trusted storage root is physically isolated from the four storage spaces, the four storage spaces in the trusted storage root in the mutual trust relationship are respectively a storage space identified by a Unified Extensible Firmware Interface (UEFI), a storage space identified by an Operating System (OS), a storage space identified by a multi-agent application program (GApp), and a storage space of an independent data unit. Therefore, the trusted storage root of the mutual trust relationship comprises a unified extensible firmware interface identifier, an operating system identifier, a multi-main-body application program identifier and a storage space of the independent data unit, and the storage space of the independent data unit is large but no data unit to be transmitted exists in the storage space of the independent data unit.

And then, the terminal stores the data unit to be transmitted into the credible storage root of the mutual trust relationship corresponding to the credible storage root type identification, specifically, the terminal stores the data unit to be transmitted into the storage space of the independent data unit in the credible storage root of the mutual trust relationship.

The trusted storage root of the mutual trust relationship is correspondingly connected with the telecommunication network, so that the trusted storage root type identification of the mutual trust relationship corresponds to the telecommunication network. The terminal sends the credible 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 that the credible storage root of the mutual trust relationship of the data unit to be transmitted is stored and is transmitted through the corresponding telecommunication network can be achieved.

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

correspondingly, step 102 specifically includes:

102c, the terminal determines a credible relation trusted storage root corresponding to the credible relation trusted storage root type identification according to the credible relation trusted storage root type identification, wherein the credible relation trusted storage root comprises a unified extensible firmware interface identification, an operating system identification and a public application program identification;

correspondingly, step 103 specifically includes:

103c, the terminal stores the data unit to be transmitted into the credible storage root of the public trust relationship corresponding to the credible storage root type identification of the public trust relationship;

correspondingly, step 104 specifically includes:

and step 104c, the terminal sends the credible public trust relationship storage root storing the data unit to be transmitted to a receiving device through the broadcast television information network corresponding to the credible public trust relationship storage root type identification.

In this embodiment, specifically, in step 101, if the user determines, through the human-machine trust interface, the trust hierarchy that selects the public trust relationship, the user determines that the trusted storage root type identifier of the public trust relationship is selected.

Then, the terminal may determine, according to the trusted storage root type identifier of the public trust relationship, a trusted storage root of the public trust relationship corresponding to the trusted storage root type identifier of the public trust relationship. Because the trusted storage root is physically isolated from four storage spaces, the four storage spaces in the trusted storage root in the Public trust relationship are respectively a storage space identified by a Unified Extensible Firmware Interface (UEFI), a storage space identified by an Operating System (OS), a storage space identified by a Public application program (PApp), and a storage space of an independent data unit. Therefore, the credible storage root of the public trust relationship comprises a unified extensible firmware interface identifier, an operating system identifier and a public application program identifier, and also comprises a storage space of the independent data unit, but no data unit to be transmitted exists in the storage space of the independent data unit at the moment.

And then, the terminal stores the data unit to be transmitted into the credible public trust relationship storage root corresponding to the credible public trust relationship storage root type identifier, specifically, the terminal stores the data unit to be transmitted into the storage space of the independent data unit in the credible public trust relationship storage root.

The credible storage root of the public trust relationship is correspondingly connected with the broadcast television information network, so that the credible storage root type identification of the public trust relationship is corresponding to the broadcast television information network. The terminal sends the credible storage root of the public information relationship storing the data unit to be transmitted to the receiving device through the broadcast television information network; the broadcast television information network directly transmits the credible storage root of the public trust relationship in a physical channel in a broadcast mode.

Therefore, the purpose that the credible storage root of the public trust relationship of the data unit to be transmitted is stored and is transmitted through the corresponding broadcast television information network can be achieved.

In the second embodiment, in the Basic Input Output System (BIOS) setting, the controller of the terminal to which the user performs Input/Output is handed over to the control right to the optical disc drive. Each storage unit in the terminal corresponds to each trusted storage root type identifier, so that 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.

