JP5619715B2 - Network configuration grasping system and method - Google Patents

Description

  The present invention relates to a technique for grasping a network configuration.

  In recent years, various terminals and devices have been connected to home networks. When maintaining a network, it is necessary to grasp the configuration such as what terminals and devices are connected to the network. Normally, a terminal or device connected to a home network uses an IPv4 address that is dynamically issued from a DHCP server (often a router) by DHCP (Dynamic Host Configuration Protocol). For this reason, the IPv4 address of a terminal or device connected to the home network dynamically changes depending on the timing of payout.

  HTIP (Home-Network Topology Identifying Protocol) exists as a protocol for acquiring device information of terminals and devices connected to a network. In HTIP, when a network device that does not divide the network represented by switching HUB into segments is connected from a compatible terminal, such as an IP address, MAC address, manufacturer name, model number, model name, and corresponding service information The connection route information indicating the connection route can be acquired. Non-Patent Document 1 describes that a home network configuration is specified using HTIP.

Mihara, 5 others, “Examination of home network configuration identification method on multiple segments”, IEICE Proceedings 2, IEICE, August 2011, p. 195

  However, HTIP is effective only within the same IPv4 segment, and HTIP packets do not reach other segments. For this reason, device information cannot be acquired from terminals or devices existing in other segments, and the network configuration of the entire home network may not be grasped.

  In Non-Patent Document 1, an HTIP-Manager that collects information in a segment using HTIP estimates the IP address of the HTIP-Manager placed in an adjacent upper segment, establishes a session, and stores network configuration information. Send and receive to understand the network configuration of adjacent segments. However, Non-Patent Document 1 has a problem that a bandwidth and a standby time are required because packets are transmitted to all the estimated HTIP-Manager IP addresses. In addition, since network configuration information is exchanged only between adjacent segments, when the network is composed of three or more multi-stage segments, it can be determined which HTIP-Manager holds the network configuration information of the entire network. There is no problem.

  The present invention has been made in view of the above, and an object of the present invention is to grasp the configuration of the entire network in a network in which segments are separated.

  A network configuration grasping system according to a first aspect of the present invention includes an information integration device connected to the highest segment of a network divided into a plurality of segments by one or more routers, and an information collection device connected to each of the segments A network configuration grasping system that generates network overall configuration information describing the configuration of the entire network, wherein the information collection device collects device information of devices connected to the segment to which the information collection device belongs And collecting means for generating network configuration information describing the configuration of the segment, requesting name resolution of a fixed name set in the information integration device, obtaining an IP address of the information integration device, and obtaining the information The number of routers present in the route to the integrated device and the segment to which the information collecting device belongs Address information acquisition means for acquiring a WAN-side IP address of a secondary router, and transmission means for transmitting the network configuration information, the number of routers, and the WAN-side IP address to the information integration device, and the information integration A receiving unit that receives the network configuration information, the number of routers, and the WAN-side IP address from each of the information collection devices; and the network configuration information of the smallest number of the routers received by the receiving unit Is searched from the entire network configuration information for a location that includes the same IP address as the WAN-side IP address in the device information in ascending order of the number of routers. And an integration means for overwriting.

  The network configuration grasping method according to the second aspect of the present invention includes an information integration device connected to the highest segment of a network divided into a plurality of segments by one or more routers, and an information collection device connected to each of the segments. The network configuration grasping method for generating the entire network configuration information describing the configuration of the entire network according to the information collection device by collecting device information of devices connected to the segment to which the information collection device belongs Generating network configuration information describing the configuration of the segment, requesting name resolution of a fixed name set in the information integration device, obtaining an IP address of the information integration device, and obtaining the information integration device The number of routers present in the path of and the upper segment of the segment to which the information collection device belongs Obtaining the WAN side IP address of the data, and transmitting the network configuration information, the number of routers and the WAN side IP address to the information integration device, according to the information integration device, Receiving the network configuration information, the number of routers and the WAN-side IP address from each of the information collection devices; and receiving the network configuration information of the smallest number of routers received in the receiving step. The entire network configuration information is searched for a location that includes the same IP address as the WAN side IP address in the device information from the network overall configuration information in the order from the smallest number of routers, and the network configuration information is overwritten in the location. And a step.

