CN115550315B - 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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Publication number
CN115550315B
CN115550315B CN202210954939.6A CN202210954939A CN115550315B CN 115550315 B CN115550315 B CN 115550315B CN 202210954939 A CN202210954939 A CN 202210954939A CN 115550315 B CN115550315 B CN 115550315B
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user
cloud service
users
addresses
address
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CN115550315A (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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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

Abstract

The invention provides a digital cloud service management method and system based on the next generation Internet. The digital cloud service management method comprises the following steps: acquiring the number of cloud service subareas contained in a cloud service platform, and distributing the number of IP addresses according to the number of the cloud service subareas; the user quantity in each cloud service subarea and the IP address quantity occupied by each user are monitored in real time, the user quantity change condition in each cloud service subarea and the IP address quantity change condition occupied by each user are obtained, and IP address quantity configuration is carried out according to the user quantity change condition and the IP address quantity change condition occupied by each user; and 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, carrying out IP address number distribution adjustment on each cloud service subarea in an IPv6 network environment. 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 digital cloud service management method and system based on the next generation of Internet, and belongs to the technical field of Internet.
Background
The next generation internet is a novel public network based on the IP technology, can accommodate various forms of information, 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 truly realizing broadband and narrowband integration, wired and wireless integration, active and passive integration and transmission and access integration. IPv6 is used as the next generation version of IPv4, the address is updated from the original 32 bits to 128 bits, the total number of addresses is 128 times of 2, the space is huge, when each IP address corresponds to one IP address port, the space utilization of the next generation internet IPv6 in the cloud service application process is greatly exerted, however, due to the huge space of the next generation internet, how to distribute the number of IP addresses in the cloud service process becomes the problem which needs to be solved urgently at present.
Disclosure of Invention
The invention provides a digital cloud service management method and system based on the next generation Internet, which are used for solving the problem of lower rationality of IP address quantity distribution in the application process of the digital cloud service of the next generation Internet in the prior art, and the adopted technical scheme is as follows:
A digital cloud service management method based on the next generation internet, the digital cloud service management method comprising:
acquiring the number of cloud service subareas contained in a cloud service platform, and distributing the number of IP addresses according to the number of the cloud service subareas;
the user quantity in each cloud service subarea and the IP address quantity occupied by each user are monitored in real time, the user quantity change condition in each cloud service subarea and the IP address quantity change condition occupied by each user are obtained, and IP address quantity configuration is carried out according to the user quantity change condition and the IP address quantity change condition occupied by each user;
and 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, carrying out IP address number distribution adjustment on each cloud service subarea in an IPv6 network environment.
Further, acquiring the number of cloud service sub-areas contained in the cloud service platform, and performing distribution of the number of IP addresses according to the number of the cloud service sub-areas, including:
acquiring the number of cloud service subareas contained in a cloud service platform, and acquiring the number of users which finish registration in each cloud service subarea as a first user number;
The number of users who have completed signing but have not completed registration is called as a second user number in the database;
acquiring enterprise scales of registered users and users who have completed signing but not completed registering in an internet information query mode;
determining the basic allocation quantity of IP address quantity allocation of each cloud service subarea according to the enterprise scale of registered users and users who have completed signing but have not completed signing and the quantity relation between the first user quantity and the second user quantity;
and carrying out IP address quantity distribution on each cloud service subarea according to the basic distribution quantity, and distributing IP address quantity for the affiliated user according to the preset user IP address quantity distribution quantity, wherein the value range of the preset user IP address quantity distribution quantity is 4-32.
Further, determining a basic allocation number of each cloud service sub-area IP address number allocation according to the enterprise scale of the registered users and the users who have completed subscription but have not completed subscription and the number relation between the first user number and the second user number, including:
extracting enterprise-scale corresponding data information of the registered user and the user who has completed signing but does not complete registration;
Extracting the first user quantity and the second user quantity;
and acquiring the basic distribution quantity of IP address quantity distribution of each cloud service subarea through a basic distribution quantity model by utilizing the enterprise scale of the registered user and the user which has completed signing but has not completed registering and the quantity relation between the first user quantity and the second user quantity. Wherein, the basic distribution quantity model is:
wherein, R represents the basic allocation quantity of IP address quantity allocation corresponding to each cloud service subarea; a represents a basic parameter index; and R and a are both rounded upwards; c (C) 1 And C 2 Respectively representing the first user quantity and the second user quantity; w (W) c The enterprise scale is the corresponding number of the enterprises above the middle level in the total number of the first user number and the second user number; and, enterprise scale includes primary, intermediate, and advanced; the enterprise scale of the enterprise payment social security actual number is smaller than 70 is primary; the actual number of the enterprise payment social security is in the middle level of the enterprise scale of 70-160 people; the enterprise scale of the enterprise payment social security actual number exceeding 160 people is high-grade; y is Y max And Y min Respectively representing an upper limit value and a lower limit value corresponding to a value range of the number 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, obtaining 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 performing IP address number configuration 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:
monitoring whether new users exist in each cloud service subarea in real time;
when a new user exists, determining whether user logout exists in a cloud service subarea where the new user exists, if so, performing basic configuration on the number of IP addresses of a single user for the new user within a basic allocation number range according to the number of the IP addresses acquired by a first allocation model;
and if the user logout does not exist, carrying out basic configuration on 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.
