CN115941648A - Device for managing IPV4 life cycle - Google Patents

Abstract

The invention provides a device for managing an IPV4 life cycle, which comprises: an address monitoring module: the method belongs to an interception module, and is characterized in that the method carries out cut-in when addresses are pre-classified and used for actual record, and simultaneously monitors the overall change of the addresses; a data writing module: performing warehousing operation on the processed data, and acquiring corresponding operation database information through JDBC; the life cycle inquiry and display module: and inquiring a corresponding address change record through an address index table according to the IP address field, and presenting an example list of the dynamic operation flow according to the flow sequence, the operation type and the operation time of the monitoring module. The device is divided into a plurality of sub-processes, and a plurality of processing modules are divided into the sub-processes, so that nested calling and organic coupling are realized among the modules, the processing logic is flexible, the breadth is high, and the cost is low; the method provides accurate positioning and accurate tracing for the use of provincial-level integral IPV4, and has various IPV4 address conversion logics and flexible IPV4 address calculation.

Description

Device for managing IPV4 life cycle

Technical Field

The embodiment of the invention relates to the technical field of network operation, in particular to an IPV4 life cycle management device.

Background

As current communication operators have entered the era of full-service operation, market competition among operators is becoming increasingly intense. With the development of information technology, new competitors are derived. Optimizing operation and maintenance means and improving service quality become indispensable competitive power. As an important component of private line and broadband services, IP address resources are especially exhausted from public network addresses of IPV4, and it is urgently needed to implement fine management of IP addresses. At present, the IP address management method has the problems of low IP address data analysis accuracy and poor management effectiveness.

Such as patent: "a method for flow-based IP address full lifecycle management (application No.: 201710101229.8)": embedding the address planning requirement of the IP address into an OA system and an EOMS system, and showing the planning and the use condition of the IP address; the applicant applies for the IP address according to actual needs, submits an application form, an approval person approves the application information, if the approval is passed, the address allocation process is entered, otherwise, the application is rejected; allocating the IP address according to the area and the purpose of the application address; if the IP address use period expires or the IP address needs to be recovered due to reasons, the IP address is recovered through examination and approval and the address filing information is updated; and recording the use condition of each flow of the IP address. The invention realizes the fine management of IP addresses, but does not describe the address allocation and operation monitoring.

Disclosure of Invention

In order to solve the problems, the invention divides a plurality of sub-processes, and divides a plurality of processing modules under the sub-processes, so that the modules are nested and called, organically coupled, flexible in processing logic, high in breadth and low in cost; the method provides accurate positioning and accurate tracing for the use of provincial-level integral IPV4, and has various IPV4 address conversion logics and flexible IPV4 address calculation.

According to an embodiment of the present invention, an apparatus for IPV4 lifecycle management is provided. The device comprises:

an address monitoring module: the method belongs to an interception module, and is characterized in that cut-in is performed when addresses are pre-classified and used in actual record, and the overall change of the addresses is monitored.

A data writing module: and performing warehousing operation on the processed data, and acquiring corresponding operation database information through JDBC.

The life cycle inquiry and display module: and inquiring a corresponding address change record through an address index table according to the IP address field, and presenting an example list of the dynamic operation flow according to the flow sequence, the operation type and the operation time of the monitoring module.

Further, the address monitoring module comprises: the device comprises a record address pre-dividing module for monitoring, a record address using recycling monitoring and a record address using modifying monitoring.

Further, the processing logic of the record address pre-sorting module monitoring is as follows:

judging whether planning is carried out or not according to the input address information, and if the planning is not carried out or the input address information is not consistent with the node of the address in the early-stage planning address pool and the service type, exiting the pre-distribution process and not carrying out address change;

if the address is consistent with the address, judging whether the current address is already used for record or is pre-distributed to other nodes or services, and if the current address is already used for record or is pre-distributed to other nodes or services, exiting the pre-distribution process to change the address;

if the current address is not used for recording and is not pre-distributed to other nodes or services, splitting an idle address in a current address pool, splitting the pre-distributed address from an address pool idle table, recording a pre-distribution record into the pre-distribution table, newly building an idle address pool according to the node or the service and recording the pre-distribution record into the address pool idle table, and simultaneously performing warehousing operation on the pre-distributed address;

monitoring address change in the pre-sorting process through a monitoring program, resolving the change of addresses from an idle address pool of the node, and recording the changed addresses and related operation information according to service definition address types; acquiring an operator, operation time, operation detailed types and operation IP information in the current allocation process according to system session information, calling a data writing module to record related information into a LifecCycleLog of a life cycle table, simultaneously dynamically writing the detailed information recorded by a third pre-divided address into an expansion table LifecCycleLogExt according to a vertical table mode, inquiring a LifecCycleeInnetnum of a life cycle address index table according to address field and IP version information, and adding an index datum if no current address field information exists in the index table.

