CN115776486A - Electronic file exchange method and system based on exchange node hierarchical grouping - Google Patents

Abstract

The invention relates to an electronic file exchange method and system based on exchange node hierarchical grouping, which is characterized in that a service label and an exchange node label matched for use are configured, an exchange node execution sequence for executing transmission operation is generated according to the matching relation of the service label and the exchange node label, the exchange node is used for data processing, exchange task scheduling and data transmission among nodes, particularly, when the transmission service of the data exchange node is called, the data transmission is scheduled according to the file function classification and is transmitted according to the file format classification, the accurate and timely delivery of data to be transmitted is ensured, particularly, when a large-volume file and a small-volume file are transmitted simultaneously, the transmission channel can be ensured not to be occupied by the large-volume file by 100%, and meanwhile, the formal file is ensured to arrive preferentially.

Description

Electronic file exchange method and system based on exchange node hierarchical grouping

Technical Field

The invention relates to the technical field of data transmission and electronic file sharing, in particular to an electronic file exchange method and system based on exchange node hierarchical grouping.

Background

The electronic file is a digitalized electronic file generated directly by a computer system or generated by digitalizing a traditional carrier file such as paper. Generally, they can be classified into text files, data files, graphic files, image files, video files, sound files, and command files by existence form; the system can be divided into a main file, a supporting file, an auxiliary file and a tool file according to functions; the electronic file is divided into a text and an attachment according to the service application characteristics, wherein the attachment is divided into a common attachment and a super-large attachment (for example, an independent file larger than 1G).

Electronic documents are the most widely used data carriers for business application systems, and are an indispensable important link for technology fusion, business fusion and data fusion. With the common application of information system interconnection and public data sharing, the data exchange system is used as an application support platform for 'cross-level, cross-region, cross-system, cross-department and cross-service cooperative management and service', and can effectively solve the last ten meters problem of interconnection and intercommunication among all service systems. The service application systems exchange electronic files based on the data exchange system, and at the moment, the data exchange system is not only a simple transmission channel, but also a service channel for really realizing the interconnection and intercommunication of the whole network.

The volume of the electronic file is from several K to several G, even dozens of G, and each file exchange is accompanied by service information, such as producer information, receiver information and relevant transaction information. Under the condition of limited computing resources, when a plurality of switching tasks are transmitted simultaneously, the transmission node is easy to block, namely a plurality of tasks are queued and transmitted in sequence, so that a sender is easy to transmit only a small file (for example, a few K), and a receiver cannot receive the small file in time. Particularly, in actual use, if a sender sends a small file, the expected sending time is short, otherwise, if the sender sends a large file, the expected time is naturally long, and when the actual sending experience is inconsistent with the expectation, whether the sending process is normal or not is easily misjudged. Therefore, under the condition of limited computing resources (bandwidth and hardware equipment), all electronic files are sent out according to no classification according to business characteristics, and important business work is not favorably developed in priority.

In a specific service application scenario, electronic files with different functions or attributes have different urgency levels for service handling, so priority needs to be prioritized for transmission. When the service types are not distinguished, the receiver may not know that one piece is to be received; after the distinction, although the receiver sees the text first, the attachment does not receive the text completely or fails to receive, but at least knows that one part fails to receive or is abnormal, and the receiver can report the abnormality actively.

Meanwhile, the electronic files needing to be exchanged preferentially cannot be really guaranteed to be exchanged only by virtue of the priority attributes of the electronic files, because the priority attributes of the electronic characters are set by an exchange behavior initiator or a file producer, the electronic characters stand on the own place and are not enough to represent the global priority. The existing solution is to schedule tasks based on the time of initiating tasks, and to sort according to the time of initiating tasks, and the attention and support degree of the service characteristics and function classification of the exchange data are not enough, so that the large-volume exchange tasks easily occupy the exchange resources for a long time, and the phenomenon of exchange channel blockage is caused.

