JP3727604B2 - Network and router - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention is suitable for use in an MPLS (Multi Protocol Label Switching) network. Although the present invention has been made for the purpose of use in an MPLS network, it can be used in any network that secures network resources and sets up a connection prior to communication. For example, it can be used for MPλS (Multi Protocol λ Switching) by optical connection.
[0002]
[Prior art]
The concept of the conventional MPLS network will be described with reference to FIG. A, B, C, and D are edge routers, and W, X, Y, and Z are relay routers. An MPLS connection has already been set up between the edge router A and the edge router B via the relay routers X, Y, and Z.
[0003]
Now, when an MPLS connection setting request is newly generated between the edge router C and the edge router D, a connection resource may not be available between the relay router X and the relay router Y. In this case, the MPLS connection between the edge routers A and B is rearranged to the routes of the relay routers X, W, and Z, the connection between the relay routers X and Y is opened, and the edge router C and the edge It can be used for connection with the router D.
[0004]
[Problems to be solved by the invention]
However, since the relay routers X and Y do not have the edge router information that uses the connection between the relay routers X and Y, the edge router C uses the edge that uses the relay routers X and Y. It is necessary to ask all edge routers which router is the router, and as a result, ask the edge router A using the relay routers X and Y to rearrange them.
[0005]
However, since there is no means for requesting the rearrangement from the edge router C to the edge router A, there is a problem that the rearrangement of the connection cannot be performed and a new connection cannot be set despite the resources of the entire MPLS network. .
[0006]
The present invention has been made in such a background, and provides a network, a router, a program, and a recording medium that can effectively use available resources of the network and improve the use efficiency of the entire network. With the goal.
[0007]
[Means for Solving the Problems]
The present invention is characterized in that, in order to use a connection efficiently, adjustment is performed by transmitting and receiving a connection rearrange request between a plurality of edge routers using the connection.
[0008]
That is, a first aspect of the present invention is a network including an edge router and a relay router provided between the edge routers. The feature of the present invention is that the relay router is a local router. Means for holding the IP address of the edge router related to the connection passing through the edge router, and the edge router comprises a rearrange request means for requesting a rearrangement for the connection already set in the relay router to which the own router is connected. The rearrange requesting means includes address information requesting means for requesting information on the IP address of the other edge router related to the connection via the relay router to the means for holding the IP address provided in the relay router. And the means for holding the IP address information based on the address information request. A means for providing the address information request source to the edge router, wherein the rearrange request means is configured to send a request to the other edge router for which the own router requests a rearrange based on the IP address information provided by the providing means. On the other hand, a means for sending a rearrange request is provided.
[0009]
In this way, the relay router holds the IP address information of the edge router related to the connection, and when the rearrange request for the connection is generated in the edge router, the IP address information held by the relay router is used. Thus, in order to efficiently use the connection, it is possible to perform adjustment by transmitting and receiving a rearrange request of the connection between a plurality of edge routers using the connection.
[0010]
Furthermore, the means for holding comprises means for holding together with the IP address information including a QoS (Quality of Service) value and a hop number relating to a connection passing through the own router, and the means for providing includes the address information request Based on the IP address information and the information including the QoS value and the number of hops to the edge router of the address information request source, the rearrange request means is provided by the providing means It is also possible to provide means for requesting another edge router related to a connection having the least influence of instantaneous interruption due to execution of rearrangement based on the IP address information and information including the QoS value and the number of hops.
[0011]
In other words, there is a case where a momentary interruption occurs in the connection with the rearrangement of the connection. Therefore, considering the QoS value and the number of hops of the connection requesting the rearrangement, the effect of the rearrangement is suppressed by making the connection that has the least influence when the interruption occurs as the target of the rearrangement request. Can do. For example, in the case of a momentary interruption due to rearrangement, it is highly likely that communication that does not allow momentary interruption is performed in a highly important connection, and the influence is great. It is desirable to select a connection with a low possibility of performing communication that does not allow a momentary interruption. In addition, in a connection with a large number of relay routers, a large number of relay routers participate in rearrangement processing, which increases the processing load on each relay router and may increase the instantaneous interruption time. It is desirable to select a few connections.
