JP2011119916A - Device and method for managing network - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To make the operating situation for the traffic of each service in a network readily recognized, using QoS class. <P>SOLUTION: A device 10 for managing network stores related information 131 among pieces of traffic information representing a master-slave relation between traffic handled by each transfer device 2 of the network and that handled by each server device 3 thereof; and accommodation relation information 133, showing the transfer device 2 which becomes an edge router, when each server device 3 performs session control or data distribution. Usage bands on a QoS class basis and traffic information representing allocation bands on a service basis are collected from the transfer devices 2 and the server devices 3, respectively. Service utilization situation information showing in which service the traffic, on the QoS basis of the respective transfer devices 2 is used, is created along with a breakdown of each traffic, based on those pieces of information, and is output. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a technique for managing a used bandwidth of a network based on traffic information collected from a server device or a router constituting the network.

  In a conventional network management system, obtain traffic information (allocated bandwidth) for each service provided by server devices, etc., and traffic information (actually used bandwidth) for each QoS (Quality of Service) class in transfer devices (routers, etc.) (Non-Patent Documents 1 to 3).

New ATOMICS, [online], [November 19, 2009 search], Internet, <URL: http: //www.ntt-review.jp/yougo/word.php? Word # id = 3370> MRTG, [online], [searched on November 19, 2009], Internet, <URL: http://www.mrtg.jp/doc/> X-OSS, [online], [Searched on November 19, 2009], Internet, <URL: http://www.ntt.co.jp/journal/0306/files/jn200306020.pdf>

  However, since the traffic transferred by each transfer device did not know what kind of service the traffic is used for, for example, when the use band of a certain QoS class suddenly increases in a predetermined transfer device, the use thereof It was not possible to identify which service was caused by the increase in the bandwidth used (allocated bandwidth). In other words, it is difficult to grasp the traffic operation status in the network, such as specifying a service that affects the bandwidth used for each QoS class in the transfer apparatus. In view of the above, an object of the present invention is to solve the above-described problems and to make it possible to grasp the traffic operation status of each service in a network using a QoS class.

  In order to solve the above-described problem, the invention according to claim 1 is a server apparatus that performs session control or data distribution between terminal apparatuses, and a transfer that transfers traffic based on a QoS class to the server apparatus and the terminal apparatus. A network management apparatus for managing the operation status of traffic in a network in a network including the apparatus, and for each traffic of a service in a server apparatus and each traffic of a QoS class in a transfer apparatus, the traffic related to the traffic When the server device performs session control or data distribution for each server device, the related information between the traffic information indicating the parent traffic aggregated, the connection relationship information indicating the connection relationship between the transfer device and the server device in the network , D A storage unit for storing accommodation relation information indicating a transfer device serving as a router, and traffic information of the transfer device indicating a bandwidth used for each QoS class in the transfer device from each of the network transfer devices via an input / output unit; A traffic collection unit that collects traffic information of the server device indicating the bandwidth allocated to the server device, a storage unit that stores the collected traffic information, and (1) connection relation information Then, referring to the connection relationship between the transfer device and the server device, and (2) accommodation relationship information, the server device and the transfer device serving as an edge router when this server device performs session control or data distribution And (3) with reference to traffic information related information and traffic information, Creates and outputs information indicating the use bandwidth of traffic by QoS class in the forwarding device serving as a traffic router and the traffic allocation bandwidth of the server device having the traffic as the parent traffic in association with the traffic of the QoS class And a traffic output unit for providing a network management device.

