JP2010239419A - Network switching device and method therefor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a network switching device for monitoring a path between terminals in additional to a path between networks without adding a device. <P>SOLUTION: In the network switching device, a test-handling information storage means 2 stores a filtering table 21 relating to test-handling information on whether or not to handle signals for a test and the terminal which handles the signals for the test, a virtual terminal for generating the signals for the test is specified when a scenario distribution part 3 as a signal determination means determines that the signals for the test are to be handled, a virtual terminal means 4 virtually generates the signals for the test by an operation scenario part 40 on the basis of scenario data 41 relating to the operation characteristics of the specified terminal, and a transmission/reception means 1 transmits and receives the signals for the test. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a network switch device that relays signals transmitted and received between terminals, and more particularly to a network switch device that easily realizes communication monitoring between terminals by providing a virtual terminal inside the device.

  In recent years, a layer 2 network constructed by a layer 2 switch, which is one of network switch devices, has been constructed with a complex redundant configuration. In such a network, when a failure occurs, for example, when a line failure or a device failure occurs, confirmation of failure recovery status, for example, validity of path (route) switching, validity of a frame conduction route, and occurrence of a frame loop Cannot be autonomously performed by the layer 2 switch alone.

  A conventional network switch device has a technology in which a network monitoring device is installed outside a layer 2 switch and the network monitoring device performs path monitoring when a failure occurs (see, for example, Patent Document 1).

JP 2002-252625 A

However, since the conventional network switch device additionally installs the network monitoring device, there is a problem that the system becomes complicated and the maintenance load increases with the increase of the device.

  The present invention has been made to solve the above-described problems, and an object of the present invention is to provide a network switch device that can monitor a path between terminals in addition to a path between networks without adding a device.

  The network switch device disclosed in the present application determines whether a signal for communication between terminals is handled for testing, and the test signal is generated by a virtual terminal that virtually performs the operation of generating a signal based on the operation characteristics of the terminal. And transmitting / receiving the test signal.

  Since the network switch device disclosed in the present application can perform inter-device communication using virtual test signals, it is possible to monitor the path in inter-terminal communication without adding a device, and the workload is reduced with a simple system configuration. This makes it possible to perform efficient path monitoring.

1 is a block diagram of a network switch device according to a first embodiment of the present invention. The block diagram of the virtual user terminal of the network switch apparatus which concerns on the 1st Embodiment of this invention Example of data layout of network switch device according to first embodiment of present invention 1 is a network configuration diagram including a network switch device according to a first embodiment of the present invention. Data example of filtering table of network switch device according to first embodiment of present invention 1 is a flowchart of a network switch device according to a first embodiment of the present invention. The flowchart between the terminal of the network switch apparatus which concerns on the 1st Embodiment of this invention, and a virtual user terminal Block diagram of a network switch device according to a second embodiment of the present invention Data example of route data of network switch device according to second embodiment of present invention Network configuration diagram including a network switch device according to a second embodiment of the present invention The flowchart of the network switch apparatus concerning the 2nd Embodiment of this invention

(First embodiment)
Hereinafter, the network switch device according to the first embodiment will be described with reference to FIGS. 1 to 6.
1 is a block diagram showing the configuration of the network switch device according to the first embodiment of the present invention, FIG. 2 is a configuration diagram of a virtual user terminal of the network switch device described in FIG. 1, and FIG. 2 shows an example data layout of the network switch device described in FIG. 1. 4 shows a network configuration including the network switch device described in FIG. 1, and FIG. 5 shows a data example of a filtering table of the network switch device shown in FIG. 6 shows a flowchart of the network switch device shown in FIG. 1, and FIG. 7 shows a flowchart between the terminal of the network switch device shown in FIG. 1 and a virtual user terminal.

  In FIG. 1, the network switch device according to the present embodiment includes a transmission / reception unit 1, a test handling information storage unit 2, a scenario distribution unit 3 as a signal determination unit, and a virtual user terminal 4 as a virtual terminal unit. The configuration includes a confirmation unit 5 and a terminal learning unit 6.

  This transmission / reception means 1 is connected to a terminal 101 belonging to a virtual LAN (VLAN) site 100 and transmits / receives a signal (frame) for transmission / reception between the terminals 101 via the Internet network 200 via a line. To do. This test handling information storage means 2 accepts from the filtering table 21 information on whether or not to handle the signal for testing and information on a terminal handling this signal as test handling information. The scenario distribution unit 3 determines whether to transmit the test signal, which is the test signal, based on the test handling information in the filtering table 21 and transmits the test signal. Specifies the terminal that generates the test signal.

