CN114785874B - Method for providing high-availability transmission channel based on multi-network protocol - Google Patents

Abstract

The method for providing the high-availability transmission channel based on the multiple network protocols, provided by the invention, comprises the steps of determining a network protocol matched with a data packet to be sent from a preset network protocol set according to the data attribute of the data packet to be sent of an APP program of a first terminal; after the second terminal responds to the data transmission request from the first terminal, a matched gateway port is selected according to the determined network protocol, a one-to-one data transmission channel between the first terminal and the second terminal is constructed, and the encrypted data packet to be transmitted is transmitted to the second terminal through the data transmission channel.

Description

Method for providing high-availability transmission channel based on multi-network protocol

Technical Field

The invention relates to the technical field of data transmission management, in particular to a method for providing a high-availability transmission channel based on a multi-network protocol.

Background

Terminal equipment such as a mobile phone or a computer generally needs to process different types of data during operation and send data processing results to other terminal equipment. Different types of data and data processing results thereof have different data formats, and if a single network protocol is always used for data transmission and transmission, each data processing result cannot be effectively and quickly transmitted, which not only needs to occupy more bandwidth for data transmission, but also is easy to cause data transmission interruption, and cannot realize efficient, quick and stable transmission of data.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides a method for providing a high-availability transmission channel based on multiple network protocols, which comprises the steps of determining a network protocol matched with a data packet to be sent from a preset network protocol set according to the data attribute of the data packet to be sent of an APP program of a first terminal; and after the second terminal responds to the data transmission request from the first terminal, selecting a matched gateway port according to the determined network protocol, constructing a one-to-one data transmission channel between the first terminal and the second terminal, and transmitting the encrypted data packet to be transmitted to the second terminal through the data transmission channel.

The method carries out identification analysis of regional differentiation on the data generated by each APP program of the first terminal, and is convenient for selecting a proper network protocol to realize data transmission in a targeted manner according to the data attribute of a data packet to be transmitted, so that data transmission in a non-fixed network protocol form among different terminals can be realized, the condition of data transmission interruption is effectively avoided, and efficient, rapid and stable transmission of the data is ensured.

The invention provides a method for providing a high-availability transmission channel based on multiple network protocols, which comprises the following steps:

step S1, monitoring APP programs installed on the first terminal, and acquiring respective data processing live information of each APP program; analyzing and processing the data processing live information, and determining data transmission requirement information of each APP program;

step S2, generating a data packet to be sent corresponding to the APP program according to the data sending requirement information; analyzing and processing the data packet to be sent, and determining the data attribute of the data packet to be sent;

step S3, according to the data attribute of the data packet to be sent, determining a network protocol matched with the data packet to be sent from a preset network protocol set, and encrypting the data packet to be sent;

step S4, after the second terminal answers the data transmission request from the first terminal, according to the determined network protocol, selecting a matched gateway port to construct a corresponding data transmission channel; and then sending the encrypted data packet to be sent to the second terminal through the data transmission channel.

Further, in step S1, monitoring the APP programs installed in the first terminal, and acquiring the respective live data processing information of each APP program specifically includes:

acquiring historical use times of all APP programs with data transceiving functions installed on a first terminal, and setting corresponding monitoring frequency for the corresponding APP programs according to the historical use times;

and according to the monitoring frequency, periodically monitoring all APP programs with data transceiving functions in the first terminal respectively, and acquiring a data processing live progress value of each APP program to the current data processing task.

Further, in step S1, analyzing the data processing live information, and determining the data transmission requirement information of each APP program specifically includes:

comparing the data processing live progress value with a preset progress threshold, if the data processing live progress value is larger than or equal to the preset progress threshold, determining that a data sending requirement exists in a corresponding APP program, and collecting a data processing result of the APP program on a current data processing task;

and if the data processing live progress value is smaller than a preset progress threshold, determining that no data transmission requirement exists in the corresponding APP program.

Further, in step S2, generating a to-be-sent data packet corresponding to the APP program according to the data sending requirement information specifically includes:

performing data type identification distinguishing processing on the collected data processing results, and extracting text type data processing results and/or picture type data processing results contained in the data processing results;

and independently packaging the text type data processing result and/or the picture type data processing result so as to generate a text data packet to be sent and/or a picture data packet to be sent.

Further, in step S2, analyzing the to-be-sent data packet, and determining the data attribute of the to-be-sent data packet specifically includes:

analyzing and processing the text data packet to be sent and/or the picture data packet to be sent, and determining the data format attribute corresponding to the text data packet to be sent and/or the picture data packet to be sent.

Further, in step S2, the method further includes:

and adding terminal identity information corresponding to the first terminal to the generated text data packet to be sent and/or the picture data packet to be sent, so as to identify the text data packet to be sent and/or the picture data packet to be sent.