  According to the present invention, it is possible to grasp the configuration of the entire network in a network in which segments are separated.

It is a whole lineblock diagram including the network composition grasping system in this embodiment. It is a functional block diagram which shows the structure of the home gateway and information collection terminal in this Embodiment. It is a figure which shows the specific example of network configuration information. It is a sequence diagram which shows the flow of the process which an information collection terminal constructs | assembles network configuration information and transmits to HGW. It is a figure which shows the execution result of tracet. It is a flowchart which shows the flow of the process in which a home gateway constructs | assembles the network configuration information of the whole home network. It is a figure which shows the example of the network configuration information to integrate. It is a figure which shows the example which integrated network configuration information.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  FIG. 1 is an overall configuration diagram including a network configuration grasping system according to the present embodiment.

  The home network using the network configuration grasping system in the present embodiment has an HGW (home gateway) 1 connected to the access network as the highest level of the home network, and routers 3B, 3C, 3D are arranged in four segments. It is divided. Various terminals and devices are connected to the home network. FIG. 1 shows an example in which the television 4D connected to the segment 4 is connected to the home network.

  This network configuration grasping system is composed of an HGW (home gateway) 1 and information collecting terminals 2A, 2B, 2C, 2D arranged in each segment of the home network. This network configuration grasping system collects network configuration information of each segment at each information collection terminal 2A, 2B, 2C, 2D, and integrates the network configuration information of each segment at HGW1 to show the overall configuration of the home network Generate information.

  FIG. 2 is a functional block diagram showing configurations of the HGW 1 and the information collection terminal 2. The HGW 1 shown in the figure includes a reception unit 11, a name resolution unit 12, an integration unit 13, an NW configuration information transmission unit 14, and a storage unit 15. The information collection terminal 2 includes a collection unit 21, an address acquisition unit 22, and a transmission. Unit 23, NW configuration information acquisition unit 24, and storage unit 25. Each unit included in the HGW 1 and the information collection terminal 2 may be configured by a computer including an arithmetic processing device, a storage device, and the like, and the processing of each unit may be executed by a program. This program is stored in a storage device included in the HGW 1 and the information collection terminal 2, and can be recorded on a recording medium such as a magnetic disk, an optical disk, or a semiconductor memory, or provided through a network.

  First, each part of the information collection terminal 2 will be described.

  The collection unit 21 collects device information and connection path information of the segment to which the information collection terminal 2 belongs, constructs NW (network) configuration information of the same segment, and stores it in the storage unit 15. The NW configuration information is information indicating the configuration of the network such as what terminals and devices are connected to the network. The collection unit 21 constructs NW configuration information of a segment to which the information collection terminal 2 is connected in the entire home network.

  The address acquisition unit 22 requests the name resolution of the fixed name set in the HGW 1 to obtain the IP address of the HGW 1, and obtains the IP address of the HGW 1 and the WAN side IP address of the upper router of the segment to which the information collection terminal 2 belongs To get.

  The transmission unit 23 transmits to the HGW 1 NW configuration information of the same segment constructed by the collection unit 21, the number of hops to the HGW 1 acquired by the address acquisition unit 22, and the WAN-side IP address of the upper router.

  The NW configuration information acquisition unit 24 acquires the NW configuration information of the entire home network from the HGW 1 and stores it in the storage unit 25.

  The storage unit 25 stores NW configuration information of the same segment to which the information collection terminal 2 belongs and NW configuration information of the entire home network.

  Next, each part of the HGW 1 will be described.

  The receiving unit 11 receives the NW configuration information of each segment, the number of hops, and the WAN-side IP address of the upper router from the information collection terminal 2 arranged in each segment, and stores them in the storage unit 15.

  The name resolution unit 12 returns the corresponding IP address in response to the inquiry from the information collection terminal 2. In response to an inquiry about a fixed name (for example, “HGW.jp”) having a function of so-called DNS (Domain Name Server) and indicating the HGW 1 itself, the LAN side IP address of the HGW 1 itself is returned.

  The integration unit 13 uses the NW configuration information of the smallest number of routers as the source of the NW configuration information of the entire home network, and for the information received from each information collection terminal 2, the WAN side IP address of the upper router in ascending order of the number of routers Is searched from the NW configuration information of the entire home network, the network configuration information to be processed is overwritten at that location, and the NW configuration information is integrated and stored in the storage unit 15.

