CN115599472A - Service processing method, service management platform, computing device cluster and storage medium - Google Patents

Abstract

The application discloses a service processing method, a service management platform, a computing device cluster and a storage medium, and belongs to the technical field of communication. The method generates the specification information of the network communication product through the service management platform of the cloud service provider, and releases the network communication product containing the specification information to the service management platform, and the network service provider does not need to construct an IT operation system, so that the cost for developing the IT operation system and the operation and maintenance cost of the IT operation system by the network service provider can be reduced.

Description

Service processing method, service management platform, computing device cluster and storage medium

Technical Field

The present application relates to the field of communications technologies, and in particular, to a service processing method, a service management platform, a computing device cluster, a computer program product, and a computer-readable storage medium.

Background

With the development of network communication technology, there are more and more network operators, each of which can provide network communication products for users (such as individual users or enterprise users), and only users who provide network communication products can perform network communication through user equipment.

At present, different network operators respectively develop an Information Technology (IT) operation system, and for the IT operation system established by a certain network operator, the IT operation system supports the flows of purchasing and opening network services and the like for a user, and the user can purchase and open network communication products provided by the network operator through the IT operation system.

Because each network operator respectively develops an IT operation system and maintains the IT operation systems developed by each network operator, the development cost and the operation and maintenance cost of the IT operation systems are high.

Disclosure of Invention

The embodiment of the application provides a service processing method, a service management platform, a computing device cluster and a storage medium, which can reduce the cost of a network service provider for developing an IT operation system and the operation and maintenance cost of the IT operation system. The technical scheme is as follows:

in a first aspect, a business processing method is provided, where the method is applied to a business management platform of a cloud service provider, and the method includes:

the service management platform provides an attribute configuration interface to a network service provider, and the attribute configuration interface provides a plurality of preset attribute parameters; the business management platform receives at least one selected from the preset attribute parameters by the network service provider; the service management platform generates specification information of the network communication product according to the selected at least one attribute parameter; and the service management platform issues the network communication product containing the specification information.

The method generates the specification information of the network communication product through the service management platform of the cloud service provider, and releases the network communication product containing the specification information to the service management platform, and the network service provider does not need to construct an IT operation system, so that the cost for developing the IT operation system and the operation and maintenance cost of the IT operation system by the network service provider can be reduced.

In a possible implementation manner, each selected feature attribute is provided with at least one attribute value, and after the service management platform issues the network communication product containing the specification information, the method further includes:

the service management platform receives a purchase request of a user; and the business management platform sends the purchase request to the network service provider, wherein the purchase request comprises the attribute value corresponding to each selected attribute parameter in the specification information.

In one possible implementation, the attribute parameters include feature parameters, and the feature parameters include any one or more of the following: uplink bandwidth, maximum operating terminal number, version.

In one possible implementation, the attribute parameters include operating parameters including coverage areas.

In a possible implementation manner, before the service management platform issues the network communication product containing the specification information, the method further includes:

the service management platform receives a security scanning request of the network service provider; the service management platform determines a security scanning result of the application according to the security scanning request; determining that the security scanning result of the application is approved, and the service management platform issues the network communication product containing the specification information;

wherein the security scan request indicates to perform security scan on an application provided by the network service provider for managing the network communication product, and the security scan request includes at least one function selected by the network service provider that requires security scan.

In a possible implementation manner, before the service management platform issues the network communication product containing the specification information, the method further includes:

the service management platform provides a delivery process configuration interface to the network service provider; the service management platform generates a delivery flow according to at least one delivery step selected from the plurality of delivery steps by the network service provider; the service management platform issues the delivery flow;

the delivery flow configuration interface comprises a plurality of delivery steps, and the delivery flow is used for showing the progress of the network communication product provided by the network service provider to the user.

In a possible implementation manner, before the service management platform issues the network communication product containing the specification information, the method further includes:

the service management platform receives a debugging request of the network service provider; and the service management platform determines that the connection between the at least one interface and the service management platform is in an available state according to the debugging request, wherein the debugging request comprises the at least one interface which is selected by the network service provider and needs to be debugged.