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

In the embodiment, the trusted storage root containing the data unit to be transmitted is divided into three types, namely a basic relationship trusted storage root, a mutual trust relationship trusted storage root and a public trust relationship trusted storage root, after the user selects the trusted storage root type identifier, the data unit to be transmitted is stored in the trusted storage root corresponding to the trusted storage root type identifier, and then the trusted storage root is transmitted to a network or a terminal of another party according to the network corresponding to the trusted storage root type identifier, so that various types of units to be transmitted are transmitted through the corresponding network, and network resources are saved. Meanwhile, the terminal is regarded as a platform, and the credibility of a man-machine interaction platform is realized.

Fig. 3 is a schematic structural diagram of a terminal according to a third embodiment of the present invention, and as shown in fig. 3, the terminal according to the present embodiment includes:

the receiving module 31 is configured to receive a sending request of a user, where the sending request includes a data unit to be transmitted and a trusted storage root type identifier;

the determining module 32 is configured to determine, according to the trusted storage root type identifier, a trusted storage root corresponding to the trusted storage root type identifier;

the storage module 33 is configured to store the data unit to be transmitted into the trusted storage root corresponding to the trusted storage root type identifier;

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

The terminal of this embodiment can execute the data transmission method based on human-computer interaction provided in the first embodiment of the present invention, and the implementation principles thereof are similar, and are not described herein again.

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, so that the trusted storage root in which the data unit to be transmitted is stored 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 identification, 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 identification, so that various types of units to be transmitted are transmitted through the corresponding network, and network resources are saved.

Fig. 4 is a schematic structural diagram of a terminal according to a fourth embodiment of the present invention, and based on the third embodiment, as shown in fig. 4, in the terminal according to this embodiment, a trusted storage root type identifier is a basic relationship trusted storage root type identifier;

correspondingly, the determining module 32 is specifically configured to:

determining a basic relationship trusted storage root corresponding to the basic relationship trusted storage root type identification according to the basic relationship trusted storage root type identification, wherein the basic relationship trusted storage root comprises a unified extensible firmware interface identification, an operating system identification and a basic application program identification;

accordingly, the storage module 33 is specifically configured to:

the terminal stores the data unit to be transmitted into a basic relationship credible storage root corresponding to the basic relationship credible storage root type identification;

correspondingly, the sending module 34 is specifically configured to:

and the terminal sends the basic relationship credible storage root storing the data unit to be transmitted to the receiving device through the computer network corresponding to the basic relationship credible storage root type identification.

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

correspondingly, the determining module 32 is specifically configured to:

the terminal determines a credible mutual trust relationship storage root corresponding to the credible mutual trust relationship storage root type identification according to the credible mutual trust relationship storage root type identification, wherein the credible mutual trust relationship storage root comprises a unified extensible firmware interface identification, an operating system identification and a multi-main-body application program identification;

accordingly, the storage module 33 is specifically configured to:

the terminal stores the data unit to be transmitted into a credible mutual trust relationship storage root corresponding to the credible mutual trust relationship storage root type identification;

correspondingly, the sending module 34 is specifically configured to:

and the terminal sends the credible storage root of the mutual trust relationship, which stores the data unit to be transmitted, to the receiving device through the telecommunication network corresponding to the credible storage root type identification of the mutual trust relationship.

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

correspondingly, the determining module 32 is specifically configured to:

the terminal determines a credible relation trusted storage root corresponding to the credible relation trusted storage root type identification according to the credible relation trusted storage root type identification, wherein the credible relation trusted storage root comprises a unified extensible firmware interface identification, an operating system identification and a public application program identification;

accordingly, the storage module 33 is specifically configured to:

the terminal stores the data unit to be transmitted into a credible public trust relationship storage root corresponding to the credible public trust relationship storage root type identification;

correspondingly, the sending module 34 is specifically configured to:

and the terminal sends the credible public trust relationship storage root storing the data unit to be transmitted to the receiving device through the broadcast television information network corresponding to the credible public trust relationship storage root type identification.

