JP2002111737A - Packet conversion method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To communicate with an IPv4 terminal even if an IPv4 address is not previously allocated to an IPv6 terminal by fixing, and further communicate without paying attention to what is used as a communication protocol mutually by a counterpart by designating the counterpart in a domain name. SOLUTION: A packet conversion method comprises: IP transmission and reception means 10 for transmitting and receiving an IPv4 packet and an IPv6 packet; IP header conversion means 11 for making mutual conversion between the IPv4 packet and IPv6 packet by an IP header conversion; DNS alternate means 13 for accepting a domain information acquisition request transmitted from an IPv4 terminal or IPv6 terminal to alternate the processing; IPv4 address acquisition means 14 for acquiring the IPv4 address from a DHCP server; and IP address conversion information holding means 15 for correspondingly holding an IPv6 address of the IPv6 terminal and the IPv4 address acquired by the IPv4 address acquisition means 14.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

TECHNICAL FIELD The present invention relates to an IPv4-IPv4
The present invention relates to a communication method and an IPv4-IPv6 conversion device. More specifically, the present invention relates to an IPv4 terminal using IPv4 (Internet Protocol version Internet 4) as a communication protocol and an IPv6 terminal as a communication protocol.
IPv6 using (Internet Protocol version 6)
The present invention relates to a method and an apparatus for realizing communication between terminals.

[0002]

2. Description of the Related Art As a method of realizing communication between an IPv4 terminal and an IPv6 terminal, an IETF (Internet Enginee
RFC (Request F) issued by ring Task Force
or Comments) “IPv4-mapped IPv4” described in 1884
6 address "and" IPv4-compatible IPv6 address "
Is conceivable.

The above “IPv4-mapped IPv6 address”
Is 127th of 128 bits of the IPv6 address.
Bits 0 to 48 are set to “0”, bits 47 to 32 are set to “1”, and bits 31 to 32 are set to “1”.
IPv4 which sets "IPv4 address" to the 0th bit
6 addresses.

[0004] The "IPv4-compatible IPv6 address" is one of 128 bits of the IPv6 address.
This is an IPv6 address in which “0” is set in the 127th to 32nd bits and “IPv4 address” is set in the 31st to 0th bits.

[0005] When performing communication between an IPv4 terminal and an IPv6 terminal, an IPv4 address is fixedly assigned in advance to an IPv6 terminal communicating with the IPv4 terminal. Also, I
In the course of the communication between the Pv4 terminal and the IPv6 terminal, I
Convert P header to IPv4 packet (RFC791)
There is provided a packet conversion device for performing mutual conversion between IPv6 and IPv6 packets (RFC1883).

In an IPv4 network, communication is performed using an IPv4 packet by using an IPv4 address of an IPv4 terminal and an IPv4 address assigned to the IPv6 terminal. In an IPv6 network, I
The above “IPv4-mappedI” in which “IPv4 address of IPv4 terminal” is set as the IPv6 address of the Pv4 terminal
The “IPv4-compatible IPv6” in which “Pv6 address” is used and “IPv4 address assigned to IPv6 terminal” is set as the IP address of the IPv6 terminal.
Communication is performed using an IPv6 packet using the "address". Then, the packet conversion device converts the “IPv4-mapped IPv6 address” included in the IPv6 packet into an “IPv4 address of an IPv4 terminal”, and the “IPv4-compatible IPv6 address” is assigned to the “IPv6 terminal”. By converting to an “IPv4 address”, an IPv6 packet is converted to an IPv4 packet. Conversely, “I” included in the IPv4 packet
"IPv4 address of Pv4 terminal"
"IPv6 address" and convert the "IPv4 address assigned to the IPv6 terminal" to the "IPv4-compati
ble IPv6 address "
4 packets are converted into IPv6 packets.

[0007] Thereby, communication between the IPv4 terminal and the IPv6 terminal becomes possible.

[0008]

In the above method, the IP
Communication between an IPv4 terminal and an IPv6 terminal can be realized by a simple operation of adding a 96-bit fixed pattern to a v4 address or deleting a 96-bit fixed pattern from an IPv6 address.

However, the above technique has the following problems.

[0010] The first problem is that an IPv4 address must be fixedly assigned to all IPv6 terminals that may communicate with the IPv4 terminal. This will further consume depleted IPv4 addresses and accelerate depletion.

A second problem is that since the IPv4 network and the IPv6 network cannot refer to each other's domain information (for example, an IP address corresponding to a domain name), the actual IP address is used instead of the domain name. That is, you can only specify a partner.
This means that the other party has to be aware of whether the other party is using IPv4 or IPv6 as the communication protocol.

Therefore, an object of the present invention is to provide an IPv6 terminal that does not have a fixed IPv4 address in advance.
Communication between the 4 terminal and the IPv6 terminal is possible, and the other party is designated by the domain name instead of the IP address.
An object of the present invention is to provide a method and an apparatus capable of performing communication between a terminal and an IPv6 terminal.

