CN114567546B - IDC automatic service opening system and use method - Google Patents
IDC automatic service opening system and use method Download PDFInfo
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- 230000008859 change Effects 0.000 claims description 26
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- H04L41/00—Arrangements for maintenance, administration or management of data switching networks, e.g. of packet switching networks
- H04L41/08—Configuration management of networks or network elements
- H04L41/0876—Aspects of the degree of configuration automation
- H04L41/0886—Fully automatic configuration
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L41/00—Arrangements for maintenance, administration or management of data switching networks, e.g. of packet switching networks
- H04L41/08—Configuration management of networks or network elements
- H04L41/0876—Aspects of the degree of configuration automation
- H04L41/0879—Manual configuration through operator
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Abstract
The invention discloses an IDC automatic service opening system and a use method thereof, comprising a transportation management system, an arrangement center and network equipment; a configuration list opening module is arranged in the transportation management system, and the configuration list opening module is 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 invention can automatically open IDC service, effectively reduce service opening time, improve opening efficiency and reduce error rate of manual operation.
Description
Technical Field
The invention relates to the field of telecommunication technology application, in particular to an IDC automatic service opening system and a use method thereof.
Background
The internet data center (INTERNET DATA CENTER) is abbreviated as IDC, which is the omnibearing service of the telecommunication department in aspects of server hosting, renting, relevant increment and the like, by utilizing the existing internet communication line and bandwidth resources to establish a standardized telecom professional machine room environment for enterprises and governments. At present, the opening of IDC service by telecommunication departments 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 operation requirements of modern telecommunication enterprises are difficult to adapt.
Disclosure of Invention
The invention aims to provide an IDC automatic service opening system and a use method thereof. The invention can automatically open IDC service, effectively reduce service opening time, improve opening efficiency and reduce error rate of manual operation.
The technical scheme of the invention is as follows: an IDC automatic service opening system comprises a transportation management system, an arrangement center and network equipment; a configuration list opening module is arranged in the transportation management system, and the configuration list opening module is 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 IDC automatic service opening system is characterized in that a resource work order module, a office data order module, a manual configuration module, a client confirmation module and an archiving module are also arranged in the transportation and management system; the resource work order module is connected with the office data order module; the office data list module is respectively connected with the manual configuration list module, the configuration list opening module and the client confirmation module; the manual configuration list module is connected with the configuration list opening module; and the client confirmation module is connected with the archiving module.
In the IDC automatic service opening system, the interface interaction module comprises a static interconnection module, a gateway interconnection module, a scattered household interconnection module and an expandable scene module.
According to the application method of the IDC automatic service opening system, the service handling system receives the service to obtain the resource work order, the resource work order is sent to the configuration order opening module to open the configuration order, the interface interaction module is required to access the networking architecture according to the opened configuration order, networking scenes are selected according to requirements, then the programming center packages and issues the instructions, and the network equipment is configured according to the issued instructions.
According to the application method of the IDC automatic service opening system, the service handling system carries out service acceptance, the resource work order module carries out resource work order generation, the resource work order is transmitted to the office data order module to judge whether automatic configuration is carried out, if automatic configuration is carried out, the configuration order opening module carries out opening of the configuration order according to the resource work order, if automatic configuration is not carried out, the manual configuration module carries out manual configuration, after manual configuration, the configuration order opening module carries out opening of the configuration order according to the result of manual configuration, and the interface interaction module accesses a networking architecture according to the requirement of the opened configuration order, and selects networking scenes according to requirements; and the office data sheet module and the configuration sheet opening module feed back the processing result to the client confirmation module to confirm the client, and the archiving module carries out archiving processing after the client confirms the client without errors.
According to the application method of the IDC automatic service opening system, the interface interaction module executes a single-link static interconnection scene and an aggregation group static interconnection scene by the static interconnection module, 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 equipment updating and new equipment network access.
