CN114401249B - IPv6 address allocation method and system - Google Patents

Abstract

The invention relates to an IPv6 address allocation method and system, and belongs to the technical field of IPv6 address allocation. The system includes a requesting network device, a first transit network device, a secondary network device, a second transit network device, and an address assignment network device. The invention can realize the efficient allocation of the IPv6 address, plan the allocation, facilitate the later use and timely management, and simultaneously isolate the application and the address allocation through the middle secondary network equipment, thereby improving the safety and further facilitating the use of the system; in the access process, users in the first transit network equipment and the second transit network equipment which are active for a long time are regulated to fixed storage positions, the access route is fixed, so that the access speed is maintained, new accesses exceeding the temporary storage amount of the access are covered on the temporarily stored silent accesses, the transit operation is maintained, and meanwhile, the manager can actively judge abnormal data to terminate data transmission.

Description

IPv6 address allocation method and system

Technical Field

The invention belongs to the technical field of IPv6 address allocation, and particularly relates to an IPv6 address allocation method and system.

Background

With the rapid development of internet applications, the number of internet users is increasing, and the network address resources of the IPv4 (internet protocol version 4) address are limited, which severely restricts the application and development of the internet. Therefore, an IPv6 (internet protocol version 6) address may be used to replace an IPv4 address, so as to solve the problem of limited network address resources, where the IPv6 technology is an important network technology in the next generation of internet, and the IPv6 address is composed of a network address and a host address, where the network address is allocated by an operator, and the host address in the IPv6 network may be generated by a random algorithm of a node itself, and is currently mainly the MAC-to-EUI-64 conversion technology adopted by IEEE.

However, the existing IPv6 address allocation method and system cannot perform efficient and accurate allocation on the IPv6 address well, which is not beneficial to allocation management of the IPv6 address. Therefore, how to overcome the defects of the prior art is a problem that needs to be solved in the technical field of IPv6 address allocation at present.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides an IPv6 address allocation method and system.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows:

an IPv6 address allocation system includes a requesting network device, a first transit network device, a secondary network device, a second transit network device, and an address allocation network device; the request network equipment is in wireless connection with the first transit network equipment through a network channel, the first transit network equipment is in wireless connection with the secondary network equipment through the network channel, the secondary network equipment is in wireless connection with the second transit network equipment through the network channel, and the second transit network equipment is in wireless connection with the address distribution network equipment through the network channel.

Further, it is preferable that the network channel includes a receiving channel and a transmitting channel.

Further, it is preferable that the requesting network device includes a storage unit, an input unit, a network channel, and a data processing unit; the storage unit comprises original IPV4 address storage, basic information storage and input account information storage; the input network device is used for inputting account information; the data processing unit is used for generating IPV application information.

Further, it is preferable that the basic information includes a device type, a device location, and a device configuration; the input account information comprises an account, a password, an account name, a verification code and network requirements; the IPV application information is in the form of data packets.

Further, preferably, the first transit network device includes a network channel and a storage unit, and the second transit unit has the same structure as the first transit unit;

the storage unit comprises temporary storage, covering storage and fixed storage, wherein the temporary storage is used for storing application lines according to the application sequence; temporary storage includes a fixed number of stores; the fixed storage is used for retrieving and storing the long-time movable line in the temporary storage, and transferring the long-time movable line from the temporary storage to the fixed storage; the covering storage is used for covering the temporary storage of the short-term line according to the time sequence.

Further, it is preferable that the secondary network device includes a network channel, a storage unit, an operation unit, and a processing unit; the storage unit is used for storing information of the storage unit, and the category and the home area of the secondary network equipment are stored in the storage unit; the operation unit is used for manually distributing and adjusting, manually stopping IPv6 address feedback or manually rejecting IPV application; the processing unit is used for processing information, including application information processing and address information processing, the application information processing specifically corresponds to IPV application processing, and secondary network equipment self-stored information is added to form new application information; the address information processing specifically processes the fed back IPv6 address to form a secondary address.

