CN115550315A - Digital cloud service management method and system based on next generation internet - Google Patents

Digital cloud service management method and system based on next generation internet Download PDF

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CN115550315A
CN115550315A CN202210954939.6A CN202210954939A CN115550315A CN 115550315 A CN115550315 A CN 115550315A CN 202210954939 A CN202210954939 A CN 202210954939A CN 115550315 A CN115550315 A CN 115550315A
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cloud service
user
users
addresses
service sub
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CN115550315B (en
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张永顺
林荫
朱翔
马倩琳
田增跃
韩文芸
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Beijing Zhongguancun Software Park Development
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L41/00Arrangements for maintenance, administration or management of data switching networks, e.g. of packet switching networks
    • H04L41/08Configuration management of networks or network elements
    • H04L41/0803Configuration setting
    • H04L41/0813Configuration setting characterised by the conditions triggering a change of settings
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L41/00Arrangements for maintenance, administration or management of data switching networks, e.g. of packet switching networks
    • H04L41/08Configuration management of networks or network elements
    • H04L41/0893Assignment of logical groups to network elements
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02DCLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
    • Y02D10/00Energy efficient computing, e.g. low power processors, power management or thermal management

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Abstract

The invention provides a next generation internet-based digital cloud service management method and system. The digital cloud service management method comprises the following steps: acquiring the number of cloud service sub-areas contained in a cloud service platform, and distributing the number of IP addresses according to the number of the cloud service sub-areas; monitoring the number of users in each cloud service subregion and the number of IP addresses occupied by each user in real time, acquiring the change condition of the number of users in each cloud service subregion and the change condition of the number of IP addresses occupied by each user, and configuring the number of IP addresses according to the change condition of the number of users and the change condition of the number of IP addresses occupied by each user; and carrying out IP address quantity distribution adjustment on each cloud service subregion under the IPv6 network environment according to the change condition of the number of users in each cloud service subregion and the change condition of the number of IP addresses occupied by each user. The system comprises modules corresponding to the method steps.

Description

Digital cloud service management method and system based on next generation internet
Technical Field
The invention discloses a next-generation internet-based digital cloud service management method and system, and belongs to the technical field of internet.
Background
The next generation internet is a novel public network established on the basis of IP technology, can contain information in various forms, realizes the transmission and management of audio, video and data signals under a unified management platform, provides various broadband applications and traditional telecommunication services, and is a comprehensive service network which really realizes broadband and narrowband integration, wired and wireless integration, active and passive integration and transmission access integration. IPv6, as a next generation version of IPv4, upgrades an address from the original 32 bits to 128 bits, the total number of addresses is 128 powers of 2, and this space is huge, and when each IP address corresponds to one IP address port, this makes the space utilization of the next generation internet IPv6 in the cloud service application process be greatly utilized.
Disclosure of Invention
The invention provides a next generation internet-based digital cloud service management method and system, which are used for solving the problem that the rationality of IP address quantity distribution is low in the digital cloud service application process of the next generation internet in the prior art, and adopt the following technical scheme:
a digital cloud service management method based on next generation Internet, the digital cloud service management method comprises the following steps:
acquiring the number of cloud service sub-areas contained in a cloud service platform, and distributing the number of IP addresses according to the number of the cloud service sub-areas;
monitoring the number of users in each cloud service subregion and the number of IP addresses occupied by each user in real time, acquiring the change condition of the number of users in each cloud service subregion and the change condition of the number of IP addresses occupied by each user, and configuring the number of IP addresses according to the change condition of the number of users and the change condition of the number of IP addresses occupied by each user;
and carrying out IP address quantity distribution adjustment on each cloud service subregion under the IPv6 network environment according to the change condition of the number of users in each cloud service subregion and the change condition of the number of IP addresses occupied by each user.
Further, acquiring the number of cloud service sub-areas included in the cloud service platform, and performing IP address quantity distribution according to the number of the cloud service sub-areas, including:
acquiring the number of cloud service sub-areas contained in a cloud service platform, and acquiring the number of registered users in each cloud service sub-area as a first user number;
calling the number of users who have finished signing but have not finished registering from a database as the number of second users;
acquiring enterprise scales of registered users and users who complete signing but do not complete registration in an internet information query mode;
determining the basic distribution quantity of the IP address quantity distribution of each cloud service subregion according to the enterprise scale of the registered users and the users who finish signing but do not finish registering and the quantity relation between the first user quantity and the second user quantity;
and allocating the quantity of the IP addresses to each cloud service subarea according to the basic allocation quantity, and allocating the quantity of the IP addresses to the belonged user according to the quantity of the preset user IP addresses, wherein the value range of the quantity of the preset user IP addresses is 4-32.
Further, determining the basic distribution quantity of the IP address quantity distribution of each cloud service sub-area according to the enterprise scales of the registered users and the users who complete the subscription but do not complete the registration and the quantity relationship between the first user quantity and the second user quantity, and the method comprises the following steps:
extracting corresponding data information of enterprise scales of the registered users and the users who finish signing but do not finish registering;
extracting the first user number and the second user number;
and acquiring the basic distribution quantity distributed by the IP address quantity of each cloud service sub-region through a basic distribution quantity model by utilizing the enterprise scale of the registered users and the users who finish signing but do not finish registering and the quantity relation between the first user quantity and the second user quantity. Wherein the basic allocation quantity model is:
Figure BDA0003790875910000021
Figure BDA0003790875910000022
wherein R represents the basic distribution quantity of the IP address quantity distribution corresponding to each cloud service sub-region; a represents a basic parameter index; and R and a are rounded up; c 1 And C 2 Respectively representing the first user number and the second user number; w is a group of c The enterprise scale is the number corresponding to the enterprises of the middle level or above in the total number of the first user number and the second user number; and, enterprise size includes primary, intermediate and advanced; the enterprise scale of the actual number of the social security paid by the enterprise is less than 70 is primary; the actual number of the enterprise payment social insurance people is in the middle level of the enterprise scale of 70-160 people; the enterprise scale of the actual number of the enterprises paying the social insurance exceeds 160 is high grade; y is max And Y min And respectively representing the upper limit value and the lower limit value corresponding to the value range of the number distribution quantity of the preset user IP addresses.
Further, monitoring the number of users in each cloud service subarea and the number of IP addresses occupied by each user in real time, acquiring the change condition of the number of users in each cloud service subarea and the change condition of the number of IP addresses occupied by each user, and configuring the number of IP addresses according to the change condition of the number of users and the change condition of the number of IP addresses occupied by each user, wherein the method comprises the following steps:
monitoring whether new users exist in each cloud service sub-area in real time;
when a newly added user exists, determining whether user logout exists in a cloud service subregion of the newly added user, and if the user logout exists, performing basic configuration aiming at the IP address number of a single user for the newly added user within a basic distribution number range according to the IP address number acquired by a first distribution model;
and if the user logout does not exist, performing basic configuration of the IP address number of the single user for the newly added user in the range of the basic allocation number according to the IP address number acquired by the second allocation model.