[0013]

According to a first aspect, the present invention provides a communication network system comprising an IPv4 network, an IPv6 network, and an IPv4-IPv6 translator connected to both of them.
A method for communicating between an IPv4 terminal of an IPv4 network and an IPv6 terminal of an IPv6 network, comprising:
When the IPv4 terminal of the IPv4 network inquires the IPv4-IPv6 translator for the IP address for the domain name of the IPv6 terminal of the IPv6 network, the IPv4-IPv6 translator translates the domain from the DNSv6 server managing the domain information of the IPv6 network to the domain. DH that obtains an IPv6 address for a name and dynamically allocates an IPv4 address
An IPv4 address corresponding to the IPv6 address is dynamically acquired from a Dynamic Host Configuration Protocol (CP) v4 server device and notified to the IPv4 terminal, and the IPv4 terminal transmits its own IPv4 address to the IPv4 terminal.
Creating an IPv4 packet as a source address and using the notified IPv4 address as an IPv4 destination address, and sending out the IPv4 packet to the IPv4-IPv6 translation device; (b)
The IPv4-IPv6 translation device adds fixed data to the IPv4 source address included in the received IPv4 packet, converts the IPv4 source address into an IPv6 source address,
An IPv6 packet is created from the IPv4 packet by an IP header conversion that converts an IPv4 destination address included in the Pv4 packet into an IPv6 destination address using the corresponding IPv6 address, and is sent to an IPv6 network. (C) The IPv6 terminal , Self I
An IPv6 packet is created with the IPv6 address as the IPv6 source address and the IPv6 source address included in the received IPv6 packet as the IPv6 destination address, and transmitted to the IPv4-IPv6 translator, (d).
The IPv4-IPv6 translation device deletes fixed data from the IPv6 destination address included in the received IPv6 packet, converts the IPv6 destination address into the IPv4 destination address, and uses the IPv6 source address included in the IPv6 packet with the corresponding IPv4 address. The IPv6 is converted by an IP header conversion to an IPv4 source address.
IPv4-IPv4 characterized by creating an IPv4 packet from a packet and sending it out to an IPv4 network
6 communication methods are provided.

IPv4-IPv6 according to the first aspect
According to the communication method, communication from an IPv4 terminal of an IPv4 network to an IPv6 terminal of an IPv6 network can be started.
To dynamically assign IPv4 addresses to v6 terminals,
It is not necessary to fixedly assign an IPv4 address to an IPv6 terminal in advance, and it is possible to suppress consumption of a depleted IPv4 address. In addition, IPv4-IPv6
The translating device determines that the I to the domain name of the IPv6 terminal
To automatically obtain the P address from the DNSv6 server device, the IPv4 terminal specifies the domain name and
Communication with 6 terminals is enabled.

Note that the IPv4-IPv6 translator is an
The processes performed between the v4 terminal, the DNSv4 server device, the DHCPv4 server device, the IPv6 terminal, and the DNSv6 server device are all standard technologies described in RFC, and it is not necessary to add a new modification to the device.

According to a second aspect, the present invention relates to a communication network system comprising an IPv4 network, an IPv6 network, and an IPv4-IPv6 translator connected to both of them, and an IPv4 terminal of the IPv4 network and an IPv6 terminal of the IPv6 network. A method for communicating with a terminal, wherein (a) an IPv6 terminal of an IPv6 network assigns an IP address to a domain name of an IPv4 terminal of the IPv4 network to the IPv4 network.
-When the IPv6 translator is contacted, the IPv4-I
The Pv6 translation device obtains an IPv4 address for the domain name from a DNSv4 server device that manages domain information of the IPv4 network, and obtains the IPv4 address for the domain name.
The fixed address is added to the address to convert it to an IPv6 address, and the IPv6 address is notified to the IPv6 terminal.
The terminal sets its own IPv6 address as the IPv6 source address and sets the notified IPv6 address as the IPv6 address.
Create an IPv6 packet as a destination address, and
The packet is sent to the Pv4-IPv6 conversion device, and (b) IPv4-
The IPv6 translator removes the fixed data from the IPv6 destination address contained in the received IPv6 packet and
The IPv4 address corresponding to the IPv6 source address included in the IPv6 packet is dynamically acquired from a DHCPv4 server device which converts the IPv4 address to a Pv4 destination address and dynamically allocates the IPv4 address, and obtains the IP
The IP address is converted from the IPv6 packet to an IP address by an IP header conversion that converts the IPv4 address to an IPv4 source address.
A IPv4 packet is created and transmitted to an IPv4 network. (c) The IPv4 terminal creates an IPv4 packet using its own IPv4 address as an IPv4 source address and an IPv4 source address included in the received IPv4 packet as an IPv4 destination address. , The IPv4
(D) IPv4-IP to be sent to the 4-IPv6 conversion device
The v6 translator adds the fixed data to the IPv4 source address included in the received IPv4 packet and
The source address is converted to an IPv4 destination address, and an IPv4 destination address included in the IPv4 packet is converted to an IP address corresponding to the IPv4 destination address.
The IPv4 packet is converted to an IPv6 destination address by using an IPv6 address.
An IPv4-IPv6 communication method is characterized in that a v6 packet is created and transmitted to an IPv6 network.

