KR101318991B1 - Apparatus and method for processing of multi-layer data - Google Patents

Abstract

The present invention relates to data processing for each layer, and more particularly, to a multi-layer data processing apparatus and method for efficiently performing multi-layer processing on a data flow using attributes between layers. When the multi-layer data processing apparatus receives the multi-layer data, the multi-layer data processing apparatus according to the present invention classifies the received multi-layer data into lower layer data and upper layer data by using lower layer information, and corresponds to rule information of the lower layer and upper layer. And a lower layer processing unit configured to generate a traffic flow of lower layer data or a traffic flow of lower layer data and upper layer data by using the rule information table. According to this aspect of the present invention, it is possible to generate and output the traffic flow of the multi-layer data in the lower layer, and by generating the traffic flow of the multi-layer data in the lower layer, the performance of the lower layer and the flexibility of the upper layer are simultaneously Can be guaranteed.

Multi-layer, upper layer, lower layer, packet, heterogeneous network

Description

Apparatus and method for processing of multi-layer data}

The present invention relates to data processing for each layer, and more particularly, to a multi-layer data processing apparatus and method for efficiently performing multi-layer data processing using attributes between layers.

The present invention is derived from research conducted as part of the IT growth engine technology development project of the Ministry of Knowledge Economy and the broadband communication network (task management number: 2009-S-043-01, task name: Scalable micro flow processing technology) Development].

Protocol layering is an open system interconnection (OSI) seven-layer model because of its conceptual and architecturally accessible advantages.

Layer 1 (Physical layer) of the OSI 7 layer model is the lowest layer and is a layer for controlling physical access between devices, and layers 2 to 4 are layers determined by a transmission method. Data Link Layer) is the layer to which Ethernet technology belongs. Layer 3 (Network layer) and Layer 4 (Transport layer) are the layers to which the Internet protocol belongs, and Layer 5 (Session layer: Session Layer) provides the user access device as an interface between the user and the transport layer. It is a hierarchy. Layer 6 (Presentation layer) is a layer that enables the connection of each other by decoding different types of information, settings, and encryption between applications, and Layer 7 (Application layer) is a top layer. It is a layer where information exchange between application processors connected to each other is performed.

Of the layers, Layers 2 through 4 use dedicated hardware or network processors to process data such as frames or packets, and improving this processing power is a key issue. In addition, layer 7, which uses a general purpose processor to process data in software, is the key to flexibly processing data.

In other words, with the integration and convergence of various delivery methods and the emergence of multi-core processors, the evolution of data processing capability in layers 2 to 4 (hereinafter referred to as lower layer) and layer 7 (hereinafter referred to as upper layer) is required. It's happening. In particular, when packet inspection or heterogeneous network interworking, the evolution of data processing capability from layer 2 to layer 7 is inevitable.

However, when processing according to the conventional method, since the lower layer where data processing performance is important and the upper layer where flexibility for various data processing are in conflict with each other, the data processing performance of the lower layer and various data processing of the upper layer are conflicted. There is a problem of choosing one of the flexibility. That is, the conventional method does not satisfy the data processing performance of the lower layer and the flexibility for processing various data of the upper layer at the same time.

In the prior art to solve this problem, the lower layer delivers the processed data to the upper layer, and the upper layer uses the data processed in the lower layer to improve the data processing performance of the upper layer and the lower layer. Techniques for improving are disclosed. Such a prior art has an advantage that the performance of processing data in the upper layer is improved, and the lower layer can process the data irrespective of the upper layer.

However, such a conventional technology still degrades the data integration processing performance of the lower layer and the upper layer according to the difference between the data processing performance of the lower layer and the data processing performance of the upper layer when packet inspection or heterogeneous network interworking.

In another conventional technology, a technique of integrating and processing data of a lower layer and an upper layer even with a simple structure by configuring packet inspection in multiple stages to perform unique functions of each stage is disclosed. Such a prior art can integrate and process the data of the lower layer and the upper layer even with a simple structure, and in particular, there is an advantage in that a packet requiring processing in the upper layer can be classified and processed.