Wherein the first and second allocation models are as follows:
Figure BDA0003790875910000031
W p2 =1+2 t
Figure BDA0003790875910000032
wherein, W p1 Representing the number of the IP addresses which are correspondingly acquired and allocated to the newly added user and correspond to the first allocation model; w is a group of p1 Representing the number of the correspondingly acquired IP addresses allocated to the newly added user corresponding to the second allocation model; c z Indicating the number of IP addresses occupied by the logged-off user; p represents enterprise payment corresponding to the new userThe actual number of social insurance people; t represents an exponential coefficient; n represents an index basic parameter, and the value of n is 0 or 1.
Further, the allocating and adjusting the number of the IP addresses of the cloud service sub-areas in the IPv6 network environment according to the change of the number of the users in the cloud service sub-areas and the change of the number of the IP addresses occupied by each user includes:
when the number occupied amount of the IP addresses of the cloud service sub-area is determined to exceed a preset occupied threshold, judging the number change condition of the users in the cloud service sub-area and the number change condition of the IP addresses occupied by each user;
when the number of users in the cloud service sub-area is increased and the whole number of the IP addresses occupied by the users is increased at the same time, configuring a first supplementary allowance IP address number for the cloud service sub-area, wherein the first supplementary allowance IP address number is used for providing a sufficient available IP address number for the expected number of the users who increase the number of the cloud service sub-area; wherein, the first supplementary margin IP address number is obtained by the following formula:
Figure BDA0003790875910000033
wherein R is b1 Indicating a supplementary number of IP addresses determined using the first supplementary margin IP address number; c x Representing the number of newly added users; w s Indicating the number of the IP addresses actually occupied in the user cloud service application process in a specified time period after the number of the IP addresses corresponding to the first user number and the second user number is completely allocated, wherein the specified time period is set to be 2-3 months; w x Representing that the occupation quantity of the IP end is newly increased after the appointed time period is finished until the occupation quantity of the number of the IP addresses exceeds a preset occupation threshold; t is 0 Representing the duration corresponding to the specified time period; t represents the total time length from the end time of the specified time period until the occupied quantity of the IP address quantity exceeds the preset occupied threshold value, R y The number of the occupied IP addresses corresponding to the occupation threshold is represented, and the IP places corresponding to the occupation threshold are representedThe occupied number of the addresses is not less than 78% of the basic allocation number of the IP address number allocation corresponding to each cloud service subarea; lambda [ alpha ] 1 Denotes a first supplementary coefficient, λ 1 Is 0.54-0.65;
and when it is determined that the number of users in the cloud service sub-area is not increased and the whole number of the IP addresses occupied by the users is increased at the same time, configuring a second supplementary margin IP address number for the cloud service sub-area, wherein the second supplementary margin IP address number is used for providing a sufficient available IP address number for the expected number of the users who increase the cloud service sub-area. The second supplementary margin IP address number is obtained by the following formula:
Figure BDA0003790875910000041
wherein R is b1 Indicating a supplementary number of IP addresses determined using the first supplementary margin IP address number; w is a group of s Indicating the number of the IP addresses actually occupied in the user cloud service application process in a specified time period after the number of the IP addresses corresponding to the first user number and the second user number is completely allocated, wherein the specified time period is set to be 2-3 months; w x Representing that the occupation quantity of the IP end is newly increased after the appointed time period is finished until the occupation quantity of the number of the IP addresses exceeds a preset occupation threshold; t is 0 Representing the corresponding duration of the specified time period; t represents the total time length from the end time of the specified time period until the occupied quantity of the IP address quantity exceeds the preset occupied threshold value, R y Representing the number of occupied IP addresses corresponding to the occupation threshold; lambda [ alpha ] 2 Denotes a second supplementary coefficient, λ 2 Is 0.32-0.41.
A next generation internet-based digital cloud service management system, the digital cloud service management system comprising:
the acquisition module is used for acquiring the number of the cloud service sub-regions contained in the cloud service platform and distributing the number of the IP addresses according to the number of the cloud service sub-regions;
the real-time monitoring module is used for monitoring the number of users in each cloud service subarea and the number of IP addresses occupied by each user in real time, acquiring the change condition of the number of users in each cloud service subarea and the change condition of the number of IP addresses occupied by each user, and configuring the number of IP addresses according to the change condition of the number of users and the change condition of the number of IP addresses occupied by each user;
and the distribution adjusting module is used for carrying out IP address quantity distribution adjustment on each cloud service subarea under the IPv6 network environment according to the change condition of the number of users in each cloud service subarea and the change condition of the number of IP addresses occupied by each user.
Further, the acquisition module comprises:
the first quantity module is used for acquiring the number of cloud service sub-areas contained in a cloud service platform and acquiring the number of registered users in each cloud service sub-area as the first user quantity;
the second quantity module is used for calling the number of the users who finish signing but do not finish registering from the database as the second user quantity;
the scale acquisition module is used for acquiring enterprise scales of registered users and users who complete signing but do not complete registration in an internet information query mode;
the basic data acquisition module is used for determining the basic distribution quantity of the IP address quantity distribution of each cloud service sub-area according to the enterprise scale of the registered users and the users who finish signing but do not finish registering and the quantity relation between the first user quantity and the second user quantity;
and the automatic allocation module is used for allocating the quantity of the IP addresses to each cloud service sub-region according to the basic allocation quantity and allocating the quantity of the IP addresses to the belonged user according to the quantity of the allocated quantity of the IP addresses of the preset user, wherein the value range of the quantity of the allocated quantity of the IP addresses of the preset user is 4-32.
Further, the basic data acquisition module comprises:
the first extraction module is used for extracting the corresponding data information of the enterprise scale of the registered user and the user who has finished signing but has not finished registering;
the second extraction module is used for extracting the first user number and the second user number;
and the basic data calculation module is used for acquiring the basic distribution quantity distributed by the IP address quantity of each cloud service sub-area through a basic distribution quantity model by utilizing the enterprise scales of the registered users and the users who finish signing but do not finish registering and the quantity relationship between the first user quantity and the second user quantity. Wherein the basic allocation quantity model is:
Figure BDA0003790875910000051
Figure BDA0003790875910000052
the number of the IP addresses corresponding to each cloud service subarea is the basic distribution number of the IP address number distribution; a represents a basic parameter index; and R and a are rounded up; c 1 And C 2 Respectively representing the first user number and the second user number; w c The enterprise scale is the number corresponding to the enterprises of the middle level or above in the total number of the first user number and the second user number; and, enterprise size includes primary, intermediate and advanced; the enterprise scale of the actual number of the social security paid by the enterprise is less than 70 is primary; the actual number of the enterprise payment social insurance is in the middle level of the enterprise scale of 70-160 persons; the enterprise scale of the actual number of the enterprises paying the social insurance exceeds 160 is high grade; y is max And Y min And respectively representing an upper limit value and a lower limit value corresponding to the value range of the number distribution quantity of the preset user IP addresses.