[0012]
Further, the rearrange request means includes means for sending a provisional rearrange request to a plurality of other edge routers for which the own router requests a rearrange based on the information of the IP address provided by the means for providing. When the edge router receives the temporary rearrange request, the edge router obtains information on the change in the QoS value and the number of hops when the rearrange is actually performed based on the temporary rearrange request. Means for returning to the provisional rearrange requester together with information, the rearrange request means based on the information on the IP address returned by the return means and the information on the change in the QoS value and the number of hops. Requests for rearrangement of other edge routers related to connections that have the least impact of instantaneous interruption during execution It may also comprise means for the elephants.
[0013]
That is, the relay router simply holds information on the IP address related to the connection of the edge router, and the information on the QoS value and the number of hops related to the connection is held by each edge router. As a result, the amount of information held by the relay router can be kept small. Furthermore, since it is easy for the edge routers related to the connection to accurately grasp the QoS value and the change in the number of hops related to the connection when it is assumed that the actual rearrangement has been performed based on the temporary rearrange request, High information can be provided.
[0014]
The relay router includes means for monitoring the traffic of a connection that passes through the own router, and the means that holds the traffic information related to the connection that passes through the own router based on a monitoring result of the monitoring means. Means for holding together with the address, and the means for providing comprises means for providing the IP address information and the traffic information to the edge router of the address information request source based on the address information request, and the rearrange request The means may comprise means for requesting another edge router related to the connection with the least traffic volume based on the IP address information and the traffic information provided by the providing means to be a rearrange request.
[0015]
In other words, there is a case where a momentary interruption occurs in the connection with the rearrangement of the connection. Therefore, in consideration of the traffic amount of the connection requesting the rearrangement, the influence of the rearrangement can be reduced by setting the connection having the least influence when the instantaneous interruption occurs as the rearrange request target. For example, when a momentary interruption due to rearrangement occurs, in a connection with a large amount of traffic, the amount of traffic affected by the momentary interruption is large. Therefore, by selecting the connection with the smallest traffic volume as the rearrange target, the traffic volume affected by the instantaneous interruption can be reduced.
[0016]
A second aspect of the present invention is a router applied to a network including an edge router and a relay router provided between the edge routers. The feature of the present invention is that the relay router A rearrange request for requesting a rearrangement for a connection already set in the relay router to which the own router is connected, as a means for holding an IP address of an edge router related to a connection passing through the own router The rearrange requesting means includes address information for requesting IP address information of another edge router related to the connection via the relay router to the means for holding the IP address provided in the relay router. Requesting means, and the holding means is configured to receive the IP information based on the address information request. Means for providing address information to the edge router that requests the address information, wherein the rearrange request means requests the rearrange based on the IP address information provided by the providing means. A means for sending a rearrange request to another edge router is provided.
[0017]
The means for holding includes means for holding together with the IP address information including a QoS value and the number of hops related to a connection passing through the own router, and the means for providing includes the IP address based on the address information request. And information including the QoS value and the number of hops to the edge router of the address information request source, the rearrange request means includes the IP address information provided by the providing means, and It is also possible to provide means for requesting another edge router related to a connection having the least influence of instantaneous interruption caused by rearrangement execution based on information including the QoS value and the number of hops.
[0018]
Further, the rearrange request means includes means for sending a provisional rearrange request to a plurality of other edge routers for which the own router requests a rearrange based on the information of the IP address provided by the means for providing. As the edge router, when the temporary rearrange request is received, information regarding the change in the QoS value and the number of hops when the rearrange is actually performed based on the temporary rearrange request is obtained. Means for returning to the provisional rearrange requester together with information, the rearrange request means based on the information on the IP address returned by the return means and the information on the change in the QoS value and the number of hops. Rearrange other edge routers related to connections that have the least impact of interruptions during execution It may also comprise means for the calculated target.
[0019]
Further, the relay router includes means for monitoring traffic of a connection passing through the own router, and the means for holding traffic information relating to a connection passing through the own router based on a monitoring result of the monitoring means. Means for holding together with the address, and the means for providing comprises means for providing the IP address information and the traffic information to the edge router of the address information request source based on the address information request, and the rearrange request The means may comprise means for requesting another edge router related to the connection with the least traffic volume based on the IP address information and the traffic information provided by the providing means to be a rearrange request.