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 transmission module 34, and the storage unit 41 corresponding to the trusted storage root type identifier and the network corresponding to the trusted storage root type identifier are connected through the NCIC;

and the storage unit 41 corresponding to the trusted storage root type identifier is used for storing the trusted storage root corresponding to the trusted storage root type identifier.

The terminal of this embodiment can execute the data transmission method based on human-computer interaction provided in the second embodiment of the present invention, and the implementation principles thereof are similar, and are not described herein again.

In the embodiment, the trusted storage root containing the data unit to be transmitted is divided into three types, namely a basic relationship trusted storage root, a mutual trust relationship trusted storage root and a public trust relationship trusted storage root, after the user selects the trusted storage root type identifier, the data unit to be transmitted is stored in the trusted storage root corresponding to the trusted storage root type identifier, and then the trusted storage root is transmitted to a network or a terminal of another party according to the network corresponding to the trusted storage root type identifier, so that various types of units to be transmitted are transmitted through the corresponding network, and network resources are saved. Meanwhile, the terminal is regarded as a platform, and the credibility of a man-machine interaction platform is realized.

Those of ordinary skill in the art will understand that: all or a portion of the steps of implementing the above-described method embodiments may be performed by hardware associated with program instructions. The program may be stored in a computer-readable storage medium. When executed, the program performs steps comprising the method embodiments described above; and the aforementioned storage medium includes: various media that can store program codes, such as ROM, RAM, magnetic or optical disks.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. A data transmission method based on human-computer interaction is characterized by comprising the following steps:

a terminal receives a sending request of a user, wherein the sending request comprises a data unit to be transmitted and a trusted storage root type identifier;

the terminal determines a trusted storage root corresponding to the trusted storage root type identification according to the trusted storage root type identification;

the terminal stores the data unit to be transmitted into a trusted storage root corresponding to the trusted storage root type identification;

the terminal sends the trusted storage root storing the data unit to be transmitted to a receiving device through a network corresponding to the trusted storage root type identification;

the trusted storage root type identifier, the trusted storage root and the network are in one-to-one correspondence, and different trusted storage roots correspond to different networks.

2. The method of claim 1, wherein the trusted storage root type identifier is a base relationship trusted storage root type identifier;

correspondingly, the determining, by the terminal, the trusted storage root corresponding to the trusted storage root type identifier according to the trusted storage root type identifier includes:

the terminal determines a basic relationship trusted storage root corresponding to the basic relationship trusted storage root type identification according to the basic relationship trusted storage root type identification, wherein the basic relationship trusted storage root comprises a unified extensible firmware interface identification, an operating system identification and a basic application program identification;

correspondingly, the terminal stores the data unit to be transmitted into the trusted storage root corresponding to the trusted storage root type identifier, and the method includes:

the terminal stores the data unit to be transmitted into a basic relationship trusted storage root corresponding to the basic relationship trusted storage root type identification;

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, and the method includes:

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

3. The method of claim 1, wherein the trusted storage root type identifier is a mutual trust relationship trusted storage root type identifier;

correspondingly, the determining, by the terminal, the trusted storage root corresponding to the trusted storage root type identifier according to the trusted storage root type identifier includes:

the terminal determines a trusted relationship trusted storage root corresponding to the trusted relationship trusted storage root type identification according to the trusted relationship trusted storage root type identification, wherein the trusted relationship trusted storage root comprises a unified extensible firmware interface identification, an operating system identification and a multi-body application program identification;

correspondingly, the terminal stores the data unit to be transmitted into the trusted storage root corresponding to the trusted storage root type identifier, and the method includes:

the terminal stores the data unit to be transmitted into a credible mutual trust relationship storage root corresponding to the credible mutual trust relationship storage root type identification;

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, and the method includes:

and the terminal sends the credible mutual trust relationship storage root storing the data unit to be transmitted to a receiving device through a telecommunication network corresponding to the credible mutual trust relationship storage root type identification.