Wherein the first and second distribution models are as follows:
W p2 =1+2 t
wherein W is p1 Representing the number of the IP addresses allocated to the newly added user, which are correspondingly acquired and correspond to the first allocation model; w (W) p1 Representing the number of the IP addresses allocated to the newly added user, which are correspondingly acquired and correspond to the second allocation model; c (C) z Representing the number of IP addresses occupied by the logged-off user; p represents the actual number of enterprises paying social security corresponding to the newly added users; t represents an index coefficient; n represents an index basic parameter, and the value of n is 0 or 1.
Further, 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, performing IP address number allocation adjustment on each cloud service subarea in an IPv6 network environment, including:
when the fact that the number of occupied IP addresses of the cloud service subareas exceeds a preset occupation threshold is determined, judging the number change condition of users in the cloud service subareas and the number change condition of the occupied IP addresses of each user;
when the number of users in the cloud service sub-area is increased, and the overall 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, and providing a sufficient number of available IP addresses for the increased expected number of the users in the cloud service sub-area; the first supplementary margin number of IP addresses is obtained by the following formula:
Wherein R is b1 Representing a number of IP address supplements determined using the first number of supplementary remaining IP addresses; c (C) x Representing the number of newly added users; w (W) s The method comprises the steps that the number of IP addresses actually occupied in the application process of user cloud service is represented in a specified time period after the number of IP addresses corresponding to the first number of users and the second number of users is distributed, and the setting range of the specified time period is 2-3 months; w (W) x Indicating that the occupied quantity of the IP addresses exceeds a preset occupied threshold after the ending time of the appointed time period, and newly increasing the occupied quantity of the IP ends; t (T) 0 Representing the duration corresponding to the specified time period; t represents the total time period from the end time of the designated time period to the time when the number of the IP addresses exceeds the preset occupation threshold value, R y Representing the occupied number of the IP address number corresponding to the occupied threshold, wherein the occupied number of the IP address number corresponding to the occupied threshold is not lower than 78% of the basic allocation number of the IP address number allocation corresponding to each cloud service sub-area; lambda (lambda) 1 Represents a first supplementary factor lambda 1 The value of (2) is 0.54-0.65;
and when the number of users of the cloud service sub-area is not increased, and the overall 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 number of available IP addresses for the increased expected number of the users of the cloud service sub-area. The second supplementary margin number of IP addresses is obtained by the following formula:
Wherein R is b1 Representing a number of IP address supplements determined using the first number of supplementary remaining IP addresses; w (W) s The method comprises the steps that the number of IP addresses actually occupied in the application process of user cloud service is represented in a specified time period after the number of IP addresses corresponding to the first number of users and the second number of users is distributed, and the setting range of the specified time period is 2-3 months; w (W) x Indicating that the occupied quantity of the IP addresses exceeds a preset occupied threshold after the ending time of the appointed time period, and newly increasing the occupied quantity of the IP ends; t (T) 0 Representing the duration corresponding to the specified time period; t represents the total time period from the end time of the designated time period to the time when the number of the IP addresses exceeds the preset occupation threshold value, R y Representing the number of occupied IP addresses corresponding to the occupied threshold; lambda (lambda) 2 Represents a second supplementary factor, lambda 2 The value of (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 cloud service subareas contained in the cloud service platform and distributing the number of IP addresses according to the number of the cloud service subareas;
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 number change condition of the users in each cloud service subarea and the number change condition of the IP addresses occupied by each user, and carrying out IP address number configuration according to the number change condition of the users and the number change condition of the IP addresses occupied by each user;
And the allocation adjustment module is used for carrying out IP address quantity allocation adjustment on each cloud service subarea in an IPv6 network environment according to the quantity change condition of the users in each cloud service subarea and the quantity change condition of the IP addresses occupied by each user.
Further, the acquisition module includes:
the first number module is used for acquiring the number of cloud service subareas contained in the cloud service platform, and acquiring the number of users which finish registration in each cloud service subarea as a first user number;
the second number module is used for calling the number of users who have completed signing but have not completed registration from the database to serve as second user number;
the scale acquisition module is used for acquiring enterprise scales of registered users and users who have completed signing but not completed registering in an internet information query mode;
the basic data acquisition module is used for determining basic distribution quantity of IP address quantity distribution of each cloud service subarea according to the enterprise scale of registered users and users who have completed signing but have not completed signing and the quantity relation between the first user quantity and the second user quantity;
the automatic allocation module is used for carrying out IP address quantity allocation on each cloud service subarea according to the basic allocation quantity, and allocating IP address quantity to the affiliated user according to the preset user IP address quantity allocation quantity, wherein the value range of the preset user IP address quantity allocation quantity is 4-32.