Further, it is preferable that the address distribution network device includes a network channel, an address distribution unit, and an information processing unit;

the address allocation unit is used for address allocation, address information generation, address access authorization and address times authorization; the address allocation is specifically performed according to data formed by application information processing, the address information generation is specifically performed according to an allocation result, the address access authorization is performed on the address, the address frequency authorization is the address access frequency limitation, and the address fails after the fixed access frequency is reached;

the information processing unit comprises an access network equipment authentication module, an application information processing module and an access condition recording module; the access network equipment authentication module is used for verifying whether an account applying for the network equipment has application authority or not and whether a visitor accessing the network equipment has access authority or not; the application information processing module is used for processing the IPV application data packet to form an address allocation unit which can identify the data signal; the access condition recording unit is used for recording the operation records of the visitor and the application network equipment.

The invention also provides an IPv6 address allocation method, which adopts the IPv6 address allocation system and comprises the following steps:

step one: the method comprises the steps that an applicant inputs an account number, a password, a name, a verification code and application information through an input unit in a request network device, and then a data processing unit in the request network device combines the input account number, the password, the name, the verification code, the application information and original IPV4 address information and basic information in a storage unit, so that an IPV application data packet is formed;

step two: the method comprises the steps that request network equipment transmits an IPV application data packet to first transit network equipment through a network channel, a storage unit in the first transit network equipment temporarily stores storage information of the IPV application data packet which is composed of an account number, a password, an account number name, a verification code and application requirements, and meanwhile transmits the storage information to secondary network equipment through the network channel;

step three: the secondary network device processes the received IPV application data packet through a processing unit thereof, adds the category and the attribution area information of the secondary network device in the IPV application data packet to form a new IPV application data packet, and simultaneously transmits the new IPV application data packet to the second transit network device through a network channel;

step four: the storage unit in the second transfer network equipment temporarily stores the information of the new IPV application data packet and simultaneously transmits the information to the address distribution network equipment through a network channel;

step five: the address distribution network equipment processes the received new IPV application data packet through the application data processing module, meanwhile, the address distribution network equipment performs address distribution through the processed information, forms IPv6 address information, simultaneously attaches access authority and access times to the address information, and then the IPv6 address containing authority setting is transmitted to the second transit network equipment through a network channel;

step six: the second transit network device transmits the IPv6 address to the secondary network device through the network channel through the path of the original temporary storage position;

step seven: the secondary network equipment carries out secondary processing on the received IPv6 address through the processing unit to form a secondary IPv6 address, and the secondary IPv6 address is transmitted to the first transit network equipment through the network channel;

step eight: the first transit network device delivers it to the requesting network device via the temporarily stored path via the network channel.

Further, preferably, the method further comprises:

step nine: the user accesses through the secondary IPv6 address, and the access is transmitted to the address distribution network equipment for verification through the first transit network equipment, the secondary network equipment and the second transit network equipment, and the address distribution network equipment records the access times and the access operation;

step ten: in the access process, the users in the first transit network device and the second transit network device which are active for a long time are regulated to a fixed storage position, the access route is fixed, and new accesses exceeding the temporary storage amount of the access route are covered on the temporarily stored silent accesses.

Further, preferably, the method further comprises:

step eleven: when the first transit network device transmits the IPV application data packet to the secondary network device, and the second transit network device transmits the IPv6 address to the secondary network device, the manager can actively judge abnormal data so as to terminate data transmission.

In the invention, the user who is active for a long time is regulated to a fixed storage position, and the access route is fixed, so as to maintain the access speed.

In the invention, the coverage storage function is to ensure that new application information can enter a temporary storage range, avoid data transmission failure caused by data accumulation and maintain transfer operation.

In the present invention, the long-time activity is preferably an activity exceeding one minute or more.

Compared with the prior art, the invention has the beneficial effects that:

the invention can realize the efficient allocation of the IPv6 address through the cooperation among the request network equipment, the first transit network equipment, the secondary network equipment, the second transit network equipment and the address allocation network equipment, plan the allocation, facilitate the later-period use and timely manage, and simultaneously isolate the application and the address allocation through the middle secondary network equipment, thereby improving the safety, and further facilitating the use of the IPv6 address allocation method and the system.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the invention, and that other drawings can be obtained according to these drawings without inventive faculty for a person skilled in the art.

