JP6990745B2 - IPv6 CE router with built-in interface setting program, interface setting method, and interface setting program for IPv6 CE router - Google Patents

Description

The present invention relates to an IPv6 CE router incorporating an interface setting program, an interface setting method, and an interface setting program for an IPv6 CE router.
The CE (Customer Edge) router means a router having a WAN side interface connected to an ISP (Internet Service Provider) router and a LAN side interface connected to one or a plurality of hosts.

The following inventions have been filed for IPv6 address management methods.

For example, Patent Document 1 (Japanese Unexamined Patent Publication No. 2012-156670) describes an IP address management method in a device that communicates using an IP address, and describes a step of acquiring an IP address by a plurality of methods and the above-mentioned acquisition. When a plurality of IP addresses are the same, the plurality of IP addresses are stored so as to be identifiable by the method, and the plurality of IP addresses are selected from among the plurality of IP addresses according to a predetermined priority for the method. The process of determining a valid IP address to be used for communication and setting the IP address to be used for the communication, and excluding the disappeared IP address when the set IP address disappears. An IP address management method comprising a step of determining a valid IP address from the stored IP addresses according to the priority and setting the IP address to be used for the communication. It has been disclosed.

Further, in Patent Document 2 (Japanese Patent Laid-Open No. 2017-517161), a method of addressing a data packet in a mesh network, in which a router device receives a packet to be transmitted to a network destination, and the network destination is described. Determining if it is a destination on the mesh network and using multicast addressing to send an address query over the mesh network to find a routing locator (RLOC) associated with the network destination. Disclosed are methods of addressing data packets in a mesh network, including forwarding the packet using the RLOC to provide a routable network address for the destination address for the packet.

Japanese Unexamined Patent Publication No. 2012-156670 Japanese Patent Publication No. 2017-517161

Unlike IPv4, IPv6 is designed in consideration of a mechanism for automatically setting an IP address for a network interface.
Even in the case of a CE router that is connected to the ISP (Internet Service Provider) on the WAN side interface and connected to the host on the LAN side interface, the IP address should be automatically set for the WAN side interface based on the IPv6 mechanism. Is possible. Specifically, the IP address of the WAN side interface can be automatically set based on the Router Advertisement message from the ISP router or the Advantage message from the DHCPv6-IA_NA server. However, there was no mechanism for automatically setting the IP address for the LAN side interface of the CE router.
The DHCPv6-PD server is a mechanism newly created to delegate the IP address prefix of the LAN side interface, and the CE router is the prefix used in the LAN side interface based on the Advertise message from the DHCPv6-PD server. Can be set automatically. However, there are the following problems regarding the setting of the IP address of the LAN side interface of the CE router.
1) The prefix of the WAN side interface automatically set and the prefix range of the delegated LAN side interface may overlap. The fact that the prefix of the WAN side interface and the prefix range of the LAN side interface overlap has the following meanings. The prefix of the WAN side interface is / 64, that is, all the IP addresses from the MSB to the 64th bit are specified. On the other hand, as the prefix of the LAN side interface, for example, / 60, that is, the 60th bit from the MSB of the IP address may be specified. The fact that the prefix of the WAN side interface and the prefix range of the LAN side interface overlap means that the common bits of the WAN side interface prefix and the LAN side interface prefix, that is, the 60th bit from the MSB of the IP address are the same. Means that
When the prefix of the WAN side interface and the prefix range of the LAN side interface overlap, the unspecified bits of the prefix of the LAN side interface, that is, the 61st to 64th bits in the above example. It is necessary to make the prefix of the LAN side interface different from the prefix of the WAN side interface by making the values of the bits up to the bit different from the prefix of the WAN side interface.
2) However, if the prefix delegated to the LAN side interface is / 64 and is the same as the prefix of the WAN side interface, the prefix of the LAN side interface and the prefix of the WAN side interface cannot be different. In this case, the CE router must relay the communication between the LAN side network and the WAN side network by NDProxy.
3) In addition, the DHCPv6-PD server may not exist on the side of the ISP router. In this case, the CE router also uses the prefix assigned to the WAN side interface for the LAN side interface, but in this case as well, the CE router needs to perform NDProxy.
4) Conversely, there are cases where the WAN side interface prefix cannot be obtained from the ISP router by RA, and the WAN side interface IP address is not distributed from the DHCPv6-IA_NA server. In this case, the prefix of the WAN side interface can be selected and set from the prefix range of the LAN side interface delegated from the DHCPv6-PD server, but depending on the specifications of the ISP (Internet Service Provider), the WAN side interface can be set. Since the value of the prefix of is specified, it is necessary to set the prefix of the LAN side interface so as not to overlap with the WAN side interface.
However, conventionally, there has been no method or program for automatically setting the IP addresses of the WAN side interface and the LAN side interface of the IPv6 CE router in various network environments in response to the problems 1) to 4).