4. The method of claim 1, wherein the trusted storage root type identifier is a public trust relationship trusted storage root type identifier;

correspondingly, the determining, by the terminal, the trusted storage root corresponding to the trusted storage root type identifier according to the trusted storage root type identifier includes:

the terminal determines a credible storage root corresponding to the credible storage root type identification according to the credible storage root type identification of the credible relation, wherein the credible storage root comprises a unified extensible firmware interface identification, an operating system identification and a public application program identification;

correspondingly, the terminal stores the data unit to be transmitted into the trusted storage root corresponding to the trusted storage root type identifier, and the method includes:

the terminal stores the data unit to be transmitted into a credible public trust relationship storage root corresponding to the credible public trust relationship storage root type identification;

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, and the method includes:

and the terminal sends the credible public trust relationship storage root storing the data unit to be transmitted to a receiving device through a broadcast television information network corresponding to the credible public trust relationship storage root type identification.

5. The method according to any of claims 1-4, characterized in that the trusted storage root corresponding to the trusted storage root type identity is stored in a storage unit in the terminal corresponding to the trusted storage root type identity;

and the storage unit corresponding to the credible storage root type identification and the network corresponding to the credible storage root type identification are connected through a network convergence interface card NCIC.

6. A terminal, comprising:

the receiving module is used for receiving a sending request of a user, wherein the sending request comprises a data unit to be transmitted and a trusted storage root type identifier;

the determining module is used for determining a trusted storage root corresponding to the trusted storage root type identification according to the trusted storage root type identification;

the storage module is used for storing the data unit to be transmitted into a trusted storage root corresponding to the type identifier of the trusted storage root;

the sending module is used for sending the trusted storage root storing the data unit to be transmitted to the receiving device through a network corresponding to the type identifier of the trusted storage root;

the trusted storage root type identifier, the trusted storage root and the network are in one-to-one correspondence, and different trusted storage roots correspond to different networks.

7. The terminal of claim 6, wherein the trusted storage root type identifier is a basic relationship trusted storage root type identifier;

correspondingly, the determining module is specifically configured to:

determining a basic relationship trusted storage root corresponding to the basic relationship trusted storage root type identification according to the basic relationship trusted storage root type identification, wherein the basic relationship trusted storage root comprises a unified extensible firmware interface identification, an operating system identification and a basic application program identification;

correspondingly, the storage module is specifically configured to:

the terminal stores the data unit to be transmitted into a basic relationship trusted storage root corresponding to the basic relationship trusted storage root type identification;

correspondingly, the sending module is specifically configured to:

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

8. The terminal of 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 configured to:

the terminal determines a trusted relationship trusted storage root corresponding to the trusted relationship trusted storage root type identification according to the trusted relationship trusted storage root type identification, wherein the trusted relationship trusted storage root comprises a unified extensible firmware interface identification, an operating system identification and a multi-body application program identification;

correspondingly, the storage module is specifically configured to:

the terminal stores the data unit to be transmitted into a credible mutual trust relationship storage root corresponding to the credible mutual trust relationship storage root type identification;

correspondingly, the sending module is specifically configured to:

and the terminal sends the credible mutual trust relationship storage root storing the data unit to be transmitted to a receiving device through a telecommunication network corresponding to the credible mutual trust relationship storage root type identification.

9. The terminal of 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 configured to:

the terminal determines a credible storage root corresponding to the credible storage root type identification according to the credible storage root type identification of the credible relation, wherein the credible storage root comprises a unified extensible firmware interface identification, an operating system identification and a public application program identification;

correspondingly, the storage module is specifically configured to:

the terminal stores the data unit to be transmitted into a credible public trust relationship storage root corresponding to the credible public trust relationship storage root type identification;

correspondingly, the sending module is specifically configured to:

and the terminal sends the credible public trust relationship storage root storing the data unit to be transmitted to a receiving device through a broadcast television information network corresponding to the credible public trust relationship storage root type identification.

10. The terminal according to any of claims 6-9, further comprising:

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 network corresponding to the trusted storage root type identifier are connected through a network convergence interface card NCIC;

and the storage unit corresponding to the trusted storage root type identification is used for storing the trusted storage root corresponding to the trusted storage root type identification.

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