FIG. 1 is a block diagram illustrating the structure of the IPv6 address allocation method and system according to the present invention.

Fig. 2 is a block diagram of a request network device in the IPv6 address allocation method and system according to the present invention.

Fig. 3 is a block diagram of a first transit network device in the IPv6 address allocation method and system according to the present invention.

Fig. 4 is a block diagram of a secondary network device in the IPv6 address allocation method and system of the present invention.

Fig. 5 is a block diagram of a second transit network device in the IPv6 address allocation method and system according to the present invention.

Fig. 6 is a block diagram of an address allocation network device in the IPv6 address allocation method and system according to the present invention.

Detailed Description

The present invention will be described in further detail with reference to examples.

It will be appreciated by those skilled in the art that the following examples are illustrative of the present invention and should not be construed as limiting the scope of the invention. The specific techniques or conditions are not identified in the examples and are performed according to techniques or conditions described in the literature in this field or according to the product specifications. The materials or equipment used are conventional products available from commercial sources, not identified to the manufacturer.

As used herein, the singular forms "a", "an", "the" and "the" are intended to include the plural forms as well, unless expressly stated otherwise, as understood by those skilled in the art. It will be further understood that the terms "comprises" and/or "comprising," when used in this specification, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof. It will be understood that when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. Further, "connected" as used herein may include wireless connections. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

In the description of the present invention, unless otherwise indicated, the meaning of "a plurality" is two or more. The orientation or state relationship indicated by the terms "inner", "upper", "lower", etc. are orientation or state relationship based on the drawings, are merely for convenience of description and simplification of description, and do not indicate or imply that the apparatus or element in question must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the invention.

In the description of the present invention, it should be noted that, unless explicitly stated and limited otherwise, the terms "mounted," "connected," and "provided" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present invention is understood by those of ordinary skill in the art according to the specific circumstances.

It will be understood by those skilled in the art that, unless otherwise defined, all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. It will be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the prior art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.

Example 1

An IPv6 address allocation system includes a requesting network device, a first transit network device, a secondary network device, a second transit network device, and an address allocation network device; the request network equipment is in wireless connection with the first transit network equipment through a network channel, the first transit network equipment is in wireless connection with the secondary network equipment through the network channel, the secondary network equipment is in wireless connection with the second transit network equipment through the network channel, and the second transit network equipment is in wireless connection with the address distribution network equipment through the network channel.

Example 2

An IPv6 address allocation system includes a requesting network device, a first transit network device, a secondary network device, a second transit network device, and an address allocation network device; the request network equipment is in wireless connection with the first transit network equipment through a network channel, the first transit network equipment is in wireless connection with the secondary network equipment through the network channel, the secondary network equipment is in wireless connection with the second transit network equipment through the network channel, and the second transit network equipment is in wireless connection with the address distribution network equipment through the network channel.

The request network equipment comprises a storage unit, an input unit, a network channel and a data processing unit; the storage unit comprises original IPV4 address storage, basic information storage and input account information storage; the input network device is used for inputting account information; the data processing unit is used for generating IPV application information.

The first transfer network equipment comprises a network channel and a storage unit, and the second transfer unit has the same structure as the first transfer unit;

the storage unit comprises temporary storage, covering storage and fixed storage, wherein the temporary storage is used for storing application lines according to the application sequence; temporary storage includes a fixed number of stores; the fixed storage is used for retrieving and storing the line which is active for a long time (more than one minute) in the temporary storage, and transferring the line which is active for a long time from the temporary storage to the fixed storage; the covering storage is used for covering the temporary storage of the immersed circuit according to the time sequence.

The secondary network device comprises a network channel, a storage unit, an operation unit and a processing unit; the storage unit is used for storing information of the storage unit, and the category and the home area of the secondary network equipment are stored in the storage unit; the operation unit is used for manually distributing and adjusting, manually stopping IPv6 address feedback or manually rejecting IPV application; the processing unit is used for processing information, including application information processing and address information processing, the application information processing specifically corresponds to IPV application processing, and secondary network equipment self-stored information is added to form new application information; the address information processing specifically processes the fed back IPv6 address to form a secondary address.