The invention described in Patent Document 1 is an invention of an IP address management method in a device that communicates using an IP address, but an IP address for a communication device having an interface between a WAN side and a LAN side such as an IPv6 CE router. The management method is not described.

The invention described in Patent Document 2 is an invention of an addressing and routing technique for a mesh network, and does not describe IPv6 address management on the WAN side and the LAN side of the IPv6 CE router, which is the subject of the present invention.

The main object of the present invention is an interface setting method and an interface that automatically sets the interface of an IPv6 CE router regardless of the network environment on the WAN side, such as the presence or absence of a DHCPv6-IA_NA server and the presence or absence of a DHCPv6-PD server. It is to distribute the setting program.
Another object of the present invention is to incorporate an interface setting program that automatically sets the interface of the IPv6 CE router regardless of the network environment on the WAN side, such as the presence or absence of the DHCPv6-IA_NA server and the presence or absence of the DHCPv6-PD server. It is to distribute the IPv6 CE router.

(1)
An IPv6 CE router interface setting program according to one aspect is an IPv6 CE router interface setting program including a WAN side interface connected to an ISP (Internet Service Provider) router and a LAN side interface connected to one or more hosts. And
Inquiry processing to inquire about the distribution of the prefix or IP address to the ISP router or the DHCPv6-IA_NA server connected to the ISP router, and to inquire about the delegation of the prefix to the DHCPv6-PD server connected to the ISP router.
The first interface setting process executed when the prefix or IP address is distributed from the ISP router or the DHCPv6-IA_NA server and the prefix is delegated from the DHCPv6-PD server, and
A second interface setting process to be executed when the prefix or IP address is distributed from the ISP router or the DHCPv6-IA_NA server and the prefix is not delegated from the DHCPv6-PD server.
Includes a third interface configuration process that is executed when neither the ISP router nor the DHCPv6-IA_NA server distributes the prefix or IP address and the DHCPv6-PD server delegates the prefix.
In the first interface setting process,
Set the IP address of the WAN side interface based on the prefix or IP address distributed from the ISP router or the DHCPv6-IA_NA server.
If there is one prefix delegated by the DHCPv6-PD server and it is the same as the prefix of the WAN side interface, set the prefix of the LAN side interface to be the same as the prefix of the WAN side interface and start NDProxy. Relays communication between the WAN side network and the LAN side network,
If there are multiple prefixes delegated by the DHCPv6-PD server and one of the multiple prefixes is the same as the WAN side interface prefix, then the LAN side interface prefix is the WAN side interface of the multiple prefixes. Set to a value different from the prefix of
If the prefix delegated by the DHCPv6-PD server is completely different from the prefix of the WAN side interface, set the prefix of the LAN side interface to the value selected from the delegated prefix.
In the second interface setting process, the prefix of the LAN side interface is set to be the same as the prefix of the WAN side interface, and NDProxy is started to relay the communication between the WAN side network and the LAN side network.
In the third interface setting process,
If the number of bits of the prefix delegated by the DHCPv6-PD server is 60 or more and 64 or less, set the prefix of the LAN side interface by selecting one from the delegated prefix, and set the IP address for the WAN side interface. figure,
If the number of bits of the prefix delegated by the DHCPv6-PD server is 59 or less, set the prefix of the WAN side interface to the first value of the delegated prefix, and set the prefix of the LAN side interface to the delegated prefix. Set a value different from the prefix of our WAN side interface.

The IPv6 CE router obtains information from the ISP router, DHCPv6-IA_NA server, and DHCPv6-PD server, sets the IP addresses of its WAN side interface and LAN side interface, and starts NDProxy if necessary. conduct.
The IP address is basically set based on the information from the ISP router and the DHCPv6-IA_NA server for the WAN side interface, and based on the information from the DHCPv6-PD server for the LAN side interface. However, since the ISP router, the DHCPv6-IA_NA server, and the DHCPv6-PD server do not always operate in cooperation with each other, the prefixes distributed or delegated may be duplicated. In the interface setting program that follows one aspect, if duplication can be avoided by adjusting, make adjustments, and if duplication cannot be avoided, start NDProxy and relay the communication between the WAN side network and the LAN side network. do.