  The invention according to claim 2 is a network including a server device that performs session control or data distribution between terminal devices, and a transfer device that transfers traffic based on a QoS class to the server device and the terminal device. For each traffic of services in the server device and for each traffic of the QoS class in the transfer device, information related to the traffic information indicating the parent traffic in which the traffic related to the traffic is aggregated, and the transfer device and server constituting the network A storage unit for storing connection relation information indicating the connection relation of the apparatus and accommodation relation information indicating a transfer apparatus serving as an edge router when the server apparatus performs session control or data distribution for each server apparatus. Traffic luck in the network The network management device that manages the situation transmits the traffic information of the transfer device indicating the bandwidth used for each QoS class in the transfer device and the server device to the server device via the input / output unit. A step of collecting the traffic information of the server device indicating the allocated bandwidth, a step of storing the collected traffic information in the storage unit, and a connection relationship between the transfer device and the server device with reference to the connection relationship information A step of creating information, a step of creating information indicating a server device and a transfer device serving as an edge router when the server device performs session control or data distribution with reference to the accommodation relation information, and traffic information Transfer device that becomes an edge router by referring to inter-related information and traffic information Information indicating the band of traffic used for each QoS class and the traffic allocation band of the server device having the traffic as the parent traffic for the traffic of the QoS class is created, and the transfer device and the server device A network management method comprising: executing information including connection information, a server device, and information indicating information indicating a transfer device serving as an edge router when the server device performs session control or data distribution. It was.

  According to such a network management apparatus, it is possible to associate traffic between the transfer apparatus and the server apparatus, and it is possible to grasp the operation status of traffic of each service in the network using the QoS class.

  According to the present invention, it is possible to associate traffic between a transfer device and a server device, and it is possible to grasp the operational status of traffic of each service in a network using a QoS class.

It is the figure which illustrated the structure of the network management apparatus of this Embodiment. It is the figure which illustrated the relevant information between traffic information of FIG. 1, connection relation information, accommodation relation information, and traffic information DB. It is the figure which illustrated the service utilization status information which the traffic output part of FIG. 1 outputs. It is the figure which showed the process sequence of the traffic output part of FIG.

  Embodiments of the present invention will be described below. First, the configuration of the network management apparatus 10 according to the present embodiment will be described with reference to FIG. The network management device 10 receives from the transfer device 2 traffic information indicating the bandwidth used for each QoS class in the transfer device 2 and a server device 3 (for example, SIP (Session Initiation) that performs session control between terminal devices (not shown). Protocol) from a server or the like) to collect traffic information indicating the bandwidth allocated for each service. Then, the network management device 10 determines that the collected traffic information and the traffic information related information 131 indicating the parent-child relationship (breakdown) of each traffic (the bandwidth allocated to a service is actually the interface of which device) Information indicating which QoS class bandwidth is used), and the accommodation relation information 133 indicating the transfer device 2 serving as an edge router of traffic for which each server device 3 performs session control, Information indicating the breakdown of the bandwidth used for each QoS class in the transfer device 2 (service usage status information, see FIG. 3) is created. The transfer device 2 is, for example, a router or a layer 2 switch, and transfers a packet based on the QoS class. In addition to the SIP server, the server device 3 may be a device that distributes data to a terminal device, such as a video distribution server or an audio distribution server.

  Such a network management apparatus 10 is realized by a computer including an input / output unit 11, a storage unit 13, and a processing unit 12.

  The input / output unit 11 includes a communication interface that can communicate with an input / output interface, IP (Internet Protocol), or the like. The storage unit 13 includes a storage medium such as a random access memory (RAM), a read only memory (ROM), a hard disk drive (HDD), and a flash memory. When the network management device 10 is realized by program execution processing, the storage unit 13 stores a program for realizing the functions of the network management device 10. The processing unit 12 is realized by a program execution process by a CPU (Central Processing Unit) included in the network management apparatus 10 or a dedicated circuit.

  First, various information stored in the storage unit 13 will be described. The storage unit 13 stores traffic information related information 131, connection relation information 132, and accommodation relation information 133. The storage unit 13 includes an area for storing a traffic information DB 134 that is a traffic information group collected by the traffic collection unit 121 (described later).