In a second aspect, a service management platform is provided, which is used for executing the service processing method. Specifically, the service processing method includes a functional module configured to execute the service processing method provided in the first aspect or any optional manner of the first aspect.

In a third aspect, there is provided a cluster of computing devices comprising at least one computing device, each computing device comprising a processor and a memory, the processor of the at least one computing device being configured to execute instructions stored in the memory of the at least one computing device to cause the cluster of computing devices to perform the traffic processing method as provided in the first aspect above or any one of the alternatives of the first aspect above.

In a fourth aspect, a computer program product is provided, which contains instructions that, when executed by a cluster of computer devices, cause the cluster of computer devices to perform the service processing method as provided in the first aspect above or any one of the alternatives of the first aspect above. For example, the instructions are stored in a computer-readable storage medium, which are read by a processor of a cluster of computer devices, and the processor executes the instructions to cause the computer devices to perform the methods provided in the first aspect or the various alternative implementations of the first aspect.

In a fifth aspect, a computer-readable storage medium is provided, which includes computer program instructions, when the computer program instructions are executed by a cluster of computing devices, the cluster of computing devices executes the service processing method as provided in the first aspect or any one of the alternatives of the first aspect.

Drawings

Fig. 1 is a schematic diagram of a service management platform provided in an embodiment of the present application;

FIG. 2 is a flowchart of a network service provider enrollment service management platform according to an embodiment of the present disclosure;

fig. 3 is a flowchart of a delivery process provided in an embodiment of the present application;

FIG. 4 is a schematic diagram of a configuration delivery process provided by an embodiment of the present application;

FIG. 5 is a schematic diagram of a process configuration interface provided by an embodiment of the present application;

FIG. 6 is a flow diagram of a delivery process publication provided by an embodiment of the present application;

FIG. 7 is a flowchart of a security scan provided by an embodiment of the present application;

FIG. 8 is a schematic diagram of a scan interface provided by an embodiment of the present application;

FIG. 9 is a flowchart of interface debugging provided in an embodiment of the present application;

FIG. 10 is a schematic diagram of an interface debugging interface according to an embodiment of the present application;

fig. 11 is a flowchart of a service processing method according to an embodiment of the present application;

fig. 12 is a flowchart of an attribute parameter acquiring method according to an embodiment of the present application;

FIG. 13 is a schematic diagram of an operating parameter customization panel provided by an embodiment of the present application;

FIG. 14 is a diagram of a feature parameter customization palette provided in an embodiment of the present application;

FIG. 15 is a schematic diagram of an attribute configuration interface provided by an embodiment of the present application;

fig. 16 is a schematic diagram of generating specification information of a network communication product according to an embodiment of the present application;

fig. 17 is a flowchart of a specification information generating method according to an embodiment of the present application;

FIG. 18 is a schematic illustration of a merchandise display interface provided in accordance with an embodiment of the present application;

fig. 19 is a flowchart of a method for purchasing a network communication product according to an embodiment of the present application;

FIG. 20 is a flowchart illustrating a network service provider docking service management platform according to an embodiment of the present application;

fig. 21 is a flowchart illustrating a method for purchasing and provisioning a network communication product according to an embodiment of the present application;

fig. 22 is a schematic structural diagram of a service management platform according to an embodiment of the present application;

fig. 23 is a flowchart of a network communication product release provided by an embodiment of the present application;

fig. 24 is a schematic structural diagram of a service management platform according to an embodiment of the present application;

FIG. 25 is a block diagram of a computing device provided by an embodiment of the present application;

fig. 26 is a schematic structural diagram of a terminal according to an embodiment of the present application.

Detailed Description

To make the objects, technical solutions and advantages of the present application more clear, the following detailed description of the embodiments of the present application will be made with reference to the accompanying drawings.

The network communication product related to the application is a network communication service. The present application relates to various users, and for convenience of description, the various users in the present application may be classified into a network service provider, a cloud service provider, and a customer according to different roles facing network communication products. The network service provider refers to a provider of network communication products, that is, a provider of network communication products, such as a Network Operator (NO) of a telecommunication operator and a mobile operator. A cloud service provider (CSV) is configured to provide transaction services for network communication products of at least one network service provider. The client is a user, such as an individual user or an enterprise user, for browsing, purchasing or opening a network communication product of the network service provider on a service management platform provided by the cloud service provider.