The address distribution network equipment comprises a network channel, an address distribution unit and an information processing unit;

the address allocation unit is used for address allocation, address information generation, address access authorization and address times authorization; the address allocation is specifically performed according to data formed by application information processing, the address information generation is specifically performed according to an allocation result, the address access authorization is performed on the address, the address frequency authorization is the address access frequency limitation, and the address fails after the fixed access frequency is reached;

the information processing unit comprises an access network equipment authentication module, an application information processing module and an access condition recording module; the access network equipment authentication module is used for verifying whether an account applying for the network equipment has application authority or not and whether a visitor accessing the network equipment has access authority or not; the application information processing module is used for processing the IPV application data packet to form an address allocation unit which can identify the data signal; the access condition recording unit is used for recording the operation records of the visitor and the application network equipment.

Example 3

An IPv6 address allocation system includes a requesting network device, a first transit network device, a secondary network device, a second transit network device, and an address allocation network device; the request network equipment is in wireless connection with the first transit network equipment through a network channel, the first transit network equipment is in wireless connection with the secondary network equipment through the network channel, the secondary network equipment is in wireless connection with the second transit network equipment through the network channel, and the second transit network equipment is in wireless connection with the address distribution network equipment through the network channel.

The request network equipment comprises a storage unit, an input unit, a network channel and a data processing unit; the storage unit comprises original IPV4 address storage, basic information storage and input account information storage; the input network device is used for inputting account information; the data processing unit is used for generating IPV application information.

The first transfer network equipment comprises a network channel and a storage unit, and the second transfer unit has the same structure as the first transfer unit;

the storage unit comprises temporary storage, covering storage and fixed storage, wherein the temporary storage is used for storing application lines according to the application sequence; temporary storage includes a fixed number of stores; the fixed storage is used for retrieving and storing the line which is active for a long time (more than one minute) in the temporary storage, and transferring the line which is active for a long time from the temporary storage to the fixed storage; the cover store is used to cover the temporary storage of the caisson's line in chronological order.

The secondary network device comprises a network channel, a storage unit, an operation unit and a processing unit; the storage unit is used for storing information of the storage unit, and the category and the home area of the secondary network equipment are stored in the storage unit; the operation unit is used for manually distributing and adjusting, manually stopping IPv6 address feedback or manually rejecting IPV application; the processing unit is used for processing information, including application information processing and address information processing, the application information processing specifically corresponds to IPV application processing, and secondary network equipment self-stored information is added to form new application information; the address information processing specifically processes the fed back IPv6 address to form a secondary address.

The address distribution network equipment comprises a network channel, an address distribution unit and an information processing unit;

the address allocation unit is used for address allocation, address information generation, address access authorization and address times authorization; the address allocation is specifically performed according to data formed by application information processing, the address information generation is specifically performed according to an allocation result, the address access authorization is performed on the address, the address frequency authorization is the address access frequency limitation, and the address fails after the fixed access frequency is reached;

the information processing unit comprises an access network equipment authentication module, an application information processing module and an access condition recording module; the access network equipment authentication module is used for verifying whether an account applying for the network equipment has application authority or not and whether a visitor accessing the network equipment has access authority or not; the application information processing module is used for processing the IPV application data packet to form an address allocation unit which can identify the data signal; the access condition recording unit is used for recording the operation records of the visitor and the application network equipment.

The network channels include a receive channel and a transmit channel.

The basic information includes a device type, a device location, and a device configuration; the input account information comprises an account, a password, an account name, a verification code and network requirements; the IPV application information is in the form of data packets.