[0017] IPv4-IPv6 according to the second aspect
According to the communication method, communication with an IPv6 terminal of an IPv6 network can be started from an IPv6 terminal of the IPv6 network.
To dynamically assign IPv4 addresses to v6 terminals,
It is not necessary to fixedly assign an IPv4 address to an IPv6 terminal in advance, and it is possible to suppress consumption of a depleted IPv4 address. In addition, IPv4-IPv6
The translating device determines that the I to the domain name of the IPv4 terminal
To automatically obtain the P address from the DNSv4 server device, the IPv6 terminal specifies the domain name and
Communication with four terminals is possible.

In a third aspect, the present invention relates to (a) IPv4
The IPv4 address corresponding to the IPv6 address of the IPv6 terminal of the 6 network is assigned to the DH of the IPv4 network.
Means for acquiring an IPv4 address from a CPv4 server, and (b) IP of an IPv6 terminal of an IPv6 network
IP address conversion information holding means for holding the IPv6 address and the acquired IPv4 address in association with each other;
An IP transmitting / receiving means for transmitting / receiving an IPv4 packet to / from the Pv4 network and transmitting / receiving an IPv6 packet to / from the IPv4 network;
The fixed data is added to the IPv4 source address included in the Pv4 packet to convert the IPv4 source address into an IPv6 source address, and the IPv4 destination address included in the IPv4 packet is used for the corresponding IPv6 address held in the IP address conversion information holding unit. An IPv6 packet is created from an IPv4 packet by an IP header conversion for converting the IPv6 destination address into an IPv6 destination address, passed to the IP transmitting / receiving means and transmitted, and fixed data is deleted from the IPv6 destination address contained in the received IPv6 packet to delete the IPv6 destination And the IPv6 source address included in the IPv6 packet is converted to a corresponding IPv6 address held in the IP address translation information holding means.
To convert to IPv4 source address using 4 addresses
An IP header conversion unit that creates an IPv4 packet from an IPv6 packet by P header conversion, passes the packet to the IP transmission / reception unit, and transmits the packet. It receives and inquires the DNSv6 server of the IPv6 network to obtain an IPv6 address, and notifies the IPv4 address to the IPv4 terminal of the IPv4 network if the IPv4 address corresponding to the IPv6 address is stored in the IP address conversion information holding means. If the IPv4 address corresponding to the IPv6 address is not held in the IP address translation information holding means, the IPv4 address is obtained by the IPv4 address obtaining means, and IPv6 address with the acquired IP
v4 address is stored in the IP address conversion information storage means in association with the
Notify the IPv4 terminal of the v4 network,
An inquiry about the IP address for the domain name of the IPv4 terminal of the IPv4 network is received from the IPv6 terminal of the IPv6 network, and the D
Inquires the NSv4 server to obtain an IPv4 address, adds fixed data to the IPv4 address, and
v6 address, and the IPv6 address is
Notify the IPv6 terminal of the Pv6 network,
I corresponding to the IPv6 address of the IPv6 terminal of the IPv6 network that has queried the IP address for the domain name of the IPv4 terminal of the IPv4 network
It checks whether the IPv4 address is held in the IP address conversion information holding means, and if not, obtains the IPv4 address by the IPv4 address obtaining means, and associates the IPv6 address with the obtained IPv4 address. An IPv4-IPv6 conversion device characterized by comprising a DNS proxy means for holding the IP address conversion information holding means.

IPv4-IPv6 according to the third aspect
According to the conversion device, the IPv4-IPv4 of the first aspect is used.
6 communication method and IPv4-IPv6 of the second aspect
The communication method can be suitably implemented.

According to a fourth aspect, the present invention provides an I
In the Pv4-IPv6 translation device, the IP address translation information holding means deletes the held IPv6 addresses and IPv4 addresses that have not been referenced for a certain period of time, and sends the deleted IPv4 addresses to the DHCPv4 server of the IPv4 network. There is provided an IPv4-IPv6 conversion device characterized by returning.

IPv4-IPv6 according to the fourth aspect
According to the conversion device, the unused IPv4 address is DH
Since the data is returned to the CPv4 server, consumption of the IPv4 address can be suppressed.

According to a fifth aspect, the present invention provides an image processing apparatus comprising:
The Pv4-IPv6 translation device further comprises an IPv4 address pool unit for pooling a plurality of IPv4 addresses, and the IP address translation information holding unit is configured to activate the DH of the IPv4 network when the device is started.
Obtain a plurality of IPv4 addresses from the CPv4 server,
Pooled in the IPv4 address pool means,
An IPv4-IP, wherein an IPv4 address corresponding to an IPv6 address of an IPv6 terminal of a Pv6 network is obtained from the IPv4 address pool means.
A v6 converter is provided.

IPv4-IPv6 according to the fifth aspect
According to the conversion device, the load on the IPv4 network can be reduced as compared with acquiring IPv4 addresses one by one from a DHCPv4 server.

According to a sixth aspect, the present invention provides an I
The Pv4-IPv6 translation device further comprises a DHCPv4 server for dynamically assigning an IPv4 address, and the DHCPv4 server is provided with the IPv4 address.
Provided is an IPv4-IPv6 translator that is used in place of a DHCPv4 server in a network.

IPv4-IPv6 according to the sixth aspect
According to the conversion device, there is no need to provide a separate DHCPv4 server.