Further, even if the information is queried to the ISP router, the DHCPv6-IA_NA server, and the DHCPv6-PD server, the information may not be obtained from one of the ISP router, the DHCPv6-IA_NA server, and the DHCPv6-PD server. In such a case, in the interface setting program that follows one aspect, if the prefix cannot be obtained from the DHCPv6-PD server, the prefix of the LAN side interface is set to be the same as the prefix of the WAN side interface, NDProxy is started, and ISP is also started. If the prefix or IP address is not distributed from the router and the DHCPv6-IA_NA server, select from the prefixes delegated to the LAN side interface and set the WAN side interface prefix.
Since it is impossible for a general user who uses the CE router to set the IPv6 CE router in response to such a change in the network environment, the IPv6 CE according to one aspect is applied to the CE router. The effect of installing the router interface setting program is great.

(2)
The interface setting program according to the second invention is the interface setting program according to one aspect, when a prefix is distributed from the ISP router in the process of setting the IP address of the WAN side interface in the process of setting the IP address of the WAN side interface in the first interface setting process. Sets the IP address of the WAN side interface based on the prefix distributed from the ISP router.

In this case, the prefix distributed from the ISP router takes precedence over the IP address distributed from the DHCPv6-IA_NA server. The reason for this is as follows. All addresses distributed from the DHCPv6-IA_NA server are managed, and depending on the implementation of the ISP router, packets with unmanaged source addresses may be discarded. This is because the IP address distribution by the DHCPv6-IA_NA server is intended to distribute the IP address directly to the host, not to the CE router.
In the interface setting program according to the second invention, by giving priority to the prefix distributed from the ISP router, the risk that packets not managed by the DHCPv6-IA_NA server are discarded is reduced.

(3)
The interface setting program according to the third invention has a plurality of prefixes delegated from the DHCPv6-PD server in the first interface setting process in the interface setting program according to the second aspect from the first aspect. When one of the prefixes of is the same as the prefix of the WAN side interface,
If the number of bits of the prefix delegated by the DHCPv6-PD server is 60 or more and 63 or less, set any of the 61st to 64th bits from the MSB side of the LAN side interface prefix to a value different from the WAN side interface prefix. Set,
If the number of bits of the prefix delegated by the DHCPv6-PD server is 59 or less, set any of the 57th to 60th bits from the MSB side of the prefix of the LAN side interface to a value different from the prefix of the WAN side interface. ..

When the number of bits of the prefix delegated from the DHCPv6-PD server is 59 or less, set any of the 57th to 60th bits from the MSB side of the prefix of the LAN side interface to a value different from the prefix of the WAN side interface. When operating the CE router as a DHCPv6-PD server by setting any of the 57th to 60th bits to a different value, / 60, that is, the 61st to 64th bits are not specified. This is to delegate the prefix in the form.

(4)
In the interface setting program according to the fourth invention, in the interface setting program according to the third aspect to the third aspect, in the first interface setting process, the prefix delegated from the DHCPv6-PD server is the prefix of the WAN side interface. In a completely different case, the prefix of the LAN side interface is set to the first value among the delegated prefixes.

In this case, the prefix of the LAN side interface can be set while the number of bits of the delegated prefix is small, that is, the degree of freedom of the prefix is large.

(5)
An interface setting method according to another aspect is an interface setting method of an IPv6 CE router including a WAN side interface connected to an ISP (Internet Service Provider) router and a LAN side interface connected to one or more hosts. , Interface setting method,
An inquiry process in which the ISP router or the DHCPv6-IA_NA server connected to the ISP router is inquired about the provision of a prefix or IP address, and the DHCPv6-PD server connected to the ISP router is inquired about the delegation of the prefix.
The first interface setting step to be executed when the prefix or IP address is provided by the ISP router or the DHCPv6-IA_NA server and the prefix is delegated by the DHCPv6-PD server.
A second interface setting step to be executed when the prefix or IP address is provided by the ISP router or the DHCPv6-IA_NA server and the prefix is not delegated by the DHCPv6-PD server.
Includes a third interface configuration step that is performed when neither the ISP router nor the DHCPv6-IA_NA server provides a prefix or IP address and the DHCPv6-PD server delegates the prefix.
In the first interface setting process,
The IP address of the WAN side interface is set based on the prefix or IP address provided by the ISP router or the DHCPv6-IA_NA server.
If there is one prefix delegated by the DHCPv6-PD server and it is the same as the prefix of the WAN side interface, set the prefix of the LAN side interface to be the same as the prefix of the WAN side interface and start NDProxy. Relays communication between the WAN side network and the LAN side network,
If there are multiple prefixes delegated by the DHCPv6-PD server and one of the multiple prefixes is the same as the WAN side interface prefix, then the LAN side interface prefix is the WAN side interface of the multiple prefixes. Set to a value different from the prefix of
If the prefix delegated by the DHCPv6-PD server is completely different from the prefix of the WAN side interface, set the prefix of the LAN side interface to the value selected from the delegated prefix.
In the second interface setting step, the prefix of the LAN side interface is set to be the same as the prefix of the WAN side interface, and NDProxy is started to relay the communication between the WAN side network and the LAN side network.
In the third interface setting process,
If the number of bits of the prefix delegated by the DHCPv6-PD server is 60 or more and 64 or less, select and set one of the delegated prefixes for the LAN side interface, and set the IP address for the WAN side interface. Without setting,
If the number of bits of the prefix delegated by the DHCPv6-PD server is 59 or less, set the prefix of the WAN side interface to the first value of the delegated prefix, and set the prefix of the LAN side interface to the delegated prefix. Set a value different from the prefix of our WAN side interface.