However, such a prior art has a problem that the flexibility of data processing in each stage is inferior because the unique functions of each stage are not divided into layers but are divided into unique functions. In addition, since there is no interworking between the lower layer and the upper layer, the lower layer cannot utilize the data of the upper layer.

An object of the present invention is to solve such a problem, and an object of the present invention is to process a data flow in which a lower layer (layers 2 to 4), which focus on performance, and a higher layer (layer 7), which focus on flexibility, collide with each other.

Furthermore, an object of the present invention is to generate and output a traffic flow of multi-layer data in a lower layer.

Furthermore, an object of the present invention is to generate and output a traffic flow of multi-layer data in a lower layer, so that the performance of the lower layer and the flexibility of the upper layer can be simultaneously satisfied.

The above-described technical problem is achieved by the characteristic aspects of the present invention described later. When the multi-layer data processing apparatus receives the multi-layer data, the multi-layer data processing apparatus according to the present invention classifies the received multi-layer data into lower layer data and upper layer data by using lower layer information, and corresponds to rule information of the lower layer and upper layer. And a lower layer processing unit configured to generate a traffic flow of lower layer data or a traffic flow of lower layer data and upper layer data by using the rule information table.

According to a further aspect of the present invention, the lower layer processing unit classifies the received multi-layer data into lower layer data and higher layer data using the lower layer information, and a lower layer related to the processing of the lower layer data. And a region table processing unit for generating and outputting traffic flows for each layer by referring to a rule information table in which rule information and higher layer rule information of upper layer data preprocessed in the upper layer are corresponded.

According to a further aspect of the present invention, the region table processing unit includes a region table unit in which lower layer rule information related to processing of lower layer data and upper layer rule information of upper layer data preprocessed from the upper layer processing unit correspond to each other. The table unit associates lower layer rule information with higher layer rule information in a 1: 1 or 1: N manner.

According to an additional aspect of the present invention, if the local table processing unit is classified into lower layer data and higher layer data from the lower layer classification unit, the lower layer rule information related to the processing of the lower layer data is obtained through the rule information table of the local table unit. And a rule information obtaining unit and a multi-layer traffic flow generating unit generating a traffic flow of lower layer data by using lower layer rule information obtained from the rule information obtaining unit.

According to a further aspect of the present invention, when the lower layer rule information is obtained, the rule information obtaining unit checks whether there is higher layer rule information corresponding to the lower layer rule information, and if there is higher layer rule information, the multi-layer traffic flow generation unit. If a request is made to generate a trickle flow of upper layer data, and if it is checked that there is no upper layer rule information, the lower layer classifier requests a higher layer data transmission from the upper layer processor.

According to this aspect of the present invention, when multi-layer data is input, the lower layer processing unit obtains rule information related to the multi-layer data input from the rule information table stored in the local table storage unit, and uses the multi-layer data to store the rule information. By outputting traffic flows, multi-layer data can be integrated and processed.

According to an additional aspect of the present invention, the multi-layer data processing apparatus includes a whole table portion in which the entire rule information table of all the layers is stored, and a lower layer classification portion as the traffic flow of the upper layer data cannot be generated through the lower layer processing portion. When the upper layer data is received from the upper layer processing unit further comprises a higher layer processing unit for processing to generate and output the traffic flow of the upper layer data using the rule information of the entire rule information table of the entire table.

According to a further aspect of the present invention, the upper layer processing unit analyzes the upper layer data received from the lower layer classification unit, obtains rule information related to upper layer data received from the entire rule information table of the entire table, and obtains the obtained rules. An upper layer classifier for transmitting information to the lower layer processor and an upper layer traffic flow generator for generating a traffic flow of the upper layer data using rule information obtained through the upper layer classifier.

According to this aspect of the present invention, when the lower layer processing unit fails to generate the traffic flow of the upper layer data, the lower layer processing unit may generate and output the traffic flow of the upper layer data.

According to an additional aspect of the present invention, the region table processor may use a rule of the region table unit by using at least one of rule information obtained from a higher layer analyzer, state information of a traffic flow generated from a multi-layer traffic flow generator, and lower layer information. The apparatus further includes a rule information updater for updating rule information of the information table.

According to this aspect of the present invention, by updating rule information of a table stored in a local table storage unit, data to be processed in the upper layer processing unit may be integrated in the lower layer processing unit.

