CN111901412B

CN111901412B - Data processing method and computer readable storage medium

Info

Publication number: CN111901412B
Application number: CN202010728861.7A
Authority: CN
Inventors: 徐浩
Original assignee: Ping An Technology Shenzhen Co Ltd
Current assignee: Ping An Technology Shenzhen Co Ltd
Priority date: 2020-07-24
Filing date: 2020-07-24
Publication date: 2022-12-20
Anticipated expiration: 2040-07-24
Also published as: WO2021114874A1; CN111901412A

Abstract

The embodiment of the application provides a data processing method and a computer readable storage medium, wherein the method comprises the following steps: the network service equipment receives a network configuration request submitted by the terminal equipment, wherein the network configuration request carries network configuration information, and the network configuration information comprises an access mode, an access object list and a scheduling mode; when the access mode of the network service equipment is three-layer switching, the network service equipment acquires configuration data of the service equipment according to the network configuration information and sends the configuration data to the service equipment; the service equipment completes the configuration of a Border Gateway Protocol (BGP) according to the configuration data so as to make a route between first network equipment pointed by the network configuration request and second network equipment of the access object indicated by the access object list break through; and the network service equipment acquires the scheduling information indicated by the scheduling mode and sends the scheduling information to the terminal equipment so as to realize the access of the first network equipment to the second network equipment. By the method and the device, service opening efficiency can be improved.

Description

Data processing method and computer readable storage medium

Technical Field

The present application relates to the field of communications technologies, and in particular, to a data processing method and a computer-readable storage medium.

Background

The Internet is a global network formed by connecting a plurality of networks, and an Internet Exchange Point (IXP) is a novel foreign network Exchange model. The Internet Service Provider (ISP), the Internet Content Provider (ICP) and the ICP as well as the ISP and the ICP realize mutual access, so that the peer of each IXP realizes the exchange of contents. The Internet exchange platform can realize peer-to-peer interconnection of the border gateway protocol BGP, thereby realizing access between ISP and ICP through direct connection lines, further improving the content quality of terminal network users accessing ICP, and being more easy for ICP users to monitor the service network quality of the ICP users through the content exchange platform and not influenced by the networks of three complex operators. From the cost perspective of ICP and ISP: on the one hand, the bandwidth of part of ISP for accessing the Internet is saved, and on the other hand, the cost of three operators is reduced by ICP. The network architecture of IXP is therefore used in medium and small ISPs and large ICP companies.

However, in the existing IXP platform, the service is opened, and the problem that the user cannot self-help the service, and after the service is opened, the scheduling of the ISP to the content flow is not ideal is solved. After the user applies for the access of the IXP, the configuration needs to be manually issued by an engineer, so that the service opening period is long, and the service opening efficiency is low.

Disclosure of Invention

The embodiment of the application provides a data processing method and a computer readable storage medium, which can improve the service opening efficiency.

In a first aspect, an embodiment of the present application provides a data processing method, including:

the network service equipment receives a network configuration request submitted by the terminal equipment, wherein the network configuration request carries network configuration information, and the network configuration information comprises an access mode, an access object list and a scheduling mode;

when the access mode is three-layer switching, the network service equipment acquires configuration data of the service equipment according to the network configuration information and sends the configuration data to the service equipment;

the service equipment receives the configuration data and completes configuration of a Border Gateway Protocol (BGP) according to the configuration data so as to make a route between first network equipment pointed by the network configuration request and second network equipment of the access object indicated by the access object list open;

and the network service equipment acquires the scheduling information indicated by the scheduling mode and sends the scheduling information to the terminal equipment, wherein the scheduling information is used for realizing the access of the first network equipment to the second network equipment.

Optionally, the issuing, by the network service device, the configuration data to the service device includes:

and the network service equipment south sends the configuration data to the service equipment through a Software Defined Network (SDN) platform.