Further, the basic data acquisition module includes:
the first extraction module is used for extracting corresponding data information of enterprise scales of the registered user and the user who has completed signing but does not complete registration;
the second extraction module is used for extracting the first user quantity and the second user quantity;
and the basic data calculation module is used for acquiring the basic distribution quantity of IP address quantity distribution of each cloud service subarea through a basic distribution quantity model by utilizing the enterprise scale of the registered user and the user which has completed signing but has not completed registering and the quantity relation between the first user quantity and the second user quantity. Wherein, the basic distribution quantity model is:
wherein, R represents the basic allocation quantity of IP address quantity allocation corresponding to each cloud service subarea; a represents a basic parameter index; and R and a are both rounded upwards; c (C) 1 And C 2 Respectively representing the first user quantity and the second user quantity; w (W) c The enterprise scale is the corresponding number of the enterprises above the middle level in the total number of the first user number and the second user number; and, enterprise scale includes primary, intermediate, and advanced; the enterprise scale of the enterprise payment social security actual number is smaller than 70 is primary; the actual number of the enterprise payment social security is in the middle level of the enterprise scale of 70-160 people; the enterprise scale of the enterprise payment social security actual number exceeding 160 people is high-grade; y is Y max And Y min Respectively representing an upper limit value and a lower limit value corresponding to a value range of the number of the preset user IP addresses.
Further, the real-time monitoring module includes:
the user quantity monitoring module is used for monitoring whether newly added users exist in each cloud service subarea in real time;
the configuration judging module I is used for determining whether a user logout exists in a cloud service subarea where a new user exists when the new user exists, and if the user logout exists, performing basic configuration on the number of the IP addresses of the single user for the new user according to the number of the IP addresses acquired by the first allocation model within a basic allocation number range;
and the configuration judging module II is used for carrying out basic configuration on 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 if the user logout does not exist.
Wherein the first and second distribution models are as follows:
W p2 =1+2 t
wherein W is p1 Representing the number of the IP addresses allocated to the newly added user, which are correspondingly acquired and correspond to the first allocation model; w (W) p1 Representing the number of the IP addresses allocated to the newly added user, which are correspondingly acquired and correspond to the second allocation model; c (C) z Representing the number of IP addresses occupied by the logged-off user; p represents the actual number of enterprises paying social security corresponding to the newly added users; t represents an index coefficient; n represents an index basic parameter, and the value of n is 0 or 1.
Further, the allocation adjustment module includes:
the condition judging module is used for judging the quantity change condition of the users in the cloud service subarea and the quantity change condition of the IP addresses occupied by each user when the quantity occupied amount of the IP addresses of the cloud service subarea exceeds a preset occupied threshold value;
the first supplementing module is used for configuring a first supplementing allowance IP address quantity for the cloud service subarea when the number of users in the cloud service subarea is increased and the overall number of IP addresses occupied by the users is increased at the same time, and providing a sufficient available IP address quantity for the increased expected number of the users in the cloud service subarea; the first supplementary margin number of IP addresses is obtained by the following formula:
wherein R is b1 Representing a number of IP address supplements determined using the first number of supplementary remaining IP addresses; c (C) x Representing the number of newly added users; w (W) s The method comprises the steps that the number of IP addresses actually occupied in the application process of user cloud service is represented in a specified time period after the number of IP addresses corresponding to the first number of users and the second number of users is distributed, and the setting range of the specified time period is 2-3 months; w (W) x Indicating that the occupied quantity of the IP addresses exceeds a preset occupied threshold after the ending time of the appointed time period, and newly increasing the occupied quantity of the IP ends; t (T) 0 Representing the duration corresponding to the specified time period; t represents the total time period from the end time of the designated time period to the time when the number of the IP addresses exceeds the preset occupation threshold value, R y Representing the occupied number of the IP address number corresponding to the occupied threshold, wherein the occupied number of the IP address number corresponding to the occupied threshold is not lower than 78% of the basic allocation number of the IP address number allocation corresponding to each cloud service sub-area; lambda (lambda) 1 Represents a first supplementary factor lambda 1 The value of (2) 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 subarea when the quantity of users in the cloud service subarea is not increased and the whole quantity of the IP addresses occupied by the users is increased at the same time, and providing a sufficient quantity of available IP addresses for the increased expected quantity of the users in the cloud service subarea. The second supplementary margin number of IP addresses is obtained by the following formula:
wherein R is b1 Representing a number of IP address supplements determined using the first number of supplementary remaining IP addresses; w (W) s Indicating that the user cloud service is applied in a specified time period after the distribution of the number of IP addresses corresponding to the first number of users and the second number of users is completedThe number of the IP addresses actually occupied in the process is the number of the IP addresses actually occupied in the process, and the setting range of the designated time period is 2-3 months; w (W) x Indicating that the occupied quantity of the IP addresses exceeds a preset occupied threshold after the ending time of the appointed time period, and newly increasing the occupied quantity of the IP ends; t (T) 0 Representing the duration corresponding to the specified time period; t represents the total time period from the end time of the designated time period to the time when the number of the IP addresses exceeds the preset occupation threshold value, R y Representing the number of occupied IP addresses corresponding to the occupied threshold; lambda (lambda) 2 Represents a second supplementary factor, lambda 2 The value of (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 the plurality of regional blocks through the division of the cloud service subregions, and the IP address quantity distribution is carried out according to the actual cloud service user condition and enterprise scale in each regional block, so that the rationality of the IP address quantity distribution in one cloud service subregion can be effectively improved, and the number of times of IP address quantity distribution adjustment can be furthest reduced. Meanwhile, according to the enterprise scale conditions of users, one-to-one IP address quantity distribution is carried out on each enterprise user in the distributed IP address quantity range of the cloud service subarea, so that the rationality of 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 idle IP address quantity can be reduced to the maximum extent, and the IP address idle rate and network resource waste rate in the basic distribution range can be reduced to the maximum extent.
