CN114567546A - IDC automatic service opening system and use method - Google Patents

Abstract

The invention discloses an IDC automatic service opening system and a using method thereof, wherein the IDC automatic service opening system comprises a transportation and management system, an arrangement center and network equipment; a configuration single-opening module is arranged in the pipe conveying system and connected with an interface interaction module; the arrangement center comprises an instruction library module, an instruction template module, a checking module and an instruction issuing module; the instruction library module is connected with the instruction template module, and the instruction template module is connected with the interface interaction module; the instruction library module and the instruction template module are connected with the checking module together; the checking module is connected with the instruction issuing module, and the instruction issuing module is connected with the network equipment. The method and the device can automatically open the IDC service, effectively reduce the service opening time, improve the opening efficiency and reduce the error rate of manual operation.

Description

IDC automatic service opening system and use method

Technical Field

The invention relates to the field of telecommunication technology application, in particular to an IDC automatic service opening system and a using method thereof.

Background

An Internet Data Center (Internet Data Center) is abbreviated as IDC, that is, a telecommunication department utilizes the existing Internet communication line and bandwidth resources to establish a standardized telecommunication professional computer room environment and provide omnibearing services in the aspects of server hosting, renting, related value increment and the like for enterprises and governments. At present, the IDC service opening by the telecommunication department is still in the aspect of manual operation, the service opening time is long, the opening efficiency is low, and the manual operation has misoperation, so that the IDC service opening method is difficult to adapt to the operation requirements of modern telecommunication enterprises.

Disclosure of Invention

The invention aims to provide an IDC automatic service opening system and a using method thereof. The method and the device can automatically open the IDC service, effectively reduce the service opening time, improve the opening efficiency and reduce the error rate of manual operation.

The technical scheme of the invention is as follows: an IDC automatic service opening system comprises a transportation and management system, an arrangement center and network equipment; a configuration single-opening module is arranged in the pipe conveying system and connected with an interface interaction module; the arrangement center comprises an instruction base module, an instruction template module, a checking module and an instruction issuing module; the instruction library module is connected with the instruction template module, and the instruction template module is connected with the interface interaction module; the instruction library module and the instruction template module are connected with the checking module together; the checking module is connected with the instruction issuing module, and the instruction issuing module is connected with the network equipment.

In the IDC automatic service provisioning system, the transportation and management system is also internally provided with a resource work order module, an office data order module, a manual configuration module, a client confirmation module and a filing module; the resource work order module is connected with the office data order module; the office data single module is respectively connected with the manual configuration single module, the configuration single opening module and the client confirmation module; the manual configuration single module is connected with the configuration single open-close module; the client confirmation module is connected with the filing module.

In the IDC automatic service provisioning system, the interface interaction module includes a static interconnection module, a gateway interconnection module, a scattered household interconnection module and an expandable scene module.

In the use method of the IDC automatic service provisioning system, the operation and management system performs service acceptance to obtain the resource work order, sends the resource work order to the configuration order provisioning module to provision the configuration order, the interface interaction module accesses the networking architecture according to the requirement of the provisioned configuration order, selects the networking scene as required, performs command encapsulation and issue by the deployment center, and configures the network device according to the issued command.

In the method for using the IDC automatic service provisioning system, the transportation and management system accepts a service, the resource work order module generates a resource work order, the resource work order is transmitted to the office data single module to judge whether the automatic configuration is performed, if the automatic configuration is performed, the configuration single provisioning module provisions the provisioning of the configuration list according to the resource work order, if the automatic configuration is not performed, the manual configuration module provisions the manual configuration, after the manual configuration, the configuration single provisioning module provisions the provisioning of the configuration list according to a result of the manual configuration, and the interface interaction module requires to access a networking architecture according to a provisioned configuration list and selects a networking scene as required; and meanwhile, the office data single module and the configuration single opening module feed back the processing result to the client confirmation module for confirming the client, and the filing module performs filing processing after the client confirms that no error exists.