Further, the real-time monitoring module comprises:
the user number monitoring module is used for monitoring whether new users exist in each cloud service sub-area in real time;
the configuration judgment module I is used for determining whether user logout exists in a cloud service sub-area where the newly added user exists or not when the newly added user exists, and if the user logout exists, performing basic configuration aiming at the number of IP addresses of a single user for the newly added user within a basic distribution number range according to the number of the IP addresses acquired by the first distribution model;
and the configuration judging module II is used for performing basic configuration aiming at the IP address number of the single user for the newly added user within the basic distribution number range according to the IP address number acquired by the second distribution model if the user logout does not exist.
Wherein the first and second allocation models are as follows:
Figure BDA0003790875910000061
W p2 =1+2 t
Figure BDA0003790875910000062
wherein, W p1 Representing the number of the IP addresses which are correspondingly acquired and allocated to the newly added user and correspond to the first allocation model; w is a group of p1 Representing the number of the correspondingly acquired IP addresses distributed to the newly added user corresponding to the second distribution model; c z Indicating the number of IP addresses occupied by the logged-off user; p represents the actual number of the enterprise payment social security corresponding to the newly added user; t represents an exponential coefficient; n represents an index basic parameter, and the value of n is 0 or 1.
Further, the allocation adjustment module includes:
the condition judgment module is used for judging the change condition of the number of the users in the cloud service sub-area and the change condition of the number of the IP addresses occupied by each user when the fact that the number of the occupied IP addresses of the cloud service sub-area exceeds a preset occupation threshold value is determined;
the first supplement module is used for configuring the number of first supplement margin IP addresses for the cloud service sub-area when the number of users of the cloud service sub-area is increased and the whole number of the IP addresses occupied by the users is increased at the same time, and is used for providing the number of enough available IP addresses for the expected number of the users for increasing the number of the cloud service sub-area; the first supplementary margin IP address quantity is obtained through the following formula:
Figure BDA0003790875910000063
wherein R is b1 Indicating a supplementary number of IP addresses determined using the first supplementary margin IP address number; c x Representing the number of newly added users; w s Indicating the number of IP addresses actually occupied by the user in the cloud service application process in a specified time period after the number of the IP addresses corresponding to the first user number and the second user number is completely allocated, wherein the specified time period is set to be 2-3 months; w x Representing that the occupation quantity of the IP end is newly increased after the appointed time period is finished until the occupation quantity of the number of the IP addresses exceeds a preset occupation threshold; t is 0 Representing the duration corresponding to the specified time period; t represents the total time length from the end time of the specified time period until the occupied quantity of the IP address quantity exceeds the preset occupied threshold value, R y Representing the number of occupied IP addresses corresponding to the occupation threshold, wherein the number of occupied IP addresses corresponding to the occupation threshold is not less than 78% of the basic allocation number of the number of allocated IP addresses corresponding to each cloud service sub-region; lambda [ alpha ] 1 Denotes a first supplementary coefficient, λ 1 Is 0.54-0.65;
and the second supplementing module is used for configuring a second supplementing allowance IP address quantity for the cloud service sub-area when the number of the users in the cloud service sub-area is determined not to be increased and the integral number of the IP addresses occupied by the users is increased at the same time, so as to provide a sufficient available IP address quantity for the expected number of the users in the cloud service sub-area. Wherein the second supplementary margin IP address number is obtained by the following formula:
Figure BDA0003790875910000071
wherein R is b1 Indicating a supplementary number of IP addresses determined using the first supplementary margin IP address number; w s Indicating the number of the IP addresses actually occupied in the user cloud service application process in a specified time period after the number of the IP addresses corresponding to the first user number and the second user number is completely allocated, wherein the specified time period is set to be 2-3 months; w is a group of x After the appointed time period is represented, the occupied quantity of the IP end is newly increased until the occupied quantity of the IP address quantity exceeds a preset occupied threshold value; t is 0 Representing the duration corresponding to the specified time period; t represents the total duration from the end of the specified time period until the number of IP addresses is occupied beyond a preset occupation threshold, R y Representing the number of occupied IP addresses corresponding to the occupation threshold; lambda 2 Denotes a second supplementary coefficient, λ 2 Is 0.32-0.41.
The invention has the beneficial effects that:
according to the digital cloud service management method and system based on the next generation internet, the whole cloud service system is divided into a plurality of area blocks through the division of the cloud service sub-areas, and the IP address number distribution is carried out according to the actual cloud service user condition and the enterprise scale in each area block, so that the rationality of the IP address number distribution in one cloud service sub-area can be effectively improved, and the IP address number distribution adjustment times can be reduced to the maximum extent. Meanwhile, according to the enterprise scale condition of the user, one-to-one IP address quantity distribution is carried out on each enterprise user in the IP address quantity range distributed by the cloud service sub-region, the rationality of the IP address distribution of each enterprise user can be effectively improved, the current and future IP address use requirements of enterprises can be met during basic distribution, the number of idle IP addresses can be reduced to the maximum extent, and the idle rate of the IP addresses and the network resource waste rate in the basic distribution range are reduced to the maximum extent.
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FIG. 1 is a first flow chart of the method of the present invention;
FIG. 2 is a second flow chart of the method of the present invention;
fig. 3 is a system block diagram of the system of the present invention.
Detailed Description
The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.
The embodiment of the invention provides a next generation internet-based digital cloud service management method, which comprises the following steps of:
s1, acquiring the number of cloud service sub-areas contained in a cloud service platform, and distributing the number of IP addresses according to the number of the cloud service sub-areas;
s2, monitoring the number of users in each cloud service subarea and the number of IP addresses occupied by each user in real time, acquiring the change condition of the number of users in each cloud service subarea and the change condition of the number of IP addresses occupied by each user, and configuring the number of IP addresses according to the change condition of the number of users and the change condition of the number of IP addresses occupied by each user;
and S2, allocating and adjusting the quantity of the IP addresses of the cloud service sub-areas under the IPv6 network environment according to the quantity change condition of the users in the cloud service sub-areas and the quantity change condition of the IP addresses occupied by the users.
The working principle of the technical scheme is as follows: firstly, acquiring the number of cloud service sub-areas contained in a cloud service platform, and distributing the number of IP addresses according to the number of the cloud service sub-areas; then, monitoring the number of users in each cloud service subarea and the number of IP addresses occupied by each user in real time, acquiring the change condition of the number of users in each cloud service subarea and the change condition of the number of IP addresses occupied by each user, and configuring the number of IP addresses according to the change condition of the number of users and the change condition of the number of IP addresses occupied by each user; and finally, carrying out IP address quantity distribution adjustment on each cloud service subregion in the IPv6 network environment according to the change condition of the number of the users in each cloud service subregion and the change condition of the number of the IP addresses occupied by each user.