Optionally, the network configuration information further includes routing information and BGP parameters, and the acquiring, by the network service device, configuration data for the service device includes:

the network service equipment inquires the routing information of the access object indicated by the access object list from a database;

and the network service equipment generates configuration data comprising the routing information of the access object indicated by the access object list, the routing information in the network configuration information and BGP parameters in the network configuration information as configuration data for service equipment.

Optionally, the method further comprises:

when the access mode of the network service equipment is two-layer switching, acquiring scheduling information indicated by the scheduling mode;

and the network service equipment returns the scheduling information to the terminal equipment.

Optionally, the network configuration information is network configuration information set by the terminal device through an ISP portal of a network service provider or network configuration information set by the terminal device through an ICP portal of a network content provider;

when the network configuration information is set through an ISP portal, the acquiring, by the network service device, scheduling information indicated by the scheduling mode includes:

when the network configuration information comprises indication information of not using a scheduling platform, the network service equipment acquires scheduling information of the access object indicated by the access object list;

and the network service equipment determines the scheduling information of the access object indicated by the access object list as the scheduling information indicated by the scheduling mode.

Optionally, the method further comprises:

when the network configuration information comprises instruction information for using the scheduling platform, the network service equipment acquires the scheduling information of the scheduling platform;

and the network service equipment determines the scheduling information of the scheduling platform as the scheduling information indicated by the scheduling mode.

Optionally, the scheduling manner includes any one of: routing, IP scheduling, DNS scheduling;

when the scheduling mode is the route, the scheduling information indicated by the scheduling mode is the route information of the access object indicated by the access object list;

when the scheduling mode is IP scheduling, the scheduling information indicated by the scheduling mode is the DNS IP address of the access object indicated by the access object list;

when the scheduling mode is DNS scheduling, the scheduling information indicated by the scheduling mode is a domain name of the content of the access object indicated by the access object list and a DNS IP address of the access object indicated by the access object list.

when the scheduling mode is the route, the scheduling information indicated by the scheduling mode is the route information of the scheduling platform;

when the scheduling mode is IP scheduling, the scheduling information indicated by the scheduling mode is a DNS IP address of the scheduling platform;

and when the scheduling mode is DNS scheduling, the scheduling information indicated by the scheduling mode is the domain name of the scheduling platform and the DNS IP address of the scheduling platform.

Optionally, the method further comprises:

the scheduling platform receives an access request of a user corresponding to the ISP for sending the content of the access object indicated by the access object list to scheduling equipment by using a user terminal;

and the scheduling platform performs content scheduling according to the access request of the access object indicated by the access object list.

In a second aspect, an embodiment of the present application provides a computer-readable storage medium, which stores a computer program, which is executed by a processor to implement any one of the methods performed by the network service device in the claims, or implement any one of the methods performed by the scheduling platform in the claims.

In summary, the network service device receives a network configuration request submitted by the terminal device, where the network configuration request carries network configuration information, and the network configuration information includes an access mode, an access object list, and a scheduling mode; when the access mode of the network service equipment is three-layer switching, the network service equipment acquires configuration data of the service equipment according to the network configuration information and transmits the configuration data to the service equipment, so that the configuration of a Border Gateway Protocol (BGP) is completed according to the configuration data, and the route between the first network equipment pointed by the network configuration request and the second network equipment of the access object indicated by the access object list is opened; and the network service equipment acquires the scheduling information indicated by the scheduling mode and sends the scheduling information to the terminal equipment to realize the access of the first network equipment to the second network equipment.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic flowchart of a data processing method provided in an embodiment of the present application;

FIG. 2 is a schematic flow chart diagram of another data processing method provided in the embodiments of the present application;

fig. 3 is a schematic diagram of a network architecture of a data processing system according to an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be described below with reference to the drawings in the embodiments of the present application.

Referring to fig. 1, a flow chart of a data processing method according to an embodiment of the present application is shown, where the method includes the following steps:

s101, a network service device receives a network configuration request submitted by a terminal device, wherein the network configuration request carries network configuration information, and the network configuration information comprises an access mode, an access object list and a scheduling mode.