As described above, the multi-layer data processing apparatus and method according to the present invention integrate and process multi-layer (lower layer and upper layer) data input through an external network in a lower layer. As described above, the present invention generates and outputs a traffic flow of multi-layer data in a lower layer, so that the performance of the lower layer and the flexibility of the upper layer can be guaranteed at the same time. In addition, since the lower layer intermittently receives information for integrating the multi-layer data from the upper layer, the lower layer can be constantly maintained without being directly or indirectly affected by the higher layer. Furthermore, the present invention can maintain optimal performance even in various application fields (eg, heterogeneous network interworking method) by adjusting the transmission period of the upper layer that transmits information for integrating multi-layer data to the lower layer. . Furthermore, the present invention not only generates and outputs a traffic flow of multi-layer data in the lower layer, but also upper layer data to be processed in the upper layer may be processed in the upper layer, and includes a lower layer processing unit for processing the multi-layer data. It is possible to improve data processing performance by configuring a plurality of upper layer processing units that process higher layer data.

BRIEF DESCRIPTION OF THE DRAWINGS The foregoing and further aspects of the present invention will become more apparent from the following detailed description of preferred embodiments with reference to the accompanying drawings. Hereinafter, the present invention will be described in detail so that those skilled in the art can easily understand and reproduce the present invention through these embodiments.

1 is a schematic block diagram of a multilayer data processing apparatus according to an embodiment of the present invention.

As illustrated, the multi-layer data processing apparatus includes a lower layer processing unit 100 of a lower layer (layers 2 to 4) and an upper layer processing unit 200 of an upper layer (layer 7), and the lower layer processing unit 100. Integrates and processes multi-layered data. Here, the multi-layer data is lower layer data and higher layer data, and the lower layer processor 100 generates and outputs a traffic flow of the input multi-layer data. The upper layer processor 200 generates and outputs a traffic flow of higher layer data received from the lower layer processor 100. That is, the higher layer processor 200 generates a traffic flow using the received higher layer data and related information, and transmits the corresponding information to the lower layer processor 100. When multi-layer data is input, the lower-layer processing unit 100 storing the information received from the upper-layer processing unit 200 generates and outputs a traffic flow of the input multi-layer data using the pre-stored information. Accordingly, the multi-layer data processing apparatus may integrate and process the multi-layer data through the lower layer processing unit 100.

On the other hand, when the multi-layer data is processed by using the information obtained by processing the upper layer data in the upper layer processing unit 200 as described above, as the processing speed between the layers are different, the lower layer processing unit 100 There is a problem in that the lower layer data must be processed in accordance with the data processing speed of the upper layer processing unit 200. However, in general, the lower layer processing unit 100 does not have to use information related to higher layer data processed by the upper layer processing unit 200 in real time. In addition, since the performance of the upper layer processor implementing the application layer is continually improved, the output performance of the upper layer processor 200 required by the lower layer processor 100 may increase the data processing speed processed by the lower layer processor 100. Since the development is so close to that, the present invention can be achieved by solving the above-described problems.

Hereinafter, a description of the aforementioned multi-layer data processing device will be described in detail with reference to FIG. 2.

2 is a detailed block diagram of a multilayer data processing apparatus according to an embodiment of the present invention.

As shown, the multi-layer data processing apparatus includes a lower layer processing unit 100 and a higher layer processing unit 200.

When the multi-layer data is received, the lower layer processor 100 classifies the received multi-layer data into lower layer data and higher layer data by using the lower layer information. Subsequently, the lower layer processor 100 processes the traffic flow of the lower layer data or the traffic flow of the lower layer data and the upper layer data to be generated and output using a rule information table corresponding to the rule information of the lower layer and the upper layer. . Such a lower layer processing unit 100 may be achieved through the lower layer classification unit 110 and the local table processing unit 120. The lower layer classifying unit 110 classifies the lower layer data and the upper layer data using the lower layer information of the received multilayer data.

The regional table processor 120 refers to the lower layer rule information related to the processing of the lower layer data and the upper layer rule information of the upper layer data preprocessed by the upper layer processor 200 to refer to the rule information table. Create and output a flow. The regional table processing unit 120 includes a regional table unit 121, a rule information obtaining unit 123, and a multi-layer traffic flow generating unit 125.