The effect of the above technical scheme is as follows: according to the digital cloud service management method based on the next generation internet, the whole cloud service system is divided into a plurality of area blocks through the division of the cloud service sub-areas, and the IP address number distribution is carried out according to the actual cloud service user condition and the enterprise scale in each area block, so that the rationality of the IP address number distribution in one cloud service sub-area can be effectively improved, and the IP address number distribution adjustment times can be reduced to the maximum extent. Meanwhile, aiming at the enterprise scale situation of the user, one-to-one IP address quantity distribution is carried out on each enterprise user in the IP address quantity range distributed by the cloud service sub-region, the rationality of the IP address distribution of each enterprise user can be effectively improved, the current and future IP address use requirements of the enterprise can be met during basic distribution, the idle IP address quantity can be reduced to the maximum extent, and the IP address idle rate and the network resource waste rate in the basic distribution range are reduced to the maximum extent.
One embodiment of the invention obtains the number of cloud service sub-areas contained in a cloud service platform, and allocates the number of IP addresses according to the number of the cloud service sub-areas, and the method comprises the following steps:
s101, acquiring the number of cloud service sub-areas contained in a cloud service platform, and acquiring the number of registered users in each cloud service sub-area as the number of first users;
s102, calling the number of users who have finished signing but have not finished registering from a database as the number of second users;
s103, acquiring enterprise scales of the registered users and the users who have finished signing the contract but have not finished registering in an internet information query mode;
s104, determining the basic distribution quantity of the IP address quantity distribution of each cloud service sub-region according to the enterprise scale of the registered users and the users who finish signing but do not finish registering and the quantity relation between the first user quantity and the second user quantity;
and S105, distributing the quantity of the IP addresses to each cloud service sub-area according to the basic distribution quantity, and distributing the quantity of the IP addresses to the belonged users according to the quantity of the IP addresses distributed by the preset users, wherein the value range of the quantity of the preset user IP addresses is 4-32.
As shown in fig. 2, determining the basic allocation number of the IP address number allocation of each cloud service sub-area according to the enterprise sizes of the registered users and the users who have completed the subscription but have not completed the registration and the number relationship between the first user number and the second user number includes:
s1041, extracting corresponding data information of enterprise scales of the registered user and the user who has finished signing but has not finished registering;
s1042, extracting the number of the first users and the number of the second users;
s1043, acquiring the basic distribution quantity of the quantity distribution of the IP addresses of each cloud service sub-area through a basic distribution quantity model by using the enterprise scales of the registered users and the users who finish signing but do not finish registering and the quantity relation between the quantity of the first users and the quantity of the second users. Wherein the basic allocation quantity model is:
Figure BDA0003790875910000091
Figure BDA0003790875910000092
wherein R represents the basic distribution quantity of the IP address quantity distribution corresponding to each cloud service sub-region; a represents a basic parameter index; and R and a are rounded up; c 1 And C 2 Respectively representing the first user number and the second user number; w c The enterprise scale is the number corresponding to the enterprises of the middle level or above in the total number of the first user number and the second user number; and, enterprise size includes primary, intermediate and advanced; wherein the content of the first and second substances,the enterprise scale of the actual number of the social security of the enterprise is less than 70 is primary; the actual number of the enterprise payment social insurance is in the middle level of the enterprise scale of 70-160 persons; the enterprise scale of the actual number of the enterprises paying the social insurance exceeds 160 is high grade; y is max And Y min And respectively representing the upper limit value and the lower limit value corresponding to the value range of the number distribution quantity of the preset user IP addresses.
The working principle and the effect of the technical scheme are as follows: according to the method, the whole cloud service system is divided into the plurality of area blocks through the division of the cloud service sub-areas, and the IP address quantity distribution is carried out according to the actual cloud service user condition and the enterprise scale in each area block, so that the rationality of the IP address quantity distribution in one cloud service sub-area can be effectively improved, and the IP address quantity distribution adjustment times can be reduced to the maximum extent.
Meanwhile, the rationality of basic IP address quantity distribution of each cloud service sub-area can be effectively improved by utilizing the actual user condition according to the IP quantity of each cloud service sub-area obtained by the formula, and meanwhile, under the condition that the use of enterprise users in the cloud service area can be met, enough IP address quantity allowance is reserved, and the frequency and the number of times of subsequently adjusting the IP address quantity of each cloud service sub-area can be reduced to the maximum extent. On the other hand, the idle quantity of the current IP address quantity can be reduced to the maximum extent, and a large amount of network resource waste is prevented.
In an embodiment of the present invention, the number of users in each cloud service sub-area and the number of IP addresses occupied by each user are monitored in real time, a change condition of the number of users in each cloud service sub-area and a change condition of the number of IP addresses occupied by each user are obtained, and IP address number configuration is performed according to the change condition of the number of users and the change condition of the number of IP addresses occupied by each user, including:
s201, monitoring whether new users exist in each cloud service subregion in real time;
s202, when a newly added user exists, determining whether a user logout exists in a cloud service subregion of the newly added user, and if the user logout exists, performing basic configuration aiming at the number of IP addresses of a single user for the newly added user within a basic distribution number range according to the number of the IP addresses acquired by a first distribution model;
s203, if the user logout does not exist, carrying out basic configuration aiming at the IP address number of the single user for the newly added user within the range of the basic allocation number according to the IP address number acquired by the second allocation model.
Wherein the first and second allocation models are as follows:
Figure BDA0003790875910000101
W p2 =1+2 t
Figure BDA0003790875910000102
wherein, W p1 Representing the number of the IP addresses which are correspondingly acquired and allocated to the newly added user and correspond to the first allocation model; w p1 Representing the number of the correspondingly acquired IP addresses allocated to the newly added user corresponding to the second allocation model; c z Indicating the number of IP addresses occupied by the logged-off user; p represents the actual number of the enterprise payment social security corresponding to the newly added user; t represents an exponential coefficient; n represents an index basic parameter, and the value of n is 0 or 1.
The working principle of the technical scheme is as follows: firstly, monitoring whether new users exist in each cloud service subregion in real time; then, when a newly added user exists, determining whether a user logout exists in a cloud service subregion of the newly added user, and if the user logout exists, performing basic configuration aiming at the number of IP addresses of a single user for the newly added user within a basic distribution number range according to the number of IP addresses acquired by a first distribution model; and finally, if the user logout does not exist, performing basic configuration aiming at the number of the IP addresses of the single user for the newly added user within the range of the basic allocation number according to the number of the IP addresses acquired by the second allocation model.