  Further, the virtual user terminal 4 virtually stores the operation data of the terminal 101 connected to the transmission / reception means 1 as the terminal operation information and the operation of the terminal 101 virtually based on the scenario data 41. And an operation scenario unit 40 for performing The virtual user terminal 4 virtually generates a test signal based on the scenario data 41 when the scenario distribution unit 3 determines that the test signal is transmitted.

  As shown in FIG. 2, the virtual user terminal 4 is logically divided into a plurality of virtual user terminals a4a, virtual user terminals b4b, and virtual user terminals x4x corresponding to the plurality of terminals 101. Each of the virtual user terminals 4 performs interface communication with the scenario distribution unit 3 by socket communication.

  The operation scenario unit 4 can be created using a script language that does not need to be compiled, such as Practical Extraction and Report Language (Perl) or Ruby. The operation scenario unit 4 defines a reception processing operation when data is received by the terminal 101 and an Ethernet OAM (EtherOAM) operation. This Ethernet OAM operation conforms to data communication according to Ethernet OAM (operations, administration, maintenance), which is the maintenance and management function of the Ethernet (registered trademark) network, and it is possible to check the route between network switches. is there.

  Further, the existence confirmation unit 5 shown in FIG. 1 confirms the existence of the terminal 101 connected to the transmission / reception unit 1 when the scenario distribution unit 3 determines to transmit a test signal. Further, when the presence confirmation unit 5 confirms the presence of the terminal, the terminal learning unit 6 changes the operation characteristics of the terminal 101 into the scenario data 41 of the virtual user terminal 4 based on the presence confirmation. To reflect.

  As shown in FIG. 3A, the scenario data 41 can include a VLANID item, a destination MAC item, a data type item, and a data content item. The VLANID item indicates a virtual LAN (VLAN) ID of the virtual user terminal 4. The destination MAC item indicates a Media Access Control; MAC address that is a destination of data transmitted by the virtual user terminal 4. The data type item indicates the data type of data transmitted by the virtual user terminal 4, for example, video data and voice (voice) data. Further, this data content item indicates data content handled in the actual VLAN site 100.

  The filtering table 21 can include an enable bit item, a VLAN tag item, a scenario ID item, a socket ID item, and a MAC address item, as shown in FIG. This enable bit item indicates whether the setting of the virtual user terminal 4 is valid or invalid. The VLAN tag (VLAN-Tag) item is a tag for specifying each of the virtual user terminals 4 and performing VLAN communication. The tag value used in the actual communication between the VLAN sites 100 is displayed. Show. The scenario ID item indicates an ID number that identifies each of the virtual user terminals 4. The socket ID item indicates a socket ID for uniquely identifying socket communication between the virtual user terminal 4 and the scenario distribution unit 3. The MAC address item indicates the MAC address of the terminal 101 existing in the VLAN site 100.

  As shown in FIG. 4, the network configuration of this embodiment includes SW-A, SW-B, SW-C, SW-D, SW-E, and SW-F as the network switch device 10, and the VLAN site. 100 includes a user site 1 and a user site 2. The user site 1 and the user site 2 transmit / receive the Voice data to / from each other irregularly.

  In the filtering table 21 of SW-A, as shown in FIG. 5A, “1” for communicating a test signal is set in the enable bit item. Further, the filtering table 21 of the SW-A is identified and set by a VLAN tag so as to handle an EtherOAM frame and a frame that communicates with the terminal 101 of the user site 1. Further, the terminal 101 of the user site 1 registered in the MAC address item is automatically learned by the terminal learning unit 6 when the transmission / reception unit 1 transmits / receives a frame to / from the terminal 101 of the user site 1.

  Further, in the SW-C filtering table 21, as shown in FIG. 5B, “1” for communicating a test signal is set in the enable bit item. The SW-C filtering table 21 is identified and set by a VLAN tag so as to handle an EtherOAM frame and a frame that communicates with the terminal 101 of the user site 2. The terminal 101 of the user site 2 registered in the MAC address item is automatically learned by the terminal learning unit 6 when the transmission / reception unit 1 transmits / receives a frame to / from the terminal 101 of the user site 2.