The application method of the IDC automatic service opening system comprises the steps that the single-link static interconnection scene comprises a single-link static access scene, a single-link static change scene and a single-link static cancellation scene; the single-link static access scene is that client equipment executes single-link static interconnection scene access through a static interconnection module, three layers of interconnection are configured with the single-link static interconnection scene access, a service address field is statically directed 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 configuration sheet is correspondingly opened according to a resource work sheet type; the single link static change scene is that when a customer needs to expand IP resources, a newly added IP end is directed to a customer port and is introduced into an OSPF domain in a machine room, or when the customer needs to expand the resources of the port, three layers of interconnection ports are configured, a service address segment is statically directed to the customer side and is introduced into the OSPF domain in the machine room; the single link static cancellation scene is a configuration recovery template which is uniformly called, the client part reduces the capacity of the IP, the port resources or all the resources are cancelled, and corresponding network resource products in the cancellation resource work order are uniformly cancelled in the configuration order, and the issuing configuration is deleted;
The aggregation group static interconnection scene comprises an aggregation group static access scene, an aggregation group static change scene and an aggregation group static cancellation scene; the aggregation group static interconnection scene is that client equipment executes aggregation group static interconnection scene access through a static interconnection module, a logic port is established to be in three-layer interconnection with configuration of the client equipment, a service address field is statically directed 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 configuration list is correspondingly opened according to a resource work list type; the static change scene of the aggregation group is that when a client needs to expand IP resources, a newly added IP end is directed to an interconnection aggregation interface according to the client requirement, and an OSPF domain in a machine room is introduced; or when the customer needs to expand the port resource, three layers of interconnection of ports are configured, the service address field is statically directed to the customer side, and an OSPF domain in the machine room is introduced; the static logout scene of the aggregation group is to uniformly call a configuration recovery template, log out the client part volume-reduced IP, port resources or all resources, uniformly log out corresponding network resource products in a resource work order in a configuration list, and delete the issuing configuration.
The application method of the IDC automatic service opening system comprises the steps that the gateway interconnection scene comprises a gateway access scene, a gateway change scene and a gateway cancellation scene; when a client selects a gateway access scene, a service address section is configured in a machine room network device, a client host is accessed, and a direct connection service address configuration prefix list is introduced into an OSPF (open shortest path first) domain in the machine room to open a service network; when a client selects a gateway to change a scene, IP expansion selects Vlanif with opened stock, configures a secondary address segment, improves Vlanif address capacity, introduces an OSPF (open shortest path first) domain in a machine room through a prefix list, and opens a service network; port expansion selects Vlanif with the stock open, and the newly added port is marked into Vlanif; when the client selects the gateway logout scene, the configuration recovery template is uniformly called, the client part volume-reduced IP, port resources or all resources are logout, corresponding network resource products in the logout resource work order are uniformly deleted in the configuration list, and the issuing configuration is deleted.
The application method of the IDC automatic service opening system comprises the steps that the scattered user interconnection scene comprises a scattered user access scene and a scattered user cancellation scene; when a customer selects a scattered user access scene, pre-deploying scattered user access switches under each machine room line, and providing a plurality of scattered customer accesses by one network segment; when the client selects the scattered user logout scene, the configuration recovery template is uniformly called, the client reduces the volume of the IP, ports or all the resources to logout, corresponding network resource products in the logout resource work order are uniformly used in the configuration list, and the issuing configuration is deleted.
According to the application method of the IDC automatic service opening system, the instruction package of the arrangement center is matched in the instruction template module according to networking scenes, if a corresponding instruction template exists, the instruction is checked by the checking template module, and after the checking is passed, the instruction is issued to the network equipment by the instruction issuing module for configuration; if the corresponding instruction templates do not exist or the instruction templates are checked differently, the instruction library module is utilized to carry out the new addition and editing of the instructions, so that the instructions are issued to the network equipment for configuration through the instruction issuing module after the instructions are adapted to the networking scene.
Compared with the prior art, the IDC automatic service opening system is established, the service opening time can be effectively reduced, the opening efficiency and the customer perception degree are improved, and meanwhile, the configuration accuracy and the standardization are improved. The invention also effectively reduces the probability of manual misoperation, lightens the workload of staff, and has good adaptability in dealing with the cloud service development and end-to-end opening requirements in the elastic modular design; the invention can expand service scene and meet the diversity and personalized development of future service. The transportation management system of the invention is based on the resource work order, newly adds the configuration order, ensures the synchronization of equipment configuration and work order products, standardizes and defines the service access networking architecture, selects the configuration scene according to the requirement, and ensures the configuration specification of the existing network equipment. The programming center establishes the instruction library module, and can flexibly design the configuration template based on the service scene. Meanwhile, the configuration checking function is provided, and the configuration parameters are ensured not to conflict. The arrangement center of the invention is provided with the instruction library module, thus the equipment is updated, and the change of the network access instruction of a new equipment manufacturer can be flexibly modified.