The effect of the above technical scheme is as follows: according to the method and the formula, one-to-one IP address quantity distribution is carried out on each enterprise user in the IP address quantity range distributed by the cloud service sub-region according to the enterprise scale condition of the user, the rationality of the IP address distribution of each enterprise user can be effectively improved, the current and future IP address use requirements of enterprises can be met during basic distribution, the number of idle IP addresses can be reduced to the maximum extent, and the idle rate of the IP addresses and the network resource waste rate in the basic distribution range are reduced to the maximum extent.
In an embodiment of the present invention, the adjusting of IP address quantity allocation for each cloud service sub-area in an IPv6 network environment according to a change of the number of users in each cloud service sub-area and a change of the number of IP addresses occupied by each user includes:
s301, when the occupied quantity of the IP addresses of the cloud service sub-area is determined to exceed a preset occupied threshold, judging the change condition of the quantity of the users in the cloud service sub-area and the change condition of the quantity of the IP addresses occupied by each user;
s302, when the number of users in the cloud service sub-area is increased and the whole number of IP addresses occupied by the users is increased at the same time, configuring a first supplementary allowance IP address number for the cloud service sub-area, wherein the first supplementary allowance IP address number is used for providing a sufficient available IP address number for the expected number of the users who increase the number of the cloud service sub-area; the first supplementary margin IP address quantity is obtained through the following formula:
Figure BDA0003790875910000111
wherein R is b1 Indicating a supplemental number of IP addresses determined using the first supplemental margin IP address number; c x Representing the number of newly added users; w is a group of s Indicating the number of the IP addresses actually occupied in the user cloud service application process in a specified time period after the number of the IP addresses corresponding to the first user number and the second user number is completely distributed, wherein the specified time period is set as a modelThe circumference is 2-3 months; w x Representing that the occupation quantity of the IP end is newly increased after the appointed time period is finished until the occupation quantity of the number of the IP addresses exceeds a preset occupation threshold; t is 0 Representing the duration corresponding to the specified time period; t represents the total time length from the end time of the specified time period until the occupied quantity of the IP address quantity exceeds the preset occupied threshold value, R y Representing the number of occupied IP addresses corresponding to the occupation threshold, wherein the number of occupied IP addresses corresponding to the occupation threshold is not less than 78% of the basic allocation number of the number of allocated IP addresses corresponding to each cloud service sub-region; lambda 1 Denotes a first supplementary coefficient, λ 1 Is 0.54-0.65;
and S303, when the number of the users in the cloud service sub-area is not increased and the whole number of the IP addresses occupied by the users is increased at the same time, configuring a second supplementary allowance IP address number for the cloud service sub-area, wherein the second supplementary allowance IP address number is used for providing a sufficient available IP address number for the expected number of the users increasing the cloud service sub-area. Wherein the second supplementary margin IP address number is obtained by the following formula:
Figure BDA0003790875910000121
wherein R is b1 Indicating a supplementary number of IP addresses determined using the first supplementary margin IP address number; w is a group of s Indicating the number of IP addresses actually occupied by the user in the cloud service application process in a specified time period after the number of the IP addresses corresponding to the first user number and the second user number is completely allocated, wherein the specified time period is set to be 2-3 months; w x Representing that the occupation quantity of the IP end is newly increased after the appointed time period is finished until the occupation quantity of the number of the IP addresses exceeds a preset occupation threshold; t is a unit of 0 Representing the duration corresponding to the specified time period; t represents the total duration from the end of the specified time period until the number of IP addresses is occupied beyond a preset occupation threshold, R y Representing the number of occupied IP addresses corresponding to the occupation threshold;λ 2 denotes a second supplementary coefficient, λ 2 Is 0.32-0.41.
The working principle of the technical scheme is as follows: firstly, when the occupied quantity of the IP addresses of the cloud service sub-area is determined to exceed a preset occupied threshold, judging the change condition of the quantity of users in the cloud service sub-area and the change condition of the quantity of the IP addresses occupied by each user; then, when the number of users in the cloud service sub-area is increased and the whole number of the IP addresses occupied by the users is increased at the same time, configuring a first supplementary margin IP address number for the cloud service sub-area, wherein the first supplementary margin IP address number is used for providing a sufficient available IP address number for the expected number of the users who increase the number of the cloud service sub-area; and finally, determining that the number of the users in the cloud service sub-area is not increased and the whole number of the IP addresses occupied by the users is increased at the same time, configuring a second supplementary allowance IP address number for the cloud service sub-area, and providing a sufficient available IP address number for the expected number of the users increasing the cloud service sub-area.
The effect of the above technical scheme is as follows: by the formula and the method, the reasonability of the supplement amount in the re-supplement distribution process can be effectively improved through the condition supplement of the number of the IP addresses in each cloud service subregion, and meanwhile, the number of the IP addresses can be ensured to meet the actual application condition in the cloud service subregion under the condition of effectively reducing resource waste caused by more vacant IP addresses, so that the subsequent IP address number supplement frequency and times are reduced to the maximum extent.
An embodiment of the present invention provides a digital cloud service management system based on a next generation internet, and as shown in fig. 3, the digital cloud service management system includes:
the acquisition module is used for acquiring the number of the cloud service sub-regions contained in the cloud service platform and distributing the number of the IP addresses according to the number of the cloud service sub-regions;
the real-time monitoring module is used for monitoring the number of users in each cloud service subarea and the number of IP addresses occupied by each user in real time, acquiring the change condition of the number of users in each cloud service subarea and the change condition of the number of IP addresses occupied by each user, and configuring the number of the IP addresses according to the change condition of the number of users and the change condition of the number of the IP addresses occupied by each user;
and the distribution adjusting module is used for carrying out IP address quantity distribution adjustment on each cloud service subregion in the IPv6 network environment according to the change condition of the number of the users in each cloud service subregion and the change condition of the number of the IP addresses occupied by each user.
The working principle of the technical scheme is as follows: firstly, acquiring the number of cloud service subregions contained in a cloud service platform by using an acquisition module, and distributing the number of IP addresses according to the number of the cloud service subregions; then, monitoring the number of users in each cloud service subarea and the number of IP addresses occupied by each user in real time through a real-time monitoring module, acquiring the change condition of the number of users in each cloud service subarea and the change condition of the number of IP addresses occupied by each user, and configuring the number of IP addresses according to the change condition of the number of users and the change condition of the number of IP addresses occupied by each user; after renting, the distribution and adjustment module is adopted to carry out IP address quantity distribution and adjustment on each cloud service subregion in the IPv6 network environment according to the change condition of the number of users in each cloud service subregion and the change condition of the number of IP addresses occupied by each user.