  In response to a request from the information collection terminal 2, the NW configuration information transmission unit 14 reads out and transmits the NW configuration information of the entire home network from the storage unit 15.

  The storage unit 15 stores the segment information received from the information collection terminal 2 of each segment and the NW configuration information of the entire home network.

  Here, the NW configuration information will be described.

  The NW configuration information is information indicating a network configuration. The information collection terminal 2 arranged in each segment constructs NW configuration information for each segment, and the HGW 1 integrates the NW configuration information for each segment to construct NW configuration information for the entire home network.

  The NW configuration information of each segment is constructed from the device information and connection path information collected by the information collection terminal 2 from the terminals and devices in the same segment using HTIP. The device information is information such as the IP address, MAC address, manufacturer name, model number, model name, and corresponding service of the terminal or device. The connection path information is information indicating a connection path when a network device that does not divide the network represented by the switching HUB into segments is connected.

  FIG. 3 shows a specific example of NW configuration information.

  In the present embodiment, NW configuration information is constructed in XML format based on the device information and connection path information. The NW configuration information is surrounded by <topology> tags, and information of each terminal or device connected to the network is described in a portion surrounded by <device> tags. Describe how terminals and devices are connected in a nested structure. Specifically, the device connected to the apex of the tree structure of the network is described as a root device in the <device> tag, and the terminal or device connected to the root device is nested in the <device> tag of the root device. It is described by <device> tag in structure. Similarly, a terminal or device connected to a switching HUB or the like is described in a <device> tag in a nested structure within a <device> tag of the switching HUB.

  For example, in the network 4 segment information shown in FIG. 1, the router 3D is described as a root device, and the information collection terminal 2D and the television 4D are described nested in a <device> tag of the router 3D. Also, the NGW configuration information of the entire home network is described with HGW1 as the root device, information collection terminal 2A, routers 3B, 3D are nested in the <device> tag of HGW1, and further, <3> of routers 3B, 3D In the device> tag, information on terminals and devices connected to the segments 2 and 4 is described in the <device> tag.

  Next, a process in which the information collection terminal constructs the NW configuration information of the segment and transmits it to the HGW will be described.

  FIG. 4 is a sequence diagram showing a flow of processing in which the information collection terminal 2C constructs NW configuration information and transmits it to the HGW 1.

  First, the information collection terminal 2C collects device information and connection path information of each terminal or device in the same segment (step S101). The collection unit 21 transmits an HTIP packet for requesting information, its own IP address and MAC address to each terminal or device in the same segment, and each terminal or device that has received the HTIP packet includes device information, connection route It returns information and its own IP address and MAC address. The IP addresses and MAC addresses of all terminals and devices connected to the same segment can be grasped by using ARP. It is confirmed that device information and connection route information of all terminals and devices in the same segment are acquired from all pairs of IP addresses and MAC addresses acquired using ARP.

  Then, the information collection terminal 2C constructs NW configuration information of the same segment based on the received device information and connection path information, and stores it in the storage unit 15 (step S102).

  Subsequently, the address acquisition unit 22 of the information collection terminal 2C acquires the IP address of the HGW 1 (step S103). The address acquisition unit 22 transmits a name resolution request for a fixed name (“HGW.jp” in the present embodiment) preset in the HGW 1 and the IP address and MAC address of the information collection terminal 2C itself to the router 3C. . Each router is a DNS in the segment, and the name resolution request is relayed to the HGW 1 via the routers 3C and 3B. The name resolution unit 12 of the HGW 1 returns the IP address of the HGW 1 itself when the name to be resolved by the name resolution request is a fixed name set in the HGW 1. The IP address of HGW 1 is received by information collecting terminal 2C via routers 3B and 3C.