The Network Service device may be, for example, a Network Service Provider (NSP) platform, and may implement the function of the IXP platform. The NSP platform can be implemented based on OPENSSTATK, and enables the neutron component. The network service device may include one or more service devices. The terminal equipment can be terminal equipment corresponding to an ISP (internet service provider) or terminal equipment corresponding to an ICP (inductively coupled plasma). The terminal equipment can be intelligent terminals such as a notebook computer and a desktop computer.

The access mode may be two-layer switching or three-layer switching. In the embodiment of the application, if the access mode is two-layer switching, the network service equipment does not need to send configuration data to the service equipment; if the access mode is three-layer switching, the network service equipment needs to send configuration data to the service equipment. The service device may be a service platform and may include one or more switches.

The access object list may include first identification information of the access object. The access object may be one or more. Specifically, if the terminal device is a terminal device corresponding to the ISP, the access object list may include first identification information, such as a name or a number, of an object that the ISP desires to access, and the object that the ISP desires to access may be another ISP or one or more ICPs. If the terminal device is a terminal device corresponding to the ICP, the access object list may include first identification information, such as a name or a number, of an object that the ICP wishes to access. The objects that the ICP wishes to access may be one or more ISPs.

Wherein, the scheduling mode may include any one of the following: routing, internet Protocol (IP) scheduling, domain Name System (DNS) scheduling. If the terminal device is a terminal device corresponding to the ISP, the scheduling manner may be a scheduling manner that the ICP can provide for accessing the object, for example, if the terminal device is a terminal device corresponding to the ICP, the scheduling manner may be a scheduling manner that the ICP can provide for accessing the object, for example, the ISP.

In one embodiment, when the terminal device is a terminal device corresponding to an ISP, the terminal device may submit a network configuration request to the network service device through an ISP Portal and the ISP Portal, and the network service device may access the network configuration request submitted by the terminal device. Accordingly, the network configuration information may be network configuration information set by the terminal device through the ISP portal. When the terminal equipment is the terminal equipment corresponding to the ICP, the terminal equipment can submit a network configuration request to the network service equipment through the ICP Portal and the ICP Portal, and the network service equipment receives the network configuration request submitted by the terminal equipment. Accordingly, the network configuration information may be network configuration information set by the terminal device through the ICP portal.

In one embodiment, if the network configuration information is network configuration information set by the terminal device through an ISP portal, the network configuration information may further include routing information and BGP parameters. The routing information here is routing information of an ISP, such as an IP address of the ISP. The BGP parameter herein is a parameter of the ISP for establishing a BGP neighbor, and specifically may be a parameter provided by the ISP and required for establishing the BGP neighbor between a network device and a service device corresponding to the ISP, such AS an Autonomous System (AS) number, a Bidirectional Forwarding Detection (BFD) parameter, and a BGP password. In one embodiment, the network configuration information may include ISP categories in addition to routing information and BGP parameters. The ISP category may be large, medium or small, and the embodiment of the present application is not limited to the ISP type. In one embodiment, the above-mentioned routing information may also be replaced by a community value, i.e. the routing information of the ISP may be replaced by the community value of the ISP. The community value is an optional transmission attribute, which can be used to identify the corresponding route, and can simplify the routing policy.

In an application scenario, the terminal device is a terminal device corresponding to an ISP, and the terminal device may access the network service device and open an ISP Portal, that is, a Portal page provided by an ISP Portal. The user corresponding to the terminal device can set the network configuration information of the ISP based on the portal page, and sends a network configuration request to the network service device through the ISP portal, and the network service device can receive the network configuration request sent by the terminal device.

