JP2020048104A - Network survey device, network survey method, and program - Google Patents

Abstract

To provide a network survey device, a network survey method, and a program that can perform data coordination between an external system and the network survey device and avoid congestion, holding a session for a long time, load concentration, and the like when performing data coordination between systems over a plurality of networks.SOLUTION: A network survey device 100 surveys a plurality of network paths. The network survey device 100 includes a response information management unit 10 that receives a request including a line ID from an external system 60 and generates a plurality of request IDs. The response information management unit 10 transmits a survey result of a network path obtained for each request ID together with the line ID to the external system 60.SELECTED DRAWING: Figure 1

Description

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

  2. Description of the Related Art Conventionally, the following communication network diagnosis technology is known.

For example, Patent Literature 1 discloses a communication network diagnosis method for diagnosing a communication network to which a user terminal is connected, by connecting a telephone from the user, presenting a menu to the user, recognizing the user's menu selection, A technique has been proposed in which a device is connected to a communication network according to a scenario according to a menu selection to check a device, and a diagnosis result obtained by the check is presented to a user through a telephone (for example, see Patent Document 1).

JP 2005-184638 A

  However, Patent Literature 1 does not disclose a technique for performing data cooperation between a user and a network diagnosis system. Further, in coordinating data between systems over a plurality of networks, it is necessary to avoid congestion, long-term session retention, load concentration, and the like.

  Therefore, the present invention can achieve data cooperation between an external system and a network investigation device, and avoids congestion, long-time session retention, load concentration, and the like when performing data cooperation between systems over a plurality of networks. It is an object of the present invention to provide a network investigation device, a network investigation method, and a program that can perform the above.

  A network investigation device according to an aspect of the present invention is a network investigation device that investigates a plurality of network routes, and includes a response information management unit that receives a request including a line ID from an external system and generates a plurality of request IDs. In addition, the response information management unit transmits a network route investigation result obtained for each request ID to an external system together with the line ID.

  The response time of the network accommodation devices to be investigated varies. Continuing to maintain an HTTP session for a request (survey request) until the end of the survey causes a system load. According to this aspect, the response information management unit generates a plurality of request IDs from the request (survey request). The response information management unit transmits the result of the investigation of the network route obtained for each request ID to the external system together with the line ID. That is, since the network route survey result is repeatedly responded to by starting and stopping, data cooperation can be achieved between the external system and the network surveying device. When data cooperation is performed between systems over a plurality of networks, Congestion, session retention for a long time, load concentration, and the like can be avoided.

  It is preferable that the network investigation device further includes an investigation determination unit that determines a network route based on the request ID.

  The investigation determination unit preferably includes a queuing function unit that queues an investigation request for a network route based on the request ID for each line accommodation device that accommodates and manages the network route.

  It is preferable to further include a line accommodation management unit that accommodates network line information and device information of the line accommodation device.

  It is preferable that the survey determination unit includes a determination ID assigning unit that assigns a determination ID to the network route survey result.

  It is preferable that the survey determination unit includes a device survey unit that surveys a device for each line accommodation device and outputs survey result data.

  It is preferable that the response information management unit includes a cache function unit that holds the investigation result transmitted from the investigation determination unit for a predetermined time.

  It is preferable to further include a message management unit that stores message data related to the survey result data.

  A network investigation method according to one embodiment of the present invention is a network investigation method for investigating a device located on a path extending over a plurality of networks, comprising the steps of: receiving a request including a line ID from an external system; Generating a plurality of request IDs from the request, and transmitting a network route survey result obtained for each request ID together with the line ID to an external system.

  A program according to an aspect of the present invention receives a request including a line ID from an external system and generates a plurality of request IDs, and accommodates and manages a network route investigation request based on the request ID. A computer having a queuing function for queuing for each line accommodating device, a cache function for holding a search result for a predetermined time, and a function of transmitting a network route check result obtained for each request ID to an external system together with a line ID. To run.

  ADVANTAGE OF THE INVENTION According to this invention, data cooperation can be aimed at between an external system and a network investigation apparatus, and when linking data between systems over a plurality of networks, congestion, long-term session retention, load concentration, etc. are avoided. A network investigation device, a network investigation method, and a program that can be used.

1 is a schematic diagram illustrating an example of the overall configuration of a network investigation device according to an embodiment of the present invention. It is a block diagram showing an example of main composition of a network research device in this embodiment. FIG. 3 is a block diagram illustrating a hardware configuration example of a response information management unit according to the embodiment. FIG. 3 is a block diagram illustrating a functional configuration example of a response information management unit according to the embodiment. FIG. 3 is a block diagram illustrating a functional configuration example of a device investigation unit according to the embodiment. It is a block diagram showing an example of functional composition of an investigation judgment part in this embodiment. It is a block diagram explaining queuing processing in this embodiment. FIG. 4 is an explanatory diagram illustrating an example of input data definition according to the embodiment. FIG. 4 is an explanatory diagram illustrating an example of an output data definition according to the embodiment. FIG. 3 is an explanatory diagram illustrating an example of a response code definition according to the embodiment. FIG. 4 is an explanatory diagram illustrating an example of a message code definition according to the embodiment. FIG. 4 is an explanatory diagram illustrating an example of an input data definition and a distributed response according to the embodiment. FIG. 6 is a sequence diagram illustrating a first pattern process in the network investigation method according to the embodiment. FIG. 9 is a sequence diagram illustrating a second pattern process in the network investigation method according to the embodiment. FIG. 9 is a sequence diagram illustrating a third pattern process in the network investigation method according to the embodiment. FIG. 14 is a sequence diagram illustrating a fourth pattern process in the network investigation method according to the embodiment. It is a figure showing an example of WEB-IF displayed on a screen of an operator terminal in this embodiment. It is a flowchart which shows the investigation processing process in the program which concerns on this embodiment. It is a flowchart which shows the data analysis processing process in the program which concerns on this embodiment.