  The traffic information related information 131 is information indicating the parent traffic in which the traffic related to the traffic is aggregated for each traffic of the service in the server device 3 and for each of the QoS classes in the transfer device 2. The traffic information related information 131 is information indicating the traffic ID of the parent traffic of the traffic with the traffic ID for each traffic ID, as illustrated in FIG. 2A. For example, the inter-traffic information related information 131 shown in FIG. 2A indicates that the parent traffic of the QoS classes A, B, and C traffic (used bandwidth) of the interface 1 is the traffic of the interface 1. Further, the used bandwidth (allocated bandwidth) of the services A1 and A2 indicates that it is a used bandwidth of the QoS class A of the interface 1. The traffic information related information 131 is referred to when the traffic output unit 123 creates service usage status information (see FIG. 3).

  The connection relation information 132 is information indicating which interface the transfer device 2 and the server device 3 constituting the network are connected to. As illustrated in FIG. 2B, the connection relation information 132 includes, for each device ID of the transfer device 2 or the server device 3 and an interface ID of the interface of the device, a connection destination device ( This is information indicating the device ID of the transfer device 2 or the server device 3) and the interface ID of the interface used for the connection. For example, the connection relationship information 132 shown in FIG. 2B indicates that the device with the device ID “2A” (transfer device 2A) is the device with the device ID “2B” (transfer device 2B) through the interface with the interface ID “2”. Is connected to the interface having the interface ID “1”. This connection relation information 132 is also referred to when the traffic output unit 123 creates service usage status information (see FIG. 3).

  The accommodation relation information 133 is information indicating, for each server device 3, the transfer device 2 that becomes an edge router when the server device 3 performs session control and data distribution. That is, the information indicates the transfer device 2 accommodated in the server device 3. For example, the storage relationship information 133 illustrated in FIG. 2C indicates that the transfer device 2 serving as an edge router when the device with the device ID “3A” (server device 3A) performs session control and data distribution has the device ID “2A”. "(Transfer device 2A). The accommodation relationship information 133 is referred to when the traffic output unit 123 creates service usage status information (see FIG. 3).

  The traffic information DB 134 is a traffic information group collected by the traffic collection unit 121. This traffic information is information indicating, for each device ID in the network, a traffic ID of traffic passing through the device (transfer device 2 and server device 3) and a traffic value (usage band) of the traffic. For example, the traffic information DB 134 shown in FIG. 2D indicates that the bandwidth used for the interface 1 of the device (transfer device 2A) with the device ID “2A” is “500 Mbps”. Also, the QoS class A bandwidth used for interface 1 of the device with device ID “2A” (transfer device 2A) is “100 Mbps”, the bandwidth used for QoS class B is “150 Mbps”, and the QoS class C bandwidth is used. The band indicates “250 Mbps”. In addition, it is shown that the use band (allocation band) of the service A1 of the apparatus with the apparatus ID “3A” (server apparatus 3A) is “25 Mbps” and the use band (allocation band) of the service A2 is “75 Mbps”. Show. The traffic information DB 134 is referred to when the traffic output unit 123 creates the used bandwidth of each interface and the breakdown of the used bandwidth in the service usage status information (see FIG. 3). The traffic information DB 134 may include information on the date and time when each traffic information is measured (or collected) as shown in FIG.

  Next, the processing unit 12 in FIG. 1 will be described. The processing unit 12 controls the network management apparatus 10 as a whole. Here, the processing unit 12 mainly collects network information from the transfer apparatus 2 and the server apparatus 3 and creates service usage status information. Such a processing unit 12 includes a traffic collection unit 121, a traffic totaling unit 122, and a traffic output unit 123.

  The traffic collection unit 121 collects network information measured by each device from the transfer device 2 (2A, 2B, 2C) and the server device 3 (3A, 3B, 3C) in the network via the input / output unit 11. . Then, this network information is stored in the traffic information DB 134. As shown in the traffic information DB 134 (see FIG. 2 (d)), this network information includes the bandwidth and QoS class used by the transfer device 2 for the traffic if the device is the transfer device 2. It is the information which shows the use band for every. In this information, if the transfer device 2 has a plurality of interfaces, the used bandwidth of traffic transferred by using the interface and the used bandwidth for each QoS class are indicated for each interface. If the device is the server device 3, for each service provided by the server device 3 through the traffic, a bandwidth (bandwidth used) allocated to the service is indicated.