In the use method of the IDC automatic service provisioning system, the static interconnection module of the interface interaction module executes a single-link static interconnection scene and an aggregation group static interconnection scene, the gateway interconnection module executes a gateway interconnection scene, the scattered household interconnection module executes a scattered household interconnection scene, and the expandable scene module executes the update of the device and the network access of the new device.

In the use method of the IDC automatic service provisioning system, the single-link static interconnection scenario includes a single-link static access scenario, a single-link static change scenario, and a single-link static logout scenario; the single-link static access scene is that the client equipment executes the single-link static interconnection scene access through a static interconnection module, three layers of interconnection are configured with the client equipment, a service address field statically points to a client side, an OSPF (open shortest Path first) domain in a machine room is introduced, a service network is opened, and an automatic opening configuration list is correspondingly formed according to the resource work order type; the single-link static change scene is that when a client needs to expand IP resources, a newly added IP end points to a client port and an OSPF domain in the machine room is introduced, or when the client needs to expand the IP resources, three layers of ports are configured to be interconnected, a service address field points to the client side statically and the OSPF domain in the machine room is introduced; the single-link static logout scene is that a configuration recovery template is called uniformly, a client part reduces the volume of IP (Internet protocol), port resources or all resources are logged out, and corresponding network resource products in a logout resource work order and a sending configuration are deleted uniformly in a configuration list;

the aggregation group static interconnection scene comprises an aggregation group static access scene, an aggregation group static change scene and an aggregation group static logout scene; the static interconnection scene of the aggregation group is that the client equipment executes the static interconnection scene access of the aggregation group through a static interconnection module, establishes three layers of interconnection between a logic port and the configuration thereof, statically points to a client side in a service address field, introduces an OSPF (open shortest path first) domain in a machine room, opens a service network, and corresponds to an automatic opening configuration list according to the resource work order type; the static change scene of the aggregation group is that when a client needs to expand IP resources, a newly added IP end points to an interface of interconnection aggregation according to the client requirement and an OSPF domain in a machine room is introduced; or when the client needs to expand the port resources, the three layers of interconnection of the ports are configured, the service address field statically points to the client side, and an OSPF domain in the computer room is introduced; the static logout scene of the aggregation group is to uniformly call a configuration recovery template, a client part reduces the volume of IP (Internet protocol), port resources or all resources to logout, and uniformly logout, delete, issue and configure corresponding network resource products in a resource work order in a configuration list.

In the use method of the IDC automatic service provisioning system, the gateway interconnection scenario includes a gateway access scenario, a gateway change scenario and a gateway logout scenario; when a client selects a gateway access scene, a service address field is configured in a machine room network device, a client host is accessed, a direct connection service address configuration prefix list is introduced into an OSPF (open shortest Path first) domain in a machine room, and a service network is opened; when a client selects a gateway to change scenes, IP expansion selects vlan if the storage is open, a secondary address segment is configured, vlan if address capacity is improved, an OSPF domain in a machine room is introduced through a prefix list, and a service network is opened; expanding the port, selecting the vlan if with the opened stock, and marking the newly added port into the vlan if; when a client selects a gateway logout scene, a configuration recovery template is called uniformly, partial volume reduction IP, port resources or all resources of the client are logout, and corresponding network resource products in a logout resource work order and a distribution configuration are deleted uniformly in a configuration list.

In the use method of the IDC automatic service provisioning system, the scattered household interconnection scene includes a scattered household access scene and a scattered household logout scene; when a client selects a scattered client access scene, a scattered client access switch is pre-deployed under each machine room line, and one network segment provides a plurality of scattered clients for access; when the customer selects the customer logout scene, the configuration recovery template is called uniformly, the customer partially reduces the volume IP, port resources or all resources to logout, and corresponding network resource products in the logout resource work order and the issuing configuration are deleted uniformly in the configuration list.

According to the use method of the IDC automatic service opening system, the instruction encapsulation of the arrangement center is firstly matched in the instruction template module according to the networking scene, if the corresponding instruction template exists, the inspection template module is used for inspecting, and after the inspection is passed, the instruction issuing module issues the instruction to the network equipment for configuration; if the corresponding instruction template does not exist or the corresponding instruction template is different in checking, adding and editing the instruction by using the instruction library module, enabling the instruction library module to adapt to the networking scene, and then issuing the instruction to the network equipment for configuration by using the instruction issuing module.