  A preferred embodiment of the present invention will be described with reference to the accompanying drawings. In each of the drawings, the components denoted by the same reference numerals have the same or similar configurations.

[Configuration of network survey device]
FIG. 1 is a schematic diagram showing an example of the overall configuration of a network investigation device according to an embodiment of the present invention. FIG. 2 is a block diagram illustrating a main configuration example of the network investigation device according to the present embodiment. As shown in FIGS. 1 and 2, the network investigation device 100 is an investigation device that investigates a device located on a route extending over a plurality of networks. The network investigation device 100 exemplarily includes a response information management unit 10, a survey determination unit 4 and a message management unit 5 arranged on the network X, and a line accommodation for accommodating information on a survey request line arranged on the network Y. A management unit 6, a device investigation unit 7 for checking the line status of the line accommodation device 1, a construction information management unit 21 for managing construction information of the line accommodation device, and a failure information management for managing failure information of the line accommodation device 1. Unit 22, a proxy server 3A to 3C that mediates the connection with the external communication networks 1, 2 and 3, and a communicable connection with the response information management unit 10, and includes the results of investigation of the devices 1A to 1F and 1X to 1Z. An operator terminal 9 that obtains the result of the device communication path survey from the response information management unit 10 and provides the result to the operator. The proxy servers 3A to 3C are arranged in the communication networks 1, 2 and 3, respectively, and are communicably connected to the line accommodation devices 1A to 1F and 1X to 1Z which are information processing servers or information processing devices. The response information processing unit 10 is communicably connected to an external system such as a user terminal.

  Hereinafter, when the accommodation devices 1A to 1F and 1X to 1Z are collectively referred to, they are referred to as devices 1. When the proxy servers 3 </ b> A to 3 </ b> C are collectively referred to as “proxy server 3”. Note that the numbers of the devices 1, the proxy server 3, the line accommodation management unit 6, the device investigation unit 7, and the operator terminals 9 are not limited to the examples in FIGS. The response information management unit 10, the investigation determination unit 4, the message management unit 5, the line accommodation management unit 6, the equipment investigation unit 7, the construction information management unit 21, and the failure information management unit 21 are dedicated or general-purpose server computers. Can be realized by using the information processing apparatus described above. The response information management unit 10, the investigation determination unit 4, the message management unit 5, the line accommodation management unit 6, the device investigation unit 7, the construction information management unit 21, and the failure information management unit 22 are each composed of a single information processing device. Or a plurality of information processing devices distributed on a predetermined communication network.

  FIG. 3 is a block diagram illustrating a hardware configuration example of the response information management unit according to the present embodiment. As illustrated in FIG. 3, the response information management unit 10 includes, for example, a control device 11, a communication device 14, and a recording device 15. The control device 11 mainly includes a CPU (Central Processing Unit) 12 and a memory 13. FIG. 2 shows only a part of the main hardware configuration of the response information management unit 10, and the response information management unit 10 can have another configuration generally provided in a server. .

  In the control device 11, the CPU 12 functions as various function realizing means by executing a predetermined program stored in the memory 13, the recording device 15, or the like. Details of this function realizing means will be described later with reference to FIG.

  The communication device 14 includes a communication interface for communicating with an external device. The communication device 14 exemplarily transmits and receives various information to and from the device 1, the proxy server 3, the investigation determination unit 4, the message management unit 5, the line accommodation management unit 6, and the operator terminal 9 illustrated in FIG.

Recording device 15, a hard disk (HDD), a large-capacity flash memory: consists of (SSD S olid S tate D ive ) recording medium such. The recording device 15 stores various programs and various types of information necessary for execution of the processing in the control device 11 and information of a processing result.

  FIG. 4 is a block diagram illustrating a functional configuration example of the response information management unit according to the present embodiment. As illustrated in FIG. 4, the response information management unit 10 includes, for example, an information processing unit 30, a communication unit 31, and a recording unit 35. The information processing unit 30 includes a request generation unit 32, a cache function unit 33, and a device state management unit 34.

  The communication unit 31 has a function of transmitting and receiving various types of information to and from the device 1, the proxy server 3, the investigation determination unit 4, the message management unit 5, the line accommodation management unit 6, and the operator terminal 9 shown in FIG. The request generation unit 32 has a function of receiving requests including a line ID from user terminals such as the devices 1A to 1F and 1X to 1Z and generating a plurality of request IDs. The cache function unit 33 has a function of holding the information received from the message management unit 5 during the cache timeout period and responding. The device status management unit 34 has a function of accessing the devices 1A to 1F and 1X to 1Z via the proxy servers 3A to 3C along the line route R and managing the status of the devices 1A to 1F and 1X to 1Z. The recording unit 35 has a function of storing various programs and various types of information related to the various types of information processing, and information, parameters, and messages of processing results regarding inquiries such as device survey results, construction information, and wide area failure information. Note that the communication unit 31 corresponds to the communication device 14 illustrated in FIG. 2, and the recording unit 35 corresponds to the recording device 15 illustrated in FIG.