  The traffic totaling unit 122 reads traffic information for a predetermined period from the traffic information accumulated in the traffic information DB 134 and outputs the traffic information to the traffic output unit 123. It should be noted that which period of traffic information is to be read is set via the input / output unit 11.

  The traffic output unit 123 refers to the traffic information output by the traffic totaling unit 122, the traffic information related information 131, the connection relationship information 132, and the accommodation relationship information 133 stored in the storage unit 13, and the service usage status information (See FIG. 3). Details of the processing by the traffic output unit 123 will be described later using a flowchart.

  Next, details of the processing of the traffic output unit 123 will be described with reference to FIGS. Here, it is assumed that the network management apparatus 10 has already collected the traffic information and accumulated the collected traffic information in the traffic information DB 134.

  First, the traffic output unit 123 in FIG. 1 refers to the connection relation information 132 (see FIG. 2B), and for each device ID, corresponds to the device corresponding to the device ID and the connection destination device ID. For example, image information connected to the apparatus by a solid line is created. When an interface is drawn in the apparatus, image information is created by connecting the interfaces with a solid line (S1).

  For example, the traffic output unit 123 refers to the connection relation information 132 and, as illustrated in FIG. 3, the transfer device 2 (2A to 2E), the server device 3 (3A, 3B), and the terminal device 4 (4A, 4B). ), Image information in which connected devices are connected by a solid line is created.

  Next, the traffic output unit 123 refers to the accommodation relation information 133 (see FIG. 2C), and for each device ID of the server device 3, the device corresponding to the device ID (server device 3) and the accommodation For example, image information is created by connecting a device corresponding to the device ID (transfer device 2) with a broken line (S2 in FIG. 4). As a result, information indicating the connection relationship between the devices is created.

  For example, the traffic output unit 123 refers to the accommodation relation information 133 and connects the server apparatus 3A and the transfer apparatus 2A that is the accommodation apparatus of the server apparatus 3A with a broken line, as illustrated in FIG. 3B and a transfer device 2E that is a storage device of the server device 3B are connected by a broken line. As a result, information indicating which server device 3 uses which transfer device 2 as an edge router is created.

  Next, the traffic output unit 123 displays the traffic ID of each traffic indicated in the traffic information output from the traffic totaling unit 122 and the traffic value (used bandwidth or allocated bandwidth) of the traffic for each device ID. Image information is created (S3 in FIG. 4). At this time, the traffic information related information 131 (see FIG. 2C) is searched for each traffic ID, and when the traffic ID includes a parent traffic ID, it is displayed as a breakdown of the parent traffic ID (S4). .

  For example, the traffic output unit 123 refers to the traffic information (see FIG. 2D) and the traffic information related information 131 (see FIG. 2A), as shown in balloons 301, 302, 303, and 304. Display information. That is, in the traffic information related information 131, the parent traffic ID of the used bandwidth of the QoS classes A, B, and C of the interface 1 is “used bandwidth of the interface 1”. In addition, based on the traffic information, the bandwidths used for the QoS classes A, B, and C of the interface 1 are “100 Mbps”, “150 Mbps”, and “250 Mbps”, respectively. Further, the bandwidth used by the interface 1 which is the parent traffic of these traffics is “500 Mbps”. Therefore, based on these pieces of information, the traffic output unit 123 creates image information in which the bandwidth used for each QoS class is displayed as “breakdown” for the bandwidth used for each interface of each device, as indicated by a balloon 302. To do. As for the server device 3, as shown in a balloon 301, image information displaying the used bandwidth (allocated bandwidth) for each service provided by the server device 3 is created.

