JP6655524B2 - Network management device, method and program - Google Patents

Description

  The present invention relates to a network management device, a method, and a program.

  2. Description of the Related Art In the development of an IT system that makes various tasks more efficient using software, it is common to perform data modeling according to the task field and task flow (for example, see Non-Patent Document 1). In data modeling, it is important to have a process of determining the unit of information used in a target business to efficiently construct and operate an IT system for each business. For example, even if a slip, a deposit, and the like are handled as IT system data for the same banking business, a different data model is constructed due to a difference in business for each company.

  In the network management business, it is general that a setting system for setting a network (abbreviated as NW) device and a monitoring system for monitoring a failure of the device are constructed as an IT system to facilitate the business. These systems are collectively called an NW management system. Also, in the development of the NW management system, the process of constructing a data model is important, and it is necessary to consider the development and operation of an efficient NW management system. With regard to the development of the NW management system, a telecommunications carrier that performs NW management and a development vendor that undertakes development are examining what kind of data model is suitable for NW management beyond the company frame (for example, non- See Patent Document 2).

Yuko Hayashi, "Introduction to Data Modeling as a Professional", Softbank Creative, November 30, 2006 TeleManagement Forum GB922, “Information Framework (SID): Concepts and Principles,” Version 15.0.1, May 2015. (5 pages (Executive Summary) − 11 pages (1. Introduction))

  The data model suitable for NW management has been discussed and gathered knowledge in the efforts of Non-patent Document 2, etc., but the essence that can be applied to various NWs beyond the company frame is extracted and used for general purpose. It is a premise that expansion and addition of elements are performed on NWs managed by individual companies.

  When each company develops an NW management system, it is necessary to study and build a data model based on Non-Patent Document 2 so as to be suitable for each NW. Then, it is necessary to develop an NW management system having a function based on each constructed data model. As described above, it is necessary to study a data model according to the NW to be managed and to develop an NW management system. In addition, when the NW to be managed is changed, a network device is added, or a communication method is changed after the NW management system is once developed, the constructed data model must be recreated in accordance with the contents of the NW change. There must be. Then, the function must be changed in accordance with the recreated data model and the NW management system must be developed again.

  The present invention has been made in view of the above circumstances, and has as its object to eliminate the need to create a data model for each NW and to eliminate the need to develop an NW management system. , A method and a program.

  In order to achieve the above object, an aspect of the present invention includes the following components. That is, the network management device includes a registration unit and a generation unit. The registration unit registers, in a specification database, one or more pieces of specification information including network characteristics from data that specifies a data model format of a specification that specifies characteristics of a network to be managed. The generation unit generates the specification information of the specification database based on an information object generation instruction including information for associating with the characteristic included in the specification information and a value designated for each of one or more items related to the information. When the format of the corresponding characteristic is matched, an information object representing network management information including a value specified for each item included in the information object generation instruction is generated.

  According to the present invention, it is possible to provide a network management device, a method, and a program that do not need to create a data model for each NW and do not need to develop a NW management system. More specifically, according to the present invention, it is not necessary to re-create a data model for each NW to be managed when adding a device of the NW to be managed or changing the communication method, and the NW with the changed function is not required. There is an effect that it is possible to provide a highly convenient network management device, method, and program without having to redevelop the management system.

FIG. 1 is a block diagram showing a network management device according to an embodiment. FIG. 2 is a view showing a data model format, a data model, and an example in which information objects are stored in an information object database of FIG. 1. FIG. 2 is a diagram illustrating an information object generation instruction input to the information object generation unit in FIG. 1 and an example of the instruction format. FIG. 2 is a diagram showing an example in which an information object for managing NWs having different schemes is generated by the information object generation unit in FIG. 1. The figure which shows the information object production | generation part of FIG. 1 when adding a new characteristic to an information object. FIG. 2 is a diagram showing an example of a specification registered in a specification database by a specification registration unit in FIG. 1. FIG. 2 is a diagram showing an example of a specification registration instruction input to a specification registration unit in FIG. 1 and an instruction format thereof. The figure which shows an example of the operation | movement which the information object production | generation part of FIG. 1 produces | generates the information object stored in an information object database with reference to a specification database. The figure which shows typically an example of the network which produces | generates an information object, applying the network management apparatus of this embodiment. FIG. 10 is a diagram illustrating an example of specifications stored in a specification database in the network of FIG. 9. FIG. 10 is a diagram schematically illustrating an information object generated by an information object generation unit with reference to a specification database in the network of FIG. 9. FIG. 12 is a diagram illustrating the information object of FIG. 11 generated by the information object generation unit of FIG. 1.