The effect of the above technical scheme is: according to the digital cloud service management system based on the next generation internet, the whole cloud service system is divided into a plurality of area blocks through the division of the cloud service sub-areas, and the IP address number distribution is carried out according to the actual cloud service user condition and the enterprise scale in each area block, so that the rationality of the IP address number distribution in one cloud service sub-area can be effectively improved, and the IP address number distribution adjustment times can be reduced to the maximum extent. Meanwhile, according to the enterprise scale condition of the user, one-to-one IP address quantity distribution is carried out on each enterprise user in the IP address quantity range distributed by the cloud service sub-region, the rationality of the IP address distribution of each enterprise user can be effectively improved, the current and future IP address use requirements of enterprises can be met during basic distribution, the number of idle IP addresses can be reduced to the maximum extent, and the idle rate of the IP addresses and the network resource waste rate in the basic distribution range are reduced to the maximum extent.
In an embodiment of the present invention, the obtaining module includes:
the first quantity module is used for acquiring the number of cloud service sub-areas contained in a cloud service platform and acquiring the number of registered users in each cloud service sub-area as the first user quantity;
the second quantity module is used for calling the number of the users who finish signing but do not finish registering from the database as the second user quantity;
the scale acquisition module is used for acquiring enterprise scales of registered users and users who have finished signing but have not finished registering through an internet information query mode;
the basic data acquisition module is used for determining the basic distribution quantity of the IP address quantity distribution of each cloud service sub-region according to the enterprise scale of the registered users and the users who finish signing but do not finish registering and the quantity relation between the first user quantity and the second user quantity;
and the automatic allocation module is used for allocating the quantity of the IP addresses to each cloud service sub-region according to the basic allocation quantity and allocating the quantity of the IP addresses to the belonged user according to the quantity of the allocated quantity of the IP addresses of the preset user, wherein the value range of the quantity of the allocated quantity of the IP addresses of the preset user is 4-32.
Wherein, the basic data acquisition module comprises:
the first extraction module is used for extracting the corresponding data information of the enterprise scale of the registered user and the user who has finished signing but has not finished registering;
the second extraction module is used for extracting the first user number and the second user number;
and the basic data calculation module is used for acquiring the basic distribution quantity distributed by the IP address quantity of each cloud service sub-area through a basic distribution quantity model by utilizing the enterprise scales of the registered users and the users who finish signing but do not finish registering and the quantity relationship between the first user quantity and the second user quantity. Wherein the basic allocation quantity model is:
Figure BDA0003790875910000141
Figure BDA0003790875910000142
wherein R represents the basic distribution quantity of the IP address quantity distribution corresponding to each cloud service sub-region; a represents a basic parameter index; and R and a are rounded up; c 1 And C 2 Respectively representing the first user number and the second user number; w c The enterprise scale is the number corresponding to the enterprises of the middle level or above in the total number of the first user number and the second user number; and, enterprise size includes primary, intermediate and advanced; the enterprise scale of the actual number of the social security paid by the enterprise is less than 70 is elementary; the actual number of the enterprise payment social insurance is in the middle level of the enterprise scale of 70-160 persons; the enterprise scale of the actual number of the enterprises paying the social insurance exceeds 160 is high grade; y is max And Y min And respectively representing the upper limit value and the lower limit value corresponding to the value range of the number distribution quantity of the preset user IP addresses.
The working principle of the technical scheme is as follows: firstly, acquiring the number of cloud service sub-areas contained in a cloud service platform through a first number module, and acquiring the number of registered users in each cloud service sub-area as a first user number; then, a second quantity module is used for calling the number of the users who finish signing but do not finish registering from the database as the number of the second users; then, acquiring enterprise scales of the registered users and the users who have finished signing but have not finished registering by adopting a scale acquisition module in an internet information query mode; then, determining the basic distribution quantity of the IP address quantity distribution of each cloud service subregion through a basic data acquisition module according to the enterprise scale of the registered users and the users who finish signing but do not finish registering and the quantity relation between the first user quantity and the second user quantity; and finally, allocating the quantity of the IP addresses to each cloud service sub-area by using an automatic allocation module according to the basic allocation quantity, and allocating the quantity of the IP addresses to the belonged user according to the quantity of the IP addresses allocated to the preset user, wherein the value range of the quantity of the allocated IP addresses of the preset user is 4-32.
The operation process of the basic data acquisition module comprises the following steps:
firstly, extracting corresponding data information of enterprise scales of the registered users and the users who finish signing but do not finish registering through a first extraction module; then, extracting the first user quantity and the second user quantity by using a second extraction module; and finally, acquiring the basic distribution quantity distributed by the IP address quantity of each cloud service sub-region through a basic distribution quantity model by using the enterprise scales of the registered users and the users who finish signing but do not finish registering and the quantity relation between the first user quantity and the second user quantity through a basic data calculation module.
The effect of the above technical scheme is as follows: according to the method, the whole cloud service system is divided into the plurality of area blocks through the division of the cloud service sub-areas, and the IP address quantity distribution is carried out according to the actual cloud service user condition and the enterprise scale in each area block, so that the rationality of the IP address quantity distribution in one cloud service sub-area can be effectively improved, and the IP address quantity distribution adjustment times can be reduced to the maximum extent.
Meanwhile, the rationality of the number distribution of the basic IP addresses of one cloud service sub-region can be effectively improved by utilizing the actual user condition according to the IP number of each cloud service sub-region obtained by the formula, and meanwhile, under the condition that the use of enterprise users in the cloud service region can be met, the sufficient IP address number allowance is reserved, and the number and frequency of the subsequent IP address number adjustment of each cloud service sub-region can be reduced to the maximum extent. On the other hand, the idle quantity of the current IP address quantity can be reduced to the maximum extent, and a large amount of network resource waste is prevented.
In an embodiment of the present invention, the real-time monitoring module includes:
the user number monitoring module is used for monitoring whether new users exist in each cloud service sub-area in real time;
the configuration judgment module I is used for determining whether user logout exists in a cloud service sub-area where the newly added user exists or not when the newly added user exists, and if the user logout exists, performing basic configuration aiming at the number of IP addresses of a single user for the newly added user within a basic distribution number range according to the number of the IP addresses acquired by the first distribution model;
and the configuration judging module II is used for performing basic configuration aiming at the IP address number of a single user for the newly added user within the range of the basic allocation number according to the IP address number acquired by the second allocation model if the user logout does not exist.
Wherein the first and second allocation models are as follows:
Figure BDA0003790875910000151
W p2 =1+2 t
Figure BDA0003790875910000152
wherein, W p1 The number of the IP addresses which are correspondingly obtained and allocated to the newly-added user and correspond to the first allocation model is represented; w p1 Representing the number of the correspondingly acquired IP addresses distributed to the newly added user corresponding to the second distribution model; c z Indicating the number of IP addresses occupied by the logged-off user; p represents the actual number of the enterprise payment social security corresponding to the newly added user; t represents an exponential coefficient; n represents an index basic parameter, and the value of n is 0 or 1.