Fig. 1 is a schematic diagram of a service management platform provided in an embodiment of the present application, and referring to fig. 1, the service management platform 100 is provided by a cloud service provider. A network service provider may publish its network communication products on the service management platform 100. The customer can browse, purchase or open the network communication products of the network service provider on the service management platform.

In one possible implementation, the business management platform 100 includes a trading platform 101, a delivery platform 102, and an asset management platform 103. The trading platform 101 is used for providing trading processing services for the network communication services of the network service providers, such as publishing/revoking the network communication services of each network service provider, purchasing or opening the network communication services of each network service provider, and the like, and a customer can browse, purchase or open published network communication products on the trading platform. The delivery platform 102 is used to manage the delivery flow of the released network communication product. The asset management platform 103 is used to secure the published network communication product and the connection between the service management platform and the network service management system of the network service provider, so that data interaction between the service management platform 100 and the network service management system is facilitated.

The network service management system is used for managing various network communication products of the network service provider. In one possible approach, a network service management system is deployed in a cluster of computer devices of the network service provider, the cluster of computer devices including at least one computing device.

In one possible approach, the business management platform 100 may be deployed in a computer device cluster of the cloud service provider, the computer device cluster including at least one computing device. In one possible implementation, the trading platform 101, the delivery platform 102, and the asset management platform 103 may run on the same computing device of the cluster of computing devices, or may run on multiple computing devices 102B, such as computing device 1 running the delivery platform, computing device 2 running the trading platform, and computing device 3 running the asset management platform.

In one possible implementation manner, the computer device cluster of the network service provider and the computer device cluster of the cloud service provider may be a server cluster, and each server in the server cluster is also one computing device. Such as a cloud server cluster.

In order to distinguish the computer device cluster of the network service provider from the computer device cluster of the cloud service provider, the computer device cluster of the network service provider is denoted as a first computer device cluster, each computing device in the first computer device cluster is denoted as a first computing device, and the first computing device is also a computing device logged in by the network service provider. The computer device cluster of the cloud service provider is recorded as a second computer device cluster, each computing device in the second computer device cluster is recorded as a second computing device, and the second computing device is also a computing device logged in by the cloud service provider.

In one possible implementation manner, an operation and maintenance person of the network service provider may access the service management platform 100 through a terminal to request to publish the network communication product on the service management platform 100. Operation and maintenance personnel of the cloud service provider can also access the service management platform 100 through the terminal to release the network communication product requested to be released to the service management platform 100. The customer can also access the service management platform 100 through a terminal to browse, purchase or open the released network communication product on the service management platform 100.

For convenience of description, the terminal according to the present application may be divided into a first terminal, a second terminal, and a third terminal according to a difference of a login user. The first terminal is a terminal logged in by a network service provider, namely a network service provider side terminal. The second terminal is a terminal logged in by the cloud service provider, namely a cloud service provider side terminal. The third terminal is a terminal where the client logs in, namely a client side terminal.

The terminals referred to in this application may each be referred to by other names such as terminal station, user terminal, user device, access device, subscriber station, subscriber unit, mobile station, user agent, user equipment, portable terminal, laptop terminal, desktop terminal, etc. For example, the terminal may be a mobile phone, a laptop, a tablet computer, a desktop computer, a smart television, a smart wearable device, a computer, an Artificial Intelligence (AI) product smart car, a smart instrument, or an internet of things (IoT) terminal, and the like.

It should be noted that the cloud service provider is not limited to providing services for the network service provider, and the services provided by the cloud service provider are customers with relatively fixed business-oriented models, such as customers selling the same type of goods/products.

In a possible implementation manner, the network service provider applies for the service management platform provided by the resident cloud service provider to the second computing device through the first terminal, so that a subsequent service management platform can provide transaction processing services of network communication products for the network service provider. For further explaining the process of the network service provider entering the service management platform, refer to a flowchart of the network service provider entering the service management platform provided in the embodiment of the present application shown in fig. 2.

201. The first terminal sends an admission request to the service management platform, wherein the admission request is used for indicating the network service provider to request the admission service management platform.