Hereinafter, a network management device, a method, and a program according to an embodiment of the present invention will be described with reference to the drawings. In the following embodiments, the same operation is performed for the parts with the same numbers, and the overlapping description will be omitted.
As shown in FIG. 1, the network management apparatus 100 according to the embodiment includes a specification registration unit 101, a specification database (Specification DB) 102, an information object generation unit 103, and an information object DB 104. The specification registration unit 101 and the information object generation unit 103 receive data from the outside via the interface corresponding to the specification registration unit 101 or the information object generation unit 103 that passes the received data and the data, respectively.

The specification registration unit 101 receives text data, which is data that specifies a data model format of a specification that specifies characteristics of a network (NW) to be managed, and sends an information object representing management information of the NW based on the text data. Then, a specification preliminarily defining Characteristic representing the characteristic of the NW is registered in the specification DB 102. In other words, the specification registering unit 101 registers one or more pieces of specification information including the characteristics of the network from the data that specifies the data model format of the specification that specifies the characteristics of the network to be managed in the specification database. The characteristics of a network include the range of values that the characteristics can take and the type of characteristics.
Further, the specification registration unit 101 may not receive the above-described text data, but may receive a specification registration instruction which is data specifying a data model format of a specification that specifies characteristics of a network to be managed. The specification registration instruction is for specifying a specification indicating a specification from which an information object is generated. FIG. 7 shows a detailed example of the specification registration instruction.

  The specification DB 102 holds the specifications generated by the specification registration unit 101. Details will be described later with reference to FIG. 6, FIG. 7, and FIG.

  The information object generation unit 103 receives the information object generation instruction, and generates an information object from the information object generation instruction with reference to the specifications registered in advance in the specification registration unit 101. More specifically, the information object generation unit 103 performs, based on an information object generation instruction including information for associating with the characteristic included in the specification information and a value specified for each of one or more items related to the information, If the format of the corresponding characteristic in the specification information of the specification database matches, an information object representing network management information including a value specified for each item included in the information object generation instruction is generated.

  The information object DB 104 holds the information objects generated by the information object generation unit 103.

Next, a data model used by the network management device 100 will be described with reference to FIG. FIG. 2 shows a data model format, a data model, and information objects stored in the information object DB 104 of FIG.
The data model format 200 used in the present embodiment includes an entity (Entity) 201 and a characteristic value (CharacteristicValue) 202. The entity 201 indicates any of line information, surface information, and point information to be generated. The line information indicates a communication flow, the point information indicates termination of communication traffic, and the surface information indicates a communication flow range. These three pieces of line information, point information, and surface information express the properties of the NW. The characteristic value 202 includes a characteristic name (characteristicName) and a value (value). The characteristic value indicates the content of the characteristic possessed by the NW, and the characteristic name and the value are arranged. The property name indicates the name of the property to be expressed, and the value indicates the value of the property. According to the data model format 200, for example, the data model includes the line information 211 and the characteristic value 221, the point information 212 and the characteristic value 222, and the surface information 213 and the characteristic value 223 shown in FIG. In this data model, for example, the information objects stored in the information object DB 104 include, in addition to the line information 1 231 and a plurality of characteristic values 241, 242, information objects 232, 243, 244 regarding the line information 2, and information regarding the point information 3. There are objects 233, 245, information objects 234, 246-248 relating to point information 4, and information objects 235, 249, 250 relating to surface information 5. Thus, each information object can have one or more characteristic values.

  In the network management device according to the present embodiment, the difference in the characteristic for each NW is expressed by the difference in the characteristic value 202. The characteristic value 202 is extensible, and one entity (one of line information, point information, and surface information) can be associated with n characteristic values CharacteristicValue (n is a natural number). .

  As described above, according to the network management apparatus of the present embodiment, information used for NW management can be applied to any NW instead of being changed as a data model according to each NW. An extensible data model that can be represented can be used.