Drawings
FIG. 1 is a schematic diagram of the system of the present invention;
FIG. 2 is a schematic diagram of a single link static access scenario;
FIG. 3 is a schematic diagram of expanding IP resources in a single link static change scenario;
FIG. 4 is a schematic diagram of a capacity expansion port resource in a single link static change scenario;
FIG. 5 is a schematic diagram of an aggregation group static interconnect scenario;
FIG. 6 is a schematic diagram of capacity-expanding IP resources in an aggregate static change scenario;
FIG. 7 is a schematic diagram of capacity expansion port resources in an aggregate static change scenario;
fig. 8 is a schematic diagram of a gateway interconnection scenario and a scattered household interconnection scenario;
Fig. 9 is a schematic diagram of a gateway modification scenario.
Reference numerals
1. A transportation pipe system; 2. an orchestration center; 3. a network device; 4. a configuration list 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. a office data sheet module; 12. manually configuring a module; 13. a client confirmation module; 14. an archiving module; 15. static interconnection modules; 16. a gateway interconnection module; 17. a scattered household interconnection module; 18. the scene module can be expanded.
Detailed Description
The invention is further described in connection with the accompanying drawings and examples which are not to be construed as limiting the invention, but are intended to cover the full scope of the claims and will become more fully apparent to those of ordinary skill in the art from the following examples.
Examples: an IDC automatic service opening system, as shown in figure 1, comprises a transportation management system 1, an arrangement center 2 and network equipment 3; a configuration list opening module 4 is arranged in the transportation pipe system 1, and the configuration list opening module 4 is connected with an interface interaction module 5; the system 1 is also internally provided with a resource work order module 10, a office data order module 11, a manual configuration module 12, a client confirmation module 13 and an archiving module 14; the resource work order module 10 is connected with the office data order module 11; the office data sheet module 11 is respectively connected with a manual configuration sheet module, a configuration sheet opening module 4 and a client confirmation module 13; the manual configuration list module is connected with the configuration list opening module 4; the client validation module 13 is connected to an archiving module 14. The interface interaction module 5 comprises a static interconnection module 15, a gateway interconnection module 16, a scattered household 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.
According to the application method of the IDC automatic service opening system, the service handling system receives the service to obtain the resource work order, the resource work order is sent to the configuration order opening module to open the configuration order, the interface interaction module is required to access the networking architecture according to the opened configuration order, networking scenes are selected according to requirements, then the programming center packages and issues the instructions, and the network equipment is configured 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, VLANif description, next hop IP, url, exit speed limit, two-layer vlanID, VLANif, service interconnection IP (/ mask), destination IP address field (/ mask), tag number, and entry speed limit; the configuration type is that the interface interaction module executes a single-link static interconnection scene and an aggregation group static interconnection scene by the static interconnection module, 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 updating of equipment and the networking of new equipment.
The single-link static interconnection scene comprises a single-link static access scene, a single-link static change scene and a single-link static cancellation scene; as shown in fig. 2, the single link static access scenario is that the client device executes single link static interconnection scenario access through the static interconnection module, and configures three layers of interconnection with the client device, a service address segment statically points to a client side, and introduces an OSPF domain in a machine room to open a service network, and corresponds to an automatic configuration sheet according to a resource work sheet type; 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 is directed to a client port and introduced into an OSPF domain in a machine room; as shown in fig. 4, or when a client needs to expand port resources, three layers of interconnection of ports are configured, a service address field is statically directed to the client side, and an OSPF domain in a machine room is introduced; the single link static cancellation scene is a configuration recovery template which is uniformly called, the client part reduces the capacity of the IP, the port resources or all the resources are cancelled, and corresponding network resource products in the cancellation resource work order are uniformly cancelled in the configuration order, and the issuing configuration is deleted; the static route of the port after issuing is directed to synchronously clean up without filling any parameter when the static cancellation scene of the single link recovers the port and the IP; when only recovering the IP, the user does not need to fill any parameter, and synchronously opens the parameters, and under the condition that the IP points to a plurality of interfaces, the user selects the corresponding interfaces to delete the static route configuration on the interfaces one by one.