Compared with the prior art, the IDC automatic service opening system is established, so that the service opening time can be effectively shortened, the opening efficiency and the customer perception degree are improved, and the configuration accuracy and the standardization are improved. The invention also effectively reduces the probability of manual misoperation, lightens the workload of workers, meets the requirements of end-to-end opening in the aspect of cloud service development, and has good adaptability due to elastic modular design; the invention can expand the service scene and meet the diversity and personalized development of future services. The operation and management system of the invention is based on the resource work order, newly adds the opening configuration order, ensures the synchronization of the equipment configuration and the work order product, standardizes and defines the service access networking architecture, selects the configuration scene according to the requirement and ensures the configuration standard of the current network equipment. The arrangement center of the invention establishes the instruction library module, and can flexibly design the configuration template based on the service scene. Meanwhile, the method has a configuration checking function and guarantees that the configuration parameters are not conflicted. The arrangement center of the invention is provided with the instruction library module, so that the equipment upgrading can be dealt with, and the instruction change of the new equipment manufacturer for network access can be flexibly modified.

Drawings

FIG. 1 is a schematic diagram of the system of the present invention;

FIG. 2 is a diagram of a single link static access scenario;

FIG. 3 is a schematic diagram of capacity-expanded IP resources in a single-link static change scenario;

FIG. 4 is a schematic diagram of capacity expansion port resources in a single-link static change scenario;

FIG. 5 is a schematic diagram of a static interconnect scenario for an aggregation group;

FIG. 6 is a schematic diagram of expanding IP resources in a static change scenario of an aggregation group;

FIG. 7 is a diagram illustrating capacity expansion port resources in an aggregate group static change scenario;

FIG. 8 is a schematic diagram of a gateway interconnection scenario and a customer distribution interconnection scenario;

fig. 9 is a schematic diagram of a gateway change scenario.

Reference numerals

1. A pipe handling system; 2. arranging a center; 3. a network device; 4. configuring a single opening module; 5. an interface interaction module; 6. an instruction library module; 7. an instruction template module; 8. a checking module; 9. an instruction issuing module; 10. a resource work order module; 11. office data sheet module; 12. manually configuring the module; 13. a client confirmation module; 14. an archiving module; 15. a static interconnect module; 16. a gateway interconnection module; 17. a scattered household interconnection module; 18. and a scene expandable module.

Detailed Description

The present invention is further described with reference to the following drawings and examples, but the invention is not limited thereto, and the scope of the invention should include the full contents of the claims, and the invention can be more fully understood by those skilled in the art through the following examples.

The embodiment is as follows: an IDC automatic service opening system is shown in figure 1 and comprises a management and control system 1, an arrangement center 2 and a network device 3; a configuration list opening module 4 is arranged in the pipe conveying system 1, and the configuration list opening module 4 is connected with an interface interaction module 5; the transportation and management system 1 is also internally provided with a resource work order module 10, an office data order module 11, a manual configuration module 12, a client confirmation module 13 and a filing module 14; the resource work order module 10 is connected with the office data order module 11; the office data single module 11 is respectively connected with the manual configuration single module, the configuration single opening module 4 and the client confirmation module 13; the manual configuration single module is connected with the configuration single opening module 4; the client validation module 13 is connected to the archiving module 14. The interface interaction module 5 comprises a static interconnection module 15, a gateway interconnection module 16, a scattered family interconnection module 17 and an expandable scene module 18. The arrangement center 2 comprises an instruction library module 6, an instruction template module 7, a checking module 8 and an instruction issuing module 9; the instruction library module 6 is connected with the instruction template module 7, and the instruction template module 7 is connected with the interface interaction module 5; the instruction library module 6 and the instruction template module 7 are connected with the checking module 8 together; the checking module 8 is connected with the instruction issuing module 9, and the instruction issuing module 9 is connected with the network device 3.