  FIG. 5 is a block diagram illustrating a functional configuration example of the device investigation unit according to the present embodiment. As illustrated in FIG. 5, the device investigation unit 7 includes, for example, a communication unit 71, an investigation processing unit 70, and a recording unit 72. The check processing unit 70 includes a device authentication unit 73, a network configuration check unit 74, and a communication path check unit 75.

  The communication unit 71 has a function of transmitting and receiving various information to and from the line accommodation device 1 and the investigation determination unit 4. The device authentication unit 73 has a function of acquiring a password from the line accommodation management unit 6 (see FIG. 1) and logging in to the device when a password is requested from the device 1 to be investigated. The network configuration investigation unit 74 has a function of investigating the configuration of the device 1 accommodated in each network. The communication route examination unit 75 has a function of examining a communication route to be examined based on the device configuration information examined by the network configuration examination unit 74. The recording unit 72 has a function of holding various programs, various information, network configuration information, communication paths, and the like related to the various investigation processes.

  FIG. 6 is a block diagram illustrating a functional configuration example of the survey determination unit according to the present embodiment. As illustrated in FIG. 6, the investigation determination unit 4 includes, for example, a determination processing unit 40, a communication unit 41, and a recording unit 42. The determination processing unit 40 includes a queuing function unit 43, a determination ID assignment unit 44, an accommodation state determination unit 45, a network investigation unit 46, and a data analysis unit 47.

  The investigation determination unit 4 implements a function of analyzing and determining inquiry response data to a device on the investigation target line based on the request ID. The communication unit 41 has a function of transmitting and receiving various types of information to and from the device investigation unit 7 and the response information management unit 10. The queuing function unit 43 has a function of queuing a network path investigation request (request) based on the request ID for each device that accommodates and manages the network path. The judgment ID assigning unit 44 has a function of assigning a judgment ID to the network route investigation result. The recording unit 42 has a function of holding various programs related to the various determination processes, various information, a determination ID, and the like.

  The accommodation state determination unit 45 accesses the device investigation unit 7A and the device investigation unit 7B, for example, and requests the line accommodation information. For example, the network investigation unit 46 accesses the device investigation unit 7A and the device investigation unit 7B and requests the device investigation data. The data analysis unit 47 receives, for example, the survey result data from the device survey units 7A and 7B.

  The message management unit 5 is communicably connected to the investigation determination unit 4 and the response information management unit 10. The message management unit 5 can manage the information format and content when the information request and the request are different depending on the device that has requested the investigation, and execute the data transfer process through the response information management unit 10 according to the nature of the data format and content. It has a function to perform.

  The line accommodation management unit 6 has a function of accommodating network line information and device information of line accommodation equipment. The line accommodation management unit 6 exemplarily manages accommodation information including a line ID necessary for accessing the devices 1A to 1F and 1X to 1Z.

  FIG. 7 is a block diagram illustrating a queuing process according to the present embodiment. As shown in FIG. 7, the investigation determination unit 4 is connected to the device investigation units 7A, 7B,. A plurality of line IDs are accommodated in the device investigation units 7A, 7B... 7n.

  The investigation determination unit 4 includes the accommodation state determination unit 45, the network investigation unit 46, and the data analysis unit 47, as described above. The accommodation state determination unit 45 requests line accommodation information from the device investigation units 7A, 7B,... 7n. The network investigation unit 46 requests device investigation data from the device investigation units 7A, 7B,... 7n. The device investigation units 7A, 7B... 7n request the network investigation unit 46 for an investigation request. The device investigation units 7A, 7B,... 7n transmit investigation result data to the data analysis unit 47. 7n are transmitted from the input / output interface 48 to the device investigation units 7A, 7B... 7n, and dequeues are transmitted from the device investigation units 7A, 7B.

  FIG. 8 is an explanatory diagram illustrating an example of the input data definition according to the present embodiment. The input data shown in FIG. 8 is input to the response information management unit 10 as a request (survey request) from an external system 60 such as a user terminal. The input data is defined by an ID, a column name, a variable, a response, and content, and describes information such as a line ID, a service option ID, and a request ID. The request ID is divided into a plurality of request IDs and issued by the response information management unit 10 as described later.

  FIG. 9 is an explanatory diagram illustrating an example of the output data definition according to the present embodiment. The output data shown in FIG. 9 is output as output data from the response information management unit 10. The output data is defined by an ID, a column name, a variable, a response, and a content. For example, a line ID, a response date and time, an investigation, an investigation end, an error, a request ID, construction information, alarm information, line information, and a user Information such as a message is described.

  FIG. 10 is an explanatory diagram illustrating an example of the response code definition according to the present embodiment. The response code shown in FIG. 10 is a code output from the response information management unit 10 as a response. The response code includes, for example, “No error”, “LAN port disconnection of base terminal”, “power supply cutoff of base terminal”, “signal disconnection on WAN side of base terminal”, “access network congestion”, “MAC address acquisition error” , "Subscriber line section unstable", "ADSL link status. Normal speed / abnormal, SNR margin normal / abnormal", "User terminal session disconnected", "Multiple disconnected logs have been in the past 3 hours", "Operation Code information such as “time is XX” and “LAN duplex is XX / YY” is described.