The aggregation group static interconnection scene comprises an aggregation group static access scene, an aggregation group static change scene and an aggregation group static cancellation scene; as shown in fig. 5, the aggregation group static interconnection scenario is that the client device executes the aggregation group static interconnection scenario access through the static interconnection module, establishes a logical port and three layers of interconnection configured by the logical port, the service address segment statically points to the client side, introduces an OSPF domain in the machine room, opens the service network, and corresponds to an automatic configuration list according to the resource work list category; and establishing an aggregation group under the static interconnection scene of the aggregation group, configuring aggregation interconnection, independently issuing configuration by N ports, dividing physical ports into corresponding aggregation group IDs according to requirements, and directing a static route of a service network segment 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 is directed to an interface of interconnection aggregation according to the client's needs, and an OSPF domain in a machine room is introduced; as shown in fig. 7, or when a client needs to expand the port resources, three layers of interconnection of ports are configured, the service address field is statically directed to the client side, and an OSPF domain in the machine room is introduced; under the static change scene of the aggregation group, if the newly added port utilizes the old stock aggregation, the aggregation group ID fills in the opened aggregation ID; the Vlan and interconnection IP automatic system synchronization gray cannot be edited, and filling is not needed. And when the newly added port starts up the aggregation group, filling in a new digital ID, vlan, interconnection IP and the like, and sequentially filling in the issuing configuration, wherein one aggregation can issue a plurality of service address segments as required. As shown in FIG. 8, the static logout scenario of the aggregation group is to uniformly call a configuration recovery template, log out the client part volume-reduced IP, port resources or all resources, uniformly log out corresponding network resource products in the resource work order in the configuration list, and delete the configuration. Under the static logout scene of the aggregation group, no parameters are required to be filled in when the port and the IP are recovered, and the parameters are synchronously opened. 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 aggregate after the "partial recovery" issue. When only recovering the IP, the user does not need to fill any parameter, and synchronously opens the parameters, and under the condition that the IP points to a plurality of interfaces, the user selects the corresponding interfaces to delete the static route configuration on the interfaces one by one.
The gateway interconnection scene comprises a gateway access scene, a gateway change scene and a gateway logout scene; as shown in fig. 8, when a client selects a gateway access scenario, a service address segment is configured in a machine room network device, a client host accesses, and a direct connection service address configuration prefix list is introduced into an OSPF domain in the machine room to open a service network; under the gateway access scene, a client host accesses, a service address section gateway falls into the access scene of the machine room equipment, and the gateway access definition: the IP resources form independent segments, exclusive Vlanif address pools. As shown in fig. 9, when the client selects the gateway to change the scene, the IP expansion selects Vlanif with open storage, configures a secondary address field, improves Vlanif address capacity, and introduces an OSPF domain in the machine room through a prefix list to open the service network; port expansion selects Vlanif with the stock open, and the newly added port is marked into Vlanif; when the client selects the gateway logout scene, the configuration recovery template is uniformly called, the client part volume-reduced IP, port resources or all resources are logout, corresponding network resource products in the logout resource work order are uniformly deleted in the configuration list, and the issuing configuration is deleted. When the gateway logs off the scene and recovers the port and the IP, no parameter is required to be filled in, and the parameters are synchronously opened. The "logout" issue is followed by cleaning up the port configuration and deleting the entire Vlanif. The port only culls Vlanif after the "partial recovery" issue. When only changing, the parameters are not required to be filled in, and the parameters are synchronously opened. Only IP recovery, "cancellation is consistent with partial recovery"; under the condition that the IP points to a plurality of aggregation group interfaces, the corresponding interfaces are selected to delete the static route configuration one by one. The scattered households do not relate to separate 'IP product part recovery', and the IP addresses of the scattered households correspond to ports and are released synchronously.
The scattered user interconnection scene comprises a scattered user access scene and a scattered user cancellation scene; when a customer selects a scattered user access scene, pre-deploying scattered user access switches under each machine room line, and providing a plurality of scattered customer accesses by one network segment; as shown in fig. 8, in the loose-subscriber access scenario, the client host accesses, the service address section gateway falls in the access scenario of the machine room device, and the loose-subscriber access definition: the IP resources are sporadic, and an independent network segment cannot be formed; a Vlanif address pool is shared. When the client selects the scattered user logout scene, the configuration recovery template is uniformly called, the client reduces the volume of the IP, ports or all the resources to logout, corresponding network resource products in the logout resource work order are uniformly used in the configuration list, and the issuing configuration is deleted. The access and cancellation in the scattered-user interconnection scene are the same as the gateway access scene.