[0020]
A third aspect of the present invention is to install a router in an information processing apparatus, thereby controlling the router applied to the network including the edge router and the relay router provided between the edge routers in the information processing apparatus. This program realizes a function corresponding to the device to be executed.
[0021]
Here, a feature of the present invention is that, as a function corresponding to the device that controls the relay router, a function of holding an IP address of an edge router related to a connection via the own router is realized, and the edge router is As a function corresponding to the device to be controlled, a rearrange request function for requesting a rearrange for a connection already set in the relay router to which the own router is connected is realized, and this rearrange request function is provided in the relay router. The address information request function for requesting the IP address information of the other edge router related to the connection via the relay router is realized for the function that holds the IP address, and the address information request Based on the IP address information of the address information request source The real range request function is realized, and as the rear range request function, based on the IP address information provided by the provided function, the own router sends a rear range request to another edge router that requests the rear range. It is in place to realize the function to
[0022]
In addition, as the function to be held, a function to hold information including a QoS value and a hop number related to a connection via its own router together with the IP address is realized, and as the function to be provided, the IP information is based on the address information request. A function of providing address information and information including the QoS value and the number of hops to the edge router of the address information request source is realized, and as the rearrange request function, the IP address provided by the provided function is realized. Based on the information and the information including the QoS value and the number of hops, it is also possible to realize a function that makes the other edge router related to the connection with the least influence of the instantaneous interruption caused by the rearrangement execution a target of the rearrangement.
[0023]
In addition, as the rear range request function, a function of transmitting a temporary rear range request to a plurality of other edge routers that request a rear range based on the IP address information provided by the provided function is realized. When the temporary rearrange request is received as a function corresponding to the device that controls the edge router, changes in the QoS value and the number of hops when it is assumed that the rearrange is actually performed based on the temporary rearrange request. The information about the IP address of the own router is returned to the temporary rearrange requester, and the IP address information returned by the function to return and the QoS value are provided as the rearrange request function. Based on information on changes in the number of hops, Other edge routers involved in transfection can also be achieved the function of the rearrangement requested.
[0024]
In addition, as a function corresponding to the device that controls the relay router, a function for monitoring the traffic of the connection passing through the own router is realized, and as the function possessed, the function passes through the own router based on the monitoring result of the function to be monitored. A function of holding traffic information related to a connection to be performed together with the IP address, and as the function to be provided, based on the address information request, the IP address information and the traffic information are transmitted to the edge router of the address information request source. Realizing the function to be provided, and as the rearrange request function, the other edge router related to the connection with the least traffic volume based on the IP address information and the traffic information provided by the provided function is set as the rearrange request target. Realize the function And it can also be.
[0025]
A fourth aspect of the present invention is the information processing apparatus-readable recording medium on which the program of the present invention is recorded. By recording the program of the present invention on the recording medium of the present invention, the information processing apparatus can install the program of the present invention using this recording medium. Alternatively, the program of the present invention can be directly installed in the information processing apparatus via a network from a server holding the program of the present invention.
[0026]
As a result, it is possible to realize a network and a router that can effectively use available resources of the network and improve the use efficiency of the entire network by using an information processing device such as a computer device.
[0027]
A fifth aspect of the present invention is a connection rearrangement method applied to a network including an edge router and a relay router provided between the edge routers. The feature of the present invention is that The relay router has an IP address of an edge router related to a connection passing through its own router, and when the edge router requests a rearrangement for a connection already set in the relay router, the relay router Requesting the IP address information of the other edge router related to the connection passing through the relay router, the relay router provides the IP address information to the edge router of the address information request source based on the address information request, and the edge router Based on the provided IP address information, the router There is to sending the rearranged request to other edge routers to request Nji.
[0028]
In addition, the relay router holds information including a QoS value and a hop number related to a connection passing through the router together with the IP address, and the relay router receives the IP address information and the QoS based on the address information request. Information including a value and the number of hops is provided to the edge router of the address information request source, and the edge router performs rearrangement based on the information including the provided IP address information and the QoS value and the number of hops. Another edge router related to the connection having the least influence of the instantaneous interruption can be set as a rearrange request target.