An interface setting method according to another aspect is an invention of a method corresponding to an interface setting program according to one aspect.

(6)
An IPv6 CE router according to still another aspect is an IPv6 CE router having a WAN side interface connected to an ISP router and a LAN side interface connected to one or more hosts, and an IPv6 CE router is further referred to as an IPv6 CE router. It includes a CPU, a storage device, a power supply, and a bus, and the storage device contains an interface setting program according to a fourth aspect to the fourth aspect.

In this case, when the user turns on the power of the IPv6 CE router or resets the IPv6 CE router, the built-in interface setting program is activated and the IP addresses of the WAN side interface and the LAN side interface of the IPv6 CE router are set. Furthermore, if necessary, NDIPv can be started automatically.

It is a schematic diagram which shows the network of IPv6 CE router and its surroundings. It is a schematic block diagram of the IPv6 CE router. It is a flowchart of the interface automatic setting program of IPv6 CE router.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the following description, the same parts are designated by the same reference numerals. Further, in the case of the same reference numeral, their names and functions are also the same. Therefore, detailed explanations about them will not be repeated.

[Embodiment]
FIG. 1 is a schematic diagram showing the IPv6 CE router 300 and its surrounding network, FIG. 2 is a schematic block diagram of the IPv6 CE router 300, and FIG. 3 is a flowchart of an interface automatic setting program of the IPv6 CE router 300. ..

(Network configuration of IPv6 CE router 300 and its surroundings)
As shown in FIG. 1, the IPv6 CE router 300 is a router that connects the LAN side network 120 and the WAN side network 240, and includes a LAN side interface 100 and a WAN side interface 200.
The LAN side interface 100 is connected to one or more LAN side hosts 110 via the LAN side network 120. The LAN side host 110 is, for example, a personal computer, a printer, or the like.
The WAN side interface 200 is connected to the ISP (Internet Service Provider) router 210 via the WAN side network 240, and further to the DHCPv6-IA_NA server 220, the DHCPv6-PD server 230, and the Internet 250 via the ISP router 210. Be connected. The DHCPv6-IA_NA server 220 and the DHCPv6-PD server 230 may be built in the ISP router 210. Further, the DHCPv6-IA_NA server 220 and the DHCPv6-PD server 230 may not have one or both of them.

(Configuration of IPv6 CE Router 300)
As shown in FIG. 2, the IPv6 CE router 300 includes a CPU 310, a storage device 320, a power supply 330, and a bus 340 in addition to the LAN side interface 100 and the WAN side interface 200. The interface automatic setting program of the present invention is stored in the storage device 320 and executed by the CPU 310.

(IP address automatic setting method in IPv6 interface)
Unlike the case of IPv4, IPv6 incorporates a mechanism for automatically setting an IP address for an interface from the beginning.
In the case of RA (Router Advantage), when the interface sets a link-local IPv6 address and sends a Router Configuration message, the Router returns a Router Advertisement message, which contains a prefix corresponding to the upper bit of the IP address. ing. Therefore, the IPv6 interface can automatically set its own IP address by generating an interface identifier from its own MAC address or the like in the prefix and combining it with the prefix.
Further, as with IPv4, IPv6 can also receive an IP address from a DHCP server. When the interface sends a Soloicit message to the All_DHCP_Relay_Agents_and_Servers multicast, the DHCPv6-IA_NA server 220 returns an Advantage message, and the IPv6 address can be automatically set.

(Problems of IP address setting in IPv6 CE router 300)
The IPv6 CE router 300 includes a LAN side interface 100 and a WAN side interface 200. Of these, the WAN side interface 200 corresponds to the host for the ISP router 210, and either the IPv6 address is generated by combining the prefix of the Router Advertisement message distributed from the ISP router 210 and the interface identifier generated by itself, or DHCPv6-IA_NA. The IPv6 address of the Advantage message distributed from the server 220 can be used.
On the other hand, the LAN side interface 100 of the DHCP CE router 300 needs to send a Router Advertisement message to one or more LAN side hosts 110 and distribute a prefix that can be used in the LAN side network 120. Alternatively, the Advantage message from the DHCP server on the WAN side does not include a prefix that can be used in the network 120 on the LAN side.
A new provision regarding the DHCPv6-PD server has been established for the purpose of delegating the prefix of the LAN side network 120 of the CE router 300. According to the provisions of the DHCPv6-PD server, when a Wireless message is sent to the DHCPv6-PD server 230 connected (or built-in) to the ISP router 210, the DHCPv6-PD server 230 returns an Advertise message and includes it. The prefix that can be used in the LAN side network 120 can be determined from the information obtained.