Preferably, the operation management system performs service acceptance, the resource work order module generates a resource work order, the resource work order is transferred to the office data order module to judge whether the configuration is automatic, if the configuration is automatic, the configuration list opening module opens the configuration list according to the resource work order, if the configuration is not automatic, the manual configuration module performs manual configuration, the configuration list opening module opens the configuration list according to the manual configuration result after the manual configuration, the interface interaction module accesses the networking architecture according to the requirement of the opened configuration list, and networking scenes are selected according to requirements; and the office data sheet module and the configuration sheet opening module feed back the processing result to the client confirmation module to confirm the client, and the archiving module carries out archiving processing after the client confirms the client without errors. The technical scheme can enable the business process to be more standard.
Preferably, the instruction package of the arrangement center is matched in an instruction template module according to the networking scene, if a corresponding instruction template exists, the instruction is checked by 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 templates do not exist or the instruction templates are checked differently, the instruction library module is utilized to carry out the new addition and editing of the instructions, so that the instructions are issued to the network equipment for configuration through the instruction issuing module after the instructions are adapted to the networking scene. In this embodiment, the programming center command module is designed elastically; and can set up "service directory management", is used for expanding the business scene, meet the diversity of the future business, individuation develop. The command library module in the embodiment can call the subset library parameter command to construct each service access configuration template, so that the command parameter change after the equipment upgrading is effectively performed.
In summary, the invention establishes an IDC automatic service opening system, which can effectively reduce service opening time, improve opening efficiency and customer perception, and simultaneously improve configuration accuracy and standardization. The invention also effectively reduces the probability of manual misoperation, lightens the workload of staff, and has good adaptability in dealing with the cloud service development and end-to-end opening requirements in the elastic modular design; the invention can expand service scene and meet the diversity and personalized development of future service. The transportation management system of the invention is based on the resource work order, newly adds the configuration order, ensures the synchronization of equipment configuration and work order products, standardizes and defines the service access networking architecture, selects the configuration scene according to the requirement, and ensures the configuration specification of the existing network equipment. The programming center establishes the instruction library module, and can flexibly design the configuration template based on the service scene. Meanwhile, the configuration checking function is provided, and the configuration parameters are ensured not to conflict. The arrangement center of the invention is provided with the instruction library module, thus the equipment is updated, and the change of the network access instruction of a new equipment manufacturer can be flexibly modified.
Claims (6)
1. An IDC automatic service opening system is characterized in that: the system comprises a transportation system, an arrangement center and network equipment; a configuration list opening module is arranged in the transportation management system, and the configuration list opening module is 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 network management system receives the 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 accesses the networking architecture according to the requirement of the opened configuration order, selects networking scenes according to the requirement, and then the arrangement center encapsulates and issues the instructions, and the network equipment configures according to the issued instructions.
The system comprises a management system, a resource work order module, a local data list module, a configuration list opening module, a manual configuration module, a configuration list opening module, an interface interaction module, a networking framework, a network scene selection module and a network scene selection module, wherein the management system carries out service acceptance, the resource work order module carries out generation of a resource work order, the resource work order is transmitted to the local data list module to judge whether the configuration is automatic or not, if the configuration is automatic, the configuration list opening module carries out opening of the configuration list according to the resource work order, if the configuration is not automatic, the manual configuration module carries out manual configuration, the configuration list opening module carries out opening of the configuration list according to the manual configuration result after the manual configuration, and the interface interaction module accesses the networking framework according to the requirement of the opened configuration list; meanwhile, the office data sheet module and the configuration sheet opening module feed back the processing results to the client confirmation module to confirm the client, and the archiving module carries out archiving processing after the client confirms the client without errors;
The interface interaction module executes a single-link static interconnection scene and an aggregation group static interconnection scene by the static interconnection module, 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 equipment updating and new equipment networking.