[0029]
In addition, the edge router sends a temporary rearrange request to a plurality of other edge routers for which the own router requests a rearrange based on the provided IP address information, and receives the temporary rearrange request. The other edge router of the temporary rearrange request source includes information on the change of the QoS value and the number of hops when it is assumed that the rearrangement is actually performed based on the temporary rearrangement request together with the IP address information of the own router. The edge router retransmits the other edge router related to the connection having the least influence of the instantaneous interruption due to the rearrangement execution based on the returned information on the IP address and the information on the change in the QoS value and the number of hops. It can also be an arrangement request target.
[0030]
Further, the relay router monitors traffic of a connection passing through the own router, and holds traffic information related to a connection passing through the own router based on the monitoring result together with the IP address, and based on the address information request, the IP address Address information and the traffic information are provided to the edge router of the address information request source, and the edge router is connected to the other edge related to the connection with the least traffic volume based on the provided IP address information and the traffic information. Routers can be targeted for rearrangement.
[0031]
DETAILED DESCRIPTION OF THE INVENTION
(First Example)
A network according to the first embodiment of the present invention will be described with reference to FIGS. FIG. 1 is a block diagram of the relay router of the first embodiment. FIG. 2 is a configuration diagram of the MPLS connection table of the first embodiment. FIG. 3 is a diagram illustrating a rearrange request unit of the edge router according to the first embodiment. FIG. 4 is a sequence diagram showing the operation of the network of the first embodiment. FIG. 5 is a flowchart showing the operation of the rearrange request unit of the first embodiment. Note that FIG. 13 refers to the MPLS network configuration.
[0032]
As shown in FIG. 13, the present embodiment is an MPLS network that is a network including edge routers A to D and relay routers W to Z provided between the edge routers A to D. As shown in FIG. 1, W to Z are provided with an MPLS connection table 3 that holds IP addresses of edge routers related to an MPLS connection that is a connection passing through the own router, and the edge routers A to D are shown in FIG. As described above, a rearrange request unit 8 that requests a rearrangement for an MPLS connection that has already been set in the relay router to which the router is connected is provided. The rearrange request unit 8 includes an MPLS connection table 3 provided in the relay router. Requests the IP address information of other edge routers related to the MPLS connection via the relay router. The control unit 2 provides the IP address information to the address information requesting edge router based on the address information request, and the rearrange requesting unit 8 is based on the IP address information provided by the control unit 2. The local router sends a rearrange request to another edge router that requests the rearrange.
[0033]
As shown in FIG. 1, the relay router includes a switch unit (SW unit) 1, a control unit 2, and an MPLS connection table 3. Here, the MPLS connection via the relay routers X and Y will be described. As shown in FIG. 2, the MPLS connection table 3 includes the number 4 of the other relay routers Y and W of the relay router X and the other party of the relay router X. The MPLS connection number 5 between the relay routers Y and W and the IP address 6 of the edge router using the corresponding MPLS connection in the relay router X are recorded.
[0034]
Now, when the relay router X receives the rearrange request from the edge router C, the IP address used with the partner relay router Y in the section for which the rearrangement is requested is set to the number 4 of the partner relay router. The received rearrange request is transferred to the relay router Y with this IP address as the destination. The relay router Y responds to the edge router C with the IP address information in response to the transferred rearrangement request. The edge router C selects a rearrange candidate from the response to the rearrange request, and requests an actual rearrange from the optimum rearrange candidate.
[0035]
Next, the operation of the network of the first embodiment will be described with reference to FIGS. As shown in FIG. 4, the edge router C that wants to set up a new connection requests the relay router X for the IP address information of the other edge router A that is using the MPLS connection, and the relay router X stores the information in the MPLS connection table. The recorded number of the partner relay router Y of the relay router X, the MPLS connection number of the relay router X with the partner relay router Y, and the IP address of the edge router A that uses the MPLS connection in the relay router X The information is notified to the edge router C as the address information request source. In general, the relay routers W to Z are set up by an edge router regardless of the connection setup at high speed.
[0036]
In the example of FIG. 13, there are two edge routers A and C connected to the relay router X. However, when more edge routers are connected to the relay router X, the edge router C Request the rearrangement from the other edge routers using the desired MPLS connection from the information of the taught IP address, inquire a plurality of candidates until it is permitted, and set a new connection after the rearrangement.