The use method of the IDC automatic service opening system comprises the steps that the operation and management system carries out service acceptance to obtain a resource work order, the resource work order is sent to a configuration order opening module to open a configuration order, an interface interaction module is accessed to a networking framework according to the requirement of the opened configuration order, a networking scene is selected according to needs, an arranging center carries out encapsulation and issuing of instructions, and network equipment carries out configuration according to the issued instructions.

In this embodiment, the port information in the resource work order includes: device name, device IP, port name, port number, bandwidth, circuit information, device ID, device vendor, physical interface name, port type, port description, two-layer Vlan description, Vlan if description, next hop IP, urpf, egress speed limit, two-layer Vlan ID, Vlan if, traffic interconnect IP (/ mask), destination IP address segment (/ mask), tag number, and ingress speed limit; the configuration types are that the interface interaction module executes a single-link static interconnection scene and an aggregation group static interconnection scene through the static interconnection module, executes a gateway interconnection scene through the gateway interconnection module, executes a scattered user interconnection scene through the scattered user interconnection module, and executes equipment updating and new equipment networking through the expandable scene module.

The single-link static interconnection scene comprises a single-link static access scene, a single-link static change scene and a single-link static logout scene; as shown in fig. 2, the single-link static access scenario is that the client device performs single-link static interconnection scenario access via a static interconnection module, and is interconnected with three configured layers thereof, where a service address field statically points to a client side, and is introduced into an OSPF domain in a machine room, opens a service network, and corresponds to an automatic provisioning form according to a resource work order category; as shown in fig. 3, the single-link static change scenario is that when a client needs to expand IP resources, a newly added IP end points to a client port and is introduced into an OSPF domain in a computer room; as shown in fig. 4, or when the client needs to expand the port resources, three layers of interconnection of ports are configured, and the service address field statically points to the client side and is introduced into the OSPF domain in the machine room; the single-link static logout scene is that a configuration recovery template is called uniformly, a client part reduces the volume of IP (Internet protocol), port resources or all resources are logged out, and corresponding network resource products in a logout resource work order and a sending configuration are deleted uniformly in a configuration list; when a single-link static logout scene recovers a port and an IP, no parameter needs to be filled, and the static route of the port after being issued points to synchronous cleaning; and synchronously opening parameters without filling any parameters when only the IP is recovered, and selecting corresponding interfaces to delete the static routing configuration on the interfaces one by one under the condition that the IP points to a plurality of interfaces.

The aggregation group static interconnection scene comprises an aggregation group static access scene, an aggregation group static change scene and an aggregation group static logout scene; as shown in fig. 5, the static interconnection scenario of the aggregation group is that the client device performs access to the static interconnection scenario of the aggregation group through the static interconnection module, establishes three-layer interconnection between a logic port and the configuration thereof, statically points to the client side in a service address field, introduces an OSPF domain in a machine room, opens a service network, and corresponds to an automatic provisioning form according to a resource work order category; and establishing a polymerization group under a static interconnection scene of the polymerization group, configuring polymerization interconnection, independently issuing configuration by N ports, dividing a physical port into a corresponding polymerization group ID according to needs, and pointing a service network segment static route to a client side interconnection address. As shown in fig. 6, the static change scenario of the aggregation group is that when a client needs to expand IP resources, a newly added IP end points to an interface of the interconnection aggregation according to the client's requirement, and the interface is introduced into an OSPF domain in the machine room; as shown in fig. 7, or when the client needs to expand the port resources, three layers of interconnection of ports are configured, and the service address field statically points to the client side and is introduced into the OSPF domain in the machine room; under the static change scene of the aggregation group, the aggregation group ID is filled in the opened aggregation ID when the newly added port utilizes the old stock aggregation; the Vlan and the internet IP automatic system synchronous gray can not be edited, and filling is not needed. And (4) filling a new number ID, Vlan, interconnection IP and the like in the newly-added port to start an aggregation group, and sequentially filling issuing configuration, wherein one aggregation can issue a plurality of service address fields as required. As shown in fig. 8, the static logout scenario of the aggregation group is to uniformly call a configuration recovery template, a client partially reduces the volume of the IP, port resources or all resources to logout, and uniformly logout the corresponding network resource products in the resource work order and delete the issuing configuration in the configuration order. And under the static logout scene of the aggregation group, the parameters are synchronously opened without filling any parameter when the port and the IP are recovered. After the 'logout' is issued, the static route of the port points to deletion, port configuration and aggregation group deletion. The port is only removed from the aggregation group after the "partial recycle" is issued. And (3) synchronously opening parameters without filling any parameter when only the IP is recovered, and selecting corresponding interfaces to delete the static route configuration on the interfaces one by one under the condition that the IP points to a plurality of interfaces.