In one embodiment, the network service device may query whether the second identification information of the ISP exists in the database when receiving an access request for a portal page sent by a terminal device corresponding to the ISP through the ISP portal. The second identification information is here primarily intended to be distinguished from the aforementioned first identification information of the access object. The second identification information may include any one of the following: ISP's class and BGP parameters. And when the second identification information of the ISP exists in the inquired data, returning the portal page comprising the second identification information of the ISP to the terminal equipment, thereby avoiding the situation of repeated configuration of the user. Accordingly, when it is found that the second identification information of the ISP does not exist in the database, the portal page including the configuration item of the second identification information of the ISP may be returned to the terminal device, so that the terminal device configures the information, such as the second identification information of the ISP, based on the configuration item of the second identification information of the ISP.

In one embodiment, if the network configuration information is network configuration information set by the terminal device through the ICP portal, the network configuration information may further include routing information and BGP parameters. The routing information here is routing information for the ICP, such as the IP address of the ICP. The BGP parameter herein is a parameter of the ICP used for establishing a BGP neighbor, and specifically may provide the ICP with parameters, such AS an AS number, a BFD parameter, and a BGP password, required for the ICP to establish the BGP neighbor with the network device and the service device corresponding to the ICP. In one embodiment, the network configuration information may include ICP type in addition to routing information and BGP parameters. The ICP type may be commercial or non-commercial, or may be an e-commerce website, an internet advertisement website, a game website, an online transaction website, or a tour guide website, and the ICP type is not limited in this embodiment. In one embodiment, the above-mentioned routing information may also be replaced with a community value, i.e., the routing information of the ICP may be replaced with the community value of the ICP.

In an application scenario, the terminal device is a terminal device corresponding to the ICP, and the terminal device can access the network service device and open an ICP Portal, that is, a Portal page provided by the ICP Portal. The user corresponding to the terminal device can set the network configuration information of the ICP based on the portal page, and sends a network configuration request to the network service device through the ICP portal, and the network service device can receive the network configuration request sent by the terminal device.

In an embodiment, the network service device may query, when receiving an access request for a portal page sent by a terminal device corresponding to the ICP through the ICP portal, whether the second identification information of the ICP exists in the database. The second identification information is here primarily intended to be distinguished from the aforementioned first identification information of the access object. The second identification information may include any one of the following: classes of ICP and BGP parameters. And when the second identification information of the ICP exists in the data, returning the portal page comprising the second identification information of the ICP to the terminal equipment, thereby avoiding the situation of repeated configuration of the user. Accordingly, when the second identification information of the ICP does not exist in the database, the portal page including the configuration item of the second identification information of the ICP may be returned to the terminal device, so that the terminal device configures information such as the second identification information of the ICP based on the configuration item of the second identification information of the ICP.

S102, when the access mode is three-layer switching, the network service equipment acquires configuration data of the service equipment according to the network configuration information and sends the configuration data to the service equipment.

In this embodiment of the present application, in order to implement interconnection and interworking between the network device to which the network configuration request is directed and the access object indicated by the access object list, the network service device may obtain configuration data for the service device according to the network configuration information when it is determined that the access mode is three-layer switching, and send the configuration data to the service device. When the terminal device is a terminal device corresponding to an ISP, the terminal device indicated by the network configuration request may be the aforementioned network device corresponding to the ISP, and when the terminal device is a terminal device corresponding to an ICP, the network device to which the network configuration request is directed may be the aforementioned network device corresponding to the ICP. The process realizes automatic service issuing without intervention of engineers, and can improve service opening efficiency.

In one embodiment, the network service device may query the routing information of the access object indicated by the access object list from the database, and generate configuration data including the routing information of the access object indicated by the access object list as configuration data for the service device.

In one embodiment, when the network configuration information includes the routing information and the BGP parameter, the network service device may query the database for the routing information of the access object indicated by the access object list, and generate, as configuration data for the service device, the routing information of the access object indicated by the access object list, the routing information included in the network configuration information, and configuration data of the BGP parameter.

And S103, the service equipment receives the configuration data and completes configuration of a Border Gateway Protocol (BGP) according to the configuration data so as to make a route between first network equipment pointed by the network configuration request and second network equipment of the access object indicated by the access object list open.