At first glance, there is no problem with interface settings such as the IP address of the CE router 300 due to the determination of the WAN side IP address by the ISP router 210 or the DHCPv6-IA_NA server 220 and the determination of the prefix by the DHCPv6-PD server 230. However, there are the following issues.
1) The prefix of the IP address of the WAN side interface 200 distributed by the ISP router 210 or the DHCPv6-IA_NA server 220 overlaps with the prefix range of the IP address of the LAN side interface 100 delegated by the DHCPv6-PD server 230. In some cases. In this case, it is necessary to adjust the prefix of the LAN side interface 100 so as not to be the same as the prefix of the WAN side interface 200.
2) Further, when the prefix of the LAN side interface 100 delegated by the DHCPv6-PD server 230 is / 64, that is, when all 64 bits are specified, the prefix of the LAN side interface 100 cannot be adjusted. , The prefix of the WAN side interface 200 and the prefix of the LAN side interface 100 become the same. In this case, the ISP router 210 tries to transfer the packet directly to the LAN side host 110 because the prefix of the LAN side host 110 connected to the LAN side network 120 is the same as the prefix of its own interface, but actually Cannot communicate because there is a CE router 300 on the way. In order to solve this problem, the CE router 300 needs to relay the packet sent from the ISP router 210 to the LAN side network 120, that is, perform ND Proxy (Neighbor Discovery Protocol).
3) In addition, the DHCPv6-PD server 230 may not exist on the side of the ISP router 210. In this case, the CE router 300 also uses the prefix assigned to the WAN side interface 200 for the LAN side interface 100, but even in this case, the CE router 300 needs to perform NDProxy.
4) On the contrary, the prefix of the WAN side interface 200 may not be obtained from the ISP router 210 by RA, and the IP address of the WAN side interface 200 may not be distributed from the DHCPv6-IA_NA server 220. In this case, the prefix of the WAN side interface 200 can be selected and set from the prefix range of the LAN side interface 100 delegated from the DHCPv6-PD server 230, but depending on the specifications of the ISP (Internet Service Provider), it may be set. Since the prefix of the WAN side interface 200 is restricted, it is necessary to adjust the prefix of the LAN side interface 100 so as not to overlap with the WAN side.

In response to the above problems, the user of the CE router 300 confirms the responses of the ISP router 210, the DHCPv6-IA_NA server 220, and the DHCPv6-PD server 230 on the WAN side, and individually sets the CE router 300. It is very difficult and practically impossible to adjust to.
The present invention has an interface setting method for automatically setting the CE router 300 by confirming the responses of the ISP router 210, the DHCPv6-IA_NA server 220, and the DHCPv6-PD server 230 on the WAN side in response to such problems. It is the invention of the interface automatic setting program.

(Flowchart of interface setting program and setting method of IPv6 CE router 300)
The interface automatic setting program of the present invention will be described with reference to the flowchart of FIG.
When the user turns on the power of the CE router 300 or resets the CE router 300, the interface automatic setting program of the present invention is activated.
First, the CE router 300 sets a link-local IPv6 address, and then sends a Router Configuration message (step S1).
Next, the CE router 300 transmits a DHCPv6-IA_NA Policy message (step S2).
Next, the CE router 300 transmits a DHCPv6-PD Configuration message (step S3).
Next, it is confirmed whether or not the prefix is distributed in the Router Assistance message for the Router Configuration message (step S4).
When the prefix is distributed in the Router Advice message, the prefix and the interface identifier generated by itself are combined and set as the IP address of the WAN side interface 200 (step S5).
If the prefix is not distributed in the Router Assistance message, it is confirmed whether or not the IP address is distributed in the DHCPv6-IA_NA Replicat message for the DHCPv6-IA_NA Policy message (step S6).
If the IP address is distributed in the DHCPv6-IA_NA Advantage message, it is set as the IP address of the WAN side interface 200 (step S7).
In the present embodiment, the IP address is set based on the DHCPv6-IA_NA Reply message only when the prefix is not distributed in the Router Assistance message, but the IP address is not distributed in the DHCPv6-IA_NA Reply message. Only in this case, the IP address of the WAN side interface 200 may be set based on the prefix of the Router Assistance message.