The single-link static interconnection scene comprises a single-link static access scene, a single-link static change scene and a single-link static cancellation scene; the single-link static access scene is that client equipment executes single-link static interconnection scene access through a static interconnection module, three layers of interconnection are configured with the single-link static interconnection scene access, a service address field is statically directed 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 configuration sheet is correspondingly opened according to a resource work sheet type; the single link static change scene is that when a customer needs to expand IP resources, a newly added IP end is directed to a customer port and is introduced into an OSPF domain in a machine room, or when the customer needs to expand the resources of the port, three layers of interconnection ports are configured, a service address segment is statically directed to the customer side and is introduced into the OSPF domain in the machine room; the single link static cancellation scene is a configuration recovery template which is uniformly called, the client part reduces the capacity of the IP, the port resources or all the resources are cancelled, and corresponding network resource products in the cancellation resource work order are uniformly cancelled in the configuration order, and the issuing configuration is deleted;
The aggregation group static interconnection scene comprises an aggregation group static access scene, an aggregation group static change scene and an aggregation group static cancellation scene; the aggregation group static interconnection scene is that client equipment executes aggregation group static interconnection scene access through a static interconnection module, a logic port is established to be in three-layer interconnection with configuration of the client equipment, a service address field is statically directed 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 configuration list is correspondingly opened according to a resource work list type; the static change scene of the aggregation group is that when a client needs to expand IP resources, a newly added IP end is directed to an interconnection aggregation interface according to the client requirement, and an OSPF domain in a machine room is introduced; or when the customer needs to expand the port resource, three layers of interconnection of ports are configured, the service address field is statically directed to the customer side, and an OSPF domain in the machine room is introduced; the static logout scene of the aggregation group is to uniformly call a configuration recovery template, log out the client part volume-reduced IP, port resources or all resources, uniformly log out corresponding network resource products in a resource work order in a configuration list, and delete the issuing configuration.
2. The IDC automatic service opening system according to claim 1, wherein: the system comprises a transport management system, a management system and a management system, wherein the transport management system is internally provided with a resource work order module, a local data order module, a manual configuration module, a client confirmation module and an archiving module; the resource work order module is connected with the office data order module; the office data list module is respectively connected with the manual configuration list module, the configuration list opening module and the client confirmation module; the manual configuration list module is connected with the configuration list opening module; and the client confirmation module is connected with the archiving module.
3. The IDC automatic service opening system according to claim 1, wherein: the interface interaction module comprises a static interconnection module, a gateway interconnection module, a scattered household interconnection module and an expandable scene module.
4. The IDC automatic service opening system according to claim 1, 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 section is configured in a machine room network device, a client host is accessed, and a direct connection service address configuration prefix list is introduced into an OSPF (open shortest path first) domain in the machine room to open a service network; when a client selects a gateway to change a scene, IP expansion selects Vlanif with opened stock, configures a secondary address segment, improves Vlanif address capacity, introduces an OSPF (open shortest path first) domain in a machine room through a prefix list, and opens a service network; port expansion selects Vlanif with the stock open, and a newly added port is marked into Vlanif; when the client selects the gateway logout scene, the configuration recovery template is uniformly called, the client part volume-reduced IP, port resources or all resources are logout, corresponding network resource products in the logout resource work order are uniformly deleted in the configuration list, and the issuing configuration is deleted.
5. The IDC automatic service opening system according to claim 1, wherein: the scattered user interconnection scene comprises a scattered user access scene and a scattered user cancellation scene; when a customer selects a scattered user access scene, pre-deploying scattered user access switches under each machine room line, and providing a plurality of scattered customer accesses by one network segment; when the client selects the scattered user logout scene, the configuration recovery template is uniformly called, the client reduces the volume of the IP, ports or all the resources to logout, corresponding network resource products in the logout resource work order are uniformly used in the configuration list, and the issuing configuration is deleted.
6. The IDC automatic service opening system according to claim 4, wherein: the instruction encapsulation of the arrangement center is to match the instruction template module according to the networking scene, if a corresponding instruction template exists, the instruction template module is utilized to check, and after the verification is passed, the instruction issuing module issues the instruction to the network equipment for configuration; if the corresponding instruction templates do not exist or the instruction templates are checked differently, the instruction library module is utilized to carry out the new addition and editing of the instructions, so that the instructions are issued to the network equipment for configuration through the instruction issuing module after the instructions are adapted to the networking scene.
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