Drawings
FIG. 1 is a flow chart of a method according to the present invention;
FIG. 2 is a second flowchart 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 below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present invention only, and are not intended to limit the present invention.
The embodiment of the invention provides a digital cloud service management method based on the next generation internet, as shown in fig. 1, comprising the following steps:
s1, acquiring the number of cloud service subareas contained in a cloud service platform, and distributing the number of IP addresses according to the number of the cloud service subareas;
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 number change condition of the users in each cloud service subarea and the number change condition of the IP addresses occupied by each user, and carrying out IP address number configuration according to the number change condition of the users and the number change condition of the IP addresses occupied by each user;
s2, 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, carrying out IP address number distribution adjustment on each cloud service subarea in an IPv6 network environment.
The working principle of the technical scheme is as follows: firstly, acquiring the number of cloud service subareas contained in a cloud service platform, and distributing the number of IP addresses according to the number of the cloud service subareas; then, the number of users in each cloud service subarea and the number of IP addresses occupied by each user are monitored in real time, 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 are obtained, and IP address number configuration is carried out 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, 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, carrying out IP address number allocation adjustment on each cloud service subarea in an IPv6 network environment.
The technical scheme has the effects that: 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 regional blocks through division of the cloud service subareas, IP address quantity distribution is carried out according to actual cloud service user conditions and enterprise scales in each regional block, the rationality of IP address quantity distribution in one cloud service subarea can be effectively improved, and the number of times of IP address quantity distribution adjustment can be reduced to the greatest extent. Meanwhile, according to the enterprise scale conditions of users, one-to-one IP address quantity distribution is carried out on each enterprise user in the distributed IP address quantity range of the cloud service subarea, so that the rationality of 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 idle IP address quantity can be reduced to the maximum extent, and the IP address idle rate and network resource waste rate in the basic distribution range can be reduced to the maximum extent.
In one embodiment of the present invention, the method for acquiring the number of cloud service sub-areas included in a cloud service platform and performing the number distribution of the number of IP addresses according to the number of cloud service sub-areas includes:
s101, acquiring the number of cloud service subareas contained in a cloud service platform, and acquiring the number of registered users in each cloud service subarea as a first user number;
s102, calling the number of users who have completed signing but have not completed registration from a database as a second user number;
s103, acquiring enterprise scales of registered users and users who have completed signing but not completed registering in an internet information query mode;
s104, determining the basic distribution quantity of IP address quantity distribution of each cloud service subarea according to the enterprise scale of registered users and users who have completed signing but have not completed signing and the quantity relation between the first user quantity and the second user quantity;
s105, carrying out IP address quantity distribution on each cloud service subarea according to the basic distribution quantity, and distributing IP address quantity for the affiliated user according to the preset user IP address quantity distribution quantity, wherein the value range of the preset user IP address quantity distribution quantity is 4-32.
Wherein, 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 scale of the registered user and the user who has completed signing but not registering and the number relation between the first user number and the second user number includes:
s1041, extracting enterprise-scale corresponding data information of the registered user and the user who has completed signing but does not complete registration;
s1042, extracting the first user quantity and the second user quantity;
s1043, obtaining the basic distribution quantity of IP address quantity distribution of each cloud service subarea through a basic distribution quantity model by utilizing the enterprise scale of the registered user and the user which has completed signing but has not completed registering and the quantity relation between the first user quantity and the second user quantity. Wherein, the basic distribution quantity model is:
wherein, R represents the basic allocation quantity of IP address quantity allocation corresponding to each cloud service subarea; a represents a basic parameter index; and R and a are both rounded upwards; c (C) 1 And C 2 Respectively representing the first user quantity and the second user quantity; w (W) c The enterprise scale is the corresponding number of the enterprises above the middle level in the total number of the first user number and the second user number; and, enterprise scale includes primary, intermediate, and advanced; the enterprise scale of the enterprise payment social security actual number is smaller than 70 is primary; the actual number of the enterprise payment social security is in the middle level of the enterprise scale of 70-160 people; the enterprise scale of the enterprise payment social security actual number exceeding 160 people is high-grade; y is Y max And Y min Respectively representing an upper limit value and a lower limit value corresponding to a value range of the number 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 subareas, 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 subarea can be effectively improved, and the IP address quantity distribution adjustment times can be furthest reduced.