The network service provider is any network service provider for providing network communication products, and is the network service provider to be embedded in the transaction platform. The network communication product provided by the network service provider may also be referred to as a network service (NCS). The network communication product provided by the network service provider includes at least one type of network communication service from among fixed network communication services and mobile network communication services. Among them, fixed network communication services such as fixed bandwidth services, fixed telephone services, and the like. Mobile network communication services such as mobile broadband services, second generation mobile communication technology (2g) services, third generation mobile communication technology (3g) services, fourth generation mobile communication technology (4g) services, fifth generation mobile communication technology (5g) services, and mobile communication technology services after 5G, etc.

In a possible implementation manner, the parking request carries qualification information of the network service provider, and the qualification information of the network service provider includes an Identifier (ID) of the network service provider and a credential of the network service provider. The identifier of the network service provider is used to refer to the network service provider uniquely, and may be a name of the network service provider authenticated by a real name of a supervisor, and the credential of the network service provider may be a business credential of the network service provider, such as a business license. In one possible implementation, the qualification information of the network service provider further includes at least one of an identification of the network service provider, a registered fund, and an operating time, wherein the identification of the network service provider may be a trademark (Logo) of the network service provider.

In a possible implementation manner, the first terminal sends a parking request to the service management platform based on a user operation trigger. Such as the process shown in steps 2011-2012, described below.

2011. The first terminal displays an enrollment request interface, the enrollment request interface including an enrollment option.

Wherein, the parking option is used for triggering the parking request to be sent to the service management platform. The parking request interface also comprises a qualification option which is used for uploading qualification information of the network service provider.

In one possible implementation, the service management platform provides a docking request interface to the network service provider, for example, the service management platform provides the docking request interface to the network service provider through a first application program, and a first terminal of the network service provider displays the docking request interface.

The first application program can realize the function of the service management platform. The docking request interface is a display interface of the first application. The first application program is an application program of a client or an application program of a first Web application, such as a world wide Web application (Web) application, and the first terminal may access an application through a browser, which may also be referred to as a browser application. If the first application program is an application program of the client, the client can be installed in the first terminal, and the first terminal runs the first application program. If the first application program is a web application, the first application program is run by the second computing device where the service management platform is located, and the first terminal can access the web application through a browser.

In a possible implementation manner, if the first application is an operation program installed on the client of the first terminal, and an operation and maintenance person of a network service provider opens the first application at the first terminal, the first terminal operates the first application and displays a main interface of the first application, and the operation and maintenance person performs a display operation on the parking request interface at the main interface. And if the operation for displaying the parking request interface is detected, the first terminal displays the parking request interface.

In a possible implementation manner, if the first application is an application of a web application, an operation and maintenance person of a network service provider selects the first application icon on a display interface of a browser of a first terminal, and after detecting that the icon of the first application is triggered on the display interface of the browser, the first terminal sends a web page opening request of the first application to a second computing device running the first application based on the selection of the first application. And after the second computing equipment receives the webpage opening request, the second computing equipment sends first rendering data of the main interface of the running first application program to the first terminal, and the first terminal displays the main interface based on the first rendering data. And then, if the display operation of the parking request interface is detected, the first terminal sends the parking request interface display request to the service management platform based on the display operation of the parking request interface. And after receiving the second rendering data, the terminal displays the parking request interface based on the second rendering data.

This step 2011 is the process of the service management platform providing the parking request interface to the network service provider.

2012. And the first terminal sends the parking request to the service management platform based on the selection operation of the parking option.

In one possible implementation, the network service provider uploads the qualification information of the network service provider to a qualification upload box of the parking request interface. And if the first terminal detects that the qualification option in the parking request interface is triggered, the first terminal acquires the qualification information of the network service provider uploaded by the network service provider from the qualification uploading frame. And then, if the first terminal detects the selection operation of the parking option in the parking request interface, the first terminal sends a parking request carrying the qualification information to the service management platform.

In one possible implementation, the first terminal sends the parking request to a second computing device deployed with the service management platform.

202. The service management platform receives the parking request.

In one possible implementation, the second computing device deployed with the service management platform receives the parking request and sends the parking request to the service management platform, so that the service management platform receives the parking request.