  Subsequently, the route to the HGW 1 is examined, and the number of hops (the number of routers) to the HGW 1 is acquired (step S104). Specifically, the IP address and the number of hops of the routers 3C and 3B that pass through to the HGW 1 are acquired using the tracert command. The trace (or traceroute) uses the Internet Control Message Protocol (ICMP) to acquire the IP addresses of the routers in the order closer to the information collection terminal 2C (in the order of the smaller number of routers passing through). FIG. 5 shows the execution result of tracet. For example, since the information collection terminal 2C passes through the routers 3C, 3B, and HGW1 up to the HGW 1, the LAN side IP addresses of the routers 3C, 3B, and HGW 1 are acquired as execution results, and the number of hops is 3. Further, since only the HGW 1 passes through the information collecting terminal 2A to the HGW 1, the execution result of the tracert is only the LAN side IP address of the HGW 1, and the number of hops is 1.

  Then, the WAN side IP address of the upper router 3C is acquired (step S105). UPnP IGD is used to acquire the WAN-side IP address of the upper router 3C. By using UPnP IGD, it is possible to discover the upper router 3C of the information collection terminal 2C and acquire the WAN-side IP address of the upper router 3C. In the example shown in FIG. 1, 192.168.2.100 is the WAN side IP address of the router 3C.

  Then, the transmission unit 23 of the information collection terminal 2C transmits the NW configuration information of the segment, the number of hops, and the WAN side IP address of the upper router 3C to the HGW 1 (step S106).

  The HGW 1 stores the NW configuration information received from the information collection terminal 2C, the number of hops, and the WAN-side IP address of the upper router 3C in the storage unit 15, and uses the information received from each information collection terminal for the entire home network NW configuration information is constructed and accumulated in the accumulation unit 15 (step S107).

  Next, a process in which the HGW constructs NW configuration information for the entire home network will be described.

  FIG. 6 is a flowchart showing a flow of processing in which the HGW 1 constructs NW configuration information for the entire home network.

  First, it is determined whether NW configuration information is received from an information collection terminal with a hop count of 1 (step S201). If it has not been received yet, it waits for reception of NW configuration information from an information collection terminal with a hop count of 1.

  When the NW configuration information is received from the information collection terminal having the hop number 1, the hop number i is initialized to 1 (step S202), and the NW configuration information is used as the source of the NW configuration information for the entire home network (step S202). S203).

  Then, the number of hops i is incremented by 1 (step S204), and it is determined whether the NW configuration information received from the information collection terminal with the number of hops i exists (step S205). If the NW configuration information does not exist, the processing is terminated assuming that the NW configuration information for the entire home network has been constructed.

  If there is NW configuration information for the number of hops i, the NW configuration information is integrated into the NW configuration information for the entire home network (step S206). Specifically, a device having the same IP address as the WAN side IP address of the upper router of the NW configuration information segment of the hop count i to be processed is searched from the NW configuration information of the entire home network, and the device is described. Overwritten (the part enclosed by the <device> tag) with the processing target NW configuration information (the part enclosed by the <topology> tag). At this time, the IP address and MAC address of the root device of the NW configuration information to be processed are changed to the IP address and MAC address of the device to be overwritten, that is, the WAN side IP address and MAC address.

  Then, it is determined whether there is NW configuration information of the number of hops i that has not yet been integrated into the NW configuration information of the entire home network (step S207). If there is NW configuration information with a non-integrated hop number i, the process returns to step S206, and NW configuration information is integrated. If not, the process returns to step S204 to increase the hop number i. Then, in step S205, it is determined whether or not NW configuration information with the number of hops i exists. If there is no NW configuration information, the processing is terminated assuming that the NW configuration information has been constructed.

  Next, integration of NW configuration information will be described using a specific example.

  FIG. 7A shows the NW configuration information received from the information collection terminal 2A with a hop number of 1, and FIG. 7B shows the NW configuration information received from the information collection terminal 2D with a hop number of 2. In the NW configuration information shown in FIG. 7A, the HGW 1 is the root device, and the information collection terminal 2A and the routers 3B and 3D are connected to the HGW 1. In the NW configuration information shown in FIG. 7B, the router 3D is a root device, and the information collection terminal 2D and the television 4D are connected to the router 3D.

  In step S203 in FIG. 6, the NW configuration information in FIG. 7A, that is, the NW configuration information received from the information collection terminal 2A having the hop count of 1, is used as the source of the NW configuration information for the entire home network. And other NW configuration information are integrated.