[0037]
That is, as shown in FIG. 5, the rearrange request unit 8 of the edge router acquires the IP address information from the relay router (step 1), and the other edge related to the desired MPLS connection from the IP address information. It is determined whether there is a router IP address (step 2). If such an IP address is found, a rearrange request is sent to the edge router (step 3). When this rearrange request is accepted (step 4), resources for setting the desired new MPLS connection are released by executing the rearrangement, so the edge router sets the desired new MPLS connection (step). 5).
[0038]
(Second embodiment)
The network of the second embodiment will be described with reference to FIGS. FIG. 6 is a diagram showing an MPLS connection table of the second embodiment. FIG. 7 is a flowchart showing the operation of the rearrange request unit of the second embodiment.
[0039]
In the second embodiment, as shown in FIG. 6, the MPLS connection table 3 holds information including the QoS value and the number of hops related to the connection via the own router together with the IP addresses of other edge routers related to the desired MPLS connection. To do. Based on the address information request, the control unit 2 of the relay router provides the IP address information, information including the QoS value and the number of hops to the address information requesting edge router. The rearrange request unit 8 rearranges the other edge routers related to the connection having the least influence of the instantaneous interruption caused by the rearrangement execution based on the IP address information provided by the control unit 2 and the information including the QoS value and the number of hops. It becomes a request object.
[0040]
That is, the importance of the MPLS connection can be identified by the QoS value. Furthermore, the number of relay routers through which the MPLS connection passes can be identified by the number of hops. As a result, MPLS connections that are as low in importance as possible and have as few relay routers as possible are targeted for rearrangement. The reason for this is that in the event of a momentary interruption due to rearrangement, it is highly likely that communication that does not allow momentary interruption is performed in the MPLS connection, which is highly important. It is desirable to select an MPLS connection that is unlikely to perform communication that does not allow such a momentary disconnection. Also, in an MPLS connection with a large number of relay routers, a large number of relay routers participate in the rearrange processing, which increases the processing load on each relay router and may increase the instantaneous interruption time. It is desirable to select an MPLS connection with a small number of routers.
[0041]
That is, as shown in FIG. 7, the edge router that intends to set up a new MPLS connection acquires information including the IP address information, the QoS value, and the hop number from the relay router (step 1), and sets the desired MPLS connection. If there is an IP address of the edge router concerned (step 2), an MPLS connection that is least affected by a momentary interruption due to rearrangement is estimated (step 3). A rearrange request is sent to the other edge router related to the MPLS connection (step 4). When this rearrange request is accepted (step 5), the resources for setting the desired new MPLS connection are released by executing the rearrangement, so the edge router sets the desired new MPLS connection (step). 6).
[0042]
(Third embodiment)
The network of the third embodiment will be described with reference to FIGS. FIG. 8 is a block diagram of the temporary arrangement request processing unit of the third embodiment. FIG. 9 is a diagram showing the operation of the network of the third embodiment. FIG. 10 is a flowchart showing the operation of the rearrange request unit of the third embodiment.
[0043]
As shown in FIG. 3, the rearrange request unit 8 of the third embodiment responds to a plurality of other edge routers whose own router requests a rearrange based on the IP address information provided by the control unit 2 of the relay router. Send a temporary rearrange request. When the temporary rearrange request processing unit 9 of the other edge router receives the temporary rearrange request, as shown in FIG. 8, the QoS value when it is assumed that the rearrange is actually performed based on the temporary rearrange request. And a rearrange / simulating unit 10 for returning information on the change in the number of hops together with the IP address information of the own router to the temporary rearrange requester. The rearrange requesting unit 8 includes the IP address of the returned IP address. Based on the information and information on the change in the QoS value and the number of hops, another edge router related to the connection having the least influence of the instantaneous interruption due to the rearrange execution is set as the rearrange request target.