Next, the information object generation instruction 302 received by the information object generation unit 103 and the instruction format 301 will be described with reference to FIG.
The information object generation instruction format 301 includes the above-described entity to be generated (that is, one of line information, surface information, and point information), the name of the information object to be generated (name), and the specification that is the source of the information object. And a list of characteristic groups (characteristicValueList) to be added when the information object is generated. The names of entities, information objects, and specifications are represented by character strings, and a list of characteristic groups (characteristicValueList) is represented by an array. The property group list indicates the properties of the NW, and includes one or more pairs of a property name (characteristicName) and a held value (value). The property name is the name of the property to be added, and is represented by a character string. The value to be stored is represented by a numerical value.

  As a specific example, FIG. 3 shows an information object generation instruction 302 in the static routing method. The static routing method is indicated by the name of the information object and the name of the specification, and the substantial content is determined by the name of the property included in the list of the property group and the value to be held. This generation instruction based on the information object generation instruction format 301 can correspond to any method by changing the name of the characteristic and the value to be held according to a desired method. Therefore, in the present embodiment, when the communication method is changed, there is no need to recreate a data model corresponding to the communication method, and it is not necessary to develop a new network management device. Can be realized. Further, according to the present embodiment, it is not necessary to create a plurality of data models so as to correspond to a plurality of communication systems, and it is possible to flexibly cope with a difference in the communication system.

  Next, generation of the information object by the information object generation unit 103 from the information object generation instruction described with reference to FIG. 3 will be described with reference to FIG. Here, a case where two information objects are generated will be described, and the information objects are for managing NWs having different methods. Here, the methods include static routing and BGP routing. Hereinafter, these two routing methods of the IP network will be briefly described.

  Characteristics required for the static routing method include a network address, a subnet mask, and a next hop address of the target NW. There are three characteristics required for the BGP routing method: an AS number, a neighbor address, and a neighbor AS number. Normally, they have such different characteristics, so that a different information object generation instruction is required to generate an information object. In other words, due to this difference in characteristics, it is necessary to define data models for storing static and BGP routing information, respectively.

  More specifically, the generation instruction format of the information object is a format for specifying the value to be included in the AttributeName based on the defined data model, and the function to receive the generation instruction must be created in accordance with the data model. In addition, in order to generate an information object, it is necessary to check whether the input value is appropriate, whether essential information is missing, and whether the correlation between the input values is consistent. Such a check process at the time of generation also needs to be created in the generation function unit in accordance with each data model. The information object DB that holds the generated information objects is also made in accordance with each data model. As described above, normally, there is a problem that the generation function unit and the information object DB must be created in accordance with the NW.

  The information object generation unit 103 according to the present embodiment may generate the information objects 401 to 404 based on the static routing information object generation instruction 302 and generate the information objects 406 to 409 based on the BGP routing information object generation instruction 405. It is possible.

  The information object generation unit 103 can change the content of the property group list for each of the different methods, so that the information object generation instruction that can be received in different methods can have the same format. That is, the information object generation unit 103 can receive both generation instructions of the static routing and the BGP routing while maintaining the same generation instruction format, and generate an information object corresponding to each method.

  The information object generation unit 103 has a function of checking the validity of the input value of the content for which the generation instruction has been received, according to the specification specified for each NW. The network management device of the present embodiment has a mechanism for changing the behavior of the input value check by changing the specification to be referred without changing the function of the information object generation unit 103.

Next, a generation instruction and an information object when a new characteristic is added to the characteristic group list included in the information object generation instruction will be described with reference to FIG. The case where information objects 401 to 404 are generated from the static routing information object generation instruction 302 described with reference to FIG. 4 will be described as an example.
The information object generation unit 103 of the present embodiment reads the attribute (Attribute) of the generation instruction (the underlined portion in FIG. 5) included in the information object generation instruction 302 of the static routing, interprets the contents, and converts the information objects 401 to 404. Has been generated. When adding a permanent as a new property to the information object, the property to be added is added to the list of the property group included in the static routing information object generation instruction 302 and described. In this case, a pair of a property name (characteristicName) and a held value (value) is added.

  Since the information object generation unit 103 reads the attribute of the generation instruction, the information object generation unit 103 reads the underlined portion of FIG. 5 of the information object generation instruction 501 to which the characteristic has been added, and also reads the added characteristic. As a result, the information object generation unit 103 can generate an information object including the generated characteristics without modifying the function.