Disclosure of Invention

In order to solve the defects of the prior art, the invention provides an electronic file exchange method and system based on exchange node hierarchical grouping, which uses an exchange node to process data, schedule exchange tasks and transmit data among nodes, particularly when the transmission service of the data exchange node is called, the data transmission is scheduled according to the file function in a classification mode and is transmitted according to the file format in a classification mode, so that the accurate and timely delivery of the data to be transmitted is ensured, particularly when large-volume files and small-volume files are transmitted simultaneously, the transmission channel can be ensured not to be occupied by 100% of the large-volume files, and meanwhile, formal files are ensured to arrive preferentially.

In order to achieve the above purpose, the technical scheme adopted by the invention comprises the following steps:

an electronic file exchange method based on a hierarchical group of exchange nodes is characterized by comprising the following steps:

s1, configuring a service label, wherein the service label comprises a service attribute characteristic identifier, a service type characteristic identifier and a file scale characteristic identifier;

s2, respectively configuring a switching node label for each switching node according to the service label, wherein the switching node label comprises a service attribute switching node, a service type switching node and a file scale switching node;

s3, acquiring a file to be transmitted, and adding a service label to the file to be transmitted, wherein the service label is defaulted as a default value;

s4, extracting the characteristics of the file to be transmitted, and modifying the corresponding service label;

s5, selecting a switching node set for transmission according to the service label matching switching node label, wherein the switching node set comprises any one or more combinations of a service attribute switching node, a service type switching node and a file scale switching node;

s6, arranging the switching node sets in order according to a preset hierarchical rule to obtain a switching node execution sequence, wherein the switching node execution sequence comprises any one or more sequence relation combinations of a sequential execution relation, a necessary condition execution relation, a synchronous execution relation and an asynchronous execution relation among the switching nodes;

and S7, executing transmission operation on the file to be transmitted by using the exchange node execution sequence.

Further, the service label also includes a transmission identifier.

Further, the step S4 further includes:

extracting the characteristics of a file to be transmitted;

matching the extracted file characteristics to be transmitted according to preset reference characteristics, and packaging the file to be transmitted into a plurality of data blocks according to the reference characteristics;

and modifying the service labels corresponding to the data blocks, wherein the service labels of all the data blocks have the same transmission identification.

Further, the step S5 further includes:

and respectively matching the labels of the switching nodes according to the service labels of the data blocks to select the switching node set used for transmitting the data blocks.

Further, the step S6 further includes:

and arranging the switching node sets in order according to a preset layering rule to obtain a switching node execution sequence corresponding to each data block.

Further, the step S7 includes:

performing a transmission operation on the data block using the switching node execution sequence;

judging whether all the data blocks with the same transmission identification complete transmission operation;

and when the data blocks with the same transmission identification are judged to have completely finished the transmission operation, combining the data blocks which finish the transmission operation into a file to be transmitted.

The invention also relates to an electronic file exchange system based on the exchange node hierarchical group, which is characterized by comprising the following components:

the service label management module is used for configuring a service label and adding the service label to the file to be transmitted;

the switching node label management module is used for respectively configuring switching node labels for each switching node according to the service labels;

the file feature extraction module is used for extracting the file features to be transmitted and modifying the corresponding service labels;

the label matching module is used for selecting a switching node set used for transmission according to the service label matching switching node label;

the node sequencing module is used for sequencing the switching node sets according to a preset layering rule to obtain a switching node execution sequence;

and the execution module is used for executing transmission operation on the file to be transmitted by using the switching node execution sequence.

The invention also relates to a computer-readable storage medium, characterized in that the storage medium has stored thereon a computer program which, when being executed by a processor, carries out the above-mentioned method.

The invention also relates to an electronic device, characterized in that it comprises a processor and a memory;

the memory is used for storing a service label, a switching node label and a switching node execution sequence;

the processor is configured to execute the method by invoking the service label, the switching node label, and the switching node execution sequence.