The operation of the network switch device according to this embodiment based on the above configuration will be described below.
As shown in FIG. 4, it is assumed that the SW-A 10 has a path failure A in the communication path to the SW-C 10. The SW-A 10 generates an EtherOAM frame addressed to the terminal 101 of the user site 2 as the test signal by the operation scenario unit 40 of the SW-A 10 as shown in FIG. Multicast transmission (S1). The SW-E 10 receives the EtherOAM frame from the SW-A 10 and performs forwarding to the terminal 101 of the user site 2 (S2).

  Further, the SW-E 10 transmits a Reply frame to the SW-A 10 based on the forwarding, and notifies the SW-A 10 that the SW-E 10 has handled the EtherOAM frame (S3). The SW-C 10 receives the EtherOAM frame from the SW-E 10 (S4).

  In S4 of the step, the presence check means 5 of the SW-C 10 transmits an Address Resolution Protocol; ARP signal to the terminal 101 of the user site 2 and, based on the response of the ARP signal, terminal learning means 6 is reflected in the scenario data 41. As described above, the SW-C 10 can reflect the existence status and the latest data of the terminal 101 of the user site 2 each time by the ARP signal, so that the virtual user terminal 4 accurately matches the terminal 101 of the user site 2. Can be synchronized.

  The SW-C 10 generates an EtherOAM frame addressed to the terminal 101 of the user site 1 as the test signal by the operation scenario unit 40 and transmits the EtherOAM frame to the transmission / reception means 1, and sends the SW-C 10 to the SW-A 10. Notifies that it has handled the EtherOAM frame (S5).

  In this way, the SW-A 10 can extend the EtherOAM frame, which is limited to route confirmation between switches, between user sites, and can confirm the route between user sites. . In addition, the SW-A 10 can perform normal route communication confirmation when switching occurs due to a path failure using the virtual user terminal 4, which can reduce the amount of monitoring work by a maintenance person and reduce the cost of failure recovery work. Can do.

  After confirming the route by the EtherOAM frame in this way, the SW-A 10 communicates with the terminal 101 of the user site 2 as the test signal by the operation scenario unit 40 as shown in FIG. 6B. A confirmation frame is generated and transmitted by the transmission / reception means 1 (S11). The SW-C 10 receives this communication confirmation frame (S12).

  Further, the SW-C 10 generates a communication confirmation frame addressed to the terminal 101 of the user site 1 as the test signal by the operation scenario unit 40 as a response, and transmits it by the transmission / reception means 1 (S13). . The SW-A 10 receives this communication confirmation frame (S14).

In this way, the SW-A 10 can virtually check the communication between user sites based on the route confirmed by the route confirmation, and more quickly support the recovery work after the path failure occurs. Can do.
Further, the SW-A 10 can also confirm communication with the terminal 101 of the user site 1 that is directly connected.

  As shown in FIG. 7, the SW-A 10 receives the VOICE frame from the directly connected terminal 101 of the user site 1 (S21). The scenario distribution unit 3 confirms whether the enable bit item is “1” in the filtering table 21 by the test handling information storage unit 2 (S22).

  When the enable bit item is “1”, the scenario distribution unit 3 checks whether the destination MAC address of this VOICE frame has been registered in the filtering table 21 (S23). Here, when the destination MAC address is not registered, the test handling information storage unit 2 registers the MAC address in the filtering table 21 based on the VOICE frame (S24).

  Based on the MAC address registered in the filtering table 21, the virtual user terminal 4 specified by the scenario distribution unit 3 receives this VOICE frame (S25). The operation scenario unit 40 transmits an ARP frame to the terminal 101 of the user site 1 after a predetermined time has elapsed (S26).

  The transmission / reception means 1 of the SW-A 10 receives an Internet Control Message Protocol (ICMP) frame as a response frame from the terminal 101 of the user site 1 that has received the ARP frame (S27). Based on the filtering table 21, the virtual user terminal 4 specified by the scenario distribution unit 3 can receive the VOICE frame and check the communication between the user site 1 and the virtual user site (S28).

As described above, the SW-A 10 can automatically learn a frame from the terminal 101. As described above, the SW-A 10 can confirm communication between the terminal 101 and the virtual user terminal by periodically transmitting the ARP frame addressed to the terminal 101 from the virtual user terminal 4 and this automatic learning. Communication between virtual user terminals with improved accuracy can be performed.
The hardware configuration of the network switch device 10 according to the present embodiment includes a CPU, a memory, a storage device, an input device, and a bus connecting the above-described units.