When the IP address of the WAN side interface 200 is set in step S5 or step S7, the IP address of the LAN side interface 100 is set as follows.
The DHCPv6-PD Adaptise message for the DHCPv6-PD Configuration message is confirmed (step S8).
When the prefix of the LAN side interface 100 is not delegated in the DHCPv6-PD Advertise message, the prefix of the LAN side interface 100 is set to the same value as the prefix of the WAN side interface 200 (step S9).
In this case, since the communication from the ISP router 210 to the LAN side host 110 is cut off, NDProxy is started (step S10).

When the prefix of the LAN side interface 100 is delegated in the DHCPv6-PD Advantage message in step S8, the prefix of the LAN side interface 100 is set as follows.
First, it is confirmed whether or not the prefix range delegated by the DHCPv6-PD Advantage message overlaps with the prefix of the WAN side interface 200 (step S11). Note that overlapping means that, for example, when the delegated prefix is / 60, that is, when the MSB to the 60th bit of the IP address is specified, the value from the MSB to the 60th bit is the prefix of the WAN side interface 200. Means equal to.
If the delegated prefix range does not overlap with the prefix of the WAN side interface 200, the prefix of the LAN side interface 100 can be freely selected in the delegated prefix range, so that the first value of the delegated prefix range is set on the LAN side. It is used as the prefix of the interface 100 (step S12).

When the delegated prefix range overlaps with the prefix of the WAN side interface 200 and the delegated prefix is / 64 (step S13), the prefix of the WAN side interface 200 is used as it is as the prefix of the LAN side interface 100 (step S13). Step S14).
In this case, since the communication from the ISP router 210 to the LAN side host 110 is cut off, NDProxy is started (step S15).

In step S13, if the delegated prefix is not / 64, the prefix of the LAN side interface 100 has a degree of freedom of choice, so the prefix of the LAN side interface 100 is set so as not to overlap with the prefix of the WAN side interface 200. Specifically, when the delegated prefix is / 60-63, that is, the number of bits of the prefix is 60-63, and the 60th to 63rd bits from the MSB side of the IP address are specified (step). In S16), the 61st bit to the 64th bit from the MSB side are made different from the prefix of the WAN side interface 200 (step S17). The prefix of IPv6 is / 64, that is, 64 bits, and the delegated prefix is / 60-63 means that a plurality of prefixes have been delegated.

Further, when the delegated prefix is / -59, that is, only the 59th bit or more from the MSB side of the IP address is specified (step S16), the 57th to 60th bits from the MSB side are designated as the WAN side interface 200. It is different from the prefix of (step S18).

If the IP address is not distributed in the DHCPv6-IA_NA Replica message and the prefix is not distributed in the Router Assistance message for the Router Configuration message (step S6), the WAN side interface 200 and the LAN side interface 100 are distributed as follows. Set the IP address.
The DHCPv6-PD Adaptise message for the DHCPv6-PD Configuration message is confirmed (step S19). If the prefix of the LAN side interface 100 is not delegated in the DHCPv6-PD Adventure message, it corresponds to a special case such as not an IPv6 line. Therefore, this program does not set the IP addresses of the WAN side interface 200 and the LAN side interface 100. finish.

When the prefix of the LAN side interface 100 is delegated in the DHCPv6-PD Advertise message, and the delegated prefix is specified from the MSB side of the IP address to the 60th bit to the 64th bit (step S20). The IP address is set using the prefix delegated to the LAN side interface 100 (step S21). In this case, it is not necessary to assign an IP address to the WAN side interface 200. The source IP address when transmitting from the LAN side host 110 to the Internet 250 is the IPv6 global unicast address of the LAN side host 110, and the LAN side also when transmitting from the CE router 300 to the Internet 250. This is because the IP address of the interface 100 can be used as the source address.

Further, when the delegated prefix is / -59, that is, only the 59th bit or less from the MSB side of the IP address is specified (step S20), the ISP may be NGN (Next Generation Network). In NGN, the beginning of the delegated prefix range is set for MAP-E (Mapping of Address and Port Encapsulation), which is a protocol for passing an IPv6-only network by encapsulating an IPv4 packet in an IPv6 packet. Since it is used as the IP address of the WAN side interface 200 (step S22), a prefix other than the beginning of the delegated prefix range is set as the prefix of the IP address of the LAN side interface 100 (step S23).

Currently, the transition period from IPv4 to IPv6 is in progress, and a mechanism for coexistence of IPv4 and IPv6 such as MAP-E has been added, and the network environment of IPv6 is becoming more complicated. Therefore, until now, there has been no CE router 300 that can automatically set the IP address and other settings of the WAN side interface 200 and the LAN side interface 100 in various network environments.
On the other hand, in the interface setting program of the present invention, when the user turns on the power of the CE router 300 or resets the CE router 300, the program is started, the response of the DHCP-IA_NA Replica message, and the Router Addressment. The IP address and other settings of the WAN side interface 200 and the LAN side interface 100 can be automatically set in response to the response of the DHCPv6-PD program and the like.