Meanwhile, the IP number of each cloud service subarea obtained through the formula can effectively improve the rationality of basic IP address number distribution aiming at one cloud service subarea by utilizing the actual user condition, and meanwhile, the number and the frequency of subsequent IP address number adjustment aiming at each cloud service subarea can be furthest reduced while enough IP address number allowance is reserved under the condition that enterprise users in the cloud service area can be met. On the other hand, the idle quantity of the number of the current IP addresses can be reduced to the maximum extent, and a great deal of network resource waste is prevented.
In one 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, the number of users in each cloud service sub-area and the number of IP addresses occupied by each user are obtained, and the number of IP addresses is configured according to the number of users and the number of IP addresses occupied by each user, including:
s201, monitoring whether new users exist in each cloud service subarea in real time;
s202, when a new user exists, determining whether user logout exists in a cloud service subarea where the new user exists, and if the user logout exists, performing basic configuration on the number of IP addresses of a single user for the new user according to the number of the IP addresses acquired by a first allocation model within a basic allocation number range;
s203, if the user logout does not exist, the number of the IP addresses acquired according to the second allocation model is in the range of the basic allocation number, and basic configuration of the number of the IP addresses aiming at the single user is carried out for the newly-added user.
Wherein the first and second distribution models are as follows:
W p2 =1+2 t
wherein W is p1 Representing the number of the IP addresses allocated to the newly added user, which are correspondingly acquired and correspond to the first allocation model; w (W) p1 Representing the number of the IP addresses allocated to the newly added user, which are correspondingly acquired and correspond to the second allocation model; c (C) z Representing the number of IP addresses occupied by the logged-off user; p represents the actual number of enterprises paying social security corresponding to the newly added users; t represents an index 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 a new user exists in each cloud service subarea in real time; then, when a new user exists, determining whether user logout exists in a cloud service subarea where the new user exists, and if the user logout exists, performing basic configuration on the number of the IP addresses of the single user for the new user according to the number of the IP addresses acquired by the first allocation model within a basic allocation number range; and finally, if the user logout does not exist, carrying out basic configuration on 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 technical scheme has the effects that: according to the mode and the formula, according to the enterprise scale conditions of users, in the range of the number of the IP addresses allocated to the cloud service subareas, one-to-one IP address number allocation is carried out on each enterprise user, so that the rationality of IP address allocation of each enterprise user can be effectively improved, the current and future IP address use requirements of enterprises can be met during basic allocation, the number of idle IP addresses can be reduced to the greatest extent, and the idle rate of the IP addresses and network resource waste rate in the basic allocation range can be reduced to the greatest extent.
According to one embodiment of the invention, the IP address number distribution adjustment is carried out on each cloud service subarea in an 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, and the method comprises the following steps:
s301, when the fact that the number of occupied IP addresses of the cloud service subareas exceeds a preset occupation threshold is determined, judging the number change condition of users in the cloud service subareas and the number change condition of the occupied IP addresses of each user;
s302, when the number of users in the cloud service sub-area is increased, and the overall 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, and providing a sufficient number of available IP addresses for the increased expected number of the users in the cloud service sub-area; the first supplementary margin number of IP addresses is obtained by the following formula:
wherein R is b1 Representing a number of IP address supplements determined using the first number of supplementary remaining IP addresses; c (C) x Representing the number of newly added users; w (W) s The method comprises the steps that the number of IP addresses actually occupied in the application process of user cloud service is represented in a specified time period after the number of IP addresses corresponding to the first number of users and the second number of users is distributed, and the setting range of the specified time period is 2-3 months; w (W) x Indicating that the occupied quantity of the IP addresses exceeds a preset occupied threshold after the ending time of the appointed time period, and newly increasing the occupied quantity of the IP ends; t (T) 0 Representing the duration corresponding to the specified time period; t represents the total time period from the end time of the designated time period to the time when the number of the IP addresses exceeds the preset occupation threshold value, R y Indicating I corresponding to the occupancy thresholdThe number of P addresses occupies the number, and the number of occupied IP addresses corresponding to the occupied threshold value is not lower than 78% of the basic allocation number of IP address number allocation corresponding to each cloud service subarea; lambda (lambda) 1 Represents a first supplementary factor lambda 1 The value of (2) is 0.54-0.65;
and S303, when the number of users in the cloud service sub-area is not increased and the overall number of 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 number of available IP addresses for the increased expected number of the users in the cloud service sub-area. The second supplementary margin number of IP addresses is obtained by the following formula:
wherein R is b1 Representing a number of IP address supplements determined using the first number of supplementary remaining IP addresses; w (W) s The method comprises the steps that the number of IP addresses actually occupied in the application process of user cloud service is represented in a specified time period after the number of IP addresses corresponding to the first number of users and the second number of users is distributed, and the setting range of the specified time period is 2-3 months; w (W) x Indicating that the occupied quantity of the IP addresses exceeds a preset occupied threshold after the ending time of the appointed time period, and newly increasing the occupied quantity of the IP ends; t (T) 0 Representing the duration corresponding to the specified time period; t represents the total time period from the end time of the designated time period to the time when the number of the IP addresses exceeds the preset occupation threshold value, R y Representing the number of occupied IP addresses corresponding to the occupied threshold; lambda (lambda) 2 Represents a second supplementary factor, lambda 2 The value of (2) is 0.32-0.41.