Further, the use of the recorded address comprises the use of manual input data and the use of automatic acquisition input data;

the steps of manually inputting data are as follows: calculating and splitting a current pre-distributed address according to manually input basic registration data, recording a piece of filing use information, and filing and reporting the well processed address information; checking whether the imported use data is pre-classified and whether the types of the related application service addresses are consistent, if so, performing warehousing operation on the current recorded use address, and marking the pre-classified address; if the current node address is inconsistent with the registered address, the registered address is not put into a storage, the current node or the idle address pool related to the registered service is split, and the current actual address is removed;

the steps of automatically acquiring and recording data are as follows: collecting subordinate equipment information at regular time, verifying whether the configured IP is already distributed, if not, telling relevant personnel to perform pre-distribution processing, and if normal pre-distribution is confirmed, supplementing relevant service address type information to perform actual record using processing and performing warehousing splitting operation.

Further, the processing logic of the record address using module monitoring is as follows:

monitoring address change in the actual address filing process by a monitor program, and recording the changed address and related operation information in a classified manner;

acquiring an operator, operation time, detailed operation type and operation IP information in the current actual use process according to the system session, and calling a data writing module to record related information into a LifecCycleLog of a life cycle table;

according to the recorded address use information, the detailed split address information is dynamically written into an expansion table LifecCyCleLogExt in a vertical table mode;

and inquiring a life cycle address index table LifecCycleInetnum according to the address field and the IP version information, and adding an index datum if the index table has no current address field information.

Further, the step of recovering the recorded address includes:

acquiring a corresponding part of recovery addresses through manual input, inquiring the operation records which are actually recorded and used at present according to the address fields, and judging whether the recovery address fields are completely consistent;

if the address is completely consistent with the address, writing the deleted address into a life cycle related record table, wherein the detailed operation type is recovery, deleting the recovered address, and releasing the source address into a free address pool;

if not, synchronously writing a record which is the same as the recovery address segment in the life cycle, synchronously recovering the pre-synchronous record information, wherein the detailed operation type is partial recovery, splitting the original actual record using address record, reporting group change, and rewriting the undeleted address into the actual record using address record.

Further, the processing logic of the record address using recycling module for monitoring is as follows:

monitoring the address change recycled by using the recorded address through a monitor, and recording the changed address and related operation information in a classified mode;

acquiring an operator, operation time, detailed operation type and operation IP information in the current actual use process according to the system session, and calling a data writing module to record related information into a LifecCycleLog of a life cycle table;

according to the recorded address use information, the detailed split address information is dynamically written into an expansion table LifecCyCleLogExt in a vertical table mode;

and querying a lifecycle address index table LifecCycleInetnum according to the address field and the IP version information, and adding an index datum if the index table has no current address field information.

Further, the processing logic for monitoring the use of the modification of the filed address is as follows:

reading monitoring information configured by a client, judging whether the newly modified service information and the original service information change, if so, acquiring an operator, operation time, operation detailed types and operation IP information of the current operation according to the system session, and calling a data writing module to record related information into a LifecCycleLog of a life cycle table;

according to the information of the address actual record use module, the detail information of the split address is dynamically written into the expansion table LifecCycleLogExt according to a vertical table mode, the change condition of the actual use information of the address in different periods is recorded, and meanwhile, the LifecCycleInnetnum of the life cycle address index table is inquired according to the address field and the IP version information.

The above-mentioned english abbreviation:

IPV4: internet Protocol version4, internet Protocol version4

JDBC: java Database Connectivity, an application program interface in the Java language that specifies how a client program accesses a Database

IP: internet protocol, internetworking protocol

LifecCycleLog: life cycle table name

LifecCycleLogExt: extended table names

LifecCycleInetnum: life cycle address index table name

According to the invention, by dividing a plurality of sub-processes and a plurality of processing modules under the sub-processes, the modules are nested and called, so that the organic coupling is realized, the processing logic is flexible, the breadth is high, and the cost is low; the method provides accurate positioning and accurate tracing for the use of provincial level integral IPV4, and has various IPV4 address conversion logics and flexible IPV4 address calculation.

It should be understood that the statements made in this summary are not intended to limit the key or critical features of the embodiments of the present invention, or to limit the scope of the invention. Other features of the present invention will become apparent from the following description.