  In addition, when the service usage status information is displayed, the traffic output unit 123, when the parent traffic in the traffic information related information 131 is traffic flowing through the accommodation device of the server device 3, is divided into separate frames. This is displayed (S5 in FIG. 4). For example, the parent traffic of the traffic of the services A1 and A2 of the server device 3A is the QoS class A traffic of the transfer device 2A. Therefore, as a breakdown of the QoS class A bandwidth used by the transfer device 2A, the bandwidth (allocated bandwidth) “25 Mbps” of the service A1 of the server device 3A and the bandwidth used of the service A2 of the server device 3A indicated by the traffic information “ “75 Mbps” is displayed in association with a balloon 304. The network management device 10 creates and outputs such service usage status information, so that the network administrator can easily understand which service the traffic is used for for each QoS class. Become. For example, when the use bandwidth of the QoS class A of the transfer device 2A in FIG. 3 is 100 Mbps, and the child traffic of the traffic of the QoS class A of the transfer device 2A is the traffic of the services A1 and A2 of the server device 3A, this QoS In order to reduce the use bandwidth of class A, it becomes easy to determine whether the use bandwidth (allocation bandwidth) of service A2 of server apparatus 3A should be reduced.

DESCRIPTION OF SYMBOLS 2 Transfer apparatus 3 Server apparatus 4 Terminal apparatus 10 Network management apparatus 11 Input / output part 12 Processing part 13 Storage part 121 Traffic collection part 122 Traffic totaling part 123 Traffic output part 131 Traffic information related information 132 Connection relation information 133 Accommodation relation information 134 Traffic information DB

Claims (2)

In a network comprising a server device that performs session control or data distribution between terminal devices, and the server device and a transfer device that forwards traffic to the terminal device based on a QoS class, manages the operational status of traffic in the network A network management device that
For each traffic of the service in the server device, and for each traffic of the QoS class in the transfer device, traffic information related information indicating parent traffic that aggregates traffic related to the traffic, and
Connection relationship information indicating a connection relationship between the transfer device and the server device in the network;
For each of the server devices, when the server device performs session control or data distribution, a storage unit that stores accommodation relation information indicating the transfer device serving as an edge router;
Via the input / output unit, from each of the transfer devices of the network, the traffic information of the transfer device indicating the used bandwidth for each QoS class in the transfer device, and the bandwidth allocated to the server device from each of the server devices. A traffic collection unit that collects traffic information of the server device shown;
A storage unit for storing the collected traffic information;
(1) information indicating a connection relationship between the transfer device and the server device with reference to the connection relationship information; and (2) the server device with reference to the accommodation relationship information and the server device performing session control. Alternatively, information indicating a transfer device serving as an edge router when data distribution is performed, and (3) QoS in the transfer device serving as the edge router is referred to by referring to the traffic information related information and the traffic information. A traffic output unit that creates and outputs information indicating the use band of traffic for each class and the traffic allocation band of the server device having the traffic as a parent traffic in association with the traffic of the QoS class. A network management device comprising: In a network comprising a server device that performs session control or data distribution between terminal devices, and a transfer device that transfers traffic based on a QoS class to the server device and the terminal device, the traffic of each service in the server device, For each traffic of the QoS class in the transfer device, the traffic information related information indicating the parent traffic that aggregates the traffic related to the traffic, and the connection relationship between the transfer device and the server device constituting the network. A storage unit for storing the connection relation information shown and the storage relation information indicating the transfer device serving as an edge router when the server device performs session control or data distribution for each server device; Traffic Network management device for managing the operational situation,
Via the input / output unit, from each transfer device of the network, the traffic information of the transfer device indicating the used bandwidth for each QoS class in the transfer device, and the bandwidth allocated to the server device from each of the server devices Collecting server device traffic information;
Storing the collected traffic information in a storage unit;
Creating information indicating a connection relationship between the transfer device and the server device with reference to the connection relationship information;
Referring to the accommodation relation information, creating information indicating the server device and a transfer device serving as an edge router when the server device performs session control or data distribution;
With reference to the inter-traffic information related information and the traffic information, the server device which uses the traffic for each QoS class in the transfer device serving as the edge router and the traffic for the QoS class as the parent traffic. Information indicating the allocation band of traffic of the network, information indicating the connection relationship between the transfer device and the server device, the edge when the server device performs session control or data distribution And a step of outputting together with information indicating a transfer device as a router.

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