[0044]
That is, as shown in FIG. 9 and FIG. 10, the edge router that intends to set up a new MPLS connection obtains IP address information from the relay router (step 1), and the IP address of the edge router related to the desired MPLS connection. If there is (step 2), a temporary rearrange request is sent to the other edge router (step 3). The other edge router returns information on its own IP address and information on a change in the QoS value and the number of hops when rearrangement is performed to the edge router that is the temporary rearrange request transmission source. The edge router obtains the IP address information and the information related to the change in the QoS value and the number of hops (step 4), and estimates the MPLS connection that is least affected by the momentary interruption due to the rearrangement (step 5). A rearrange request is sent to the other edge router related to the MPLS connection (step 6). When this rearrange request is accepted (step 7), resources for setting the desired new MPLS connection are released by executing the rearrangement, so the edge router sets the desired new MPLS connection (step 7). 8).
[0045]
(Fourth embodiment)
The network of the fourth embodiment will be described with reference to FIGS. FIG. 11 is a block diagram of the relay router of the fourth embodiment. FIG. 12 is a flowchart showing the operation of the rearrange request unit of the fourth embodiment.
[0046]
In the fourth embodiment, as shown in FIG. 11, the relay router includes a traffic monitoring device 7 that monitors the traffic of a connection that passes through its own router, and the MPLS connection table 3 includes the monitoring result of the traffic monitoring device 7. Based on this, the traffic information related to the connection via the own router is held together with the IP address. The control unit 2 provides IP address information and traffic information to the address information requesting edge router based on the address information request. The rearrange request unit 8 targets other edge routers related to the connection with the least traffic volume based on the IP address information and traffic information provided by the control unit 2 as a rearrange request target.
[0047]
That is, as shown in FIG. 12, the edge router obtains IP address information and traffic information from the relay router (step 1), and if there is an IP address of another edge router related to the desired MPLS connection (step 2). Then, an MPLS connection with the least traffic is selected from among them (step 3), and a rearrange request is sent to the other edge routers related to the MPLS connection (step 4). When this rearrange request is accepted (step 5), the resources for setting the desired new MPLS connection are released by executing the rearrangement, so the edge router sets the desired new MPLS connection (step). 6).
[0048]
The reason for selecting the MPLS connection with the smallest traffic amount as the target of the rearrangement is that when an interruption occurs due to the rearrangement, an MPLS connection with a large amount of traffic has a large amount of traffic affected by the interruption. Therefore, by selecting the MPLS connection having the smallest traffic amount as the rearrange target, the traffic amount affected by the instantaneous interruption can be reduced.
[0049]
The description of this embodiment is an MPLS connection, but the same applies to MPλS by optical connection.
[0050]
(Fifth embodiment)
The device for controlling the router of this embodiment can be realized by using a computer device which is an information processing device. That is, by installing in the computer apparatus, the router applied to the network including the edge routers A to D and the relay routers W to Z provided between the edge routers A to D is controlled by the computer apparatus. MPLS connection table 3 that holds the IP address of the edge router related to the MPLS connection passing through the own router as a function corresponding to the device that controls the relay routers W to Z. As a function corresponding to a device for controlling the edge routers A to D, the function corresponding to the rear router requesting unit 8 that requests the rear range for the connection already set in the relay router to which the own router is connected corresponds. The function corresponding to the rear range request unit 8 is realized. Thus, an address information request function for requesting the IP address information of the other edge router related to the connection via the relay router is realized with respect to the MPLS connection table 3 provided in the relay router, corresponding to the relay routers W to Z. As a function, a function corresponding to the control unit 2 that provides the IP router information to the address information requesting edge router based on the address information request is realized, and a function corresponding to the rearrange request unit 8 is 2 is installed in the computer device by implementing a function for transmitting a rearrange request to another edge router that requests a rearrange based on the IP address information provided by the second router. Edge routers A to D and relay router W of the first embodiment It is possible to realize a function corresponding to apparatus for controlling the Z.
[0051]
Further, as a function corresponding to the MPLS connection table 3, a function of holding information including a QoS value and a hop number related to the connection via the own router together with the IP address is realized, and as a function corresponding to the control unit 2, As a function corresponding to the rearrange request unit 8, the control unit realizes a function of providing the IP address information and information including the QoS value and the number of hops to the edge router requesting the address information based on the address information request. Realizes a function that targets other edge routers related to connections that have the least influence of instantaneous interruption due to rearrangement execution based on the IP address information and information including the QoS value and the number of hops provided by 2. The program to be installed on the computer device And it makes it possible to realize a function corresponding to apparatus for controlling the edge router A~D and relay routers W~Z of a second embodiment in the computer system.