(Explanation of terms)
ISP (Internet Service Provider) Router: A router installed by an Internet service provider, which is connected to the WAN side of a CE router. Distribute the IPv6 prefix to the CE router.
CE (Customer Edge) router: A router that connects a home network to an ISP router, the WAN side interface is connected to the ISP router, and the LAN side interface is connected to the home network.
DHCPv6-IA_NA server: Distributes a non-temporary address of IPv6 to the CE router (Identity Association for Non-temporary Address).
DHCPv6-PD (Prefix Deployment) server: Delegates the IPv6 prefix to the CE router.
IPv6 address: Consists of a 64-bit prefix and a 64-bit interface identifier. The prefix (/ 64) distributed from the ISP router may be specified in all 64 bits, but the prefix delegated by the DHCPv6-PD server may not be specified in all 64 bits, for example, / 62. For example, since the 63rd bit and the 64th bit are not specified from the MSB, four types of prefixes are delegated.
NDProxy: A function for relaying NDP (Neighbor Discovery Protocol) packets on a CE router. As a result, even if the prefixes of the WAN side interface and the LAN side interface are the same, communication from the WAN side to the LAN side becomes possible.

In the present invention, the ISP router 210 corresponds to the "ISP router", the WAN side interface 200 corresponds to the "WAN side interface", the LAN side host 110 corresponds to the "host", and the LAN side interface 100 corresponds to the "LAN side". The CE router 300 corresponds to the "CE router", the DHCPv6-IA_NA server 220 corresponds to the "DHCPv6-IA_NA server", and the DHCPv6-PD server 230 corresponds to the "DHCPv6-PD server". The CPU 310 corresponds to the "CPU", the storage device 320 corresponds to the "storage device", the power supply 330 corresponds to the "power supply", the bus 340 corresponds to the "bus", and steps S1-S3 correspond to "inquiry processing, It corresponds to "inquiry process", steps S4-S7 and steps S11-S18 correspond to "first interface setting process, first interface setting process", and steps S8-S10 correspond to "second interface setting process, first". 2 interface setting process ”, steps S19-S23 correspond to“ third interface setting process, third interface setting process ”, WAN side network 240 corresponds to“ WAN side network ”, and LAN side. The network 120 corresponds to the "LAN side network".

A preferred embodiment of the present invention is as described above, but the present invention is not limited thereto. It will be appreciated that various embodiments are made that do not deviate from the spirit and scope of the invention. Further, in the present embodiment, the actions and effects according to the constitution of the present invention are described, but these actions and effects are examples and do not limit the present invention.

100 LAN side interface 110 LAN side host 120 LAN side network 200 WAN side interface 210 ISP router 220 DHCPv6-IA_NA server 230 DHCPv6-PD server 240 WAN side network 250 Internet 300 CE router 310 CPU
320 Storage device 330 Power supply 340 Bus 400 CE router peripheral network

Claims (6)