Drawings

The above and other features, advantages and aspects of various embodiments of the present invention will become more apparent by referring to the following detailed description when taken in conjunction with the accompanying drawings. Wherein:

FIG. 1 shows an apparatus block diagram of IPV4 lifecycle management according to an embodiment of the invention;

FIG. 2 illustrates a configuration monitoring settings page diagram according to an embodiment of the present invention;

FIG. 3 shows a life cycle query page diagram in accordance with an embodiment of the invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without inventive efforts based on the embodiments of the present invention, shall fall within the scope of protection of the present invention.

According to the embodiment of the invention, the device for managing the IPV4 life cycle is provided, by dividing a plurality of sub-processes, and dividing a plurality of processing modules under the sub-processes, the modules are nested and called, and the device is organically coupled, flexible in processing logic, high in breadth and low in cost; the method provides accurate positioning and accurate tracing for the use of provincial-level integral IPV4, and has various IPV4 address conversion logics and flexible IPV4 address calculation.

The principles and spirit of the present invention are explained in detail below with reference to several representative embodiments of the invention.

FIG. 1 is a block diagram of an apparatus for IPV4 lifecycle management, according to an embodiment of the present invention. The apparatus 100 comprises:

the address monitoring module 101: the method belongs to an interception module, and is used for carrying out cut-in when addresses are pre-classified and used in actual record, and monitoring the overall change of the addresses.

The data writing module 102: and performing warehousing operation on the processed data, and acquiring corresponding operation database information through JDBC.

The life cycle query presentation module 103: and inquiring a corresponding address change record through an address index table according to the IP address field, and presenting an example list of the dynamic operation flow according to the flow sequence, the operation type and the operation time of the monitoring module.

For a clearer explanation of the above-mentioned IPV4 lifecycle management apparatus, a specific embodiment is described below, but it should be noted that the embodiment is only for better illustration of the present invention and should not be construed as an undue limitation on the present invention.

The means for IPV4 lifecycle management are further described in more detail below with a specific example:

allocating a newly-added address segment 10.100.1.0/24, judging whether planning is carried out or not according to the address information, and whether the address is consistent with the node and the service type of the address in the earlier-stage planning address pool or not, if the address is consistent, judging whether the current address is already used for a record or is pre-distributed to other nodes or services, if the current address is not used for a record or is not pre-distributed to other nodes or services, splitting the idle address in the current address pool, splitting the pre-distributed address from the address pool idle table and recording a pre-distribution record into the pre-distribution table, and newly building an idle address pool according to the node or the service and recording the idle address pool idle table into the pre-distribution record, and simultaneously carrying out warehousing operation on the pre-distributed address;

monitoring address change in the pre-sorting process through a monitoring program, resolving the change of addresses from an idle address pool of the node, and recording the changed addresses and related operation information according to service definition address types; acquiring an operator, operation time, detailed operation type and operation IP information in the current distribution process according to the system session information, and calling a data writing module to record related information into a LifecCycleLog of a life cycle table, as shown in Table 1:

TABLE 1

Monitoring module	Operation detail type	IP address field	Node point
				Pre-separation	Adding new	10.100.1.0/24	NOC of Guangdong province
Address for record	Adding new	10.100.1.128/30	NOC of Guangdong province

And simultaneously, dynamically writing the detailed information recorded by the third part of pre-divided addresses into an expansion table LifecCyCleLogExt according to a vertical table mode, as shown in a table 2:

TABLE 2

New service address type	IP address field
		Service address	10.100.1.0/24
Service address	10.100.1.128/30

Original service address type	IP address field
		Service address	10.100.1.0/24
Service address	10.100.1.128/30

Operator	IP address field
		Zhang San	10.100.1.0/24
Li Si	10.100.1.128/30

Inquiring a life cycle address index table LifecCycleInetnum according to the address field and the IP version information, as shown in Table 3:

TABLE 3

Starting address	Termination address	Address segment
			10.100.1.0	10.100.1.255	10.100.1.0/24
10.100.1.128	10.100.1.132	10.100.1.128/30

And acquiring information of subordinate equipment at regular time, verifying whether the configured IP is distributed or not, and supplementing related service address type information for actual record use and processing and performing warehousing splitting operation if normal pre-distribution is confirmed.