Example 4

An IPv6 address allocation method, using the IPv6 address allocation system according to embodiment 1, includes the steps of:

step one: the method comprises the steps that an applicant inputs an account number, a password, a name, a verification code and application information through an input unit in a request network device, and then a data processing unit in the request network device combines the input account number, the password, the name, the verification code, the application information and original IPV4 address information and basic information in a storage unit, so that an IPV application data packet is formed;

step two: the method comprises the steps that request network equipment transmits an IPV application data packet to first transit network equipment through a network channel, a storage unit in the first transit network equipment temporarily stores storage information of the IPV application data packet which is composed of an account number, a password, an account number name, a verification code and application requirements, and meanwhile transmits the storage information to secondary network equipment through the network channel;

step three: the secondary network device processes the received IPV application data packet through a processing unit thereof, adds the category and the attribution area information of the secondary network device in the IPV application data packet to form a new IPV application data packet, and simultaneously transmits the new IPV application data packet to the second transit network device through a network channel;

step four: the storage unit in the second transfer network equipment temporarily stores the information of the new IPV application data packet and simultaneously transmits the information to the address distribution network equipment through a network channel;

step five: the address distribution network equipment processes the received new IPV application data packet through the application data processing module, meanwhile, the address distribution network equipment performs address distribution through the processed information, forms IPv6 address information, simultaneously attaches access authority and access times to the address information, and then the IPv6 address containing authority setting is transmitted to the second transit network equipment through a network channel;

step six: the second transit network device transmits the IPv6 address to the secondary network device through the network channel through the path of the original temporary storage position;

step seven: the secondary network equipment carries out secondary processing on the received IPv6 address through the processing unit to form a secondary IPv6 address, and the secondary IPv6 address is transmitted to the first transit network equipment through the network channel;

step eight: the first transit network device delivers it to the requesting network device via the temporarily stored path via the network channel.

Example 5

An IPv6 address allocation method, using the IPv6 address allocation system according to embodiment 2, includes the steps of:

step one: the method comprises the steps that an applicant inputs an account number, a password, a name, a verification code and application information through an input unit in a request network device, and then a data processing unit in the request network device combines the input account number, the password, the name, the verification code, the application information and original IPV4 address information and basic information in a storage unit, so that an IPV application data packet is formed;

step two: the method comprises the steps that request network equipment transmits an IPV application data packet to first transit network equipment through a network channel, a storage unit in the first transit network equipment temporarily stores storage information of the IPV application data packet which is composed of an account number, a password, an account number name, a verification code and application requirements, and meanwhile transmits the storage information to secondary network equipment through the network channel;

step three: the secondary network device processes the received IPV application data packet through a processing unit thereof, adds the category and the attribution area information of the secondary network device in the IPV application data packet to form a new IPV application data packet, and simultaneously transmits the new IPV application data packet to the second transit network device through a network channel;

step four: the storage unit in the second transfer network equipment temporarily stores the information of the new IPV application data packet and simultaneously transmits the information to the address distribution network equipment through a network channel;

step five: the address distribution network equipment processes the received new IPV application data packet through the application data processing module, meanwhile, the address distribution network equipment performs address distribution through the processed information, forms IPv6 address information, simultaneously attaches access authority and access times to the address information, and then the IPv6 address containing authority setting is transmitted to the second transit network equipment through a network channel;

step six: the second transit network device transmits the IPv6 address to the secondary network device through the network channel through the path of the original temporary storage position;

step seven: the secondary network equipment carries out secondary processing on the received IPv6 address through the processing unit to form a secondary IPv6 address, and the secondary IPv6 address is transmitted to the first transit network equipment through the network channel;

step eight: the first transit network device transmits the first transit network device to the request network device through the network channel through the temporary stored path;

step nine: the user accesses through the secondary IPv6 address, and the access is transmitted to the address distribution network equipment for verification through the first transit network equipment, the secondary network equipment and the second transit network equipment, and the address distribution network equipment records the access times and the access operation;

step ten: in the access process, the users in the first transit network device and the second transit network device which are active for a long time are regulated to a fixed storage position, the access route is fixed, and new accesses exceeding the temporary storage amount of the access route are covered on the temporarily stored silent accesses.