An interface setting program for an IPv6 CE router including a WAN side interface connected to an ISP (Internet Service Provider) router and a LAN side interface connected to one or more hosts, wherein the interface setting program is the ISP router. Or, the DHCPv6-IA_NA server connected to the ISP router is inquired about the distribution of the prefix or the IP address, and the DHCPv6-PD server connected to the ISP router is inquired about the delegation of the prefix.
The first interface setting process executed when the prefix or IP address is distributed from the ISP router or the DHCPv6-IA_NA server and the prefix is delegated from the DHCPv6-PD server.
A second interface setting process executed when a prefix or IP address is distributed from the ISP router or the DHCPv6-IA_NA server and the prefix is not delegated from the DHCPv6-PD server.
A third interface setting process executed when a prefix or IP address is not distributed from either the ISP router or the DHCPv6-IA_NA server and the prefix is delegated from the DHCPv6-PD server is included. ,
In the first interface setting process,
The IP address of the WAN side interface is set based on the prefix or IP address distributed from the ISP router or the DHCPv6-IA_NA server.
When the prefix delegated by the DHCPv6-PD server is one and is the same as the prefix of the WAN side interface, the prefix of the LAN side interface is set to be the same as the prefix of the WAN side interface and NDProxy. Is started to relay the communication between the WAN side network and the LAN side network,
When there are a plurality of prefixes delegated by the DHCPv6-PD server and one of the plurality of prefixes is the same as the prefix of the WAN side interface, the prefix of the LAN side interface is used among the plurality of prefixes. Set to a value different from the prefix of the WAN side interface of
When the prefix delegated from the DHCPv6-PD server is completely different from the prefix of the WAN side interface, the prefix of the LAN side interface is set to the value selected from the delegated prefix.
In the second interface setting process, the prefix of the LAN side interface is set to be the same as the prefix of the WAN side interface, and NDProxy is activated to relay the communication between the WAN side network and the LAN side network.
In the third interface setting process,
When the number of bits of the prefix delegated from the DHCPv6-PD server is 60 or more and 64 or less, the prefix of the LAN side interface is set by selecting one from the delegated prefix, and the WAN side interface is IP. Without setting the address,
When the number of bits of the prefix delegated from the DHCPv6-PD server is 59 or less, the prefix of the WAN side interface is set to the first value among the delegated prefixes, and the prefix of the LAN side interface is set as described above. An interface setting program that sets a value different from the prefix of the WAN side interface among the delegated prefixes. In the process of setting the IP address of the WAN side interface in the first interface setting process, when the prefix is distributed from the ISP router, the IP address of the WAN side interface is distributed from the ISP router. The interface setting program according to claim 1, which is set based on the prefix. In the first interface setting process, when there are a plurality of prefixes delegated by the DHCPv6-PD server and one of the plurality of prefixes is the same as the prefix of the WAN side interface.
When the number of bits of the prefix delegated by the DHCPv6-PD server is 60 or more and 63 or less, any of the 61st to 64th bits from the MSB side of the prefix of the LAN side interface is used as the prefix of the WAN side interface. Set to a different value,
When the number of bits of the prefix delegated from the DHCPv6-PD server is 59 or less, any of the 57th to 60th bits from the MSB side of the prefix of the LAN side interface is different from the prefix of the WAN side interface. The interface setting program according to claim 1 or 2, which is set in 1. In the first interface setting process, when the prefix delegated by the DHCPv6-PD server is completely different from the prefix of the WAN side interface, the prefix of the LAN side interface is the head of the delegated prefix. The interface setting program according to any one of claims 1 to 3 , which is set to a value. An interface setting method for an IPv6 CE router including a WAN side interface connected to an ISP (Internet Service Provider) router and a LAN side interface connected to one or more hosts, wherein the interface setting method is the ISP router. , Or an inquiry process in which the DHCPv6-IA_NA server connected to the ISP router is inquired about the distribution of the prefix or IP address, and the DHCPv6-PD server connected to the ISP router is inquired about the delegation of the prefix.
A first interface setting step executed when a prefix or IP address is distributed from the ISP router or the DHCPv6-IA_NA server and the prefix is delegated from the DHCPv6-PD server.
A second interface setting step executed when the prefix or IP address is distributed from the ISP router or the DHCPv6-IA_NA server and the prefix is not delegated from the DHCPv6-PD server.
A third interface setting step executed when a prefix or IP address is not distributed from either the ISP router or the DHCPv6-IA_NA server and the prefix is delegated from the DHCPv6-PD server is included. ,
In the first interface setting step,
The IP address of the WAN side interface is set based on the prefix or IP address distributed from the ISP router or the DHCPv6-IA_NA server.
When the prefix delegated by the DHCPv6-PD server is one and is the same as the prefix of the WAN side interface, the prefix of the LAN side interface is set to be the same as the prefix of the WAN side interface and NDProxy. Is started to relay the communication between the WAN side network and the LAN side network,
When there are a plurality of prefixes delegated by the DHCPv6-PD server and one of the plurality of prefixes is the same as the prefix of the WAN side interface, the prefix of the LAN side interface is used among the plurality of prefixes. Set to a value different from the prefix of the WAN side interface of
When the prefix delegated from the DHCPv6-PD server is completely different from the prefix of the WAN side interface, the prefix of the LAN side interface is set to the value selected from the delegated prefix.
In the second interface setting step, the prefix of the LAN side interface is set to be the same as the prefix of the WAN side interface, and NDProxy is activated to relay the communication between the WAN side network and the LAN side network.
In the third interface setting step,
When the number of bits of the prefix delegated from the DHCPv6-PD server is 60 or more and 64 or less, the prefix of the LAN side interface is set by selecting one from the delegated prefix, and the WAN side interface is IP. Without setting the address,
When the number of bits of the prefix delegated from the DHCPv6-PD server is 59 or less, the prefix of the WAN side interface is set to the first value among the delegated prefixes, and the prefix of the LAN side interface is set as described above. An interface setting method for setting a value different from the prefix of the WAN side interface among the delegated prefixes. An IPv6 CE router having a WAN-side interface connected to an ISP router and a LAN-side interface connected to one or more hosts.
The IPv6 CE router further comprises a CPU, a storage device, a power supply, and a bus.
An IPv6 CE router in which the interface setting program according to any one of claims 1 to 4 is built in the storage device.

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