The working principle of the technical scheme is as follows: firstly, when the number of occupied IP addresses of the cloud service subareas exceeds a preset occupation threshold, judging the number change condition of users in the cloud service subareas and the number change condition of the occupied IP addresses of each user; then, when the number of users in the cloud service sub-area is increased and the overall 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, and providing a sufficient number of available IP addresses for the increased expected number of the users in the cloud service sub-area; and finally, determining that the number of users in the cloud service sub-area is not increased, and if the overall number of 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 number of available IP addresses for the increased expected number of the users in the cloud service sub-area.
The technical scheme has the effects that: the method and the formula can effectively improve the rationality of the supplementing quantity in the re-supplementing and distributing process through the sub-condition supplementation of the number of the IP addresses in each cloud service subarea, and further ensure that the number of the IP addresses can meet the actual application condition in the cloud service subarea under the condition of effectively reducing the resource waste caused by more spare IP addresses, thereby maximally reducing the frequency and the times of the subsequent supplementation of the number of the IP addresses.
The embodiment of the invention provides a digital cloud service management system based on the next generation internet, as shown in fig. 3, the digital cloud service management system comprises:
the acquisition module is used for acquiring the number of cloud service subareas contained in the cloud service platform and distributing the number of IP addresses according to the number of the cloud service subareas;
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 number change condition of the users in each cloud service subarea and the number change condition of the IP addresses occupied by each user, and carrying out IP address number configuration according to the number change condition of the users and the number change condition of the IP addresses occupied by each user;
And the allocation adjustment module is used for carrying out IP address quantity allocation adjustment on each cloud service subarea in an IPv6 network environment according to the quantity change condition of the users in each cloud service subarea and the quantity change condition 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 subareas contained in a cloud service platform by utilizing an acquisition module, and distributing the number of IP addresses according to the number of the cloud service subareas; then, the number of users in each cloud service subarea and the number of IP addresses occupied by each user are monitored in real time through a real-time monitoring module, the number of users in each cloud service subarea and the number of IP addresses occupied by each user are obtained, and IP address number configuration is carried out according to the number of users and the number of IP addresses occupied by each user; and after renting, adopting an allocation adjustment module to allocate and adjust the number of the IP addresses of the cloud service subareas in the IPv6 network environment according to the number change condition of the users in the cloud service subareas and the number change condition of the IP addresses occupied by each user.
The technical scheme has the effects that: 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 regional blocks through division of the cloud service subareas, IP address quantity distribution is carried out according to actual cloud service user conditions and enterprise scales in each regional block, the rationality of IP address quantity distribution in one cloud service subarea can be effectively improved, and the number of times of IP address quantity distribution adjustment can be reduced to the greatest extent. Meanwhile, according to the enterprise scale conditions of users, one-to-one IP address quantity distribution is carried out on each enterprise user in the distributed IP address quantity range of the cloud service subarea, so that the rationality of 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 idle IP address quantity can be reduced to the maximum extent, and the IP address idle rate and network resource waste rate in the basic distribution range can be reduced to the maximum extent.
In one embodiment of the present invention, the acquiring module includes:
the first number module is used for acquiring the number of cloud service subareas contained in the cloud service platform, and acquiring the number of users which finish registration in each cloud service subarea as a first user number;
The second number module is used for calling the number of users who have completed signing but have not completed registration from the database to serve as second user number;
the scale acquisition module is used for acquiring enterprise scales of registered users and users who have completed signing but not completed registering in an internet information query mode;
the basic data acquisition module is used for determining basic distribution quantity of IP address quantity distribution of each cloud service subarea according to the enterprise scale of registered users and users who have completed signing but have not completed signing and the quantity relation between the first user quantity and the second user quantity;
the automatic allocation module is used for carrying out IP address quantity allocation on each cloud service subarea according to the basic allocation quantity, and allocating IP address quantity to the affiliated user according to the preset user IP address quantity allocation quantity, wherein the value range of the preset user IP address quantity allocation quantity is 4-32.