  FIG. 11 is an explanatory diagram illustrating an example of the message code definition according to the present embodiment. The message code shown in FIG. 11 is stored in the message management unit 5 and is output with the investigation result data. For example, the message code is "Check the cable connection of the LAN interface.", "Work arrangements are required.", "Contact customer support.", "Check the power lamp of the base device." And a code such as "Access congestion. Request again after a while." In the present embodiment, a message including at least one of a message code and a message corresponding to the message code is referred to as “message data”. The message data may include a message code and a message other than the message corresponding to the message code, for example, a header or a trailer.

  FIG. 12 is an explanatory diagram illustrating an example of the input data definition and the distributed response according to the present embodiment. As shown in FIG. 12, a request (survey request) from the external system 60 describes input data including a line ID. The input data in FIG. 12 describes, for example, a line ID, construction information, alarm information, a line state, a message to a user, and the like. The response information management unit 10 responds to the results of three main investigations as to whether or not maintenance is affected in the network, whether or not wide-area failures are affected, and the result of the adjustment of the equipment that accommodates the customer line in the line configuration. In the distributed response example of FIG. 12, for example, "construction information" and "wide area failure information" are returned as 1/3. As 2/3, a “MAC address acquisition error” is returned. Further, as 3/3, "LAN port disconnection at base terminal" and "Check the LAN interface cable connection" are returned.

[Network survey method]
Next, with reference to FIGS. 1 to 7 and FIGS. 13 to 16, the operation of the network investigation device according to the present embodiment will be described together with the network investigation method according to the present embodiment.

  The network investigation method according to the present embodiment is a network investigation method for investigating a plurality of network routes, and includes a step of receiving a request including a line ID from a user terminal and a step of generating a plurality of request IDs from the received request. And transmitting the network route investigation result obtained for each request ID to the external system together with the line ID. Hereinafter, the network investigation method according to the present embodiment will be specifically described.

  FIG. 13 is a sequence diagram illustrating a first pattern process in the network investigation method according to the present embodiment. As shown in FIG. 13, in the first pattern processing, when a request (line survey request) is received from an external system 60 such as a user terminal (S1), the response information management unit 10 causes the recording unit 35 (the recording device 15) to It is checked whether cache data exists (S2). If cache data exists in the recording unit 35 (S2 / YES), the response information management unit 10 returns a result to the external system 60 (S3). If the cache data does not exist in the recording unit 35 (S2 / NO), the response information management unit 10 requests the investigation determination unit 4 to investigate (S4).

  The survey determination unit 4 receiving the survey request from the response information management unit 10 confirms the accommodation of the line service to the line accommodation management unit 6 (S5). As described above, the investigation determination unit 4 includes the queuing function unit 43. The queuing function unit 43 has a function of queuing a network path investigation request (request) based on the request ID for each device that accommodates and manages the network path. For example, an investigation request is made to the equipment investigation part 7B of the investigation target network (S6), and an equipment investigation request is made to the equipment investigation part 7A (S7).

  After investigating the accommodated equipment, the equipment investigation unit 7B transmits the investigation result data to the investigation determination unit 4 (S8). Similarly, after investigating the accommodated equipment, the equipment investigation unit 7A transmits the investigation result data to the investigation determination unit 4 (S9).

  The investigation determination unit 4 includes a determination ID assignment unit 44. The judgment ID assigning unit 44 has a function of assigning a judgment ID to the network route investigation result. For example, the judgment ID assigning unit 44 assigns the judgment ID: 1 to the survey result data, and transmits the survey result data with the judgment ID: 1 to the message management unit 5 (S10).

  When receiving the survey result data with the judgment ID: 1 from the survey judging unit 4, the message management unit 5 adds a survey result message to the survey result data with the judgment ID: 1, and transmits the result to the response information management unit 10. (S11). The response information management unit 10 responds to the external system 60 as a result of the survey result data and the survey result message with the judgment ID: 1 (S12).

  Responses of the result data from the device investigation units 7A and 7B are sequentially transmitted (S13 and S14). For example, the judgment ID assigning unit 44 assigns the judgment ID: 2 to the survey result data, and transmits the survey result data with the judgment ID: 2 to the message management unit 5 (S15). When receiving the survey result data with the judgment ID: 2 from the survey judging unit 4, the message management unit 5 attaches the survey result message to the survey result data with the judgment ID: 2 and transmits it to the response information management unit 10. (S16). The response information management unit 10 responds to the external system 60 as a result of the survey result data and the survey result message with the judgment ID: 2 (S17).

  Further, the response of the result data from the device investigation unit 7A and the device investigation unit 7B continues, and the last result data is transmitted (S18 and S19). For example, the judgment ID assigning unit 44 assigns the judgment ID: n to the survey result data as the end status, and transmits the survey result data with the judgment ID: n to the message management unit 5 (S20). When receiving the survey result data with the judgment ID: n from the survey judging unit 4, the message management unit 5 attaches the survey result message to the survey result data with the judgment ID: n and transmits it to the response information management unit 10. (S21). The response information management unit 10 responds to the external system 60 as a result of the survey result data and the survey result message with the judgment ID: n (S22).