In this embodiment of the application, the network service device may further send routing information of the service device, such as an IP address, to the terminal device, so that the first network device to which the network configuration request is directed (the network device to which the aforementioned network configuration request is directed) may establish a BGP connection with the service device according to the routing information of the service device, so as to implement a process of routing with the second network device of the access object indicated by the access object list (the network device of the access object indicated by the access object list). In an embodiment, the service device may send, after detecting that the network device to which the network configuration request is directed completes configuration of the BGP, a notification message of successful connection to the terminal device. Correspondingly, the service device may also establish a BGP connection with the second network device of the access object indicated by the access object list in the above manner, so as to implement a process of routing with the first network device to which the network configuration request is directed.

In one embodiment, the network configuration information set by the terminal device through the ISP portal is taken as an example. In the case that the route of the access object indicated by the access object list has no community value, the service device may mark the route of the access object indicated by the access object list with the community value. Or, in a case that neither the route of the ISP nor the route of the access object has a community value, the service device may mark the routes of the access object indicated by the ISP and the access object list with the community value. In one embodiment, the business device may store the community value obtained in the above manner in a database. In an embodiment, the business device may send the community value to the terminal device through the network service device, so that a local DNS server of the ISP can make a routing policy based on the community value, so that when a user corresponding to the ISP accesses the content of the access object indicated by the access object list, an access process may be implemented through the local DNS server.

S104, the network service equipment acquires the scheduling information indicated by the scheduling mode and sends the scheduling information to the terminal equipment, wherein the scheduling information is used for realizing the access of the first network equipment to the second network equipment.

The scheduling information may be scheduling information of an access object indicated by the access object list. When the scheduling manner is routing, the scheduling information may be routing information of the access object indicated by the access object list. When the scheduling mode is IP scheduling, the scheduling information may be a DNS IP address of the access object indicated by the access object list. When the scheduling mode is DNS scheduling, the scheduling information may be a domain name of the content of the access object indicated by the access object list and a DNS IP address of the access object indicated by the access object list.

In the embodiment of the application, the network service device may record the corresponding relationship among the access object, the scheduling mode and the scheduling information, and the network service device may determine, according to the access object indicated by the access object list, the scheduling mode and the corresponding relationship, that the corresponding scheduling information is used as the scheduling information indicated by the scheduling mode, and send the scheduling information to the terminal device, so as to implement access of the first network device to the second network device.

In an embodiment, when the configuration data includes scheduling information indicated by a scheduling manner, the service device may obtain the scheduling information indicated by the scheduling manner included in the configuration data, and send the scheduling information indicated by the scheduling manner to the first network device, so as to implement access of the first network device to the second network device. In one embodiment, the configuration data may include scheduling information that is obtained by the network serving device.

It can be seen that, in the embodiment shown in fig. 1, the network service device receives a network configuration request submitted by the terminal device, where the network configuration request carries network configuration information, and the network configuration information includes an access mode, an access object list, and a scheduling manner; when the access mode of the network service equipment is three-layer switching, the network service equipment acquires configuration data of the service equipment according to the network configuration information and sends the configuration data to the service equipment; the service equipment completes configuration of a Border Gateway Protocol (BGP) according to the configuration data so as to make a route break-through between first network equipment pointed by the network configuration request and second network equipment of the access object indicated by the access object list; the network service equipment acquires the scheduling information indicated by the scheduling mode to send the scheduling information to the terminal equipment, so that the first network equipment can access the second network equipment, the ISP and the ICP can realize self-help opening of peer-to-peer interconnection service in the process, and an engineer does not need to intervene in automatic service issuing, so that the service opening efficiency is improved, and data interaction between the ISP and the ISP or between the ISP and the ICP can be completed more safely, conveniently and quickly.

Please refer to fig. 2, which is a flowchart illustrating another data processing method according to an embodiment of the present disclosure. The method may specifically comprise the following steps.