Example 6

An IPv6 address allocation method, using the IPv6 address allocation system of embodiment 3, includes the steps of:

step one: the method comprises the steps that an applicant inputs an account number, a password, a name, a verification code and application information through an input unit in a request network device, and then a data processing unit in the request network device combines the input account number, the password, the name, the verification code, the application information and original IPV4 address information and basic information in a storage unit, so that an IPV application data packet is formed;

step two: the method comprises the steps that request network equipment transmits an IPV application data packet to first transit network equipment through a network channel, a storage unit in the first transit network equipment temporarily stores storage information of the IPV application data packet which is composed of an account number, a password, an account number name, a verification code and application requirements, and meanwhile transmits the storage information to secondary network equipment through the network channel;

step three: the secondary network device processes the received IPV application data packet through a processing unit thereof, adds the category and the attribution area information of the secondary network device in the IPV application data packet to form a new IPV application data packet, and simultaneously transmits the new IPV application data packet to the second transit network device through a network channel;

step four: the storage unit in the second transfer network equipment temporarily stores the information of the new IPV application data packet and simultaneously transmits the information to the address distribution network equipment through a network channel;

step five: the address distribution network equipment processes the received new IPV application data packet through the application data processing module, meanwhile, the address distribution network equipment performs address distribution through the processed information, forms IPv6 address information, simultaneously attaches access authority and access times to the address information, and then the IPv6 address containing authority setting is transmitted to the second transit network equipment through a network channel;

step six: the second transit network device transmits the IPv6 address to the secondary network device through the network channel through the path of the original temporary storage position;

step seven: the secondary network equipment carries out secondary processing on the received IPv6 address through the processing unit to form a secondary IPv6 address, and the secondary IPv6 address is transmitted to the first transit network equipment through the network channel;

step eight: the first transit network device transmits the first transit network device to the request network device through the network channel through the temporary stored path;

step nine: the user accesses through the secondary IPv6 address, and the access is transmitted to the address distribution network equipment for verification through the first transit network equipment, the secondary network equipment and the second transit network equipment, and the address distribution network equipment records the access times and the access operation;

step ten: in the access process, the first transit network equipment and the second transit network equipment regulate users which are active for a long time to a fixed storage position, fix the access route of the users, and cover the temporarily stored silent access by new access exceeding the temporary storage capacity of the users;

step eleven: when the first transit network device transmits the IPV application data packet to the secondary network device, and the second transit network device transmits the IPv6 address to the secondary network device, the manager can actively judge abnormal data so as to terminate data transmission.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. An IPv6 address allocation method is characterized in that an IPv6 address allocation system is adopted, and the IPv6 address allocation system comprises a request network device, a first transit network device, a secondary network device, a second transit network device and an address allocation network device; the request network equipment is in wireless connection with the first transit network equipment through a network channel, the first transit network equipment is in wireless connection with the secondary network equipment through the network channel, the secondary network equipment is in wireless connection with the second transit network equipment through the network channel, and the second transit network equipment is in wireless connection with the address distribution network equipment through the network channel;

the IPv6 address allocation method comprises the following steps:

step one: the method comprises the steps that an applicant inputs an account number, a password, a name, a verification code and application information through an input unit in a request network device, and then a data processing unit in the request network device combines the input account number, the password, the name, the verification code, the application information and original IPV4 address information and basic information in a storage unit, so that an IPV application data packet is formed;

step two: the method comprises the steps that request network equipment transmits an IPV application data packet to first transit network equipment through a network channel, a storage unit in the first transit network equipment temporarily stores storage information of the IPV application data packet which is composed of an account number, a password, an account number name, a verification code and application requirements, and meanwhile transmits the storage information to secondary network equipment through the network channel;

step three: the secondary network device processes the received IPV application data packet through a processing unit thereof, adds the category and the attribution area information of the secondary network device in the IPV application data packet to form a new IPV application data packet, and simultaneously transmits the new IPV application data packet to the second transit network device through a network channel;

step four: the storage unit in the second transfer network equipment temporarily stores the information of the new IPV application data packet and simultaneously transmits the information to the address distribution network equipment through a network channel;