[0052]
Further, as a function corresponding to the rearrange request unit 8, the own router sends a temporary rearrange request to a plurality of other edge routers requesting the rearrange based on the IP address information provided by the control unit 2. As a function corresponding to the provisional rearrange request processing unit 9, when the provisional rearrange request is received, the QoS value and hop when it is assumed that the rearrange is actually performed based on the provisional rearrange request A function corresponding to the rearrange / simulation unit 10 that returns information related to the change of the number together with the IP address information of the own router to the temporary rearrange requester is realized, and a function corresponding to the rearrange request unit 8 is returned. Based on the information on the IP address and the information on the change in the QoS value and the number of hops, By installing in the computer device a program that realizes a function that targets other edge routers related to the connection with the least influence of instantaneous interruption as a rearrange request, the edge routers A to D and the relay of the third embodiment are installed in the computer device. Functions corresponding to the devices that control the routers W to Z can be realized.
[0053]
Furthermore, as a function corresponding to the device that controls the relay routers W to Z, a function corresponding to the traffic monitoring device 7 that monitors the traffic of the connection that passes through the own router is realized, and as a function corresponding to the MPLS connection table 3, Based on the monitoring result of the function to be monitored, a function of holding traffic information related to the connection via the own router together with the IP address is realized, and as a function corresponding to the control unit 2, the IP address of the IP address is based on the address information request. A function for providing the information and the traffic information to the edge router requesting the address information is realized, and as a function corresponding to the rearrange request unit 8, the IP address information and the traffic information provided by the control unit 2 are included. Connection with the least amount of traffic based on By installing in the computer device a program that implements a function that targets other edge routers involved in the rearrangement request, the computer device can control the edge routers A to D and the relay routers W to Z of the fourth embodiment. The corresponding function can be realized.
[0054]
By recording the program of the present embodiment on the recording medium of the present embodiment, the computer apparatus can install the program of the present embodiment using this recording medium. Alternatively, the program of this embodiment can be directly installed on the computer device from the server holding the program of this embodiment via the network.
[0055]
As a result, it is possible to realize an MPLS network and a router that can effectively use empty resources of the MPLS network and improve the use efficiency of the entire MPLS network by using a computer device.
[0056]
【The invention's effect】
As described above, according to the present invention, it is possible to effectively use the free resources of the network and improve the use efficiency of the entire network.
[Brief description of the drawings]
FIG. 1 is a block diagram of a relay router according to a first embodiment.
FIG. 2 is a configuration diagram of an MPLS connection table according to the first embodiment.
FIG. 3 is a diagram illustrating a rearrange request unit of the edge router according to the first embodiment.
FIG. 4 is a sequence diagram showing network operations of the first embodiment.
FIG. 5 is a flowchart showing the operation of the rearrange request unit of the first embodiment.
FIG. 6 is a diagram illustrating an MPLS connection table according to the second embodiment.
FIG. 7 is a flowchart showing the operation of a rearrange request unit of the second embodiment.
FIG. 8 is a block configuration diagram of a temporary arrangement request processing unit of a third embodiment.
FIG. 9 is a diagram showing network operation of the third embodiment.
FIG. 10 is a flowchart showing the operation of a rearrange request unit of the third embodiment.
FIG. 11 is a block diagram of a relay router according to a fourth embodiment.
FIG. 12 is a flowchart showing the operation of a rearrange request unit of the fourth embodiment.
FIG. 13 is a conceptual diagram of an MPLS network.