The working principle of the technical scheme is as follows: firstly, monitoring whether new users exist in each cloud service subregion in real time through a user number monitoring module; then, when a newly added user exists, determining whether user logout exists in a cloud service sub-area of the newly added user by using a first configuration judgment module, and if the user logout exists, performing basic configuration aiming at the number of IP addresses of a single user for the newly added user within a basic distribution number range according to the number of the IP addresses acquired by a first distribution model; and finally, if the user logout does not exist, performing basic configuration aiming at the number of the IP addresses of the single user for the newly added user within the range of the basic allocation number according to the number of the IP addresses acquired by the second allocation model by adopting a second configuration judgment module.
The effect of the above technical scheme is as follows: according to the mode and the formula, one-to-one IP address quantity distribution is carried out on each enterprise user in the IP address quantity range distributed in the cloud service sub-region according to the enterprise scale condition of the user, the rationality of the IP address distribution of each enterprise user can be effectively improved, the current and future IP address use requirements of an enterprise can be met during basic distribution, the number of idle IP addresses can be reduced to the maximum extent, and the idle rate of the IP addresses and the network resource waste rate in the basic distribution range are reduced to the maximum extent.
In one embodiment of the present invention, the allocation adjustment module includes:
the condition judging module is used for judging the change condition of the number of the users in the cloud service sub-area and the change condition of the number of the IP addresses occupied by each user when the occupation amount of the number of the IP addresses of the cloud service sub-area exceeds a preset occupation threshold value;
the first supplement module is used for configuring the number of first supplement margin IP addresses for the cloud service sub-area when the number of users of the cloud service sub-area is increased and the whole number of the IP addresses occupied by the users is increased at the same time, and is used for providing the number of enough available IP addresses for the expected number of the users for increasing the number of the cloud service sub-area; the first supplementary margin IP address quantity is obtained through the following formula:
Figure BDA0003790875910000161
wherein R is b1 Indicating a supplementary number of IP addresses determined using the first supplementary margin IP address number; c x Representing the number of newly added users; w s Indicating the number of the IP addresses actually occupied in the user cloud service application process in a specified time period after the number of the IP addresses corresponding to the first user number and the second user number is completely allocated, wherein the specified time period is set to be 2-3 months; w x After the appointed time period is represented, the occupied quantity of the IP end is newly increased until the occupied quantity of the IP address quantity exceeds a preset occupied threshold value; t is a unit of 0 Representing the corresponding duration of the specified time period; t represents the total duration from the end of the specified time period until the number of IP addresses is occupied beyond a preset occupation threshold, R y Representing the number of occupied IP addresses corresponding to the occupation threshold, wherein the number of occupied IP addresses corresponding to the occupation threshold is not less than 78% of the basic allocation number of the number of allocated IP addresses corresponding to each cloud service sub-region; lambda [ alpha ] 1 Denotes a first supplementary coefficient, λ 1 Is 0.54-0.65;
and the second supplementing module is used for configuring a second supplementing margin IP address quantity for the cloud service sub-area when the fact that the number of the users in the cloud service sub-area is not increased and the whole number of the IP addresses occupied by the users is increased at the same time is determined, and is used for providing a sufficient available IP address quantity for the expected number of the users increasing the number of the cloud service sub-area. The second supplementary margin IP address number is obtained by the following formula:
Figure BDA0003790875910000171
wherein R is b1 Indicating a supplemental number of IP addresses determined using the first supplemental margin IP address number; w is a group of s Indicating the number of the IP addresses actually occupied in the user cloud service application process in a specified time period after the number of the IP addresses corresponding to the first user number and the second user number is completely distributed, and setting a range in the specified time periodFor 2-3 months; w x After the appointed time period is represented, the occupied quantity of the IP end is newly increased until the occupied quantity of the IP address quantity exceeds a preset occupied threshold value; t is 0 Representing the corresponding duration of the specified time period; t represents the total time length from the end time of the specified time period until the occupied quantity of the IP address quantity exceeds the preset occupied threshold value, R y Representing the number of occupied IP addresses corresponding to the occupation threshold; lambda 2 Denotes a second supplementary coefficient, λ 2 Is 0.32-0.41.
The working principle of the technical scheme is as follows: firstly, when the occupied quantity of the IP addresses of the cloud service sub-area is determined to exceed a preset occupied threshold value, a condition judgment module judges the change condition of the quantity of the users in the cloud service sub-area and the change condition of the quantity of the IP addresses occupied by each user; then, when the number of users in the cloud service sub-area is increased and the overall number of the IP addresses occupied by the users is increased at the same time, configuring the number of first supplementary allowance IP addresses for the cloud service sub-area to provide sufficient available IP address number for the expected number of the users increasing the number of the cloud service sub-area; and finally, configuring a second supplementary allowance IP address quantity for the cloud service sub-area under the condition that the number of the users in the cloud service sub-area is not increased and the whole number of the IP addresses occupied by the users is increased at the same time through a second supplementary module, wherein the second supplementary allowance IP address quantity is used for providing a sufficient available IP address quantity for the expected number of the users increasing the cloud service sub-area.
The effect of the above technical scheme is as follows: by the formula and the method, the reasonability of the supplement amount in the process of supplementing and distributing again can be effectively improved through the condition-based supplement of the IP address number in each cloud service subregion, and meanwhile, the IP address number can be ensured to meet the actual application condition in the cloud service subregion under the condition of effectively reducing resource waste caused by more vacant IP addresses, so that the follow-up IP address number supplement frequency and times are reduced to the maximum extent.
It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (10)

1. A digital cloud service management method based on next generation Internet is characterized by comprising the following steps:
acquiring the number of cloud service sub-areas contained in a cloud service platform, and distributing the number of IP addresses according to the number of the cloud service sub-areas;
monitoring the number of users in each cloud service subregion and the number of IP addresses occupied by each user in real time, acquiring the change condition of the number of users in each cloud service subregion and the change condition of the number of IP addresses occupied by each user, and configuring the number of IP addresses according to the change condition of the number of users and the change condition of the number of IP addresses occupied by each user;
and carrying out IP address quantity distribution adjustment on each cloud service subarea under the IPv6 network environment according to the change condition of the number of users in each cloud service subarea and the change condition of the number of IP addresses occupied by each user.
2. The digital cloud service management method of claim 1, wherein the step of obtaining the number of the cloud service sub-areas included in the cloud service platform and performing IP address number allocation according to the number of the cloud service sub-areas comprises:
acquiring the number of cloud service sub-areas contained in a cloud service platform, and acquiring the number of registered users in each cloud service sub-area as a first user number;
calling the number of users who have finished signing but have not finished registering from a database as the number of second users;
acquiring enterprise scales of registered users and users who complete signing but do not complete registration in an internet information query mode;
determining the basic distribution quantity of the IP address quantity distribution of each cloud service sub-area according to the enterprise scale of the registered users and the users who finish signing but do not finish registering and the quantity relation between the first user quantity and the second user quantity;
and allocating the quantity of the IP addresses to each cloud service subarea according to the basic allocation quantity, and allocating the quantity of the IP addresses to the belonged user according to the quantity of the allocated quantity of the IP addresses of the preset user, wherein the value range of the quantity of the allocated quantity of the IP addresses of the preset user is 4-32.