According to a seventh aspect, the present invention provides an I
In the Pv4-IPv6 translator, DNSv4 server means for managing domain information of the IPv4 network and D for managing domain information of the IPv6 network.
Further comprising NSv6 server means;
IPv4 server means and DNSv6 server means using the IPv4
4 network DNSv4 server and IPv6
Provided is an IPv4-IPv6 conversion device, which is used in place of a DNSv6 server of a network.

IPv4-IPv6 according to the seventh aspect
According to the conversion device, there is no need to separately provide a DNSv4 server or a DNSv6 server.

[0028]

Embodiments of the present invention will be described below with reference to the drawings. Note that the present invention is not limited by this. First Embodiment FIG. 1 is a diagram illustrating an IPv4-I according to a first embodiment of the present invention.
It is a block diagram of the Pv6 conversion device 1a.

This IPv4-IPv6 conversion device 1a
It is located between an IPv4 network and an IPv6 network, and realizes communication between an IPv4 terminal and an IPv6 terminal by performing an IP header conversion between an IPv4 packet and an IPv6 packet.
, IP header conversion means 11, DNS proxy means 13
, An IPv4 address obtaining means 14 and an IP address conversion information holding means 15.

The IP transmission / reception means 10 communicates between an IPv4 network and an IPv6 network with an IPv4 network.
It is a means for transmitting and receiving packets and IPv6 packets, and is constituted by an electronic device such as a CPU or a RAM.

The IP header conversion means 11 is an IPv4
This is a means for performing IP header conversion between a packet and an IPv6 packet, and is constituted by an electronic device such as a CPU or a RAM.

The DNS proxy means 13 includes an RFC 103
This is a means for acquiring domain information from a DNS server in an IPv4 network or a DNS server in an IPv6 network in accordance with the DNS technology described in, for example, RFC 4186, RFC 1886, and the like.

[0033] The IPv4 address acquiring means 14 comprises:
According to the DHCP technology described in FC1541, etc., a DHCP server in an IPv4 network
v4 address acquisition means such as CPU or R
It is composed of electronic devices such as AM.

The IP address conversion information holding means 15
Is a means for converting an IPv4 address to an IPv6 address, and is constituted by an electronic device such as a RAM, for example. The correspondence between IPv4 address and IPv6 address is I
It is held as a P address conversion table 151.

FIG. 2 shows an IP address conversion table 151.
FIG.

I of the IPv6 terminal communicating with the IPv4 terminal
A Pv6 address and an IPv4 address dynamically assigned thereto are registered.

FIG. 3 is a schematic diagram of a communication network system 100 in which the IPv4 network 104 and the IPv6 network 106 are connected via the IPv4-IPv6 conversion device 1a.

The IPv4 network 104 has an IPv4
In addition to the four terminals 2, a DNSv4 server 3 that manages domain information in the IPv4 network 104 and a DHCPv4 server 4 that dynamically allocates IPv4 addresses to terminals in the IPv4 network 104 are connected.

The IPv6 network 106 has an IPv6
In addition to the six terminals 5, a DNSv6 server 6 that manages domain information in the IPv6 network is connected.

Here, 133.144.95.101 is assigned as the IPv4 address to the IPv4 terminal 2, and 1 :: as the IPv6 address to the IPv6 terminal 5.
It is assumed that 1 is assigned. Also, DHCPv
4 server 4 has 133.144.95.1 to 133.1
It is assumed that 100 IPv4 addresses of 44.95.100 are pooled. Also, the IPv4 terminal 2 and the IPv6 terminal 5 have an IPv4-terminal as a DNS server.
It is assumed that the IPv6 translator 1a has been set. Further, in the IPv4-IPv6 conversion device 1a, a DNSv4 server 3 and a DNSv6 server 6 are set as DNS servers, and a DHCPv server is used as a DHCP server.
It is assumed that four servers 4 have been set.

In FIG. 3, the IPv4 network 1
Although the IP network 04 and the IPv6 network 106 are completely separated, the same applies to a case where the IPv4 network and the IPv6 network coexist in the same physical network.

FIGS. 4 and 5 show the case where the IPv4 terminal 2 sends the IPv4
6 is a flowchart of an operation when starting communication to a terminal 5.

The IPv4 terminal 2 knows the domain name of the IPv6 terminal 5 but does not know the IP address. Therefore, as shown in FIG. , "Message A") to the IPv4-IPv6 translator 1a via the IPv4 network 104, and then waits for a response for a certain period of time.

The IP transmission / reception means 10 of the IPv4-IPv6 conversion device 1a receives the message A and passes it to the DNS proxy means 13. The DNS acting unit 13 instructs the IP transmitting / receiving unit 10 to transfer the message A to the DNSv4 server 3 and then waits for a response for a certain period of time. IP
The transmission / reception means 10 transfers the message A to the DNSv4 server 3 via the IPv4 network.

The DNSv4 server 3 that has received the message A searches for the domain information of the IPv6 terminal 5, but does not return a response to the message A if it is not registered.

The DNS substituting means 13 which has not received a response from the DNSv4 server 3 even after a certain time has passed, instructs the IP transmitting / receiving means 10 to transfer the message A to the DNSv6 server 6, and then passes the message A for a certain time. Wait for a response.
The IP transmission / reception means 10 transfers the message A to the DNSv6 server 6 via the IPv6 network.