[Explanation of symbols]
1 Switch part
2 Control unit
3 MPLS connection table
4 Relay router number of the relay router
5 MPLS connection number between the relay router and the other relay router
6 IP address of the edge router using the MPLS connection in the relay router
7 Traffic monitoring device
8 Rearrange request section
9 Temporary rearrange request processing part
10 Rearrange / simulation section
A to D Edge router
W to Z relay router

Claims (5)

In a network comprising an edge router and a relay router provided between the edge routers,
The relay router includes means for holding an IP address of an edge router related to a connection passing through the own router,
The edge router includes a rearrange request means for requesting a rearrange for a connection already set in the relay router to which the own router is connected,
The rearrange requesting means includes address information requesting means for requesting information on the IP address of another edge router related to the connection via the relay router to the means for holding the IP address provided in the relay router. ,
The holding means comprises means for providing the IP address information to the edge router of the address information request source based on the address information request,
The rearrange request means comprises means for sending a provisional rearrange request to a plurality of other edge routers for which the own router requests a rearrange based on the information of the IP address provided by the means for providing,
When the edge router receives the provisional rearrange request, information on the change of the QoS value and the number of hops when the rearrangement is actually performed based on the provisional rearrange request is obtained. And means for returning to the temporary rearrange requester,
The rearrange requesting means is based on the information on the IP address returned by the replying means and the information on the change in the QoS value and the number of hops. A network comprising means for requesting a rearrangement of a router . In a router applied to a network including an edge router and a relay router provided between the edge routers,
As the relay router, comprising means for holding the IP address of the edge router related to the connection via the own router,
As the edge router, comprising a rearrange request means for requesting a rearrange for a connection already set in the relay router to which the own router is connected,
The rearrange requesting means includes address information requesting means for requesting information on the IP address of another edge router related to the connection via the relay router to the means for holding the IP address provided in the relay router. ,
The holding means comprises means for providing the IP address information to the edge router of the address information request source based on the address information request,
The rearrange request means comprises means for sending a provisional rearrange request to a plurality of other edge routers for which the own router requests a rearrange based on the information of the IP address provided by the means for providing,
When receiving the temporary rearrange request as the edge router, information on the change of the QoS value and the number of hops when assuming that the rearrange is actually performed based on the temporary rearrange request is information on the IP address of the own router. And means for returning to the temporary rearrange requester,
The rearrange requesting unit is configured so that the other edge related to the connection having the least influence of the momentary interruption due to the rearrangement execution based on the information on the IP address returned by the returning unit and the information on the change in the QoS value and the hop number. Provided with means to request routers for rearrangement
A router characterized by that . When installed in an information processing device, the information processing device realizes a function corresponding to a device that controls a router applied to a network including an edge router and a relay router provided between the edge routers. In the program
As a function corresponding to the device that controls the relay router, realize the function of holding the IP address of the edge router related to the connection via its own router,
As a function corresponding to the device for controlling the edge router, a rearrange request function for requesting a rearrange for a connection already set in the relay router to which the own router is connected is realized.
As this rearrange request function, an address information request function for requesting the IP address information of the other edge router related to the connection via the relay router to the function of holding the IP address provided in the relay router is realized. Let
As the function possessed, based on this address information request, realize the function of providing the IP address information to the edge router of the address information request source,
As the rear range request function, realize a function of sending a temporary rear range request to a plurality of other edge routers that request a rear range based on the IP address information provided by the function to be provided,
As a function corresponding to the device that controls the edge router, when the temporary rearrange request is received, information on changes in the QoS value and the number of hops when it is assumed that the rearrange is actually performed based on the temporary rearrange request. And the function of returning the IP address of the own router to the temporary rearrangement request source,
As the rearrange request function, the other edge related to the connection having the least influence of the instantaneous interruption due to the rearrangement execution based on the information on the IP address returned by the reply function and the information on the change of the QoS value and the number of hops. Realize a function that targets the router as a rearrange request
A program characterized by that . A recording medium readable by the information processing apparatus on which the program according to claim 3 is recorded . In a rearrangement method for connections applied to a network comprising an edge router and a relay router provided between the edge routers,
The relay router has an IP address of an edge router related to a connection passing through its own router,
When the edge router requests a rearrangement for a connection already set in the relay router, the relay router requests information on the IP address of the other edge router related to the connection via the relay router,
The relay router provides the IP address information to the edge router of the address information request source based on the address information request,
The edge router sends a temporary rearrange request to a plurality of other edge routers for which the router requests a rearrange based on the provided IP address information,
The plurality of other edge routers that have received the temporary rearrange request receive information on changes in the QoS value and the number of hops when the rearrange is actually performed based on the temporary rearrange request. To the temporary rearrange requester along with
The edge router sets other edge routers related to the connection having the least influence of instantaneous interruption caused by rearrangement as a rearrangement request target based on the returned IP address information and information on the QoS value and the change in the number of hops. Do
A rearrange method characterized by that.

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