3. The digital cloud service management method of claim 2, wherein determining the basic allocation number of the IP address number allocation of each cloud service sub-area according to the enterprise sizes of the registered users and the users who have completed signing but have not completed registration and the number relationship between the first user number and the second user number comprises:
extracting corresponding data information of the enterprise scales of the registered users and the users who finish signing but do not finish registering;
extracting the first user number and the second user number;
and acquiring the basic distribution quantity distributed by the IP address quantity of each cloud service sub-area through a basic distribution quantity model by utilizing the enterprise scale of the registered users and the users who finish signing but do not finish registering and the quantity relation between the first user quantity and the second user quantity.
4. The method for digital cloud service management according to claim 1, wherein the number of users in each cloud service sub-area and the number of IP addresses occupied by each user are monitored in real time, the change situation of the number of users in each cloud service sub-area and the change situation of the number of IP addresses occupied by each user are obtained, and the number of IP addresses is configured according to the change situation of the number of users and the change situation of the number of IP addresses occupied by each user, comprising:
monitoring whether new users exist in each cloud service sub-area in real time;
when a newly added user exists, determining whether user logout exists in a cloud service subregion of the newly added user, and if the user logout exists, performing basic configuration aiming at the IP address number of a single user for the newly added user within a basic distribution number range according to the IP address number acquired by a first distribution model;
and if the user logout does not exist, performing basic configuration aiming at the IP address number of the single user for the newly added user within the range of the basic allocation number according to the IP address number acquired by the second allocation model.
5. The method for digital cloud service management according to claim 1, wherein the step of performing IP address quantity allocation adjustment on each cloud service sub-area in an IPv6 network environment according to a change in the number of users in each cloud service sub-area and a change in the number of IP addresses occupied by each user includes:
when the occupied quantity of the IP addresses of the cloud service sub-area exceeds a preset occupied threshold value, judging the change condition of the quantity of the users in the cloud service sub-area and the change condition of the quantity of the IP addresses occupied by each user;
when the number of users in the cloud service sub-area is increased and the whole number of the IP addresses occupied by the users is increased at the same time, configuring a first supplementary allowance IP address number for the cloud service sub-area, wherein the first supplementary allowance IP address number is used for providing a sufficient available IP address number for the expected number of the users increasing the number of the cloud service sub-area;
and when it is determined that the number of users in the cloud service sub-area is not increased and the whole number of the IP addresses occupied by the users is increased at the same time, configuring a second supplementary margin IP address number for the cloud service sub-area, wherein the second supplementary margin IP address number is used for providing a sufficient available IP address number for the expected number of the users who increase the cloud service sub-area.
6. A digital cloud service management system based on next generation Internet, which is characterized by comprising:
the acquisition module is used for acquiring the number of the cloud service sub-regions contained in the cloud service platform and distributing the number of the IP addresses according to the number of the cloud service sub-regions;
the real-time monitoring module is used for monitoring the number of users in each cloud service subarea and the number of IP addresses occupied by each user in real time, acquiring the change condition of the number of users in each cloud service subarea and the change condition of the number of IP addresses occupied by each user, and configuring the number of the IP addresses according to the change condition of the number of users and the change condition of the number of the IP addresses occupied by each user;
and the distribution adjusting module is used for carrying out IP address quantity distribution adjustment on each cloud service subarea under the IPv6 network environment according to the change condition of the number of users in each cloud service subarea and the change condition of the number of IP addresses occupied by each user.
7. The digital cloud service management system of claim 6, wherein the obtaining module comprises:
the system comprises a first quantity module, a second quantity module and a third quantity module, wherein the first quantity module is used for acquiring the number of cloud service sub-areas contained in a cloud service platform and acquiring the number of registered users in each cloud service sub-area as the first user quantity;
the second quantity module is used for calling the number of the users who finish signing but do not finish registering from the database as the second user quantity;
the scale acquisition module is used for acquiring enterprise scales of registered users and users who complete signing but do not complete registration in an internet information query mode;
the basic data acquisition module is used for determining the basic distribution quantity of the IP address quantity distribution of each cloud service sub-region according to the enterprise scale of the registered users and the users who finish signing but do not finish registering and the quantity relation between the first user quantity and the second user quantity;
and the automatic allocation module is used for allocating the quantity of the IP addresses to each cloud service sub-region according to the basic allocation quantity and allocating the quantity of the IP addresses to the belonged user according to the quantity of the allocated quantity of the IP addresses of the preset user, wherein the value range of the quantity of the allocated quantity of the IP addresses of the preset user is 4-32.
8. The digital cloud service management system of claim 7, wherein the basic data acquisition module comprises:
the first extraction module is used for extracting the corresponding data information of the enterprise scales of the registered users and the users who finish signing but do not finish registering;
the second extraction module is used for extracting the first user number and the second user number;
and the basic data calculation module is used for acquiring the basic distribution quantity distributed by the quantity of the IP addresses of each cloud service sub-region through a basic distribution quantity model by utilizing the enterprise scales of the registered users and the users who finish signing but do not finish registering and the quantity relation between the quantity of the first users and the quantity of the second users.
9. The digital cloud service management system of claim 6, wherein the real-time monitoring module comprises:
the user number monitoring module is used for monitoring whether new users exist in each cloud service sub-area in real time;
the configuration judgment module I is used for determining whether user logout exists in a cloud service sub-area where the newly added user exists or not when the newly added user exists, and if the user logout exists, performing basic configuration aiming at the number of IP addresses of a single user for the newly added user within a basic distribution number range according to the number of the IP addresses acquired by the first distribution model;
and the configuration judging module II is used for performing basic configuration aiming at the IP address number of a single user for the newly added user within the range of the basic allocation number according to the IP address number acquired by the second allocation model if the user logout does not exist.
10. The digital cloud service management system of claim 6, wherein said allocation adjustment module comprises:
the condition judgment module is used for judging the change condition of the number of the users in the cloud service sub-area and the change condition of the number of the IP addresses occupied by each user when the fact that the number of the occupied IP addresses of the cloud service sub-area exceeds a preset occupation threshold value is determined;
the first supplement module is used for configuring the number of first supplement margin IP addresses for the cloud service sub-area when the number of users of the cloud service sub-area is increased and the whole number of the IP addresses occupied by the users is increased at the same time, and is used for providing the number of enough available IP addresses for the expected number of the users for increasing the number of the cloud service sub-area;
and the second supplementing module is used for configuring a second supplementing margin IP address quantity for the cloud service sub-area when the fact that the number of the users in the cloud service sub-area is not increased and the whole number of the IP addresses occupied by the users is increased at the same time is determined, and is used for providing a sufficient available IP address quantity for the expected number of the users increasing the number of the cloud service sub-area.
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