Further, in step S3, determining, according to the data attribute of the data packet to be sent, a network protocol that matches the data packet to be sent from a preset network protocol set specifically includes:

and selecting a network protocol compatible with the text data packet to be sent and/or the picture data packet to be sent from a preset network protocol set according to the data system attribute.

Further, in step S3, the encrypting the to-be-sent data packet specifically includes:

and sequentially compressing and encrypting the text data packet to be sent and/or the picture data packet to be sent, and taking the terminal identity information as frame header information of the encrypted data packet to be sent.

Further, in step S4, after the second terminal answers the data transmission request from the first terminal, according to the determined network protocol, selecting a matched gateway port, so as to construct a corresponding data transmission channel specifically includes:

instructing a second terminal to analyze and process a data transmission request from the first terminal, and determining a data quantity value required to be transmitted by the first terminal; if the data quantity value is smaller than or equal to a preset data quantity threshold value, indicating the second terminal to respond to the data transmission request; otherwise, indicating the second terminal not to respond to the data transmission request;

and according to the selected network protocol, selecting a gateway port compatible with the network protocol so as to construct a one-to-one data transmission channel between the first terminal and the second terminal.

Further, in step S4, the sending the encrypted data packet to be sent to the second terminal through the data transmission channel specifically includes:

and immediately sending the encrypted text data packet to be sent and/or the encrypted picture data packet to be sent to the second terminal through the data transmission channel, and interrupting the data transmission channel until the text data packet to be sent and/or the picture data packet to be sent are sent.

Compared with the prior art, the method for providing the high-availability transmission channel based on the multiple network protocols determines the network protocol matched with the data packet to be sent from the preset network protocol set according to the data attribute of the data packet to be sent of the APP program of the first terminal; after the second terminal responds to the data transmission request from the first terminal, a matched gateway port is selected according to the determined network protocol, a one-to-one data transmission channel between the first terminal and the second terminal is constructed, and the encrypted data packet to be transmitted is transmitted to the second terminal through the data transmission channel.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic flow chart of a method for providing a high-availability transmission channel based on multiple network protocols according to the present invention.

Detailed Description

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 only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without inventive step based on the embodiments of the present invention, are within the scope of protection of the present invention.

Referring to fig. 1, a flowchart of a method for providing a high-availability transmission channel based on multiple network protocols according to an embodiment of the present invention is shown. The method for providing the high-availability transmission channel based on the multi-network protocol comprises the following steps:

step S1, monitoring APP programs installed on the first terminal, and acquiring respective data processing live information of each APP program; analyzing and processing the data processing live information, and determining data transmission requirement information of each APP program;

step S2, generating a data packet to be sent corresponding to the APP program according to the data sending requirement information; analyzing and processing the data packet to be sent, and determining the data attribute of the data packet to be sent;

step S3, according to the data attribute of the data packet to be sent, determining a network protocol matched with the data packet to be sent from a preset network protocol set, and encrypting the data packet to be sent;

step S4, after the second terminal answers the data transmission request from the first terminal, according to the determined network protocol, selecting the matched gateway port to construct the corresponding data transmission channel; and then the encrypted data packet to be sent is sent to the second terminal through the data transmission channel.

The method carries out identification analysis of regional differentiation on the data generated by each APP program of the first terminal, and is convenient for selecting a proper network protocol to realize data transmission in a targeted manner according to the data attribute of a data packet to be transmitted, so that data transmission in a non-fixed network protocol form among different terminals can be realized, the condition of data transmission interruption is effectively avoided, and efficient, rapid and stable transmission of the data is ensured.

Preferably, in step S1, monitoring the APP programs installed by the first terminal, and acquiring the respective data processing live information of each APP program specifically includes:

acquiring historical use times of all APP programs with data transceiving functions installed on a first terminal, and setting corresponding monitoring frequency for the corresponding APP programs according to the historical use times;

and according to the monitoring frequency, periodically monitoring all APP programs with data transceiving functions in the first terminal respectively, and acquiring a data processing live progress value of each APP program to the current data processing task.

A plurality of different APP programs are usually installed in the first terminal, and the different APP programs can perform corresponding data processing in the running process and generate corresponding data processing results. Through the mode, when the historical use times of the APP program are more, the corresponding set monitoring frequency is correspondingly higher, so that the APP program is ensured to be monitored in a matched mode, the data processing live progress value of each APP program to the current data processing task is obtained, and the quantitative judgment basis can be provided for the follow-up determination of whether the data transmission requirement of the APP program exists or not.

Preferably, in step S1, the analyzing the data processing live information and determining the data transmission requirement information of each APP program specifically includes:

comparing the data processing live progress value with a preset progress threshold, if the data processing live progress value is greater than or equal to the preset progress threshold, determining that a data sending requirement exists in a corresponding APP program, and collecting a data processing result of the APP program on a current data processing task;

and if the data processing live progress value is smaller than a preset progress threshold, determining that no data sending requirement exists in the corresponding APP program.