The local table unit 121 configures a rule information table in which lower layer rule information related to processing of lower layer data and higher layer rule information of upper layer data preprocessed by the upper layer processing unit 200 are associated with each other. Here, the lower layer rule information and the upper layer rule information include a rule set & action table based on Layer 2-4 and a rule set & action table based on a higher layer. Layer 7). The local table unit 121 constituting the rule information table may correspond to a 1: 1 or 1: N correspondence between a lower layer-based rule and processing table and an upper layer-based rule and processing table.

When the received multi-layer data is classified into lower layer data and higher layer data from the lower layer classification unit 110, the rule information obtaining unit 123 receives the lower layer related to the processing of the lower layer data through the local table unit 121. Obtain rule information. Here, the lower layer data has a key value, and the rule information table of the local table unit 121 preferably has identification information related to the corresponding key value. Accordingly, the rule information obtaining unit 123 obtains the lower layer rule information from the rule information table having identification information related to the key value of the lower layer data in the table of the local table unit 121. When the lower layer rule information is obtained, the rule information acquisition unit 123 checks whether there is higher layer rule information corresponding to the obtained lower layer rule information. As a result of the check, if there is higher layer rule information corresponding to the lower layer rule information, the rule information obtaining unit 123 obtains higher layer rule information corresponding to the lower layer rule information. As described above, the local table unit 121 associates a lower layer-based rule and processing table, which is lower layer rule information, and a higher layer-based rule and processing table, which is higher layer rule information, in a 1: 1 or 1: N manner. It consists of a table. Accordingly, the rule information acquisition unit 123 may obtain higher layer rule information corresponding to lower layer rule information.

The multi-layer traffic flow generation unit 125 generates a traffic flow of lower layer data by using lower layer rule information obtained from the rule information obtaining unit 123. At this time, if there is higher layer rule information corresponding to the lower layer rule information through the rule information acquisition unit 123, the multi-layer traffic flow generation unit 125 generates a traffic flow of higher layer data using the higher layer rule information. do. As described above, the multilayer data processing apparatus according to the present invention may integrate and process the multilayer data through the lower layer processing unit 100.

On the other hand, if there is no upper layer rule information corresponding to the lower layer rule information as a result of the check, the rule information obtaining unit 123 requests the upper layer data transmission from the lower layer classification unit 110 to the upper layer processing unit 200. Accordingly, the lower layer classifier 110 transmits higher layer data for which no traffic flow is generated, to the upper layer processor 200. Accordingly, the upper layer processor 200 generates and outputs a traffic flow of the upper layer data. That is, since the traffic flow of the upper layer data classified by the lower layer classifier 110 is not generated, when the corresponding upper layer data is received from the lower layer classifier 110, the upper layer processor 200 may determine the overall flow. The traffic flow of the received upper layer data is generated and output using the entire table 300 where the rule information table of the layers is stored. Here, the entire table unit 300 is composed of a rule information table which is a rule and a processing table based on all layers, and such a rule information table preferably includes identification information related to key values of data for each layer. As such, the upper layer processor 200 generating and outputting the traffic flow of the upper layer data may be achieved through the upper layer classifier 210 and the upper layer traffic flow generator 220.

 When the upper layer classifier 210 receives the upper layer data from the lower layer classifier 110, the upper layer classifier 210 obtains rule information related to the higher layer data received through the rule information table of the entire table unit 300. Thereafter, the higher layer classifier 210 transmits the obtained rule information to the lower layer processor 100. However, the present invention is not limited thereto, and the upper layer classification unit may transmit the obtained rule information to the lower layer processing unit 100 after the traffic flow of the upper layer data is generated and output. When rule information related to higher layer data is obtained through the higher layer classifier 210, the higher layer traffic flow generator 220 generates a traffic flow of higher layer data using the obtained rule information. That is, when higher layer data is received through the lower layer classifier 110 of the lower layer processor 100, the upper layer classifier 210 obtains a key value of the received higher layer data. Thereafter, the higher layer classifier 210 obtains higher layer rule information from the rule information table having identification information related to key values of higher layer data from the entire table unit 300. Accordingly, the upper layer traffic flow generation unit 220 generates and outputs a traffic flow of different layer data received from the lower layer classification unit 110 of the lower layer processing unit 100 using the obtained upper layer rule information. .