The invention also relates to a computer program product comprising a computer program and/or instructions, characterized in that the computer program and/or instructions, when executed by a processor, implement the steps of the above-mentioned method.

The invention has the beneficial effects that:

the electronic file exchange method and the system based on the exchange node hierarchical grouping use the exchange node to process data, schedule exchange tasks and transmit data among the nodes, particularly when the transmission service of the data exchange node is called, the data transmission is scheduled according to the file function classification and is transmitted according to the file format classification, the exchange channel is subdivided into a service information channel, a document channel and a data file channel according to the service characteristics, the exchange scheduling service is subdivided into an exchange channel scheduling and an exchange task scheduling, the data to be exchanged is divided into exchange data blocks according to the file function and the service attribute characteristics, the exchange data blocks comprise a service information data block, a main file data block and an auxiliary file data block, the objects of the exchange channel scheduling and the exchange task scheduling are the exchange data blocks, different priority strategies are started according to the exchange data blocks and the channel transmission tasks, the accurate and timely delivery of the data to be transmitted can be guaranteed, particularly when the large-volume files and the small-volume files are transmitted simultaneously, the transmission channel is not occupied by the large-volume files by 100%, the load classification and the scheduling modes of the transmission channels are more accurate and more precise and more accurate and more precise service can be guaranteed, and the file arrival of the formal service can be achieved.

Drawings

Fig. 1 is a schematic flow chart of the electronic document exchange method based on the hierarchical switching node group according to the present invention.

FIG. 2 is a schematic diagram of the structure of an electronic file exchange system based on a hierarchical switching node group according to the present invention.

Detailed Description

For a clearer understanding of the contents of the present invention, reference will be made to the accompanying drawings and examples.

The first aspect of the present invention relates to an electronic file exchange method based on a hierarchical group of exchange nodes, the step flow of which is shown in fig. 1, and the method comprises the following steps:

s1, configuring a service label, wherein the service label comprises a service attribute characteristic identifier, a service type characteristic identifier, a file scale characteristic identifier and preferably a transmission identifier.

The specific identifier representation may adopt a digital code, for example, 0 represents service information, 1 represents a main file, 2 represents an auxiliary file, 3 represents a small-volume file, 4 represents a large file, 5 represents a very-large-volume file, etc., and a specific data block type may be represented by a plurality of combined numbers, for example, "12" represents a collection of the main file and the auxiliary file, and "23" represents that the block is both an auxiliary file and a small-volume file.

And S2, respectively configuring switching node labels for each switching node according to the service labels, wherein the switching node labels comprise service attribute switching nodes, service type switching nodes and file scale switching nodes.

For a system (platform) operation process with a plurality of switching nodes, processing positioning of each switching node can be definitely provided by configuring a switching node label, and the processing positioning is used as a basis for efficiently utilizing node resources subsequently. For the switching channel established by the switching node, after receiving the switching data block, the scheduling module of the channel sets the transmission sequence, usually the switching data block is transmitted in sequence according to the time sequence, and the switching data block with the special priority mark is specially ordered, such as urgent transmission or degraded transmission, although the switching data block with the lower priority is also transmitted in a certain time range, and cannot be always arranged behind in an indefinite period.

A single switching node can also correspond to a plurality of different switching node labels as required, and the priority difference is definitely adopted according to the label so as to avoid idle waste of node resources.

And S3, acquiring the file to be transmitted, and adding a service label to the file to be transmitted, wherein the service label is defaulted as a default value.

Wherein, according to the system level matching, the default value preferably has a suitable number, for example, a service label with two-bit identifier is marked with "×", so that the corresponding actual service label in the subsequent operation can be directly replaced by the two-bit identifier, for example, "12", thereby realizing the expression of the service label.

And S4, extracting the characteristics of the file to be transmitted, and modifying the corresponding service label.

Specifically, the extracted characteristics of the file to be transmitted can be matched with preset reference characteristics, and the file to be transmitted is packaged into a plurality of data blocks according to the reference characteristics; and modifying the service labels corresponding to the data blocks, wherein the service labels of all the data blocks have the same transmission identifier.