According to the technical scheme, the data processing live progress value of the APP program to the current data processing task is used as a reference, the processing completion degree of the APP program to the current data processing task is judged, the larger the data processing live progress value is, namely the closer the current data processing task is to the completion state, and the sending requirement of the data processing result of the current data processing task to the corresponding APP program is determined.

Preferably, in step S2, generating a to-be-sent data packet corresponding to the APP program according to the data sending requirement information specifically includes:

carrying out data type identification distinguishing processing on the collected data processing results, and extracting text type data processing results and/or picture type data processing results contained in the data processing results;

and independently packaging the text type data processing result and/or the picture type data processing result so as to generate a text data packet to be sent and/or a picture data packet to be sent.

By the method, the collected data processing results can be identified and distinguished by the text type data and the image type data, so that different types of text type data and image type data can be conveniently transmitted by different network protocols in the following process, and the transmission efficiency and the stability of the data are improved.

Preferably, in step S2, analyzing the data packet to be sent, and determining the data attribute of the data packet to be sent specifically includes:

and analyzing and processing the text data packet to be sent and/or the picture data packet to be sent, and determining the data system attribute corresponding to the text data packet to be sent and/or the picture data packet to be sent.

By determining the data system attribute corresponding to the text data packet to be sent and/or the picture data packet to be sent, a compatible network protocol can be selected for data transmission by taking the data system attribute as a reference, so that interruption of data transmission is avoided.

Preferably, in step S2, the method further includes:

and adding terminal identity information corresponding to the first terminal to the generated text data packet to be sent and/or the picture data packet to be sent, so as to identify the text data packet to be sent and/or the picture data packet to be sent.

And adding terminal identity information corresponding to the first terminal to the generated text data packet to be sent and/or the image data packet to be sent, so that the source terminal of the data packet to be sent can be accurately identified.

Preferably, in step S3, determining, according to the data attribute of the data packet to be sent, a network protocol that matches the data packet to be sent from a preset network protocol set specifically includes:

and selecting a network protocol compatible with the text data packet to be sent and/or the picture data packet to be sent from a preset network protocol set according to the data system attribute.

The preset network protocol set comprises a plurality of different network protocols, and the network protocol compatible with the text data packet to be sent and/or the picture data packet to be sent is selected by taking the data format attribute as a reference, so that the transmission efficiency of the data packet to be sent can be improved.

Preferably, in step S3, the encrypting the data packet to be sent specifically includes:

and sequentially compressing and encrypting the text data packet to be sent and/or the picture data packet to be sent, and taking the terminal identity information as frame header information of the encrypted data packet to be sent.

By the aid of the method, the data packet to be sent can be prevented from being stolen and tampered in the transmission process, and data transmission safety is improved.

Preferably, in step S4, after the second terminal answers the data transmission request from the first terminal, selecting a matched gateway port according to the determined network protocol, so as to construct a corresponding data transmission channel specifically includes:

instructing a second terminal to analyze and process a data transmission request from the first terminal, and determining a data quantity value required to be transmitted by the first terminal; if the data quantity value is less than or equal to a preset data quantity threshold value, indicating the second terminal to respond to the data transmission request; otherwise, indicating the second terminal not to respond to the data transmission request;

and according to the selected network protocol, selecting a gateway port compatible with the network protocol, thereby constructing a one-to-one data transmission channel between the first terminal and the second terminal.

By the method, the constructed data transmission channel is only used for data transmission between the first terminal and the second terminal, so that other terminals are prevented from interfering data transmission between the two terminals, and the specificity of the data transmission channel is ensured.

Preferably, in step S4, the sending the encrypted data packet to be sent to the second terminal through the data transmission channel specifically includes:

and immediately sending the encrypted text data packet to be sent and/or the encrypted picture data packet to be sent to the second terminal through the data transmission channel, and interrupting the data transmission channel until the text data packet to be sent and/or the picture data packet to be sent are sent.

By the above mode, after the data packet between the first terminal and the second terminal is sent, the data transmission channel is interrupted, and when the first terminal and the second terminal need to transmit data again, the data transmission channel is reconstructed, so that the data transmission channel can be prevented from occupying data transmission bandwidth.