Acquiring a corresponding part of recovery addresses through manual input: 10.100.1.1.128, inquiring the operation record which is actually recorded and used at present as new according to the address field, and judging to recycle the address field: 10.100.1.128/30, if the addresses are not completely consistent, a record which is the same as the address field recovered this time is synchronously written in the life cycle, and the record information before recovery is synchronously recovered, the detailed operation type is partial recovery, meanwhile, the original actual record using address record is split and the group change is reported, and the undeleted address is rewritten in the actual record using address record, as shown in table 4:

TABLE 4

Monitoring module	Operation detail type	IP address field	Node point
				Address for record	Partial recovery	10.100.1.128	NOC of Guangdong province
Pre-division	Adding new	10.100.1.0/24	NOC of Guangdong province
				Address for record	Adding new	10.100.1.128/30	NOC of Guangdong province

Acquiring an operator, operation time, detailed operation type and IP information in the current distribution process according to the system session, calling a data writing module, and inputting related information into a LifecCycleLog of a life cycle table, as shown in Table 5:

TABLE 5

Monitoring module	Operation detail type	IP address field	Node point
				Address for record		10.100.1.129-10.100.1.131	NOC of Guangdong province
Address for record	Partial recovery	10.100.1.128	NOC of Guangdong province
				Pre-separation	Adding new	10.100.1.0/24	NOC of Guangdong province
Recording use address	Adding new	10.100.1.128/30	NOC of Guangdong province

Meanwhile, according to the information of the address actual record use module, the detail information of the split address is dynamically written into the expansion table LifecCycleLogExt in a vertical table mode, as shown in the table 6:

TABLE 6

Original service address type	IP address field
		Service address	10.100.1.128/30
Service address	10.100.1.128

Operator	IP address field
		Zhang San	10.100.1.128/30
Li Si	10.100.1.128

The change conditions of the actual use information of the addresses in different periods are recorded, and meanwhile, a life cycle address index table LifecCycleInetnum is inquired according to the address field and the IP version information, as shown in a table 7:

TABLE 7

Starting address	Termination address	Address segment
			10.100.1.128	10.100.1.132	10.100.1.128/30
10.100.1.128	10.100.1.128	10.100.1.128

The existing related service information: when the client address changes and information needs to be updated and reported, the configuration monitoring setting page is modified, and is shown in fig. 2.

According to the IP address field, a life cycle query page is queried through an address index table, the life cycle query page is shown in figure 3, the life cycle query page presents an example list of dynamic operation flows according to the flow sequence, operation type and operation time of the monitoring modules, and supports the query mode according to different operation types (adding, modifying, recycling and partially recycling), different monitoring modules are supported, and the detailed checking of specific user service related information by user information is realized, so that the original address service information is traced, the control of the user on the whole service and the whole change state of the address are better realized.

According to the device for managing the IPV4 life cycle, the plurality of sub-processes are divided, the plurality of processing modules are divided under the sub-processes, nested calling and organic coupling are realized among the modules, the processing logic is flexible, the breadth is high, and the cost is low; the method provides accurate positioning and accurate tracing for the use of provincial-level integral IPV4, and has various IPV4 address conversion logics and flexible IPV4 address calculation.

While the spirit and principles of the invention have been described with reference to several particular embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, nor is the division of aspects, which is for convenience only as the features in such aspects may not be combined to benefit. The invention is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

The limitation of the protection scope of the present invention is understood by those skilled in the art, and various modifications or changes which can be made by those skilled in the art without inventive efforts based on the technical solution of the present invention are still within the protection scope of the present invention.

Claims (8)

1. An apparatus for IPV4 lifecycle management, the apparatus comprising:

an address monitoring module: the method belongs to an interception module, and is used for carrying out cut-in when addresses are pre-classified and used in actual record, and monitoring the overall change of the addresses.

A data writing module: and performing warehousing operation on the processed data, and acquiring corresponding operation database information through JDBC.

The life cycle inquiry and display module comprises: and inquiring a corresponding address change record through an address index table according to the IP address field, and presenting an example list of the dynamic operation flow according to the flow sequence, the operation type and the operation time of the monitoring module.

2. The apparatus of claim 1, wherein the address monitoring module comprises: the device comprises a record address pre-dividing module for monitoring, a record address using recycling monitoring and a record address using modifying monitoring.