Specifically, the interface service of the switching node of the current stage is called, the file to be transmitted is preprocessed, the data of the file to be transmitted is packaged to form a switching data block, the data block can be divided into a service information data block, a main file data block and an auxiliary file data block according to the type of the data block, the data blocks formed by each switching task are associated through a unique switching behavior identifier, namely the data blocks are separated from each other in the transmission process, and are reassembled and restored to be complete service data of one switching behavior after being sent to a target switching node or a service system.

The packed data blocks firstly share the service label of the original file to be transmitted, and further modify the service label into a specific data block service label according to specific characteristic attributes. For example, the original "12" label is modified to "125" to realize further classification matching under the original file to be transmitted.

And S5, selecting a switching node set for transmission according to the service label matching switching node label, particularly selecting a switching node set for transmission of each data block according to the service label of each data block matching switching node label, wherein the switching node set comprises any one or more combinations of a service attribute switching node, a service type switching node and a file scale switching node.

And S6, arranging the switching node sets in order according to a preset layering rule to obtain a switching node execution sequence, and particularly, arranging the switching node sets in order according to the preset layering rule to obtain a switching node execution sequence corresponding to each data block. The switching node execution sequence comprises any one or more sequence relation combinations of a sequential execution relation, a necessary condition execution relation, a synchronous execution relation and an asynchronous execution relation among the switching nodes.

And S7, executing transmission operation on the file to be transmitted by using the switching node execution sequence.

Specifically, a switching node execution sequence is used for executing transmission operation on the data blocks, and the data blocks are allocated to corresponding channels for data transmission according to the types of the data blocks; judging whether the data blocks with the same transmission identification complete transmission operation or not; and when the data blocks with the same transmission identification are judged to have completely finished the transmission operation, combining the data blocks which finish the transmission operation into a file to be transmitted.

When the method is executed, after receiving the exchange data blocks, the scheduling module of the channel sets the sending sequence, usually sending the exchange data blocks in sequence according to the time sequence, and specially sequencing the exchange data blocks with special priority marks, such as urgent sending or degraded sending, although the exchange data blocks with lower priority are also transmitted in a certain time range, and cannot be always arranged behind indefinitely.

For the transmission task processing with a plurality of different files, after the exchange data is transmitted to the target service system, the service system can call the interface service of the exchange node to perform service restoration on the exchange data block, and perform correlation processing on the service information, the document and the data, thereby realizing the display and processing of the complete content of the service, such as performing service display according to the service information, performing display of a main file and an auxiliary file according to the document and the data, and the like, wherein the service information is transmitted first, only the service content can be displayed, and subsequently, the main file is transmitted first, only the main file is displayed, the auxiliary file is displayed first, only the auxiliary file is displayed, and the main file and the auxiliary file are displayed and can be used when both the main file and the auxiliary file are available.

Another aspect of the present invention also relates to an electronic document exchange system based on a hierarchical switching node group, which has a structure as shown in fig. 2 and includes:

the service label management module is used for configuring a service label and adding the service label to the file to be transmitted;

the switching node label management module is used for respectively configuring switching node labels for each switching node according to the service labels;

the file feature extraction module is used for extracting the file features to be transmitted and modifying the corresponding service labels;

the label matching module is used for selecting a switching node set used for transmission according to the service label matching switching node label;

the node sequencing module is used for orderly arranging the switching node sets according to a preset layering rule to obtain a switching node execution sequence;

and the execution module is used for executing transmission operation on the file to be transmitted by using the exchange node execution sequence.

By using this system, the above-described arithmetic processing method can be executed, and a corresponding technical effect can be achieved.