S201, a network service device receives a network configuration request submitted by a terminal device, wherein the network configuration request carries network configuration information, and the network configuration information comprises an access mode, an access object list and a scheduling mode;

s202, when the access mode of the network service equipment is three-layer switching, acquiring configuration data of the service equipment according to the network configuration information, and sending the configuration data to the service equipment;

and S203, the service device receives the configuration data, and completes configuration of a border gateway protocol BGP according to the configuration data, so that a route is opened between the first network device to which the network configuration request is directed and the second network device of the access object indicated by the access object list.

And S204, the network service equipment acquires the scheduling information indicated by the scheduling mode and sends the scheduling information to the terminal equipment, wherein the scheduling information is used for realizing the access of the first network equipment to the second network equipment.

Steps S201 to S204 may refer to steps S101 to S104 in the embodiment of fig. 1, which is not described herein again in this embodiment of the present application.

S205, when the access mode of the network service equipment is two-layer switching, the scheduling information indicated by the scheduling mode is obtained.

S206, the network service equipment returns the scheduling information to the terminal equipment.

In this embodiment, the network service device may obtain the scheduling information indicated by the scheduling mode when the access mode is two-layer switching, and return the scheduling information to the terminal device. When the scheduling manner is routing, the scheduling information may be routing information of the access object indicated by the access object list. When the scheduling mode is IP scheduling, the scheduling information may be a DNS IP address of the access object indicated by the access object list. When the scheduling mode is DNS scheduling, the scheduling information may be a domain name of the content of the access object indicated by the access object list and a DNS IP address of the access object indicated by the access object list.

In an embodiment, the process of the network service device issuing the configuration data to the service device may be that the network service device issues the configuration data to the service device through a software defined network SDN platform in a southbound manner. In an embodiment, the network service device may specifically send the configuration data to the switch in the service device through a netconf protocol by the SDN platform. The SDN platform may be integrated in the network service device or may exist independent of the network service device.

In one embodiment, when the network configuration information is network configuration information set through an ISP portal, the network configuration information may further include indication information whether to use a scheduling platform. The scheduling platform may include one or more scheduling servers, for example, the scheduling platform may include a DNS server for domain name resolution and a Network Address Translation (NAT) server for Address Translation.

In an embodiment, when the network configuration information is network configuration information set through an ISP portal, the process of the network service device acquiring the scheduling information indicated by the scheduling manner is specifically that when the network configuration information includes indication information that a scheduling platform is not used, the network service device acquires scheduling information of an access object indicated by the access object list; the network service equipment determines the scheduling information of the access object indicated by the access object list and returned to the access object as the scheduling information indicated by the scheduling mode. Wherein, the scheduling mode comprises at least one of the following items: routing, IP scheduling, DNS scheduling.

In one embodiment, in the case that the network configuration information further includes indication information that does not use the scheduling platform, when the scheduling manner is a route, the scheduling information indicated by the scheduling manner is route information of an access object indicated by the access object list; when the scheduling mode is IP scheduling, the scheduling information indicated by the scheduling mode is the DNS IP address of the access object indicated by the access object list; when the scheduling mode is DNS scheduling, the scheduling information indicated by the scheduling mode is the domain name of the content of the access object indicated by the access object list and the DNS IP address of the access object indicated by the access object list.

In one embodiment, when the first network device to which the network configuration request is directed is a network device corresponding to an ISP and the access object indicated by the access object list is an ICP, the network device corresponding to the ISP may schedule an address library of the ICP through the API interface, and report an IP and a DNS of the ISP to a device corresponding to the ICP, so as to access the ICP.

In one embodiment, when the network configuration information includes indication information for using the scheduling platform, the network service device obtains scheduling information of the scheduling platform and determines the scheduling information of the scheduling platform as the scheduling information indicated by the scheduling mode. Wherein, the scheduling mode comprises at least one of the following items: routing, IP scheduling, DNS scheduling.