The gateway interconnection scene comprises a gateway access scene, a gateway change scene and a gateway logout scene; as shown in fig. 8, when the client selects a gateway access scenario, the service address segment is configured in the network device in the computer room, the client host accesses, and the prefix list of direct connection service address configuration is introduced into the OSPF domain in the computer room to get through the service network; under the gateway access scene, a client host accesses, a service address field gateway falls in the access scene of the equipment in the machine room, and the gateway access definition is as follows: the IP resources form an independent network segment and share the vlan if address pool. As shown in fig. 9, when a client selects a gateway change scenario, IP expansion selects vlan if the stock is open, configures a secondary address segment, increases vlan if address capacity, introduces an OSPF domain in a machine room through a prefix list, and accesses a service network; expanding the port, selecting the vlan if with the opened stock, and marking the newly added port into the vlan if; when a client selects a gateway logout scene, a configuration recovery template is called uniformly, partial volume reduction IP, port resources or all resources of the client are logout, and corresponding network resource products in a logout resource work order and a distribution configuration are deleted uniformly in a configuration list. Under the scene of gateway logout, when the port and the IP are recovered, the parameters are synchronously opened without filling any parameters. And clearing the port configuration after the log-off is issued, and deleting the whole vlan if. The port only culls vlan if after the "partial recycle" issue. And when only changing, the parameters are synchronously opened without filling any parameters. Only IP recovery, "logout is consistent with partial recovery"; and under the condition that the IP points to a plurality of aggregation group interfaces, selecting corresponding interfaces to delete the static route configuration one by one. The scattered households do not relate to independent 'IP product part recycling', and scattered household IP addresses correspond to ports and are synchronously released.

The household interconnection scene comprises a household access scene and a household logout scene; when a client selects a scattered client access scene, a scattered client access switch is pre-deployed under each machine room line, and one network segment provides a plurality of scattered clients for access; as shown in fig. 8, in the scattered-user access scenario, a client host accesses, a service address segment gateway falls in the access scenario of a machine room device, and the scattered-user access definition: IP resources are sporadic and cannot form an independent network segment; the vlan if address pool is shared. When the customer selects the customer logout scene, the configuration recovery template is called uniformly, the customer partially reduces the volume IP, port resources or all resources to logout, and corresponding network resource products in the logout resource work order and the issuing configuration are deleted uniformly in the configuration list. The access and the logout in the scattered household interconnection scene are the same as the gateway access scene.

Preferably, the transportation and management system accepts a service, the resource work order module generates a resource work order, the resource work order is transmitted to the office data order module to judge whether the automatic configuration is carried out, if the automatic configuration is carried out, the configuration single opening module opens the configuration list according to the resource work order, if the automatic configuration is not carried out, the manual configuration module carries out manual configuration, after the manual configuration, the configuration single opening module opens the configuration list according to the result of the manual configuration, the interface interaction module requires to access a networking framework according to the opened configuration list, and a scene networking is selected as required; and meanwhile, the office data single module and the configuration single opening module feed back the processing result to the client confirmation module for confirming the client, and the filing module performs filing processing after the client confirms that no error exists. The technical scheme can enable the business process to be more standard.

Preferably, the instruction encapsulation of the arrangement center is performed by matching in an instruction template module according to a networking scene, if a corresponding instruction template exists, the instruction encapsulation is performed by using a checking template module, and after the checking is passed, the instruction is issued to the network equipment by an instruction issuing module for configuration; if the corresponding instruction template does not exist or the corresponding instruction template is different in checking, adding and editing the instruction by using the instruction library module, enabling the instruction library module to adapt to the networking scene, and then issuing the instruction to the network equipment for configuration by using the instruction issuing module. In the embodiment, the command module of the arrangement center is designed flexibly; and 'service directory management' can be set for expanding service scenes and meeting the diversity and personalized development of future services. The instruction library module in this embodiment may call a subset library parameter command to construct each service access configuration template, and effectively deal with the instruction parameter change after the device is upgraded.