The DNSv6 server 6 that has received the message A searches the domain information of the IPv6 terminal 5 and sends the registered domain information of the IPv6 terminal 5 to the message A.
Is returned to the IPv4-IPv6 translator 1a as a response message (hereinafter referred to as "message B") to the IPv4 / IPv6 translator 1a.

The IP transmitting / receiving means 10 of the IPv4-IPv6 translator 1 a having received the response from the DNSv6 server 6 within a certain time passes the received message B to the DNS acting means 13. The DNS proxy means 13 sends the message B
To IPv6 corresponding to the domain name of IPv6 terminal 5
6 addresses (1 :: 1) are obtained and passed to the IP address conversion information holding means 15. IP address conversion information holding means 1
5 is the IPv6 address (1 :: 1) of the IPv6 terminal 5
The IP address conversion table 151 is searched using the key as a key. If the corresponding entry is registered, the IPv4 address of the entry is returned to the DNS proxy unit 13. On the other hand, if the corresponding entry has not been registered, the
Notify the S proxy means 13.

From the IP address conversion information holding means 15 to I
Upon receiving the Pv4 address, the DNS acting unit 13 creates a message (hereinafter, referred to as "message E") notifying the IPv4 address as an IPv4 address corresponding to the domain name of the IPv6 terminal 5, and transmits this message to the IP transmitting / receiving unit. Hand over to 10. The IP transmitting / receiving means 10 transmits the message E to the IPv4 terminal 2 via the IPv4 network.

On the other hand, the IP address conversion information holding means 15
Receives the notification that the entry has not been registered from the DNS proxy unit 13 and sends the IPv4 address acquisition unit 14 an IPv4 address.
After instructing the acquisition of four addresses, it waits for a response for a certain period of time.
The IPv4 address acquisition means 14 creates an IPv4 address acquisition message (hereinafter, referred to as “message C”), and transmits the message to the DHCPv4 server 4 so as to transfer the message to the DHCPv4 server 4.
After giving the instruction to the P transmission / reception means 10, it waits for a response for a certain period of time. The IP transmitting / receiving means 10 transmits the message C to the IPv4
The data is transmitted to the DHCPv4 server 4 via the network.

The DHCPv4 server 4 receiving the message C sends the IPv6 address (1 :: 1) of the IPv6 terminal 5
Is assigned an IPv4 address (here, 133.14).
It is assumed that 4.95.1 has been assigned. ), And returns an IPv4 address assignment message (hereinafter, referred to as “message D”).

IP transmitting / receiving means 1 receiving message D
0 passes the message D to the IPv4 address acquisition means 14. The IPv4 address acquiring means 14 sends the message D
And obtains the IPv4 address (133.144.95.1) from the DNS server 13 and notifies the DNS proxy 13 of the address. The DNS acting means 13 sends the IPv4 address (133.144.95.
1) the IP corresponding to the domain name of the IPv6 terminal 5
A message E to be notified as an address is created and passed to the IP transmitting / receiving means 10. The IP transmitting / receiving means 10 transmits the message E to the IPv4 terminal 2 via the IPv4 network. In addition, the DNS proxy means 13 uses DHCP
IPv4 address acquired from the v4 server 4 (133.
144.95.1) is associated with the IPv6 address (1 :: 1) of the IPv6 terminal 5 and passed to the IP address conversion information holding means 15. IP address conversion information holding means 15
Creates a new entry in the IP address conversion table 151 and stores the IPv4 address (133.144.95.
1) and the IPv6 address (1 :: 1) of the IPv6 terminal 5
Register the correspondence. Note that the IP address conversion table 1
The entry 51 is deleted if it is not referenced for a certain period of time, and the IPv4 address (133.144.95.1) is returned to the DHCPv4 server 4.

As shown in FIG. 5, the IPv4 terminal 2
The IPv4 address notified by the message E from the Pv4-IPv6 translation device 1a (133.144.95.
1) is set in the IPv4 destination address field of the IPv4 packet and the own IPv4 address (13
An IPv4 packet in which 3.144.95.101) is set in the IPv4 source address field is sent to the IPv4-IPv6 translator 1a via the IPv4 network.
Send to

The IP transmission / reception means 10 of the IPv4-IPv6 conversion device 1a passes the received IPv4 packet to the IP header conversion means 11. The IP header conversion means 11
The IPv4 address (133.144.95.101) is extracted from the IPv4 source address field of the Pv4 packet, and the above-mentioned fixed pattern of 96 bits is added to the 128-bit “IPv4-mapped IPv6 address” (:: FFFF: 133). .144.95.101)
And set this in the IPv6 source address field of the IPv6 packet. Further, the IP header conversion means 11 converts the IPv4 address (133.144.9) from the IPv4 destination address field of the IPv4 packet.
5.1) is taken out and passed to the IP address conversion information holding means 15. IP address conversion information holding means 15
Refers to the IP address conversion table 151, and
An IPv6 address (1 :: 1) corresponding to the v4 address (133.144.95.1) is obtained and passed to the IP header conversion means 11. The IP header conversion means 11 uses the IPv6
IPv6 in the IPv6 destination address field of the packet
Address (1 :: 1) is set. Then, the IPv6 packet created by performing the IP header conversion is transferred to the IP transmission / reception unit 10. The IP transmitting / receiving means 10
The Pv6 packet is transmitted over the IPv6 network via the I6
It transmits to the Pv6 terminal 5.