  As described above, the network management apparatus according to the present embodiment includes a mechanism for extending a characteristic to be added even when an information object to be generated is changed. It is possible to respond without changing the generation function.

  Next, the specification registered by the specification registration unit 101 in the specification DB 102 will be described with reference to FIG. This specification is a specification that the information object generation unit 103 refers to when generating an information object.

  The data model format of the specification has a specification name Specification 601 and a specification characteristic SpecCharacteristic 602. The SpecCharacteristic 602 has a name (name) of a characteristic group to be given to the information model, valueFrom and valueTo for holding a range of inputtable values, and a type for expressing an attribute and a type. It is possible to hold n SpecCharacteristics 602 for one Specification 601.

Based on the text data received by the specification registration unit 101, the specification is registered and stored in the specification DB 102, based on the text data defining the data model format of the specification in which the characteristics of the NW to be managed are expressed by SpecCharacteristic. One or more specifications are stored in the specification DB 102 as a set of Spec_line information 1 611, SpecCharacteristic11 621, and SpecCharacteristic11 622 according to the data model formats 601 and 602. 6 also shows specifications 612, 623, and 624 for line information 2, specifications 613 and 625 for point information 3, specifications 614, 626, 627, and 628 for point information 4, specifications 615, 629, and 630. Thus, each of the specifications may have one or more specification characteristics SpecCharacteristic.
Alternatively, the specification registration unit 101 may receive the specification registration instruction and register and store the specification in the specification DB 102 without receiving the above-described text data. Details of the specification registration instruction are shown in FIG.

  As described above, according to the network management apparatus of the present embodiment, it is possible to register, in the specification DB 102, a specification preliminarily defining Characteristic representing the characteristic of the NW for the information object of each NW according to the NW to be managed. It is.

Next, the specification registration instruction 702 received by the specification registration unit 101 and the instruction format 701 will be described with reference to FIG.
The specification registration instruction format 701 includes, as attributes, a name of a specification to be registered (name) and a list of characteristic groups (SpecCharacteristicList) held by the specification. The name of the specification to be registered is represented by a character string, and a list of characteristic groups (SpecCharacteristicList) is represented by an array. The list of characteristic groups indicates the characteristics of the NW represented by the specification, and can store the name of the characteristic (name), the lower limit value (valueFrom) that can be held by the CharacteristicValue corresponding to the characteristic, and the CharacteristicValue corresponding to the characteristic. Includes one or more pairs of the upper limit value (valueTo) of the value and the value type (type) that the CharacteristicValue corresponding to the characteristic can hold. The property name is represented by a character string, the lower limit and the upper limit are represented by a value, and the type of the value is represented by a character string.

  FIG. 7 shows a specification registration instruction 702 in the static routing method as a specific example. The specification of the static routing method is indicated by the name of the specification, and the actual contents are included in the list of characteristics, the name of the characteristic, the lower limit and upper limit of the value that can be held, and the value that can be held The type is determined by This generation instruction based on the specification registration instruction format 701 is applied to any method by changing the name of the characteristic, the lower limit value and the upper limit value of the value that can be held, and the type of the value that can be held according to a desired method. Can respond. Therefore, in the present embodiment, when the communication method is changed, there is no need to recreate a data model corresponding to the communication method, and it is not necessary to develop a new network management device. Can be realized. Further, according to the present embodiment, it is not necessary to create a plurality of data models so as to correspond to a plurality of communication systems, and it is possible to flexibly cope with a difference in the communication system.

Next, an operation in which the information object generation unit 103 generates an information object in accordance with the information object generation instruction 302 with reference to the specification DB 102 will be described with reference to FIG. It is assumed that the Spec_line information static 701 has been registered in the specification DB 102.
(Procedure (1)) The information object generation unit 103 refers to the specification DB 102 from “Spec_line information static” described in “specification” of the content of the information object generation instruction 302, and refers to the specification stored in the specification DB 102. The name “Spec_line information static” 801 is searched for and acquired.

  (Procedure (2)) The information object generation unit 103 acquires a specification corresponding to “Spec_line information static” that is the acquired specification name Specification from the Specification DB 102.

  (Procedure (3)) The information object generation unit 103 repeats the following procedures a, b, and c for an array of characteristic values CharacteristicValue included in the characteristic group list characteristicValueList included in the information object generation instruction 302.