In summary, the present invention establishes an IDC automatic service provisioning system, which can effectively reduce service provisioning time, improve provisioning efficiency and customer perception, and improve configuration accuracy and normalization. The invention also effectively reduces the probability of manual misoperation, lightens the workload of workers, meets the requirements of end-to-end opening in the aspect of cloud service development, and has good adaptability due to elastic modular design; the invention can expand the service scene and meet the diversity and personalized development of future services. The operation and management system of the invention is based on the resource work order, newly adds the opening configuration order, ensures the synchronization of the equipment configuration and the work order product, standardizes and defines the service access networking architecture, selects the configuration scene according to the requirement and ensures the configuration standard of the current network equipment. The arrangement center of the invention establishes the instruction library module, and can flexibly design the configuration template based on the service scene. Meanwhile, the configuration checking function is achieved, and the configuration parameters are guaranteed not to conflict. The arrangement center of the invention is provided with the instruction library module, so that the equipment upgrading can be dealt with, and the instruction change of the new equipment manufacturer for network access can be flexibly modified.

Claims (10)

1. An IDC automatic service opening system is characterized in that: the system comprises a transportation and management system, an arrangement center and network equipment; a configuration single-opening module is arranged in the pipe conveying system and connected with an interface interaction module; the arrangement center comprises an instruction base module, an instruction template module, a checking module and an instruction issuing module; the instruction library module is connected with the instruction template module, and the instruction template module is connected with the interface interaction module; the instruction library module and the instruction template module are connected with the checking module together; the checking module is connected with the instruction issuing module, and the instruction issuing module is connected with the network equipment.

2. The IDC automatic service provisioning system according to claim 1, wherein: the transportation and management system is also internally provided with a resource work order module, an office data order module, a manual configuration module, a client confirmation module and a filing module; the resource work order module is connected with the office data order module; the office data single module is respectively connected with the manual configuration single module, the configuration single opening module and the client confirmation module; the manual configuration single module is connected with the configuration single open-close module; the client confirmation module is connected with the filing module.

3. The IDC automatic service provisioning system according to claim 1, wherein: the interface interaction module comprises a static interconnection module, a gateway interconnection module, a scattered family interconnection module and an expandable scene module.

4. Use of the IDC automatic service provisioning system according to any of claims 1-3, wherein: the operation and management system receives a service to obtain a resource work order, sends the resource work order to the configuration order opening module to open the configuration order, the interface interaction module is accessed to the networking architecture according to the requirement of the opened configuration order, a networking scene is selected according to the requirement, the arrangement center encapsulates and issues instructions, and the network equipment configures according to the issued instructions.

5. The use method of the IDC automatic service provisioning system according to claim 4, wherein: the operation and management system carries out service acceptance, a resource work order module generates a resource work order, the resource work order is transmitted to an office data order module to judge whether automatic configuration is carried out, if the automatic configuration is carried out, a configuration order opening module opens a configuration order according to the resource work order, if the automatic configuration is not carried out, a manual configuration module carries out manual configuration, after the manual configuration, a configuration order opening module opens the configuration order according to the result of the manual configuration, an interface interaction module requires to access a networking framework according to the opened configuration order, and a networking scene is selected according to needs; and meanwhile, the office data single module and the configuration single opening module feed back the processing result to the client confirmation module for confirming the client, and the filing module performs filing processing after the client confirms that no error exists.

6. The use method of the IDC automatic service provisioning system according to claim 5, wherein: the interface interaction module executes a single-link static interconnection scene and an aggregation group static interconnection scene through the static interconnection module, executes a gateway interconnection scene through the gateway interconnection module, executes a scattered household interconnection scene through the scattered household interconnection module, and executes equipment updating and new equipment network accessing through the expandable scene module.