As described above, from the IPv4 terminal 2 to the IPv6 terminal
Communication to the terminal 5 can be started.

FIGS. 6 and 7 show the case where the IPv6 terminal 5 sends the IPv6
4 is a flowchart of an operation when starting communication to four terminals 2.

Since the IPv6 terminal 5 knows the domain name of the IPv4 terminal 2 but does not know the IP address, as shown in FIG. , "Message K") via the IPv6 network 106 to the IPv4-IPv6 translator 1a, and then waits for a response for a certain period of time.

The IP transmitting / receiving means 10 of the IPv4-IPv6 translator 1a receives the message K and passes it to the DNS acting means 13. The DNS acting means 13 instructs the IP transmitting / receiving means 10 to transfer the message K to the DNSv6 server 6, and then waits for a response for a certain period of time. IP
The transmission / reception means 10 transfers the message K to the DNSv6 server 6 via the IPv6 network.

The DNSv6 server 6 which has received the message K searches for the domain information of the IPv4 terminal 2, but does not return a response to the message K if it is not registered.

The DNS acting unit 13 that has not received a response from the DNSv6 server 6 even after a certain period of time has passed the command K to the IP transmitting / receiving unit 10 to transfer the message K to the DNSv4 server 3, Wait for a response.
The IP transmission / reception means 10 transfers the message K to the DNSv4 server 3 via the IPv4 network.

The DNSv4 server 3 which has received the message K searches the domain information of the IPv4 terminal 2 and sends the registered domain information of the IPv4 terminal 2 to the message K.
Is returned to the IPv4-IPv6 translation device 1a as a response message (hereinafter, referred to as “message L”) to the IPv4 / IPv6 translator 1a.

The IP transmitting / receiving means 10 of the IPv4-IPv6 translator 1 a having received the response from the DNSv4 server 3 within a certain time passes the received message L to the DNS acting means 13. The DNS proxy means 13 sends the message L
To IPv4 corresponding to the domain name of IPv4 terminal 2
4 addresses (133.144.95.101) are obtained.

Next, the DNS proxy unit 13 passes the IPv6 address (1 :: 1) of the IPv6 terminal 5 to the IP address conversion information holding unit 15. The IP address conversion information holding unit 15 uses the IPv6 address (1 :: 1) of the IPv6 terminal 5 as a key to set the IP address conversion table 1
51, and notifies the DNS substituting means 13 whether or not the corresponding entry is registered.

Upon receiving the notification that the entry corresponding to the IPv6 address (1 :: 1) of the IPv6 terminal 5 has not been registered, the DNS acting unit 13 instructs the IPv4 address acquiring unit 14 to acquire an IPv4 address. Wait for a response for a certain time. IPv4 address acquisition means 1
4 creates an IPv4 address acquisition message (hereinafter, referred to as “message M”) and sends it to DHCPv4.
After instructing and transmitting the IP transmitting / receiving means 10 to transfer the data to the server 4, a response is waited for a predetermined time. IP transmitting / receiving means 10
Sends the message M via the IPv4 network to the DHC
It transmits to the Pv4 server 4.

The DHCPv4 server 4 receiving the message M sends the IPv6 address (1 :: 1) of the IPv6 terminal 5
Is assigned an IPv4 address (here, 133.14).
It is assumed that 4.95.1 has been assigned. ), And returns an IPv4 address assignment message (hereinafter, referred to as “message N”).

IP transmitting / receiving means 1 receiving message N
0 passes the message N to the IPv4 address acquisition means 14. The IPv4 address acquisition means 14 sends the message N
And obtains the IPv4 address (133.144.95.1) from the DNS server 13 and notifies the DNS proxy 13 of the address. The DNS acting means 13 sends the IPv4 address (133.144.95.1) acquired from the DHCPv4 server 4 to the IPv6 terminal 5.
In correspondence with the IPv6 address (1 :: 1). The IP address conversion information holding means 15 includes an IP address conversion table 151.
Creates a new entry in the IPv4 address (13
3.144.95.1) and the IPv6 address (1 :: 1) of the IPv6 terminal 5 are registered. The entry in the IP address conversion table 151 is deleted when it is not referred for a certain period of time, and the IPv4 address (133.1) is deleted.
44.95.1) is returned to the DHCPv4 server 4.