3. The apparatus according to claim 2, wherein the processing logic for monitoring by the docket address pre-partition module comprises:

judging whether planning is carried out or not according to the input address information, and if the planning is not carried out or the input address information is not consistent with the node of the address in the early-stage planning address pool and the service type, exiting the pre-distribution process and not carrying out address change;

if the address is consistent, judging whether the current address is already used for recording or is pre-distributed to other nodes or services, and if the current address is already used for recording or is pre-distributed to other nodes or services, exiting the pre-distribution process to change the address;

if the current address is not used for filing and is not pre-distributed to other nodes or services, splitting a free address in a current address pool, splitting the pre-distributed address from an address pool free table, recording a pre-distribution record into the pre-distribution table, newly building a free address pool according to the node or service and recording the pre-distribution record into the address pool free table, and simultaneously performing warehousing operation on the pre-distributed address;

monitoring address change in the pre-sorting process through a monitoring program, resolving the change of addresses from an idle address pool of the node, and recording the changed addresses and related operation information according to service definition address types; acquiring an operator, operation time, operation detailed types and operation IP information in the current allocation process according to system session information, calling a data writing module to record related information into a LifecCycleLog of a life cycle table, simultaneously dynamically writing the detailed information recorded by a third pre-divided address into an expansion table LifecCycleLogExt according to a vertical table mode, inquiring a LifecCycleeInnetnum of a life cycle address index table according to address field and IP version information, and adding an index datum if no current address field information exists in the index table.

4. The apparatus according to claim 2, wherein said docket address usage comprises manual entry data usage and automatic acquisition entry data usage;

the steps of manually inputting data are as follows: calculating and splitting a current pre-distributed address according to manually input basic registration data, recording a piece of filing use information, and filing and reporting the well processed address information; checking whether the imported use data is pre-classified and whether the types of the related application service addresses are consistent, if so, performing warehousing operation on the current recorded use address, and marking the pre-classified address; if the current node address is inconsistent with the registered address, the registered address is not put into a storage, the current node or the idle address pool related to the registered service is split, and the current actual address is removed;

the steps of automatically acquiring and recording data are as follows: collecting subordinate equipment information at regular time, verifying whether the configured IP is distributed or not, if not, telling related personnel to perform pre-distribution processing, and if normal pre-distribution is confirmed, supplementing related service address type information to perform actual record use processing and performing warehousing splitting operation.

5. The apparatus according to claim 2, wherein the processing logic for monitoring by the docket address usage module comprises:

monitoring address change in the actual address filing and using process through a monitor program, and recording the changed address and related operation information in a classified manner;

acquiring an operator, operation time, detailed operation type and operation IP information in the current actual use process according to the system session, and calling a data writing module to record related information into a LifecCycleLog of a life cycle table;

according to the recorded address use information, the detailed split address information is dynamically written into an expansion table LifecCyCleLogExt in a vertical table mode;

and inquiring a life cycle address index table LifecCycleInetnum according to the address field and the IP version information, and adding an index datum if the index table has no current address field information.

6. The apparatus for IPV4 lifecycle management as defined in claim 2, wherein the step of docket address usage reclamation comprises:

acquiring a corresponding part of recovery addresses through manual input, inquiring the operation records which are actually recorded and used at present according to the address fields, and judging whether the recovery address fields are completely consistent;

if the addresses are completely consistent, the detailed operation type of the deleted addresses written into the life cycle related record table is recovery, the recovered addresses are deleted, and the source addresses are released to the idle address pool;

if not, synchronously writing a record which is the same as the recovery address segment in the life cycle, synchronously recovering the pre-synchronous record information, wherein the detailed operation type is partial recovery, splitting the original actual record using address record, reporting group change, and rewriting the undeleted address into the actual record using address record.

7. The apparatus of claim 2, wherein the processing logic for handling address entry using recycling module monitoring comprises:

monitoring the address change recycled by using the recorded address through a monitor, and recording the changed address and related operation information in a classified mode;

acquiring an operator, operation time, detailed operation type and operation IP information in the current actual use process according to the system session, and calling a data writing module to record related information into a LifecCycleLog of a life cycle table;

according to the recorded address use information, the detailed split address information is dynamically written into an expansion table LifecCyCleLogExt in a vertical table mode;

and inquiring a life cycle address index table LifecCycleInetnum according to the address field and the IP version information, and adding an index datum if the index table has no current address field information.

8. The apparatus according to claim 2, wherein the processing logic for handling address modification monitoring comprises:

reading monitoring information configured by a client, judging whether the newly-modified service information and the original service information change or not, if so, acquiring an operator, operation time, operation detailed type and operation IP information of the current operation according to a system session, and calling a data writing module to record related information into a Life cycle Log of a life cycle table;

according to the information of the address actual record use module, the detail information of the split address is dynamically written into the expansion table LifecCycleLogExt according to a vertical table mode, the change condition of the actual use information of the address in different periods is recorded, and meanwhile, the LifecCycleInnetnum of the life cycle address index table is inquired according to the address field and the IP version information.

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