In one embodiment, in the case that the network configuration information further includes indication information of using the scheduling platform, when the scheduling manner is a route, the scheduling information indicated by the scheduling manner is the route information of the scheduling platform; and when the scheduling mode is IP scheduling, the scheduling information indicated by the scheduling mode is the DNS IP address of the scheduling platform. And when the scheduling mode is DNS scheduling, the scheduling information indicated by the scheduling mode is the domain name of the scheduling platform and the DNS IP address of the scheduling platform.

In the following, a brief description will be given of one of the ways how to access an access object without using a scheduling platform. In an embodiment, taking an ISP as an example, in a case that the ISP does not use a scheduling device, a user corresponding to the ISP may use a user terminal to send an access request for content of an access object to a local DNS server, and then access a service device through the local DNS server, and access the access object indicated by the access object list through the service device, which does not need to pass through a scheduling platform.

One of the ways how to access an access object in the case of using a scheduling platform will be briefly described below. In one embodiment, taking an ISP as an example, in a case where the ISP uses the scheduling platform, a user corresponding to the ISP may use a user terminal to send an access request for accessing the content of the access object list access object to the scheduling platform, so that the scheduling of the content is implemented by the scheduling platform. That is, the scheduling platform may receive an access request sent by a user corresponding to the ISP using the user terminal to access an access object indicated by the access object list, and perform content scheduling according to the access request.

In one embodiment, the process of the scheduling platform performing content scheduling according to the access request may be: the dispatching platform resolves the general domain name of the content according to the domain name carried by the access request, resolves an IP address for accessing the content through a service device of the access object indicated by the access object list, such as a DNS server of ICP, and then sends the IP address to the user terminal through the dispatching platform or the service device (whether the IP address is sent through the service device or not, which is determined according to the set access mode), and the user terminal accesses the device corresponding to ICP according to the IP address and the service device. Or the scheduling platform forwards the access request to the device corresponding to the ICP.

In an embodiment, if the scheduling mode is IP scheduling, the service device may issue a static route to the scheduling platform, and the scheduling platform may perform the static route to an exit, such as a NAP exit, after receiving the static route issued by the service device. Taking the access object indicated by the access list as the ICP as an example, the scheduling platform may configure the NAT in the border leaf, and report the egress IP of the scheduling platform to the ICP through an interface of an address base of the scheduling ICP, thereby completing the IP scheduling. And if the scheduling mode is DNS scheduling, the DNS strategy is issued to the scheduling platform through the NSP platform so as to issue a domain name list of ICP to the scheduling platform, thereby completing DNS scheduling.

As can be seen, in the embodiment shown in fig. 2, the network service device may also obtain the scheduling information indicated by the scheduling manner in the mode that the access mode is two-layer switching, and send the scheduling information indicated by the scheduling manner to the terminal device. In addition, the scheduling platform of the embodiment of the application can enable the ISP to obtain the content of the ICP more easily, reduces the cost of the ISP and the ICP, and improves the intranet of the ISP, thereby realizing the maximization of the benefits of the ISP and the ICP. In addition, through a content interaction platform, the ISP and the ICP can more autonomously control the content flow of the ISP and the ICP, so that better access quality is provided, and the ICP can better monitor the user dynamics of the ISP and solve the fault automatically and quickly.

Please refer to fig. 3, which is a schematic diagram of a network architecture of a data processing system according to the present disclosure. The data processing system may include: network service device 10, terminal device 20 and service device 30. The network service device 10 can establish communication with the terminal device 20 and the service device 30, respectively. Wherein:

terminal device 20 may submit a network configuration request to network service device 10. For example, the terminal device corresponding to the ISP may submit a network configuration request to the network service device through the ISP portal. The network service device 10 receives a network configuration request submitted by the terminal device 20, where the network configuration request carries network configuration information, and the network configuration information includes an access mode, an access object list, and a scheduling manner. When the access mode is three-layer switching, the network service device 10 acquires configuration data for the service device 30 according to the network configuration information, and sends the configuration data to the service device 30. The service device 30 receives the configuration data, and completes configuration of the border gateway protocol BGP according to the configuration data, so that a route is opened between the first network device to which the network configuration request is directed and the second network device of the access object indicated by the access object list. The network service device 10 obtains the scheduling information indicated by the scheduling mode, and sends the scheduling information to the terminal device 20, so as to implement access of the first network device to the second network device, and through configured self-service delivery, service opening efficiency can be improved.