A notification that an entry corresponding to the IPv6 address (1 :: 1) of the IPv6 terminal 5 is registered is received, or registration of an entry corresponding to the IPv6 address (1 :: 1) of the IPv6 terminal 5 is performed. Upon completion, the DNS proxy unit 13 sets the IPv4 terminal 2
“IPv4-mapped IPv6 address” with the address (133.144.99.501) set (:: FFFF:
133.144.95.101) as a message notifying the IP address corresponding to the domain name of the IPv4 terminal 2 (hereinafter referred to as “message P”), and transferring the message to the IPv6 terminal 5. It instructs and passes to the IP transmitting / receiving means 10. The IP transmitting / receiving means 10 transmits the message P to the IPv6 terminal 5 via the IPv6 network.
Send to

As shown in FIG. 7, the IPv6 terminal 5
IPv6 notified from the Pv4-IPv6 conversion device 1a
Address (:: FFFF: 133.144.95.10
1) is set in the IPv6 destination address field of the IPv6 packet, and the own IPv6 address (1 :: 1) is set.
With IPv6 set in the IPv6 source address field
6 packets over an IPv6 network
It transmits to the 4-IPv6 conversion device 1a.

The IP transmission / reception means 10 of the IPv4-IPv6 conversion device 1 a passes the received IPv6 packet to the IP header conversion means 11. The IP header conversion means 11
From the IPv6 destination address field of the Pv6 packet, the IPv6 address (:: FFFF: 133.144.9)
5.101), and removes the 96-bit fixed pattern described above to remove the 32-bit IPv4 address "(1
33.144.95.101) and convert it to IPv4
Set in the IPv4 destination address field of 4 packets. Further, the IP header conversion unit 11 extracts the IPv6 address (1 :: 1) from the IPv6 transmission address field of the IPv6 packet, and passes this to the IP address conversion information holding unit 15. The IP address conversion information holding unit 15 refers to the IP address conversion table 151 and refers to the IPv4 address (1 :: 1) corresponding to the IPv4 address.
The address (133.144.95.1) is obtained and passed to the IP header conversion means 11. The IP header conversion means 11
The IPv4 address (133.144.95.1) is set in the IPv4 source address field of the IPv4 packet. Then, the IPv4 packet created by performing the IP header conversion is transferred to the IP transmitting / receiving means 10.
The IP transmission / reception means 10 converts the IPv4 packet into an IPv4 packet.
The data is transmitted to the IPv4 terminal 2 via the network.

As described above, from the IPv6 terminal 5 to the IPv4 terminal
Communication to the terminal 2 can be started.

In the above description, the case where the IPv4 domain information is registered in the DNSv4 server 3 has been described, but the IPv4 domain information may be registered in the DNSv6 server 6. In this case, IPv4-IPv6
The conversion device 1a uses a DNSv
6 to obtain IPv4 domain information by communicating with the server 6. Similarly, the IPv6 domain information is
It may be registered in the NSv4 server 3. in this case,
The IPv4-IPv6 translator 1a communicates with the DNSv4 server 3 using the IPv4 protocol, thereby
Obtain Pv6 domain information. Second Embodiment FIG. 8 is a diagram illustrating an IPv4-I according to a second embodiment of the present invention.
It is a block diagram of the Pv6 converter 1b.

This IPv4-IPv6 conversion device 1b
This is a configuration in which an IPv4 address pool unit 16 is added to the IPv4-IPv6 translation device 1a of FIG.

When starting up the IPv4-IPv6 translator 1b, the IPv4 address obtaining means 14 sends the DHCP
A plurality of IPv4 addresses are collectively acquired from the v4 server 4 and pooled in the IPv4 address pooling means 16. Then, when the communication between the IPv4 terminal 2 and the IPv6 terminal 5 starts, the IPv4 address acquiring means 14
Obtains an IPv4 address from the IPv4 address pool unit 16.

The use of the IPv4-IPv6 translator 1b makes it possible to reduce the load on the IPv4 network 104 as compared with acquiring IPv4 addresses one by one from the DHCPv4 server 4. Third Embodiment FIG. 9 is a diagram illustrating an IPv4-I according to a third embodiment of the present invention.
It is a block diagram of the Pv6 converter 1c.

This IPv4-IPv6 translator 1c is
Instead of the IPv4 address acquisition means 14 of the IPv4-IPv6 translator 1a of FIG. 1, the DHCPv4 server means 1
7 is provided.

If this IPv4-IPv6 conversion device 1c is used, there is no need to provide a separate DHCPv4 server 4. —Fourth Embodiment— FIG. 10 is a diagram illustrating an IPv4 according to a fourth embodiment of the present invention.
FIG. 3 is a configuration diagram of an IPv6 translator 1d.

This IPv4-IPv6 translator 1d is
The IPv4-IPv6 translator 1a shown in FIG.
This is a configuration in which a server unit 18 and a DNSv6 server unit 19 are added.

If this IPv4-IPv6 conversion device 1d is used, it is not necessary to provide the DNSv4 server 3 or the DNSv6 server 6 separately.

[0079]

According to the IPv4-IPv6 communication method and the IPv4-IPv6 conversion apparatus of the present invention, even if an IPv4 terminal is not fixed and an IPv4 address is previously allocated, it is possible to use the method.
Communication between the IPv4 terminal and the IPv6 terminal can be performed. Furthermore, since the other party can be specified by the domain name instead of the actual IP address, whether the other party uses IPv4 as a communication protocol or whether the other party uses IPv4
6 can be communicated without being conscious of whether it is used.

[Brief description of the drawings]

FIG. 1 is a diagram illustrating an IPv4-IPv4 address according to a first embodiment of the present invention.
It is a block diagram of a 6 conversion apparatus.