Wherein, the basic data acquisition module includes:
the first extraction module is used for extracting corresponding data information of enterprise scales of the registered user and the user who has completed signing but does not complete registration;
the second extraction module is used for extracting the first user quantity and the second user quantity;
And the basic data calculation module is used for acquiring the basic distribution quantity of IP address quantity distribution of each cloud service subarea through a basic distribution quantity model by utilizing the enterprise scale of the registered user and the user which has completed signing but has not completed registering and the quantity relation between the first user quantity and the second user quantity. Wherein, the basic distribution quantity model is:
wherein, R represents the basic allocation quantity of IP address quantity allocation corresponding to each cloud service subarea; a represents a basic parameter index; and R and a are both rounded upwards; c (C) 1 And C 2 Respectively representing the first user quantity and the second user quantity; w (W) c The enterprise scale is the corresponding number of the enterprises above the middle level in the total number of the first user number and the second user number; and, enterprise scale includes primary, intermediate, and advanced; the enterprise scale of the enterprise payment social security actual number is smaller than 70 is primary; the actual number of the enterprise payment social security is in the middle level of the enterprise scale of 70-160 people; the enterprise scale of the enterprise payment social security actual number exceeding 160 people is high-grade; y is Y max And Y min Respectively representing an upper limit value and a lower limit value corresponding to a value range of the number of the preset user IP addresses.
The working principle of the technical scheme is as follows: firstly, acquiring the number of cloud service subareas contained in a cloud service platform through a first number module, and acquiring the number of users which finish registration in each cloud service subarea as a first user number; then, the number of users who have completed signing but have not completed registration is called as a second number of users from the database by utilizing a second number module; then, a scale acquisition module is adopted to acquire enterprise scales of registered users and users who have completed signing but have not completed registering in an internet information inquiry mode; then, determining the basic distribution quantity of IP address quantity distribution of each cloud service subarea according to the enterprise scale of the registered user and the user who has completed signing but does not complete registration and the quantity relation between the first user quantity and the second user quantity through a basic data acquisition module; and finally, carrying out IP address quantity distribution on each cloud service subarea by utilizing an automatic distribution module according to the basic distribution quantity, and distributing IP address quantity for the user according to the preset user IP address quantity distribution quantity, wherein the value range of the preset user IP address quantity distribution quantity 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 user and the user who has completed signing but does not complete registration through a first extraction module; then, extracting the first user quantity and the second user quantity by using a second extraction module; and finally, obtaining the basic distribution quantity of IP address quantity distribution of each cloud service subarea through a basic distribution quantity model by utilizing the enterprise scale of the registered user and the user which has completed signing but has not completed registering and the quantity relation between the first user quantity and the second user quantity through a basic data calculation module.
The technical scheme has the effects that: according to the method, the whole cloud service system is divided into the plurality of area blocks through the division of the cloud service subareas, 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 subarea can be effectively improved, and the IP address quantity distribution adjustment times can be furthest reduced.
Meanwhile, the IP number of each cloud service subarea obtained through the formula can effectively improve the rationality of basic IP address number distribution aiming at one cloud service subarea by utilizing the actual user condition, and meanwhile, the number and the frequency of subsequent IP address number adjustment aiming at each cloud service subarea can be furthest reduced while enough IP address number allowance is reserved under the condition that enterprise users in the cloud service area can be met. On the other hand, the idle quantity of the number of the current IP addresses can be reduced to the maximum extent, and a great deal of network resource waste is prevented.
In one embodiment of the present invention, the real-time monitoring module includes:
the user quantity monitoring module is used for monitoring whether newly added users exist in each cloud service subarea in real time;
the configuration judging module I is used for determining whether a user logout exists in a cloud service subarea where a new user exists when the new user exists, and if the user logout exists, performing basic configuration on the number of the IP addresses of the single user for the new user according to the number of the IP addresses acquired by the first allocation model within a basic allocation number range;
and the configuration judging module II is used for carrying out basic configuration on 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 if the user logout does not exist.
Wherein the first and second distribution models are as follows:
W p2 =1+2 t
wherein W is p1 Representing the number of the IP addresses allocated to the newly added user, which are correspondingly acquired and correspond to the first allocation model; w (W) p1 Representing the number of the IP addresses allocated to the newly added user, which are correspondingly acquired and correspond to the second allocation model; c (C) z Representing the number of IP addresses occupied by the logged-off user; p represents the actual number of enterprises paying social security corresponding to the newly added users; t represents an index 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 newly added users exist in each cloud service subarea in real time through a user quantity monitoring module; then, determining whether a user logout exists in a cloud service subarea where a new user exists by utilizing a configuration judging module, if the user logout exists, performing basic configuration on the number of the IP addresses of the single user for the new user within a basic distribution number range according to the number of the IP addresses acquired by a first distribution model; and finally, adopting a configuration judging module II to perform basic configuration of 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 when the user logout does not exist.