In another embodiment of the present application, a computer-readable storage medium is provided, which stores a computer program, where the computer program includes program instructions, and the program instructions, when executed by a processor, implement the implementation described in the method implementation described in fig. 1 or fig. 2 provided in this application, where the computer-readable storage medium may be an internal storage unit, such as a hard disk or a memory, of the device (which may be a network service device, a business device, or a dispatch platform) described in any preceding embodiment. The computer readable storage medium may also be an external storage device, such as a plug-in hard drive, smart Media Card (SMC), secure Digital (SD) Card, flash memory Card (Flash Card), etc. provided on the device. Further, the computer-readable storage medium may also include both an internal storage unit and an external storage device. The computer-readable storage medium is used for storing the computer program and other programs and data required by the apparatus. The computer readable storage medium may also be used to temporarily store data that has been output or is to be output.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above may be implemented by a computer program, which may be stored in a computer readable storage medium, and when executed, may include the processes of the embodiments of the methods described above. The computer-readable storage medium may be a magnetic disk, an optical disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), or the like.

While the present disclosure has been described with reference to particular embodiments, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present disclosure.

Claims

1. A data processing method, comprising:

the network service equipment acquires scheduling information indicated by the scheduling mode and sends the scheduling information to the terminal equipment, wherein the scheduling information is used for realizing the access of the first network equipment to the second network equipment; when the network configuration information includes indication information that a scheduling platform is not used, the scheduling information indicated by the scheduling mode is scheduling information of an access object indicated by the access object list; and when the network configuration information comprises the instruction information of using the scheduling platform, the scheduling information indicated by the scheduling mode is the scheduling information of the scheduling platform.

2. The method of claim 1, wherein the network service device sending the configuration data to the service device comprises:

3. The method according to claim 1 or 2, wherein the network configuration information further includes routing information and BGP parameters, and the network service device obtaining configuration data for a service device includes:

and the network service equipment generates configuration data comprising the routing information of the access object indicated by the access object list, the routing information in the network configuration information and BGP parameters in the network configuration information as configuration data for the service equipment.

4. The method of claim 1, further comprising:

5. The method according to claim 1, wherein the network configuration information is the network configuration information set by the terminal device through an ISP (Internet service provider) portal or the network configuration information set by the terminal device through an ICP (Internet protocol) portal of a network content provider;

when the network configuration information is the network configuration information set through an ISP portal, the acquiring, by the network service device, the scheduling information indicated by the scheduling mode includes:

6. The method of claim 5, further comprising:

when the network configuration information comprises indication information of using a scheduling platform, the network service equipment acquires scheduling information of the scheduling platform;

7. The method according to claim 5, wherein the scheduling mode comprises any one of: routing, IP scheduling, DNS scheduling;

and when the scheduling mode is DNS scheduling, the scheduling information indicated by the scheduling mode is the domain name of the content of the access object indicated by the access object list and the DNS IP address of the access object indicated by the access object list.

8. The method according to claim 6, wherein the scheduling manner comprises any one of: routing, IP scheduling, DNS scheduling;

9. The method according to claim 6 or 8, characterized in that the method further comprises:

the scheduling platform receives an access request sent by a user using a user terminal corresponding to an ISP (internet service provider), wherein the access request is an access request for the content of an access object indicated by the access object list;

and the scheduling platform performs content scheduling according to the access request.

10. A computer-readable storage medium, characterized in that the computer-readable storage medium stores a computer program, which is executed by a processor, to implement the data processing method of any one of claims 1 to 9.