  According to the first pattern processing, when there is a request from the external system 60 such as a user terminal, the analysis determination processing is performed by the investigation determination unit 4 for the sequential response of the back-end system, and the sequential response is performed. Update status when finished. In addition, the investigation status can be updated during the investigation.

  FIG. 14 is a sequence diagram illustrating a second pattern process in the network investigation method according to the present embodiment. As shown in FIG. 14, in the second pattern processing, when a request (line survey request) is received from the external system 60 (S31), the response information management unit 10 determines that the cache data exists in the recording unit 35 (recording device 15). It is confirmed whether or not to perform (S32). If cache data exists in the recording unit 35 (S32 / YES), the response information management unit 10 returns a result to the external system 60 (S33). If there is no cache data in the recording unit 35 (S32 / NO), the response information management unit 10 transmits the request ID to the external system 60 (S34).

  Next, the response information management unit 10 requests the investigation determination unit 4 to perform an investigation (S35). The investigation determination unit 4 that has received the investigation request from the response information management unit 10 confirms the accommodation of the line service to the line accommodation management unit 6. (S36). For example, the queuing function unit 43 of the survey determination unit 4 requests the device survey unit 7B of the survey target network to conduct a survey (S37) and requests the device survey unit 7A to perform a device survey (S38).

  After investigating the accommodated equipment, the equipment investigation unit 7B transmits the investigation result data to the investigation determination unit 4 (S39). Similarly, after investigating the accommodated equipment, the equipment investigation unit 7A transmits the investigation result data to the investigation determination unit 4 (S40).

  For example, the determination ID assignment unit 44 of the investigation determination unit 4 assigns the determination ID: 1 to the investigation result data, and transmits the investigation result data with the identification ID: 1 to the message management unit 5 (S41).

  When receiving the survey result data with the judgment ID: 1 from the survey judging unit 4, the message management unit 5 adds a survey result message to the survey result data with the judgment ID: 1, and transmits the result to the response information management unit 10. (S42). The response information management unit 10 responds to the external system 60 as a result of the survey result data and the survey result message with the judgment ID: 1 (S43).

  Responses of the result data from the device investigation units 7A and 7B are sequentially transmitted (S44 and S45). For example, the judgment ID assigning unit 44 assigns the judgment ID: 2 to the survey result data, and transmits the survey result data with the judgment ID: 2 to the message management unit 5 (S46). When receiving the survey result data with the judgment ID: 2 from the survey judging unit 4, the message management unit 5 attaches the survey result message to the survey result data with the judgment ID: 2 and transmits it to the response information management unit 10. (S47). The response information management unit 10 responds to the external system 60 as a result of the survey result data and the survey result message with the judgment ID: 2 (S48).

  Further, the response of the result data from the device investigation unit 7A and the device investigation unit 7B continues, and the last result data is transmitted (S49 and S50). For example, the determination ID assigning unit 44 assigns the determination ID: n to the survey result data as the end status, and transmits the survey result data with the determination ID: n to the message management unit 5 (S51). When receiving the survey result data with the judgment ID: n from the survey judging unit 4, the message management unit 5 attaches the survey result message to the survey result data with the judgment ID: n and transmits it to the response information management unit 10. (S52). The response information management unit 10 responds to the external system 60 as a result of the survey result data and the survey result message with the judgment ID: n (S53).

  According to the second pattern process, the response information management unit 10 issues a request ID for the investigation action to the external system 60, and thereafter, the external system 60 performs a recursive inquiry using the request ID as a key.

  FIG. 15 is a sequence diagram illustrating a third pattern process in the network investigation method according to the present embodiment. As shown in FIG. 15, in the third pattern process, when a request (line survey request) is received from the external system 60 (S61), the response information management unit 10 determines that the cache data exists in the recording unit 35 (recording device 15). It is confirmed whether or not to perform (S62). If cache data exists in the recording unit 35 (S62 / YES), the response information management unit 10 returns a result to the external system 60 (S63). When the cache data does not exist in the recording unit 35 (S62 / NO), the response information management unit 10 transmits the request ID to the external system 60 (S64).

  Next, the response information management unit 10 requests the investigation determination unit 4 to perform an investigation (S65). The investigation determination unit 4 that has received the investigation request from the response information management unit 10 confirms the accommodation of the line service to the line accommodation management unit 6. (S66). For example, the queuing function unit 43 of the survey determination unit 4 requests the device survey unit 7B of the survey target network to conduct a survey (S67), and requests the device survey unit 7A to perform a device survey (S68).

  After investigating the accommodated equipment, the equipment investigation unit 7B transmits the investigation result data to the investigation determination unit 4 (S69). The determination ID assignment unit 44 of the investigation determination unit 4 assigns, for example, the determination ID: 1 to the investigation result data, and transmits the investigation result data with the determination ID: 1 to the message management unit 5 (S70).

  Next, after examining the accommodated device, the device investigation unit 7A transmits the investigation result data to the investigation determination unit 4 (S71). Responses of the result data from the device investigation unit 7B are sequentially transmitted (S72).

  When receiving the survey result data with the judgment ID: 1 from the survey judging unit 4, the message management unit 5 adds a survey result message to the survey result data with the judgment ID: 1, and transmits the result to the response information management unit 10. (S73). The response information management unit 10 responds to the external system 60 as an update notification with the survey result data and the survey result message with the judgment ID: 1 (S74). The external system 60 sends a confirmation request to the response information management unit 10 based on the request ID transmitted from the response information management unit 10 (S75). When receiving the confirmation request by the request ID, the response information management unit 10 notifies the external system 60 of the investigation result (S76).