(Second Embodiment)
Hereinafter, a network switch device according to the second embodiment will be described with reference to FIGS.
FIG. 8 is a block diagram of a network switch device according to another embodiment of the present invention, and FIG. 9 shows a data example of route data of the network switch device described in FIG. 10 is a network configuration diagram including the network switch device described in FIG. 8, and FIG. 11 is a flowchart of the network switch device described in FIG.

  In FIG. 8, the network switch device according to the present embodiment is similar to the first embodiment in that the transmission / reception means 1, the test handling information storage means 2, the scenario distribution unit 3, the virtual user terminal 4, and the existence confirmation It is a configuration comprising means 5 and terminal learning means 6.

  Furthermore, in this embodiment, in addition to the first embodiment, the operation scenario unit 40 includes a planned route storage unit 7, a route determination unit 8, and a route restoration unit 9. In this embodiment, in addition to the first embodiment, the scenario data 41 includes route data 71.

  Further, the planned route storage means 7 stores and manages route data 71 as communication route information related to the planned route, which is a communication route with which signals should be communicated, based on the transmission / reception means 1. As shown in FIG. 9, the route data 71 includes a previous regular monitoring route information item, a steady route information item, a second route information item, and a third route information item.

  This previous regular monitoring route information item indicates the route monitored in the previous regular monitoring. This steady route information item is a steady route that is regularly used and indicates a steady route that has the highest priority. The second route information item indicates a second route that is prioritized after the steady route. The third route information item indicates a third route that is prioritized next to the second route.

  Further, the route determination unit 8 determines, based on the planned route storage unit 7, whether the communication route of the signal received by the transmission / reception unit 1 matches the planned route. Further, the route restoration unit 9 restores the signal communication route to the planned route when the signal received by the transmission / reception unit 1 does not match the planned route based on the route determination unit 8.

  The network configuration of the present embodiment is similar to that of FIG. 4 describing the first embodiment, and SW-A, SW-B, SW-C, SW-D, SW-E, and the like as the network switch device 10. SW-F and user site 1 and user site 2 as the VLAN site 100 are provided. The user site 1 and the user site 2 transmit / receive the Voice data to / from each other irregularly.

Hereinafter, the operation of the network switch device according to the present embodiment based on the above configuration will be described with respect to the portions added to the first embodiment.
As shown in FIG. 10, the SW-A 10 is assumed to have a path failure A in the communication path to the SW-C 10. As shown in FIG. 11, the SW-A 10 receives the EtherOAM frame from the SW-C 10 by the transmission / reception means 1 as in S5 (S31). The route determination unit 8 determines whether the communication route of the received frame matches the planned route based on the planned route storage unit 7 (S32).

  For example, as shown in FIG. 10, when the path failure A occurs in the steady route, the route determination means 8 is planned when the place that should communicate with the second route is communicated with the third route. Judge that the route does not match. If it is determined in S32 that the route restoration means 9 does not match the planned route, the route restoration means 9 restores the frame communication route to the planned route (S33). Here, the route restoration means 9 restores the route so that it communicates with the second route when it communicates with the third route where it should communicate with the second route.

  Thereafter, the SW-A 10 multicasts the EtherOAM frame in the same manner as in FIG. 6A, and the path determination means 8 confirms again whether the received frame is communicated with the recovery path. As described above, the route recovery means 9 can recover to an appropriate communication route, and can speed up the failure recovery work.

(Other embodiments)
As another embodiment, a data type determination unit that determines the data type of the signal received by the transmission / reception unit 1 can be added to the above embodiments. By this data type judgment means, shaper, for example, voice, data, and video can be monitored independently, and the path monitoring can guarantee the end-to-end bandwidth between user sites (QOS), and the path monitoring accuracy can be improved. Can be improved.

  In each of the embodiments described above, the communication frame is voice data. However, the present invention is not limited to this, and general transmission data such as image data, moving image data, and text data can be communicated.

  In each of the above-described embodiments, the communication confirmation target is a VLAN site constructed by a VLAN using the layer 2 protocol. However, the present invention is not limited to a VLAN site constructed by a VLAN and is widely used. For example, a LAN site constructed in an IP virtual private network (IP-VPN) can be a target of communication confirmation, for example, an Internet protocol-virtual private network using a layer 3 protocol. .