The technical scheme has the effects that: according to the mode and the formula, according to the enterprise scale conditions of users, in the range of the number of the IP addresses allocated to the cloud service subareas, one-to-one IP address number allocation is carried out on each enterprise user, so that the rationality of IP address allocation of each enterprise user can be effectively improved, the current and future IP address use requirements of enterprises can be met during basic allocation, the number of idle IP addresses can be reduced to the greatest extent, and the idle rate of the IP addresses and network resource waste rate in the basic allocation range can be reduced to the greatest extent.
In one embodiment of the present invention, the allocation adjustment module includes:
the condition judging module is used for judging the quantity change condition of the users in the cloud service subarea and the quantity change condition of the IP addresses occupied by each user when the quantity occupied amount of the IP addresses of the cloud service subarea exceeds a preset occupied threshold value;
the first supplementing module is used for configuring a first supplementing allowance IP address quantity for the cloud service subarea when the number of users in the cloud service subarea is increased and the overall number of IP addresses occupied by the users is increased at the same time, and providing a sufficient available IP address quantity for the increased expected number of the users in the cloud service subarea; the first supplementary margin number of IP addresses is obtained by the following formula:
wherein R is b1 Representing a number of IP address supplements determined using the first number of supplementary remaining IP addresses; c (C) x Representing the number of newly added users; w (W) s The number of the IP addresses actually occupied in the application process of the user cloud service is expressed in a specified time period after the distribution of the number of the IP addresses corresponding to the first user number and the second user number is completed, and the specified time period is setSetting the range to be 2-3 months; w (W) x Indicating that the occupied quantity of the IP addresses exceeds a preset occupied threshold after the ending time of the appointed time period, and newly increasing the occupied quantity of the IP ends; t (T) 0 Representing the duration corresponding to the specified time period; t represents the total time period from the end time of the designated time period to the time when the number of the IP addresses exceeds the preset occupation threshold value, R y Representing the occupied number of the IP address number corresponding to the occupied threshold, wherein the occupied number of the IP address number corresponding to the occupied threshold is not lower than 78% of the basic allocation number of the IP address number allocation corresponding to each cloud service sub-area; lambda (lambda) 1 Represents a first supplementary factor lambda 1 The value of (2) 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 subarea when the quantity of users in the cloud service subarea is not increased and the whole quantity of the IP addresses occupied by the users is increased at the same time, and providing a sufficient quantity of available IP addresses for the increased expected quantity of the users in the cloud service subarea. The second supplementary margin number of IP addresses is obtained by the following formula:
wherein R is b1 Representing a number of IP address supplements determined using the first number of supplementary remaining IP addresses; w (W) s The method comprises the steps that the number of IP addresses actually occupied in the application process of user cloud service is represented in a specified time period after the number of IP addresses corresponding to the first number of users and the second number of users is distributed, and the setting range of the specified time period is 2-3 months; w (W) x Indicating that the occupied quantity of the IP addresses exceeds a preset occupied threshold after the ending time of the appointed time period, and newly increasing the occupied quantity of the IP ends; t (T) 0 Representing the duration corresponding to the specified time period; t represents the total time period from the end time of the designated time period to the time when the number of the IP addresses exceeds the preset occupation threshold value, R y Indicating I corresponding to the occupancy thresholdThe number of P addresses occupies the number; lambda (lambda) 2 Represents a second supplementary factor, lambda 2 The value of (2) is 0.32-0.41.
The working principle of the technical scheme is as follows: firstly, judging the quantity change condition of users in the cloud service subarea and the quantity change condition of the IP addresses occupied by each user by a condition judging module when the quantity occupied by the IP addresses of the cloud service subarea exceeds a preset occupied threshold value; then, when the number of users in the cloud service sub-area increases and the overall number of IP addresses occupied by the users increases 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 number of available IP addresses for the increased expected number of the users in the cloud service sub-area; and finally, configuring a second supplementary allowance IP address quantity for the cloud service subarea by a second supplementary module under the condition that the quantity of users of the cloud service subarea is not increased and the whole quantity of the IP addresses occupied by the users is increased simultaneously, wherein the second supplementary allowance IP address quantity is used for providing a sufficient quantity of available IP addresses for the increased expected quantity of the users of the cloud service subarea.
The technical scheme has the effects that: the method and the formula can effectively improve the rationality of the supplementing quantity in the re-supplementing and distributing process through the sub-condition supplementation of the number of the IP addresses in each cloud service subarea, and further ensure that the number of the IP addresses can meet the actual application condition in the cloud service subarea under the condition of effectively reducing the resource waste caused by more spare IP addresses, thereby maximally reducing the frequency and the times of the subsequent supplementation of the number of the IP addresses.
It will be apparent to those skilled in the art that various modifications and variations can be made to the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (10)

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