7. The use method of the IDC automatic service provisioning system according to claim 6, wherein: the single-link static interconnection scene comprises a single-link static access scene, a single-link static change scene and a single-link static logout scene; the single-link static access scene is that the client equipment executes the single-link static interconnection scene access through a static interconnection module, three layers of interconnection are configured with the client equipment, a service address field statically points to a client side, an OSPF (open shortest Path first) domain in a machine room is introduced, a service network is opened, and an automatic opening configuration list is correspondingly formed according to the resource work order type; the single-link static change scene is that when a client needs to expand IP resources, a newly added IP end points to a client port and an OSPF domain in the machine room is introduced, or when the client needs to expand the IP resources, three layers of ports are configured to be interconnected, a service address field points to the client side statically and the OSPF domain in the machine room is introduced; the single-link static logout scene is that a configuration recovery template is called uniformly, a client part reduces the volume of IP (Internet protocol), port resources or all resources are logged out, and corresponding network resource products in a logout resource work order and a sending configuration are deleted uniformly in a configuration list;

the aggregation group static interconnection scene comprises an aggregation group static access scene, an aggregation group static change scene and an aggregation group static logout scene; the static interconnection scene of the aggregation group is that the client equipment executes the static interconnection scene access of the aggregation group through a static interconnection module, establishes three layers of interconnection between a logic port and the configuration thereof, statically points to a client side in a service address field, introduces an OSPF (open shortest path first) domain in a machine room, opens a service network, and corresponds to an automatic opening configuration list according to the resource work order type; the static change scene of the aggregation group is that when a client needs to expand IP resources, a newly added IP end points to an interface of interconnection aggregation according to the client requirement and an OSPF domain in a machine room is introduced; or when the client needs to expand the port resources, the three layers of interconnection of the ports are configured, the service address field statically points to the client side, and an OSPF domain in the computer room is introduced; the static logout scene of the aggregation group is to uniformly call a configuration recovery template, a client part reduces the volume of IP (Internet protocol), port resources or all resources to logout, and uniformly logout, delete, issue and configure corresponding network resource products in a resource work order in a configuration list.

8. The use method of the IDC automatic service provisioning system according to claim 6, wherein: the gateway interconnection scene comprises a gateway access scene, a gateway change scene and a gateway logout scene; when a client selects a gateway access scene, a service address field is configured in a machine room network device, a client host is accessed, a direct connection service address configuration prefix list is introduced into an OSPF (open shortest Path first) domain in a machine room, and a service network is opened; when a client selects a gateway to change scenes, IP expansion selects vlan if the storage is open, a secondary address segment is configured, vlan if address capacity is improved, an OSPF domain in a machine room is introduced through a prefix list, and a service network is opened; expanding the port, selecting the vlan if with the opened stock, and marking the newly added port into the vlan if; when a client selects a gateway logout scene, a configuration recovery template is called uniformly, partial volume reduction IP, port resources or all resources of the client are logout, and corresponding network resource products in a logout resource work order and a distribution configuration are deleted uniformly in a configuration list.

9. The use method of the IDC automatic service provisioning system according to claim 6, wherein: the household interconnection scene comprises a household access scene and a household logout scene; when a client selects a scattered client access scene, a scattered client access switch is pre-deployed under each machine room line, and one network segment provides a plurality of scattered clients for access; when the customer selects the customer logout scene, the configuration recovery template is called uniformly, the customer partially reduces the volume IP, port resources or all resources to logout, and corresponding network resource products in the logout resource work order and the issuing configuration are deleted uniformly in the configuration list.

10. The use method of the IDC automatic service provisioning system according to claim 4, wherein: the instruction encapsulation of the arrangement center is firstly matched in an instruction template module according to a networking scene, if a corresponding instruction template exists, the instruction encapsulation is checked by using a checking template module, and after the checking is passed, the instruction issuing module issues an instruction to the network equipment for configuration; if the corresponding instruction template does not exist or the corresponding instruction template is different in checking, adding and editing the instruction by using the instruction library module, enabling the instruction library module to adapt to the networking scene, and then issuing the instruction to the network equipment for configuration by using the instruction issuing module.

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