    (Procedure a) From a plurality of specification characteristics SpecCharacteristic 802, 803, 804 of the specification “Spec_line information static” acquired in step (2), a name name matching the characteristic name characteristicName in the information object generation instruction 302 Acquire the specification characteristics possessed (here, “staticRouteNetworkAddress” is acquired first).

    (Step b) Check whether the type of the specification characteristic SpecCharacteristic acquired in step a matches the value format of the characteristic value CharacteristicValue in the information object generation instruction 302 (here, first, the value of “staticRouteNetworkAddress” "3.3.3.0" is confirmed to be in the IP address format.) If this format does not match, it is not generated as a specification violation.

    (Step c) Check whether the value range of valueFrom and valueTo of the specification characteristic SpecCharacteristic acquired in step a includes the value specified by the value of the characteristic value CharacteristicValue in the information object generation instruction 302 (first, “staticRouteNetworkAddress "3.3.3.0", which is the value of "." If it is not included in the range, it is not generated as a specification violation. In the example of the information object generation instruction 302, “staticRouteSubnetMask” is acquired in the procedure a, the procedures b and c are performed, and the “staticRouteNextHop” is continued in the procedure a.

  (Procedure (4)) When the input value check for all the elements of the characteristicValueList is completed in the procedure (3), the designated information object is generated in the following procedures d, e, and f.

    (Procedure d) An information object having “name” specified by the information object generation instruction 302 is generated in the information object DB 104 (here, a line information static 1 401 is generated).

    (Procedure e) The specification name Specification from which the generated information object is generated is held in the information object as an attribute (here, “specification = Spec_line information static” is stored in the information object DB 104).

    (Procedure f) For each of the characteristic value lists CharacteristicValueList of the characteristic group checked in the step (3), generate a value by storing the value in the characteristic name characteristicName and value as a characteristic value CharacteristicValue object related to the generated information object ( Information objects 402, 403, 404).

  As described above, using the specifications registered in the specification DB 102, the information object generation unit 103 can perform an input value check and generate an information object. Since the content of checking the input value is defined by “SpecCharacteristic” stored in the specification DB 102, in this embodiment, even if the NW to be managed changes and the characteristics of the NW change, the SpecCharacteristic of the specification is changed. Since the input value check can be changed, the function of the information object generation unit 103 does not need to be changed.

  Hereinafter, the generation of the information object by the network management device of the present embodiment will be described with reference to FIGS. 9, 10, 11, and 12, taking the static routing NW schematically shown in FIG. 9 as an example. I do. A flow in which the above-described network management device of the present embodiment generates an information object required for NW management for the NW of FIG. 9 will be described. Hereinafter, the CharacteristicValue of the line information of the IP layer will be described in detail, and the point information and the surface information of the IP layer will not be described in detail, but it is essentially the same as the case of the line information. Also, the Ethernet (registered trademark) layer is essentially the same.

FIG. 10 shows specifications stored in the specification DB 102 by the specification registration unit 101 in the NW of FIG.
The specification registration unit 101 registers the surface information, point information, and line information of the IP layer (Layer), and the specifications related to the surface information, point information, and line information of the Ethernet layer, and stores the specifications in the specification DB 102.

  According to the specifications of FIG. 10, the planes, points, and lines of the IP layer are related, the planes, points, and lines of the Ethernet layer are related, and the relationship between the IP layer and the Ethernet layer is a mutual point. Relevance is defined by information. The specification of the line information 1003 of the IP layer is defined to have the specification characteristics SpecCharacteristics 1005 and 1006 shown in FIG. Two information objects corresponding to the two “lines” shown in FIG. 9 are created from the same specification of the line information 1003 of the IP layer. Since the information object generation instruction is performed by changing the value forming a pair with the characteristicName included in the information object generation instruction, a plurality of different information objects can be created based on the same specification. The specification of the line information static 1004 of the IP layer is defined to have the specification characteristics SpecCharacteristics 802, 803, and 804 shown in FIG. 10 (note that 802, 803, and 804 shown in FIG. Some parts are omitted, and to be precise, refer to the same numbers in FIG. 8).

  That is, the specification DB 102 stores one specification name Specification 1003 of line information and one specification name Specification 1004 of line information static.