When the system is used, matched peripheral function services are preferably adopted to realize necessary functions, such as preposed services, which are core control units of switching tasks and mainly provide external interfaces, data conversion and switching channel scheduling and monitoring; the service information channel service is mainly used for processing service attribute information when a service system initiates an exchange task, namely, the exchange transmission of semi-structured data such as service transaction related information for describing the exchange task at this time and the like; the document channel service is mainly used for processing the exchange and transmission of unstructured data such as main files, auxiliary files and small-volume files with strong main part relevance; the data channel service mainly deals with the exchange transmission of unstructured data of accessory files, such as compressed packets, large-volume files of video and audio, and the like.

The service system sends the data to be exchanged to the switching node by calling the preposed service interface of the switching node; the pre-service carries out function classification and data processing on data to be exchanged to form an exchange data block; the switching channel scheduling service allocates the switching data blocks to corresponding switching transmission channels for transmission and sending; the switching task scheduling service of the switching transmission channel arranges the switching data block into a transmission sending sequence for sending; the exchange data block arrives the target exchange node successively, the exchange node pushes the exchange data block to the target service system according to the function of the received exchange data block, and performs corresponding service application processing, for example, if the exchange data block of the service information arrives first, the service system can present the service information to the user, and at this time, the operation is not possible because the main file data block and the auxiliary file data block do not arrive yet.

Particularly, the switching channel scheduling service and the switching task scheduling service monitor the task load of each switching transmission channel through task information synchronization, dynamically change the attributes of the switching channels, and ensure that each function file can be continuously transmitted and the idle resources can be maximally utilized. And when the channel load is large, transmitting the official file preferentially.

An embodiment of the present invention further provides a computer-readable storage medium capable of implementing all the steps of the method in the above embodiment, wherein the computer-readable storage medium has a computer program stored thereon, and the computer program, when executed by a processor, implements all the steps of the method in the above embodiment.

Embodiments of the present invention further provide an electronic device for executing the method, as an implementation apparatus of the method, the electronic device at least has a processor and a memory, and particularly, the memory stores data and related computer programs, such as a service tag, a switching node tag, and a switching node execution sequence, etc., required for executing the method, and all steps of the implementation method are executed by the data and programs in the memory called by the processor, and corresponding technical effects are obtained.

Preferably, the electronic device may comprise a bus architecture, which may include any number of interconnected buses and bridges that link together various circuits, including one or more processors and memory. The bus may also link together various other circuits such as peripherals, voltage regulators, power management circuits, and the like, which are well known in the art, and therefore, will not be described any further herein. A bus interface provides an interface between the bus and the receiver and transmitter. The receiver and transmitter may be the same element, i.e., a transceiver, providing a means for communicating with various other systems over a transmission medium. The processor is responsible for managing the bus and general processing, while the memory may be used for storing data used by the processor in performing operations.

Additionally, the electronic device may further include a communication module, an input unit, an audio processor, a display, a power source, and the like. The processor (or controller, operational controls) employed may include a microprocessor or other processor device and/or logic device that receives input and controls the operation of various components of the electronic device; the memory may be one or more of a buffer, a flash memory, a hard drive, a removable medium, a volatile memory, a non-volatile memory or other suitable devices, and may store the above-mentioned related data information, and may also store a program for executing the related information, and the processor may execute the program stored in the memory to realize information storage or processing, etc.; the input unit is used for providing input to the processor, and can be a key or touch input device; the power supply is used for supplying power to the electronic equipment; the display is used for displaying display objects such as images and characters, and may be an LCD display, for example. The communication module is a transmitter/receiver that transmits and receives signals via an antenna. The communication module (transmitter/receiver) is coupled to the processor to provide an input signal and receive an output signal, which may be the same as in the case of a conventional mobile communication terminal. Based on different communication technologies, a plurality of communication modules, such as a cellular network module, a bluetooth module, and/or a wireless local area network module, may be disposed in the same electronic device. The communication module (transmitter/receiver) is also coupled to a speaker and a microphone via an audio processor to provide audio output via the speaker and receive audio input from the microphone to implement the usual telecommunication functions. The audio processor may include any suitable buffers, decoders, amplifiers and so forth. In addition, the audio processor is also coupled to the central processor, so that recording on the local machine can be realized through the microphone, and sound stored on the local machine can be played through the loudspeaker.