  During this time, the response of the result data from the device investigation unit 7A is sequentially transmitted (S77). The determination ID assigning unit 44, for example, assigns the determination ID: 2 to the survey result data, and transmits the survey result data with the determination ID: 2 to the message management unit 5 (S78).

  When receiving the survey result data with the judgment ID: 2 from the survey judging unit 4, the message management unit 5 attaches the survey result message to the survey result data with the judgment ID: 2 and transmits it to the response information management unit 10. (S79). The response information management unit 10 responds to the external system 60 with the investigation result data and the investigation result message with the judgment ID: 2 as an update notification (S80). The external system 60 sends a confirmation request to the response information management unit 10 based on the request ID transmitted from the response information management unit 10 (S81). When receiving the confirmation request by the request ID, the response information management unit 10 notifies the external system 60 of the investigation result (S82).

  During this time, the responses of the result data from the device investigation units 7A and 7B are sequentially transmitted (S83 and S84). The determination ID assigning unit 44 assigns, for example, a determination ID: n to the survey result data as an end status, and transmits the survey result data with the determination ID: n to the message management unit 5 (S85).

  When receiving the survey result data with the judgment ID: n from the survey judging unit 4, the message management unit 5 attaches the survey result message to the survey result data with the judgment ID: n and transmits it to the response information management unit 10. (S86). The response information management unit 10 responds to the external system 60 as an update notification with the survey result data and the survey result message with the judgment ID: n (S87). The external system 60 sends a confirmation request to the response information management unit 10 based on the request ID transmitted from the response information management unit 10 (S88). When receiving the confirmation request by the request ID, the response information management unit 10 notifies the external system 60 of the investigation result (S89).

  According to the third pattern process, the response information management unit 10 issues a request ID for the investigation action to the external system 60, and thereafter, the external system 60 performs a recursive inquiry using the request ID as a key. When the response result is updated, the response information management unit 10 issues an update notification, and the external system 60 performs an inquiry accordingly.

  FIG. 16 is a sequence diagram illustrating a fourth pattern process in the network investigation method according to the present embodiment. As shown in FIG. 16, in the fourth pattern process, when a request (line survey request) is received from the external system 60 (S91), the response information management unit 10 determines that the cache data exists in the recording unit 35 (recording device 15). It is confirmed whether or not to perform (S92). If cache data exists in the recording unit 35 (S92 / YES), the response information management unit 10 returns a result to the external system 60 (S93). If the cache data does not exist in the recording unit 35 (S92 / NO), the response information management unit 10 requests the investigation determination unit 4 to investigate (S94).

  Upon receiving the investigation request from the response information management unit 10, the investigation determination unit 4 confirms the accommodation of the line service to the line accommodation management unit 6 (S95). As described above, for example, the queuing function unit 43 of the survey determination unit 4 requests the device survey unit 7B of the survey target network to conduct a survey (S96) and requests the device survey unit 7A to perform a device survey (S97). .

  After investigating the accommodated equipment, the equipment investigation unit 7B transmits the investigation result data to the investigation determination unit 4 (S98). For example, the determination ID assignment unit 44 of the investigation determination unit 4 assigns the determination ID: 1 to the investigation result data, and transmits the investigation result data with the identification ID: 1 to the message management unit 5 (S99).

  The device investigation unit 7A and the device investigation unit 7B sequentially examine the housed devices, and then transmit the investigation result data to the investigation determination unit 4 (S100 and S101). When receiving the survey result data with the judgment ID: 1 from the survey judging unit 4, the message management unit 5 adds a survey result message to the survey result data with the judgment ID: 1, and transmits the result to the response information management unit 10. (S102).

  Next, after investigating the accommodated equipment, the equipment investigation unit 7A transmits the investigation result data to the investigation determination unit 4 (S103). The determination ID assignment unit 44 of the investigation determination unit 4 assigns, for example, the determination ID: 2 to the investigation result data, and transmits the investigation result data with the identification ID: 2 to the message management unit 5 (S104). When receiving the survey result data with the judgment ID: 2 from the survey judging unit 4, the message management unit 5 attaches the survey result message to the survey result data with the judgment ID: 2 and transmits it to the response information management unit 10. (S105).

  The device investigation unit 7A and the device investigation unit 7B sequentially examine the accommodated devices, and then transmit the investigation result data to the investigation determination unit 4 (S106 and S107). The determination ID assignment unit 44 of the investigation determination unit 4 assigns the determination ID: n to the inspection result data as the end status, for example, and transmits the inspection result data with the determination ID: n to the message management unit 5 (S108).

  When receiving the survey result data with the judgment ID: n from the survey judging unit 4, the message management unit 5 attaches the survey result message to the survey result data with the judgment ID: n and transmits it to the response information management unit 10. (S109). After all the survey result data and the survey result message have been transmitted to the response information management unit 10, the response information management unit 10 responds to the external system 60 as a result with all the survey result data and the survey result message (S110).

  According to the fourth pattern process, the response information management unit 10 can collect responses from the back-end system and execute the response at one time.