In the NW of FIG. 9, the fact that the information object generation unit 103 generates an information object in the information object DB 104 with reference to the specification DB 102 will be described with reference to FIG.
When the specification is registered in the specification DB 102, the information object generation unit 103 receives an information object generation instruction and generates an information object. In the example of the NW shown in FIG. 9, one Spec_IP_line information 1003 and one Spec_IP_line information static 1004 stored in the specification DB 102 cause the information object generation unit 103 to execute one Spec_IP_line as shown in FIG. Information objects 1101 and 1103 based on line information 1003 are generated, and an information object 1102 based on one Spec_IP_line information static 1004 is generated.

  More specifically, the information objects generated for the line information in the IP layer include information objects 1101, 1201 and 1202 relating to IP_line a and information objects 1102 relating to IP_line static as shown in FIG. 1203, 1204 and 1205, and information objects 1103, 1206 and 1207 relating to the IP_line b.

  According to the above embodiment, the information used for NW management is not changed as a data model according to each NW, but can be applied to any NW and an extensible data model capable of expressing the diversity of the NW. Can be used.

  Further, according to the network management device of the present embodiment, it is possible to register, in the specification DB, a specification that prescribes Characteristic representing the characteristic of the NW for the information object of each NW according to the NW to be managed. is there.

  The device of the present invention can be realized also by a computer and a program, and the program can be recorded on a recording medium or provided through a network.

  Further, each of the above devices and their device portions can be implemented with either a hardware configuration or a combination configuration of hardware resources and software. As the software having the combination configuration, a program that is installed in a computer from a network or a computer-readable recording medium in advance and executed by a processor of the computer to realize the function of each device in the computer is used.

  Note that the present invention is not limited to the above-described embodiment as it is, and can be embodied by modifying constituent elements in an implementation stage without departing from the scope of the invention. Various inventions can be formed by appropriately combining a plurality of constituent elements disclosed in the above embodiments. For example, some components may be deleted from all the components shown in the embodiment. Further, components of different embodiments may be appropriately combined.

Reference Signs List 100 network management device 101 specification register 102 specification database 103 information object generation unit 104 information object DB 201 entity 202 202 221 222 223 characteristic values 211 1003 1004 ... line information, 212 ... point information, 213 ... surface information, 232, 233, 234, 235 ... information objects, 241, 242 ... characteristic values, 243, 244, 245, 246, 247, 248, 249, 250, 401, 402, 403, 404, 406, 407, 408, 409, 1101, 1102, 1103, 1201, 1202, 1203, 1204, 1205, 1206, 1207 ... Information object, 301 ... Information object generation instruction format, 302, 405, 501 … Information object Adult instruction, 701 ... Specifications registration instruction format, 702 ... Specifications registration instruction, 801,1004 ... line information static.

Claims (5)

Based on the data defining the data model format specifications which define the characteristics of the network, be one or more specification information including the characteristics of managed network, respectively, form and possible values for each of one or more characteristics A registration unit that registers specification information including a specification characteristic and a specification name including the range of
From the specification database, based on an information object generation instruction including information for associating with the specification name included in the specification information and a value specified for each of one or more items related to the information, It acquires specification information including the corresponding specification name, the value specified for each of the one or more items, respectively, consistent with the format of the corresponding properties of the specified characteristics included in the acquired specification information And a generation unit that generates an information object according to the data model format, representing network management information, including a value specified for each of the one or more items when included in the range of possible values. ,
A network management device comprising: The specification information is the line information showing the flow of communication in the network, information that terminating the communication traffic, and the network management device according to Der Ru claim 1 relates either side information representative of the range of flow of communication . Based on the data defining the data model format specifications which define the characteristics of the network, be one or more specification information including the characteristics of managed network, respectively, form and possible values for each of one or more characteristics Registering specification information comprising a specification characteristic and a specification name including the range of
From the specification database, based on an information object generation instruction including information for associating with the specification name included in the specification information and a value specified for each of one or more items related to the information, It acquires specification information including the corresponding specification name, the value specified for each of the one or more items, respectively, consistent with the format of the corresponding properties of the specified characteristics included in the acquired specification information And generating an information object in accordance with the data model format, representing management information of a network, including a value specified for each of the one or more items, when included in the range of possible values ;
A network management method comprising: The specification information is the line information showing the flow of communication in the network, information that terminating the communication traffic, and the network management method according to Der Ru claim 3 relates either side information representative of the range of flow of communication . A program for causing a computer to function as the network management apparatus according to claim 1 or 2.