As will be appreciated by one skilled in the art, embodiments of the present invention may be provided as a method, system, or computer program product. Accordingly, the present invention may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present invention may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present invention has been described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the invention. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create a system for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including an instruction system which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks. While preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all such alterations and modifications as fall within the scope of the invention.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are also within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. An electronic file exchange method based on a hierarchical switching node group is characterized by comprising the following steps:

s1, configuring a service label, wherein the service label comprises a service attribute characteristic identifier, a service type characteristic identifier and a file scale characteristic identifier;

s2, respectively configuring a switching node label for each switching node according to the service label, wherein the switching node label comprises a service attribute switching node, a service type switching node and a file scale switching node;

s3, acquiring a file to be transmitted, and adding a service label to the file to be transmitted, wherein the service label is defaulted as a default value;

s4, extracting the characteristics of the file to be transmitted, and modifying the corresponding service label;

s5, selecting a switching node set for transmission according to the service label matching switching node label, wherein the switching node set comprises any one or more combinations of a service attribute switching node, a service type switching node and a file scale switching node;

s6, arranging the switching node sets in order according to a preset hierarchical rule to obtain a switching node execution sequence, wherein the switching node execution sequence comprises any one or more sequence relation combinations of a sequential execution relation, a necessary condition execution relation, a synchronous execution relation and an asynchronous execution relation among the switching nodes;

and S7, executing transmission operation on the file to be transmitted by using the exchange node execution sequence.

2. The method of claim 1, wherein the service tag further comprises a transmission identification.

3. The method of claim 2, wherein the step S4 further comprises:

extracting the characteristics of a file to be transmitted;

matching the extracted characteristics of the file to be transmitted according to preset reference characteristics, and packaging the file to be transmitted into a plurality of data blocks according to the reference characteristics;

and modifying the service labels corresponding to the data blocks, wherein the service labels of all the data blocks have the same transmission identification.

4. The method of claim 3, wherein the step S5 further comprises:

and respectively matching the labels of the switching nodes according to the service labels of the data blocks to select the switching node set used for transmitting the data blocks.

5. The method of claim 4, wherein the step S6 further comprises:

and arranging the switching node sets in order according to a preset layering rule to obtain a switching node execution sequence corresponding to each data block.

6. The method of claim 5, wherein the step S7 comprises:

performing a transmission operation on the data block using the switching node execution sequence;

judging whether all the data blocks with the same transmission identification complete transmission operation;

and when the data blocks with the same transmission identification are judged to have completely finished the transmission operation, combining the data blocks which finish the transmission operation into a file to be transmitted.

7. An electronic document exchange system based on a hierarchical group of exchange nodes, comprising:

the service label management module is used for configuring a service label and adding the service label to the file to be transmitted;

the switching node label management module is used for respectively configuring switching node labels for each switching node according to the service labels;

the file feature extraction module is used for extracting the file features to be transmitted and modifying the corresponding service labels;

the label matching module is used for selecting a switching node set used for transmission according to the service label matching switching node label;

the node sequencing module is used for orderly arranging the switching node sets according to a preset layering rule to obtain a switching node execution sequence;

and the execution module is used for executing transmission operation on the file to be transmitted by using the exchange node execution sequence.

8. A computer-readable storage medium, characterized in that the storage medium has stored thereon a computer program which, when being executed by a processor, carries out the method of any one of claims 1 to 6.

9. An electronic device comprising a processor and a memory;

the memory is used for storing the service label, the switching node label and the switching node execution sequence;

the processor configured to execute the method of any one of claims 1 to 6 by invoking a service tag, a switching node tag, and a switching node execution sequence.

10. A computer program product comprising a computer program and/or instructions, characterized in that the computer program and/or instructions, when executed by a processor, implement the steps of the method of any one of claims 1 to 6.

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