  In step S206 of FIG. 6, the device having the same IP address as the WAN-side IP address (192.168.1.57) of the upper router of FIG. 7B is the NW configuration of the entire home network shown in FIG. Search from information. In the example of FIG. 7, the IP address of the router 3D matches the WAN side IP address of the upper router in FIG. 7B.

  Then, as shown in FIG. 8, the NW configuration information in FIG. 7B is overwritten on the location where the information of the router 3D of the NW configuration information in FIG. 7A is written. At this time, the IP address and MAC address of the root device in the overwritten NW configuration information are changed to the IP address and MAC address of the overwritten device. In the example of FIG. 8, the IP address (192.168.4.1) of the router 3D in the NW configuration information in FIG. 7B is changed to the IP address (192.168.1.57) of the router 3D in FIG. That is, it is changed to the WAN side IP address of the router 3D.

  As described above, according to the present embodiment, the information collection terminal 2 collects device information and connection path information of the same segment, constructs NW configuration information of the same segment, and assigns a fixed name of the HGW 1. Name resolution is performed to obtain the IP address of HGW1, and the number of hops to HGW1 and the WAN side IP address of the upper router of the same segment are obtained. The number of hops and the WAN side IP address of the upper router are obtained together with the NW configuration information of the same segment. HGW1 receives the NW configuration information, the number of hops, and the WAN side IP address of the upper router from each information collection terminal 2, and integrates the received NW configuration information to construct the NW configuration information for the entire home network Even if the home network is divided into multiple segments, the information collection end of each segment Since the NW configuration information from 2 HGW1 integrates received, it is possible to grasp the entire home network configuration.

1 ... HGW
DESCRIPTION OF SYMBOLS 11 ... Reception part 12 ... Name resolution part 13 ... Integration part 14 ... NW structure information transmission part 15 ... Storage part 2, 2A, 2B, 2C, 2D ... Information collection terminal 21 ... Collection part 22 ... Address acquisition part 23 ... Transmission part 24 ... NW configuration information acquisition unit 25 ... Storage unit 3B, 3C, 3D ... Router 4D ... TV

Claims (2)

A network having an information integration device connected to the highest segment of a network divided into a plurality of segments by one or more routers and an information collection device connected to each of the segments, and describing the configuration of the entire network A network configuration grasping system that generates overall configuration information,
The information collecting device includes:
Collecting means for collecting device information of devices connected to the segment to which the information collecting device belongs and generating network configuration information describing the configuration of the segment;
Requests name resolution of the fixed name set in the information integration device, obtains the IP address of the information integration device, and the number of the routers existing in the route to the information integration device and the information collection device belong Address acquisition means for acquiring the WAN-side IP address of the upper router of the segment;
Transmitting means for transmitting the network configuration information, the number of the routers, and the WAN-side IP address to the information integration device;
The information integration device includes:
Receiving means for receiving the network configuration information, the number of routers, and the WAN-side IP address from each of the information collection devices;
The network configuration information of the smallest number of the routers received by the receiving means is used as the entire network configuration information, and the same IP address as the WAN-side IP address is included in the device information in order from the smallest number of routers. A network configuration grasping system comprising: integration means for retrieving a location from the entire network configuration information and overwriting the network configuration information at the location. An overall network configuration describing the overall network configuration by an information integration device connected to the highest segment of the network divided into a plurality of segments by one or more routers and an information collection device connected to each of the segments A network configuration grasp method for generating information,
According to the information collecting device,
Collecting device information of devices connected to the segment to which the information collection device belongs and generating network configuration information describing the configuration of the segment;
Requests name resolution of the fixed name set in the information integration device, obtains the IP address of the information integration device, and the number of the routers existing in the route to the information integration device and the information collection device belong Obtaining the WAN side IP address of the upper router of the segment;
Transmitting the network configuration information, the number of routers, and the WAN-side IP address to the information integration device,
According to the information integration device,
Receiving the network configuration information, the number of routers and the WAN side IP address from each of the information collection devices;
The network configuration information of the smallest number of routers received in the receiving step is used as the entire network configuration information, and the same IP address as the WAN-side IP address is used as the device information in order of increasing number of routers. A network configuration grasping method comprising: searching for a location including the entire network configuration information and overwriting the location with the network configuration information.

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