[Appendix] The following appendices are further disclosed with respect to the embodiment including the above examples.
(Supplementary note 1) In a network switch device comprising a transmission / reception means for transmitting / receiving a signal for transmission / reception between terminals connected to another terminal via a network, whether the signal is handled for testing Test handling information storage means for storing test handling information indicating whether or not the test handling information including at least the MAC address of the terminal handling the signal for testing, and storing operating characteristics of the connected terminal as terminal operation information Based on the terminal operation information, a virtual terminal means that virtually operates the terminal as a virtual terminal, and determines that the signal is handled as a test signal based on the test handling information in the test handling information storage means A signal that identifies the virtual terminal that generates the test signal based on at least the MAC address included in the signal. Disconnecting means, and when the virtual terminal means determines that the signal determining means transmits the test signal, the test is virtually performed based on the terminal operation information related to the specified terminal. Network switch device that generates signals.

(Additional remark 2) Based on the said transmission / reception means, the planned path storage means which memorize | stores the communication path information regarding the planned path which is the communication path which the said signal should communicate, and the said transmission / reception means based on the said planned path storage means A route determination unit that determines whether a communication path of the received signal matches the planned route, and based on the route determination unit, when the signal received by the transmission / reception unit does not match the planned route The network switch device according to appendix 1, further comprising: route restoration means for restoring the signal communication route to the planned route.

(Supplementary Note 3) When the signal determination unit determines to transmit the test signal, the signal determination unit includes a presence check unit that checks the presence of the connected terminal, and the test signal generation unit includes the presence check unit. The network switch device according to Supplementary Note 1 or Supplementary Note 2, wherein, when the connected terminal does not exist, the test signal indicating that the terminal does not exist is generated based on the means.

(Supplementary note 4) The network switch device according to supplementary note 3, further comprising terminal learning means for reflecting the operation characteristics of the terminal in the terminal operation information based on the presence confirmation when the presence confirmation means performs the presence confirmation .

(Supplementary Note 5) Data type determination means for determining the data type of the signal received by the transmission / reception means, and planned path storage for storing communication path information regarding the planned path for each data type based on the transmission / reception means And a route determination unit that determines, based on the planned route storage unit, whether the communication path of the signal received by the transmission / reception unit matches the planned route for each of the determined data types. 2. The network switch device according to 2 to appendix 4.

(Supplementary note 6) In a network switching method comprising a transmission / reception step of transmitting / receiving a signal for transmission / reception between each terminal by connecting the connected terminal to another terminal via a network, whether the signal is handled for testing A test handling information storing step for storing test handling information on whether or not and test handling information including at least a MAC address of the terminal handling the signal for testing; and storing operation characteristics of the connected terminal as terminal operation information Based on the terminal operation information, a virtual terminal process for virtually operating the terminal as a virtual terminal, and determining to handle the signal as a test signal based on the test handling information in the test handling information storage process A signal that identifies the virtual terminal that generates the test signal based on at least the MAC address included in the signal. And when the virtual terminal step determines that the signal determining step transmits the test signal, the virtual terminal step is virtually based on the terminal operation information regarding the specified terminal. Network switch method for generating a signal for use.

(Supplementary note 7) Based on the transmission / reception step, the signal is received by the transmission / reception step based on the planned route storage step for storing the communication route information related to the planned route that is the communication route to which the signal should communicate. A route determination step for determining whether a communication path of the received signal matches the planned route, and based on the route determination step, when the signal received by the transmission / reception step does not match the planned route The network switch method according to appendix 6, further comprising: a route restoration step of restoring the signal communication route to the planned route.

(Additional remark 8) When the said signal judgment process judges transmitting the said signal for a test, it comprises the presence confirmation process which performs presence confirmation of the said connected terminal, The said test signal generation process includes the said presence confirmation The network switch method according to appendix 6 or appendix 7, wherein when the connected terminal does not exist, the test signal indicating that the terminal does not exist is generated based on a process.

(Supplementary note 9) Data type determination for determining the data type of the signal received in the transmission / reception step, and a planned route storage step for storing communication route information regarding the planned route for each data type based on the transmission / reception step And a route determination step of determining whether the communication route of the signal received by the transmission / reception step matches the planned route for each of the determined data types based on the planned route storage step. Or the network switch method according to appendix 8.

(Supplementary Note 10) In a network switch program for connecting a connected terminal to another terminal via a network and causing the computer to function as a transmission / reception means for transmitting / receiving a signal for transmission / reception between the terminals, the signal is used for testing. Test handling information storage means for storing test handling information as to whether or not to handle the signal and test handling information including at least the MAC address of the terminal handling the signal for testing, and operating characteristics of the connected terminal as terminal operation information Storing and handling the signal as a test signal based on the test handling information of the test handling information storage means, virtual terminal means for virtually operating the terminal as a virtual terminal based on the terminal operation information If determined, the test signal is generated based on at least the MAC address included in the signal. If the computer functions as a signal determining means for specifying the virtual terminal, and the virtual terminal means determines that the signal determining means transmits the test signal, the terminal operation information relating to the specified terminal A network switch program for virtually generating the test signal based on the above.