As can be seen from the content of the foregoing embodiment, the method for providing a high available transmission channel based on multiple network protocols determines, according to the data attribute of the data packet to be sent of the APP program of the first terminal, a network protocol that matches the data packet to be sent from a preset network protocol set; after the second terminal responds to the data transmission request from the first terminal, a matched gateway port is selected according to the determined network protocol, a one-to-one data transmission channel between the first terminal and the second terminal is constructed, and the encrypted data packet to be transmitted is transmitted to the second terminal through the data transmission channel.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (7)

1. A method for providing a high availability transmission channel based on multiple network protocols, comprising the steps of:

step S1: monitoring APP programs installed on a first terminal, and acquiring respective data processing live information of each APP program; analyzing and processing the data processing live information, and determining data transmission requirement information of each APP program;

in step S1, monitoring APP programs installed in the first terminal, and acquiring respective data processing live information of each APP program specifically includes:

acquiring historical use times of all APP programs with data transceiving functions installed on a first terminal, and setting corresponding monitoring frequency for the corresponding APP programs according to the historical use times;

according to the monitoring frequency, periodically monitoring all APP programs with data receiving and sending functions in the first terminal respectively, and acquiring a data processing live progress value of each APP program to a current data processing task;

in step S1, the analyzing and processing the data processing live information, and determining the data transmission requirement information of each APP program specifically includes:

comparing the data processing live progress value with a preset progress threshold, if the data processing live progress value is larger than or equal to the preset progress threshold, determining that a data sending requirement exists in a corresponding APP program, and collecting a data processing result of the APP program on a current data processing task;

if the data processing live progress value is smaller than a preset progress threshold, determining that no data transmission requirement exists in the corresponding APP program;

step S2: generating a data packet to be sent corresponding to the APP program according to the data sending requirement information; analyzing and processing the data packet to be sent, and determining the data attribute of the data packet to be sent;

in step S2, generating a to-be-sent data packet corresponding to the APP program according to the data sending requirement information specifically includes:

performing data type identification distinguishing processing on the collected data processing results, and extracting text type data processing results and/or picture type data processing results contained in the data processing results;

independently packaging the text type data processing result and/or the picture type data processing result so as to generate a text data packet to be sent and/or a picture data packet to be sent;

step S3: determining a network protocol matched with the data packet to be sent from a preset network protocol set according to the data attribute of the data packet to be sent, and encrypting the data packet to be sent;

step S4: after the second terminal answers the data transmission request from the first terminal, selecting a matched gateway port according to the determined network protocol so as to construct a corresponding data transmission channel; and then sending the encrypted data packet to be sent to the second terminal through the data transmission channel.

2. The method for providing a highly available transmission channel based on multiple network protocols as claimed in claim 1, wherein:

in step S2, analyzing the to-be-sent data packet, and determining the data attribute of the to-be-sent data packet specifically includes:

analyzing and processing the text data packet to be sent and/or the picture data packet to be sent, and determining the data system attribute corresponding to the text data packet to be sent and/or the picture data packet to be sent.

3. The method for providing a highly available transmission channel based on multiple network protocols according to claim 2, characterized in that:

in step S2, the method further includes:

and adding terminal identity information corresponding to the first terminal to the generated text data packet to be sent and/or the picture data packet to be sent, so as to identify the text data packet to be sent and/or the picture data packet to be sent.

4. The method for providing a highly available transmission channel based on multiple network protocols according to claim 3, characterized in that:

in step S3, determining, according to the data attribute of the data packet to be sent, a network protocol that matches the data packet to be sent from a preset network protocol set specifically includes:

and selecting a network protocol compatible with the text data packet to be sent and/or the picture data packet to be sent from a preset network protocol set according to the data format attribute.

5. The method for providing a highly available transmission channel based on multiple network protocols according to claim 4, characterized in that:

in step S3, the encrypting the to-be-transmitted data packet specifically includes:

and sequentially compressing and encrypting the text data packet to be sent and/or the picture data packet to be sent, and taking the terminal identity information as frame header information of the encrypted data packet to be sent.

6. The method for providing a highly available transmission channel based on multiple network protocols according to claim 5, characterized in that:

in step S4, after the second terminal responds to the data transmission request from the first terminal, selecting a matched gateway port according to the determined network protocol, so as to construct a corresponding data transmission channel specifically includes:

instructing a second terminal to analyze and process a data transmission request from the first terminal, and determining a data quantity value required to be transmitted by the first terminal; if the data quantity value is smaller than or equal to a preset data quantity threshold value, indicating the second terminal to respond to the data transmission request; otherwise, indicating the second terminal not to respond to the data transmission request;

and according to the selected network protocol, selecting a gateway port compatible with the network protocol so as to construct a one-to-one data transmission channel between the first terminal and the second terminal.

7. The method for providing a highly available transmission channel based on multiple network protocols according to claim 6, characterized in that:

in step S4, the sending the encrypted to-be-sent data packet to the second terminal through the data transmission channel specifically includes:

and immediately sending the encrypted text data packet to be sent and/or the encrypted picture data packet to be sent to the second terminal through the data transmission channel, and interrupting the data transmission channel until the text data packet to be sent and/or the picture data packet to be sent are sent.

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