step five: the address distribution network equipment processes the received new IPV application data packet through the application data processing module, meanwhile, the address distribution network equipment performs address distribution through the processed information, forms IPv6 address information, simultaneously attaches access authority and access times to the address information, and then the IPv6 address containing authority setting is transmitted to the second transit network equipment through a network channel;

step six: the second transit network device transmits the IPv6 address to the secondary network device through the network channel through the path of the original temporary storage position;

step seven: the secondary network equipment carries out secondary processing on the received IPv6 address through the processing unit to form a secondary IPv6 address, and the secondary IPv6 address is transmitted to the first transit network equipment through the network channel;

step eight: the first transit network device transmits the first transit network device to the request network device through the network channel through the temporary stored path;

step nine: the user accesses through the secondary IPv6 address, and the access is transmitted to the address distribution network equipment for verification through the first transit network equipment, the secondary network equipment and the second transit network equipment, and the address distribution network equipment records the access times and the access operation;

step ten: in the access process, the first transit network equipment and the second transit network equipment regulate users which are active for a long time to a fixed storage position, fix the access route of the users, and cover the temporarily stored silent access by new access exceeding the temporary storage capacity of the users;

the user who is active for a long time is regulated to a fixed storage position, and the access route is fixed.

2. The IPv6 address allocation method of claim 1, wherein the network channel comprises a receive channel and a transmit channel.

3. The IPv6 address allocation method of claim 1, wherein the requesting network device comprises a storage unit, an input unit, a network channel, and a data processing unit; the storage unit comprises original IPV4 address storage, basic information storage and input account information storage; the input network device is used for inputting account information; the data processing unit is used for generating IPV application information.

4. The IPv6 address allocation method according to claim 3, wherein the basic information includes a device type, a device location, and a device configuration; the input account information comprises an account, a password, an account name, a verification code and network requirements; the IPV application information is in the form of data packets.

5. The IPv6 address allocation method of claim 1, wherein the first transit network device comprises a network channel and a storage unit, and the second transit unit has the same structure as the first transit unit;

the storage unit comprises temporary storage, covering storage and fixed storage, wherein the temporary storage is used for storing application lines according to the application sequence; temporary storage includes a fixed number of stores; the fixed storage is used for retrieving and storing the long-time movable line in the temporary storage, and transferring the long-time movable line from the temporary storage to the fixed storage; the covering storage is used for covering the temporary storage of the short-term line according to the time sequence.

6. The IPv6 address allocation method of claim 1, wherein the secondary network device comprises a network channel, a storage unit, an operation unit, and a processing unit; the storage unit is used for storing information of the storage unit, and the category and the home area of the secondary network equipment are stored in the storage unit; the operation unit is used for manually distributing and adjusting, manually stopping IPv6 address feedback or manually rejecting IPV application; the processing unit is used for processing information, including application information processing and address information processing, the application information processing specifically corresponds to IPV application processing, and secondary network equipment self-stored information is added to form new application information; the address information processing specifically processes the fed back IPv6 address to form a secondary address.

7. The IPv6 address allocation method according to claim 1, wherein the address allocation network device includes a network channel, an address allocation unit, and an information processing unit;

the address allocation unit is used for address allocation, address information generation, address access authorization and address times authorization; the address allocation is specifically performed according to data formed by application information processing, the address information generation is specifically performed according to an allocation result, the address access authorization is performed on the address, the address frequency authorization is the address access frequency limitation, and the address fails after the fixed access frequency is reached;

the information processing unit comprises an access network equipment authentication module, an application information processing module and an access condition recording module; the access network equipment authentication module is used for verifying whether an account applying for the network equipment has application authority or not and whether a visitor accessing the network equipment has access authority or not; the application information processing module is used for processing the IPV application data packet to form an address allocation unit which can identify the data signal; the access condition recording unit is used for recording the operation records of the visitor and the application network equipment.

8. The IPv6 address allocation method of claim 1, further comprising:

step eleven: when the first transit network device transmits the IPV application data packet to the secondary network device, and the second transit network device transmits the IPv6 address to the secondary network device, the manager can actively judge abnormal data so as to terminate data transmission.