The network investigation device 100 and the network investigation method according to the present embodiment provide an automatic investigation function in the investigation work of the service providing line, so that the operator terminal 9 can investigate with one click from the WEB-IF screen (see FIG. 17). external system and direct API of line use customer (a pplication P rogramming I nterface) can be cooperation.

  Each network accommodating device 1 has a plurality of line accommodating interfaces, and accommodates a large number of lines from a higher-order device to a lower-order device from the inside of the network toward the base. The network investigation device 100 according to the present embodiment refers to the accommodation management DB of the line accommodation management unit 6, identifies a device host and an interface to be inspected, identifies a series of line configurations related to the inspection target line, The survey can be performed automatically.

  According to the network investigation device according to the present embodiment, it is possible to automate an investigation scheme for dealing with a line failure in a business that operates 24 hours a day and 365 days by a communication carrier and a network maintenance operator.

  Also, each network operator automates the corresponding skim, and a business or company that interconnects the network via a line can directly implement system cooperation via an API.

  Furthermore, although the number of request response transactions at the network interconnection point occurs in accordance with the size of the network, logic for controlling an efficient back-end system is required to avoid congestion at the cooperative interface. According to the network investigation device 100 according to the present embodiment, an efficient event handling function is provided. When the back-end system cooperation provides an API that collectively responds to each query response of a large-scale system and provides a unified response, if the session holding time for the request is sent as a whole, the time becomes longer. In this case, when the external request is large, the number of simultaneous inquiry sessions increases, and the resource consumption efficiency deteriorates.

  With the network investigation device 100 according to the present embodiment, such resource consumption efficiency can be greatly improved. Conventionally, the operator checks customer data and equipment accommodation data to confirm the configuration and equipment address in response to an alarm and a call-in declaration, confirms the TELNET login to the equipment corresponding to the configuration, and interfaces, MAC address learning, ARP information, log , The BGP public relations status and the routing table are visually checked to grasp the line status. However, the network investigation device according to the present embodiment automatically investigates each step to quickly grasp the line status and the network failure status. be able to.

  By visualizing a more detailed situation of each component device from a form of only trace information such as a conventional Looking Glass of a business network, specific measures for quality improvement can be shared. More specifically, the cause of the line disconnection can be immediately and automatically investigated particularly for the cause of the work, the cause of the line failure, and the location of the failure, and the failure can be quickly restored.

〔program〕
Next, a program according to the present embodiment will be described with reference to FIGS. FIG. 17 is a diagram illustrating an example of the WEB-IF displayed on the screen of the operator terminal according to the present embodiment.

  As shown in FIG. 17, when the operator inputs the line ID of the communication line on the Web interface (WEB-IF) displayed on the screen of the operator terminal 9 and selects the search button B, the request (survey request) becomes external. It is transmitted from the system 60 to the response information management unit 10 (see S1, S31, S61 and S91). Here, the line ID may be a customer ID indicating a keyword or a specific customer who provides a proxy server or device for specifying a communication line.

  FIG. 18 is a flowchart illustrating an investigation processing process in the program according to the present embodiment. As shown in FIG. 18, the response information management unit 10 first reads a processing header file (S201) and detects a version history of the program (S202). If the version of the program is the latest, the response information management unit 10 reads the module of the program (S203).

  Next, after defining the fixed variables of the input data (S204), the response information management unit 10 opens the LOG file (S205). Then, the response information management unit 10 inquires of the line accommodation management unit 6 about the parameters of the input data, and performs a process (query process) in which a processing request such as data extraction or update information is represented by a character string (S206). In query processing, data extraction conditions, arrangement, etc. are specified.

  The response information management unit 10 refers to the accommodation management DB accommodated in the response information management unit 10 (S207). The response information management unit 10 defines a service determination and an accommodation line data variable (S208), and divides and generates a command for each of a plurality of request IDs (S209).

  The response information management unit 10 transmits a survey request to the survey determination unit 4. As described above, the investigation determination unit 4 includes the queuing function unit 43 (see FIG. 6). For example, the queuing function unit 43 queues a network route investigation request (request) based on the request ID for each of the device investigation units 7A and 7B that accommodates and manages the network route (S210).

  The device investigation unit 7A and the device investigation unit 7B illustratively execute a system investigation list for the investigation target device (S211). The device investigation unit 7A and the device investigation unit 7B illustratively transmit investigation result data of the investigation target device to the response information management unit 10.

  The response information management unit 10 analyzes the survey result data (system output data) (S212). A result determination process is performed, and a determination ID is assigned to the determination result (S213). The response information management unit 10 accesses the message management unit 5 to generate and process an investigation result message (S214), and ends the investigation processing process.

  FIG. 19 is a flowchart illustrating a data analysis processing process in the program according to the present embodiment. As illustrated in FIG. 19, the response information management unit 10 receives, for example, output data (investigation result data) of an appliance investigation from the appliance investigation units 7A and 7B (S301). The response information management unit 10 opens the file pointer and displays the target position in the data file (S302).

  Next, the response information management unit 10 reads the survey result data for each line (S303), and compares and determines the command character string (S304). If a command character string is included (S304 / True), a flag update process for the command type is performed (S305), and the process proceeds to step S306. If the command character string is not included (S304 / False), the process proceeds to step S306 without performing the command type flag update process.