FIG. 2 is a configuration diagram of an IP address conversion table.

FIG. 3 is a configuration diagram of a communication network system according to the first embodiment of the present invention.

FIG. 4 is a diagram illustrating an IPv4-IPv4 address according to the first embodiment of the present invention.
6 is a flowchart in the case of starting communication from an IPv4 terminal to an IPv6 terminal via a 6 conversion device.

FIG. 5 is a flowchart continued from FIG. 4;

FIG. 6 is a diagram illustrating an IPv4-IPv4 address according to the first embodiment of the present invention.
6 is a flowchart in the case of starting communication from an IPv6 terminal to an IPv4 terminal via a 6-conversion device.

FIG. 7 is a flowchart continued from FIG. 6;

FIG. 8 is a diagram illustrating an IPv4-IPv4 address according to a second embodiment of the present invention.
It is a block diagram of a 6 conversion apparatus.

FIG. 9 is a diagram illustrating an IPv4-IPv4 address according to a third embodiment of the present invention.
It is a block diagram of a 6 conversion apparatus.

FIG. 10 shows an IPv4-IP according to a fourth embodiment of the present invention.
It is a block diagram of a v6 converter.

[Explanation of symbols]

1a, 1b, 1c, 1d ... IPv4-IPv6 conversion device, 2 ... IPv4 terminal, 3 ... DNSv4 server, 4 ... D
HCPv4 server, 5 ... IPv6 terminal, 6 ... DNSv6
Server, 10: IP transmitting / receiving means, 11: IP header converting means, 13: DNS acting means, 14: IPv4 address obtaining means, 15: IP address conversion information holding means, 16
... IPv4 address pool means, 17 ... DHCP server means, 18 ... DNSv4 server means, 19 ... DNSv6
Server means.

 ────────────────────────────────────────────────── ─── Continued on the front page (72) Inventor Shinichi Hamamoto 890 Kashimada, Saiwai-ku, Kawasaki City, Kanagawa Prefecture, Japan 12 Information and Communication Development Division, Hitachi, Ltd. In-house information and communication development headquarters, Hitachi Ltd. 890 Kashimada (72) Inventor Riichi Yasue F-term in Hitachi Ltd. information and communication development headquarters, 890 Kashimada 890, Saiwai-ku, Kawasaki-shi, Kanagawa 5K030 GA17 HA08 HC01 HD09 5K034 AA19 AA20 DD03 EE11 HH61 KK27

Claims (7)

[Claims] 1. A first device connected to an IPv6 network.
The terminal converts the IPv6 packet transmitted from the terminal to the IPv4 packet, and converts the IPv6 packet to the IPv4 packet connected to the IPv4 network.
In the packet conversion method for transmitting to the terminal of
From the terminal, the IPv6 associated with the second terminal
An IPv6 packet containing an address as a destination address is received, an IPv6 address associated with the second terminal is converted to an IPv4 address of the second terminal, and the converted IPv4 address is converted from the IPv6 packet to a destination address. A packet conversion method comprising: creating an IPv4 packet that includes the following, and transmitting the IPv4 packet to the second terminal. 2. An IPv4 associated with the second terminal
Converting the IPv6 address associated with the second terminal by deleting a predetermined pattern added to the IPv6 address associated with the second terminal. 2. The method according to claim 1, wherein the packet is converted to an IPv4 address of the second terminal. 3. An IPv4 associated with the second terminal
6 address is 9 in the IPv4 address of the second terminal.
The step of translating the IPv6 address associated with the second terminal is performed by adding a 6-bit pattern to the 96-bit pattern from the IPv6 address associated with the second terminal. 2. The packet conversion method according to claim 1, wherein the packet is converted to an IPv4 address of the second terminal by deleting a pattern. 4. An IPv6 address of the first terminal, which holds at least one IPv4 address and is included in the IPv6 packet as a source address, is any one of the at least one IPv4 address that is held. Assigning an IPv4 address of the first terminal and generating the IPv4 packet, wherein the IPv4 address of the first terminal included in the IPv6 packet as a source address
6. The packet conversion method according to claim 1, further comprising: converting six addresses to the assigned arbitrary IPv4 address; and generating an IPv4 packet including the arbitrary IPv4 address as a source address. 5. A DH for allocating an IPv4 address
A first message requesting an IPv4 address is transmitted to the CP device, a second message including an arbitrary IPv4 address transmitted from the DHCP device in response to the first message is received, and the IPv4 packet is created. Converting the IPv6 address of the first terminal included in the IPv6 packet as a source address into the arbitrary IPv4 address;
The packet conversion method according to claim 1, wherein an IPv4 packet including a v4 address as a source address is created. 6. The packet conversion method according to claim 4, wherein an IPv6 address of the first terminal and the arbitrary IPv4 address are stored in association with each other. 7. The step of storing an IPv6 address of the first terminal and an arbitrary IPv4 address in association with each other and creating the IPv4 packet includes:
6 stores the IPv6 address of the first terminal included as the source address in the six
2. The method according to claim 1, wherein the packet is converted to a Pv4 address, and an IPv4 packet including the arbitrary IPv4 address as a source address is created.