As such, the multi-layer data processing apparatus which integrates and processes the multi-layer data through the lower layer processing unit 100 or processes the upper layer data through the upper layer processing unit 200 may include a plurality of lower layer processing units 100. A plurality of higher layer processing units 200 may be configured to improve performance of integrating and processing multi-layer data. That is, when the upper layer data processing capability of the upper layer processing unit 200 is insufficient, the multi-layer data processing apparatus configures the plurality of upper layer processing units 200 in parallel, and the multilayer data processing capability of the lower layer processing unit 100. If this is insufficient, the data processing performance can be improved by configuring the plurality of lower layer processing units 100.

On the other hand, as described above, the upper layer classification unit 210 transmits the upper layer rule information obtained from the rule information table of the entire table unit 300 to the lower layer processing unit 100. Accordingly, the lower layer processing unit 100 stores the upper layer rule information received from the upper layer processing unit 200 in the rule information table of the local table unit 121 and updates the rule information table stored in the local table unit 121. do. The lower layer processor 100 may achieve the rule information updater 127.

When the upper layer rule information is received through the upper layer classifying unit 210 of the upper layer processing unit 200, the rule information updating unit 127 lowers the rule information table configured according to a condition set in the local table unit 121. Update the rule information table configuration in correspondence with the hierarchical rule information. In addition, the rule information updating unit 150 checks the state change of the traffic flow of the multi-layered data generated by the multi-layered traffic flow generating unit 125 or checks the lower layer information according to a predetermined condition and then uses the region table. The rule information table of the unit 121 is updated.

Meanwhile, the present invention is not limited thereto, and the entire rule information table configured in the entire table unit 300 as well as the rule information table update of the local table unit 121 may be updated by the upper layer processing unit 200. That is, the lower layer processor 100 obtains specific rule information among the rule information received from the upper layer processor 200, and transmits a traffic flow related to the obtained specific rule information to the upper layer processor 200. Accordingly, the upper layer processor 200 checks the state of the traffic flow received from the lower layer processor 100 using a preset condition to update the rule information table of the entire table unit 300. As described above, the multi-layer processing apparatus according to the present invention updates the rule information tables of the local table unit 121 and the entire table unit 300, thereby lowering the data to be processed by the upper layer processing unit 200 to the lower layer processing unit 100. ) Can be integrated.

Such a multi-layer data processing apparatus may be applied to a heterogeneous network interworking method for processing data in a network having a different transfer method. Hereinafter, an embodiment of processing multi-layer data in a heterogeneous network interworking method based on the technical concept of the data processing apparatus according to the present invention will be described in detail with reference to FIG.

3 is an exemplary diagram of processing multi-layer data through a data processing apparatus in a multi-layer heterogeneous network interworking method according to an embodiment of the present invention.

As shown, when a packet or frame is generated at the application layer (layer 7) of the wireless network 610, the wireless network 610 through the layer 1 to the wireless layer 1 (625) of the wired and wireless interworking network 620 Or transmit a frame. In this case, the wireless network 610 and the wired / wireless interworking network 620 are connected through an interface and a transmission method of the wireless network 610.

When a packet or frame is received through layer 1 of the radio network 610, the radio layer 1 625 transmits the received packet or frame to the radio layers 2 to 4 622. Thereafter, the radio layers 2-4 622 classify the received packets or frames to obtain packets or frames related to the radio layers 2-4 622, and the rules based on the radio layers 2-4 are obtained from the obtained packets or frames. Obtain information and processing information. Accordingly, the radio layers 2-4 622 generate and process the traffic flow of the packet or frame using the obtained radio layer 2-4 based rule information and processing information.