DESCRIPTION OF SYMBOLS 1 Transmission / reception means 2 Test handling information storage means 21 Filtering table 3 Scenario distribution part 4 Virtual user terminal 5 Existence confirmation means 6 Terminal learning means 7 Planned route storage means 71 Path data 8 Path judgment means 9 Path restoration means 100 VLAN site 101 Terminal 200 Internet network

Claims (7)

In a network switch apparatus comprising a transmitting / receiving means for connecting a connected terminal to another terminal via a network and transmitting / receiving a signal for transmitting / receiving between the terminals,
Test handling information storage means for storing test handling information whether or not to handle the signal for testing and test handling information including at least a MAC address of the terminal handling the signal for testing;
Virtual terminal means for storing the operation characteristics of the connected terminal as terminal operation information, and virtually operating the terminal as a virtual terminal based on the terminal operation information;
The virtual terminal that generates the test signal based on at least the MAC address included in the signal when it is determined that the signal is handled as a test signal based on the test handling information in the test handling information storage unit. A signal determination means for identifying,
The virtual terminal means virtually generates the test signal based on the terminal operation information related to the identified terminal when the signal judging means judges that the test signal is transmitted. Switch device.
The network switch device according to claim 1,
Based on the transmission / reception means, planned path storage means for storing communication path information related to a planned path that is a communication path to which the signal should communicate;
Route determination means for determining whether a communication path of the signal received by the transmission / reception means matches the planned path based on the planned path storage means;
A network switch device comprising: path restoration means for restoring a communication path of the signal to the scheduled path when the signal received by the transmission / reception means does not match the planned path based on the path determination means.
In the network switch device according to claim 1 or 2,
When the signal determination means determines to transmit the test signal, the signal determination means includes presence check means for checking the presence of the connected terminal,
The network switch device, wherein the test signal generation unit generates the test signal indicating that the terminal does not exist when the connected terminal does not exist based on the presence check unit.
The network switch device according to claim 3, wherein
A network switch device comprising terminal learning means for reflecting the operation characteristics of the terminal in the terminal operation information based on the presence confirmation when the presence confirmation means performs presence confirmation.
The network switch device according to any one of claims 2 to 4,
Data type determination means for determining the data type of the signal received by the transmission / reception means;
Based on the transmission / reception means, planned route storage means for storing communication route information regarding the planned route for each data type;
A network switch apparatus comprising: a route determination unit that determines whether a communication route of the signal received by the transmission / reception unit matches the planned route for each of the determined data types based on the planned route storage unit.
In a network switch method comprising a transmission / reception step of connecting a connected terminal to another terminal via a network and transmitting / receiving a signal for transmission / reception between the terminals,
Test handling information storage step for storing test handling information on whether or not to handle the signal for testing and test handling information including at least the MAC address of the terminal handling the signal for testing;
A virtual terminal step of storing the operation characteristics of the connected terminal as terminal operation information, and virtually operating the terminal as a virtual terminal based on the terminal operation information;
When it is determined that the signal is handled as a test signal based on the test handling information in the test handling information storage step, the virtual terminal that generates the test signal based on at least a MAC address included in the signal And a signal determination step for identifying,
When the virtual terminal process determines that the signal determination process transmits the test signal, the virtual terminal process virtually generates the test signal based on the terminal operation information regarding the identified terminal. Switch method.
In a network switch program for connecting a connected terminal to another terminal via a network and causing the computer to function as a transmission / reception means for transmitting / receiving a signal for transmission / reception between the terminals,
Test handling information storage means for storing test handling information on whether or not to handle the signal for testing and test handling information including at least a MAC address of the terminal handling the signal for testing,
Virtual terminal means for storing the operation characteristics of the connected terminal as terminal operation information, and virtually operating the terminal as a virtual terminal based on the terminal operation information;
The virtual terminal that generates the test signal based on at least the MAC address included in the signal when it is determined that the signal is handled as a test signal based on the test handling information in the test handling information storage unit. Let the computer function as a signal judgment means to identify,
A network in which the virtual terminal means virtually generates the test signal based on the terminal operation information related to the identified terminal when the signal determination means determines that the test signal is transmitted. Switch program.

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