  In step S305, the response information management unit 10 determines the flag of the command type. If the command type matches the flag (S306 / True), the response information management unit 10 extracts and stores command result data based on the flag (S307). If the command type and the flag are incorrect (S306 / False), the process returns to the line reading process in step S303.

  After extracting and storing the command result data based on the flag (S307), the response information management unit 10 determines the end of the line (S309). In the case of the end of the line (S309 / True), the file pointer is closed (S310). If it is not the end of the line (S309 / False), the process returns to the line reading process of step S303.

  Next, the response information management unit 10 performs the determination process of the determination extraction parameter (S311), and ends the data analysis process. The response information management unit 10 accesses the message management unit 5 and performs a process of generating a survey result message (S312; see S214 in FIG. 18).

  As described above, according to the response information management unit 10 of the present embodiment, a plurality of commands are input collectively for each device, and the obtained survey result data of the device / system is subjected to the context related to the survey request command and the survey result data. Judgment is performed, necessary data is extracted, and a judgment process for the extracted data is provided.

  The response time of the network accommodation devices to be investigated varies. Continuing to maintain an HTTP session for a request (survey request) until the end of the survey causes a system load. Therefore, the network investigation device, the network investigation method, and the program according to the present embodiment disperse the HTTP session for each response message generation condition, and respond by repeating start / stop. Therefore, according to the present embodiment, it is possible to achieve data cooperation between the external system and the network investigation device, and when performing data cooperation between systems over a plurality of networks, congestion, long-term session retention, load concentration, etc. The excellent effect that it can avoid is demonstrated.

  Since the system further includes the investigation determination unit 4 that investigates and determines the network route based on the request ID, it is possible to accurately perform the investigation determination. In addition, the investigation determination unit 4 includes the queuing function unit 43 that queues an investigation request for a network route based on the request ID for each line accommodation device 1 that accommodates and manages the network route. The HTTP session can be distributed and a start / stop response can be repeated. Further, the investigation determination unit 4 includes a determination ID assigning unit that assigns a determination ID to the investigation result of the network route, and thus can respond to the result in response to a request from the external system 60. Then, the investigation determination unit 4 includes the device investigation units 7A and 7B for inspecting the device for each line accommodation device 1 and outputting investigation result data. Result data can be individually responded.

  In addition, since the network accommodating unit 6 for accommodating the network line information of the line accommodating device 1 and the device information is further provided, the network path and the line accommodating device 1 are appropriately and easily specified by referring to the line accommodating DB at the time of the network investigation. can do.

  Furthermore, since the response information management unit 10 includes the cache function unit 33 that holds the investigation result transmitted from the investigation determination unit 4 for a predetermined time, it is possible to efficiently restrict the action to the back end due to the simultaneous investigation access. .

  Since the message management unit 5 further stores the message data related to the survey result data, the survey result data can be converted into the message data with reference to the message management unit 5.

  The embodiments described above are intended to facilitate understanding of the present invention, and are not intended to limit and interpret the present invention. The components included in the embodiment and their arrangement, material, condition, shape, size, and the like are not limited to those illustrated, but can be appropriately changed. It is also possible to partially replace or combine the configurations shown in the different embodiments.

  DESCRIPTION OF SYMBOLS 1 ... Line accommodation apparatus, 4 ... Investigation judgment part, 5 ... Message management part, 6 ... Line accommodation management part, 7A, 7B ... Equipment investigation part, 10 ... Response information management part, 33 ... Cache function part, 43 ... Queuing Function unit, 44: determination ID assigning unit, 60: external system, 100: network investigation device.

Claims (10)

A network investigation device for investigating a plurality of network routes,
A response information management unit that receives a request including a line ID from an external system and generates a plurality of request IDs,
The response information management unit transmits a result of the network route investigation obtained for each request ID to the external system together with the line ID.
Network survey equipment. The apparatus further includes an investigation determination unit that investigates and determines the network route based on the request ID.
The network investigation device according to claim 1. The investigation determination unit includes a queuing function unit that queues an investigation request for the network path based on the request ID for each line accommodation device that accommodates and manages the network path.
The network investigation device according to claim 2. Further comprising a line accommodation management unit that accommodates network line information and device information of the line accommodation device,
The network survey device according to claim 3. The investigation determination unit includes a determination ID assigning unit that assigns a determination ID to the investigation result of the network route.
The network investigation device according to claim 2. The investigation determination unit is provided with a device investigation unit that investigates a device for each of the line accommodation devices and outputs investigation result data.
A network survey device according to any one of claims 2 to 5. The response information management unit includes a cache function unit that holds the investigation result transmitted from the investigation determination unit for a predetermined time,
The network investigation device according to any one of claims 2 to 6. Further comprising a message management unit that stores message data related to the survey result data,
The network investigation device according to claim 1. A network survey method for examining a plurality of network routes,
Receiving a request including a line ID from an external system;
Generating a plurality of request IDs from the received request;
Transmitting a survey result of the network route obtained for each of the request IDs to the external system together with the line ID;
A network survey method. A function of receiving a request including a line ID from an external system and generating a plurality of request IDs;
A queuing function for queuing a request to investigate the network route based on the request ID for each line accommodation device that accommodates and manages the network route;
A cache function for holding the investigation result for a predetermined time;
A function of transmitting a survey result of the network route obtained for each request ID to the external system together with the line ID,
To make a computer execute
program.