In addition, the radio layers 2-4 622 check whether there is wired / wireless interworking rule information and processing information from the classified packets or frames. As a result of the check, if there is wired / wireless interworking rule information and processing information, the wireless layers 2 to 622 generate wired packets or wired frames using the wired / wireless interlocking rule information and processing information, and wire the generated wired packets or wired frames. Send to layer 2-4 (621). Accordingly, the wireless layers 2-4 622 may directly send a wired packet or a wired frame to the wired layers 2-4 621 through the layer 7 623.

On the other hand, if there is no wired / wireless interworking rule information and processing information as a result of the check, the radio layers 2 through 4622 transmit the classified packets or frames to the layer 7 623. Accordingly, the layer 7 623 obtains wired / wireless interworking rule information and processing information from packets or frames received from the radio layers 2-4 622. Thereafter, the layer 7 623 transmits the obtained wired / wireless interworking rule information and processing information to the wired layers 2 through 4 621.

As such, the wired layers 2 to 4621 that receive the wired packet or the wired frame from the wireless layers 2 to 4621 or the layer 7 623 transmit the received wired packet or the wired frame to the wired layer 1 624. do. The wired layer 1 624 connected to the wired interface with the layer 1 of the Ethernet or IP (Internet protocol) network transmits the received wired packet or wired frame. Accordingly, the Ethernet or IP network receives the wired packet or the wired frame and generates and processes the traffic flow accordingly.

As described above, even in the heterogeneous network interworking method, the performance of processing multi-layer data can be improved by using the technical concept of the data processing apparatus.

Hereinafter, a multi-layer data processing method for integrating and processing multi-layer data through a multi-layer data processing apparatus will be described in detail with reference to FIGS. 4 to 6.

4 is a flowchart of a multi-layer data processing method according to an embodiment of the present invention.

As shown, the multi-layer data processing apparatus receives the multi-layer data through the external network (S100). Here, the multi-layer data is lower layer data and higher layer data. When such multi-layer data is received, the multi-layer data processing apparatus classifies the multi-layer data received through the lower layer processor into lower layer data and higher layer data. (S200). Subsequently, the lower layer processor obtains rule information related to the multi-layer data classified by layers by referring to the rule information table of the local table unit, and generates and outputs a traffic flow of the multi-layer data using the obtained rule information (S300). ). Here, the rule information table of the local table unit is a table of lower layer rule information related to processing of lower layer data and higher layer rule information related to processing of upper layer data processed in the upper layer.

According to an additional aspect of the present invention, the lower layer rule information and the upper layer rule information are a lower layer based rule and processing table and a higher layer based rule and processing table, and the local table unit is a lower layer based rule and processing table and a higher layer. The rule information table which maps the based rule and processing table in 1: 1 or 1: N is stored.

That is, the lower layer processor classifies the input multi-layer data into lower layer data and upper layer data, and obtains lower layer rule information related to the lower layer data classified through the rule information table of the local table unit. Thereafter, the lower layer processor generates and outputs a traffic flow of the lower layer data and the upper layer data using the obtained lower layer rule information and the higher layer rule information, thereby integrating and processing the multi-layer data.

As such, a method of generating traffic flow of multi-layer data through the multi-layer data processing apparatus will be described in detail with reference to FIG. 5.

5 is a flowchart of a method for generating a traffic flow of multilayer data according to an embodiment of the present invention.

As illustrated, when the input multi-layer data is classified into lower layer data and higher layer data, the lower layer processing unit obtains lower layer rule information related to the processing of the lower layer data from the local table unit (S310). Here, the lower layer data has a key value, and the rule information table stored in the local table portion preferably has identification information related to the corresponding key value. Accordingly, the lower layer processor obtains lower layer rule information from a rule information table having identification information related to key values of lower layer data among a plurality of tables stored in the local table unit.

When the lower layer rule information is obtained, the lower layer processor checks whether there is higher layer rule information corresponding to the obtained lower layer rule information (S320). As described above, the region table unit stores a rule information table in which lower layer rule information and higher layer rule information are associated with 1: 1 or 1: N. Accordingly, the lower layer processor may check whether there is higher layer rule information corresponding to the obtained lower layer rule information.

As a result of the check, if there is higher layer rule information, the lower layer processor generates traffic flows of the lower layer data and the upper layer data by using the obtained lower layer rule information and corresponding upper layer rule information. Accordingly, the multi-layer data processing apparatus may generate and output a traffic flow for the multi-layer data input through the lower layer processing unit, thereby integrating and processing the multi-layer data.

On the other hand, if there is no higher layer rule information as a result of the check, the multi-layer data processing apparatus processes the traffic flow of the upper layer data to be output from the higher layer processing unit. That is, when it is checked that there is no upper layer rule information corresponding to the lower layer rule information as a result of the check of the lower layer processor, the lower layer processor transmits the classified upper layer data to the upper layer processor (S340).

Accordingly, the traffic flow of the upper layer data is generated and output from the upper layer processor, and the rule information used to generate the traffic flow is transmitted to the lower layer processor. That is, when the upper layer data is received from the lower layer processor, the upper layer processor acquires rule information related to the processing of the upper layer data from the entire rule information table stored in the entire table. Here, the entire rule information table of the entire table portion is a table of rule information of all layers, and the rule information of all layers is a rule and processing table based on all layers. In addition, the entire rule information table of the entire table portion preferably includes identification information related to key values of hierarchical data.

Accordingly, the upper layer processing unit obtains higher layer rule information from the rule information table having identification information associated with a key value of the higher layer data received among the entire rule information tables of the entire table portion. Thereafter, the upper layer processor generates and outputs a traffic flow of higher layer data using the obtained upper layer rule information. The upper layer processor transmits the upper layer rule information used to generate the traffic flow to the lower layer processor.

Accordingly, the lower layer processor may update the rule information of the rule information table of the local table unit by using the upper layer rule information received from the upper layer processor. The method of updating the rule information of the rule information table of the local table unit will be described in detail with reference to FIG. 6.

6 is a flowchart of a method of updating rule information of a rule information table of a region table according to an embodiment of the present invention.

As shown, the lower layer processor receives the upper layer rule information used to generate the traffic flow of the upper layer data from the upper layer processor (S400). Thereafter, the lower layer processing unit stores the upper layer rule information received from the upper layer processing unit in the rule information table of the local table unit and updates the rule information of the rule information table. That is, when the upper layer rule information is received from the upper layer processor, the lower layer processor corresponds to the lower layer rule information determined according to a predetermined condition, and updates the rule information table accordingly through the local table unit. The lower layer processor may update the rule information table of the local table unit by checking a state change of the traffic flow of the lower layer data and the traffic flow of the upper layer data using a predetermined condition or by checking the lower layer information.

As such, the lower layer processor uses the rule information received from the upper layer processor, or checks the state change and the lower layer information on the traffic flow of the generated multi-layer data to display the rule information of the rule information table in the local table unit. By updating, the lower layer processing unit may integrally process data to be processed by the upper layer processing unit.

So far I looked at the center of the preferred embodiment for the present invention.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Therefore, the disclosed embodiments should be considered in an illustrative rather than a restrictive sense. The scope of the present invention is defined by the appended claims rather than by the foregoing description, and all differences within the scope of equivalents thereof should be construed as being included in the present invention.

1 is a schematic block diagram of a multi-layer data processing apparatus according to an embodiment of the present invention;

2 is a detailed block diagram of a multilayer data processing apparatus according to an embodiment of the present invention;

3 is an exemplary diagram of processing multi-layer data through a data processing apparatus in a multi-layer heterogeneous network interworking method according to an embodiment of the present invention;

4 is a flowchart of a multi-layer data processing method according to an embodiment of the present invention;

5 is a flowchart of a method for generating a traffic flow of multilayer data according to an embodiment of the present invention;

6 is a flowchart of a method of updating rule information of a rule information table of a region table according to an embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

100: lower layer processing unit 110: lower layer classification unit

120: local table processing unit 121: local table processing unit

123: rule information acquisition unit 125: multi-layer traffic flow generation unit

127: rule information update unit 200: upper layer processing unit

210: upper layer classifier 220: upper layer traffic flow generator

300: whole table part

Claims (13)

In the device for processing multi-layer data transmitted through each layer, Traffic flow of the lower layer data or the lower layer using a rule information table in which the multi-layer data is classified into lower layer data and upper layer data, and a data processing rule of lower layer and upper layer is mapped according to a predetermined condition. A lower layer processor to process a traffic flow of data and the upper layer data to be generated and output; An entire table unit for storing data processing rules of all layers; And If the lower layer processing unit fails to process the upper layer data, the upper layer data is received from the lower layer processing unit, and an upper layer data processing rule for processing the received upper layer data is obtained from the entire table unit. An upper layer processor for transmitting the rule information table to the lower layer processor; Multi-layer data processing apparatus comprising a. The method of claim 1, And the lower layer is layer 2 to layer 4, and the upper layer is layer 7. The method of claim 1, And the upper layer processor is configured to process a traffic flow of the upper layer data to be generated and output according to the obtained higher layer data processing rule. The method of claim 1, The rule information table may correspond to a lower layer data processing rule and a higher layer data processing rule as 1: 1 or 1: N. The method of claim 1, The lower layer processing unit, A lower layer classifier classifying the received multi-layer data into lower layer data and higher layer data; A local table unit for storing a rule information table in which data processing rules of a lower layer and a higher layer are mapped according to preset conditions; A rule information obtaining unit obtaining a lower layer data processing rule related to the processing of the lower layer data through the rule information table of the local table unit; And A multi-layer traffic flow generation unit generating a traffic flow of the lower layer data by using the obtained lower layer data processing rule; Multi-layer data processing apparatus comprising a. 6. The method of claim 5, The rule information obtaining unit checks whether there is an upper layer data processing rule corresponding to the obtained lower layer data processing rule in the rule information table, and if there is a corresponding higher layer data processing rule, the multi-layer traffic flow generating unit Multi-layer data requesting that the traffic flow of the upper layer data is generated, but if there is no corresponding upper layer data processing rule, requesting the transmission of the upper layer data from the lower layer classification unit to the upper layer processing unit. Processing unit. The method of claim 1, The upper layer processing unit, Analyze higher layer data received from the lower layer classifier to obtain higher layer data processing rules related to the processing of the received higher layer data from the entire table portion, and obtain the obtained higher layer data processing rules from the lower layer data processing rules. An upper layer classifier for transmitting to the layer processor; And An upper layer traffic flow generation unit generating a traffic flow of the received upper layer data using an upper layer data processing rule obtained through the upper layer classification unit; Multi-layer data processing apparatus comprising a. The method of claim 7, wherein The lower layer processing unit, A rule information updater for updating the rule information table using at least one of a higher layer data processing rule received from the higher layer classifier and state information of traffic flows generated by the multi-layer traffic flow generator; Multi-layer data processing device further comprising. In the multi-layer data processing method of the apparatus for processing the multi-layer data transmitted through each layer, Receiving multi-layer data; Classifying the multi-layer data into lower layer data and higher layer data; Outputting a traffic flow of the lower layer data or the lower layer data and the upper layer data in the lower layer using a rule information table in which data processing rules of the lower layer and the upper layer are mapped according to preset conditions; If the lower layer fails to process the upper layer data, processing the upper layer data in an upper layer and updating the rule information table based on the upper layer data processing rule used in the processing; Multi-layer data processing method comprising a. The method of claim 9, The rule information table may correspond to a lower layer data processing rule and a higher layer data processing rule as 1: 1 or 1: N. The method of claim 9, The outputting of the traffic flow may include: Obtaining a lower layer data processing rule related to the processing of the lower layer data from the rule information table; Checking whether an upper layer data processing rule corresponding to the obtained lower layer data processing rule exists in the rule information table; And As a result of the check, if there is an upper layer data processing rule corresponding to the obtained lower layer data processing rule, the lower layer data and the upper layer are obtained using the obtained lower layer data processing rule and a corresponding higher layer data processing rule. Generating a traffic flow of the layer data; Multi-layer data processing method comprising a. The method of claim 11, The outputting of the traffic flow may include: If there is no upper layer data processing rule corresponding to the obtained lower layer data processing rule, generating a traffic flow of the upper layer data in an upper layer; Multi-layer data processing method further comprising. The method of claim 9, The updating of the rule information table may include updating the rule information table using at least one of a higher layer data processing rule used in processing higher layer data in a higher layer and state information of traffic flow of multi-layer data. How to process hierarchical data.

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