203. And the business management platform performs qualification audit on the network service provider based on the qualification information of the network service provider in the parking request.

The service management platform prompts operation and maintenance personnel of the cloud service provider to perform qualification audit on the network service provider online, for example, any one of the following modes A and B. This method a is shown in step A1 below.

Step A1, the service management platform displays first audit prompt information, wherein the first audit prompt information comprises qualification information of the network service provider.

The first auditing prompt message is used for prompting operation and maintenance personnel of the cloud service provider to perform qualification audit on the network service provider based on qualification information of the network service provider.

And after receiving the parking request, the service management platform acquires qualification information of the network service provider from the parking request, generates first audit prompt information based on the resource information and displays the first audit prompt information. And performing qualification audit on the network service provider by operation and maintenance personnel of the cloud service provider on line based on the qualification information of the network service provider. And after the qualification information of the network service provider is approved, the operation and maintenance personnel of the cloud service provider sends a first approval response to the service management platform, wherein the first approval response is used for indicating that the qualification information of the network service provider is approved.

After receiving the first audit response, the service management platform stores the identifier of the network service provider to indicate the network service provider to reside in the service management platform. Optionally, the business management platform stores a buddy list for recording the identity of the network service provider that has been hosted by the trading platform, and the business management platform may store the identity of the network service provider in the buddy list to indicate that the network service provider has been hosted by the business management platform.

This mode B is shown in the following steps B1 to B4.

And step B1, the service management platform sends first review prompt information to the second terminal based on the parking request.

And after receiving the parking request, the service management platform acquires qualification information of the network service provider from the parking request, generates first audit prompt information based on the resource information, and sends the first audit prompt information to the second terminal.

And step B2, the second terminal receives the first review prompt information and displays the first review prompt information on a review interface.

The audit interface is a display interface of the second application program, and the second application program may be an application program of a client or a web application program. And after the second terminal receives the first audit prompt message, the second terminal displays the first audit prompt message on the audit interface to prompt operation and maintenance personnel of the cloud service provider to perform qualification audit on the network service provider based on the qualification information of the network service provider.

And step B3, if the qualification information of the network service provider is approved by the cloud service provider, the second terminal sends a first approval response to the service management platform.

And when the operation and maintenance personnel of the cloud service provider pass the qualification information audit of the network service provider, the operation and maintenance personnel select the option of passing the audit. And the second terminal sends a first audit response to the service management platform based on the selection operation of the audit passing option. For example, if the second terminal detects the selection operation of the audit pass option, a first audit response is sent to the service management platform.

And step B4, the service management platform receives the first audit response.

And after receiving the first audit response, the service management platform stores the identifier of the network service provider to indicate that the network service provider is resident in the service management platform.

In one possible implementation, the steps performed by the business management platform in fig. 2 are performed by a second computing device on which the business management platform is located, or by a trading platform in the business management platform, or by a second computing device on which the trading platform is located.

The process shown in fig. 2 is also a process of registering the network service provider on the service management platform, and when the network service provider is resident on the service management platform, the registration is successful.

When the network service provider is resident in the service management platform and the network service provider has the right to publish the network communication product on the service management platform, the network service provider can publish the network communication product of the network service provider on the service management platform, so that a customer can purchase the network communication product of the network service provider through the service management platform.

In a possible implementation manner, before publishing the network communication product to the service management platform, the operation and maintenance staff of the network service provider may configure a delivery flow of the network communication product to be published through the first terminal, and publish the delivery flow to the service management platform, as shown in the flowchart of the delivery flow provided in this embodiment of the present application shown in fig. 3.

301. The service management platform provides a delivery process configuration interface to the network service provider, wherein the delivery process configuration interface comprises a plurality of delivery steps.

The delivery process configuration interface is used for configuring the delivery process of the network communication product. The network communication product is any network communication product to be released by the resident network service provider. The delivery process is a process in which the network service provider delivers the network communication product to the customer who purchased the network communication product. The delivery process is used to show the progress of the network communication product provided by the network service provider to the user (i.e., customer). Each step option corresponds to a delivery step in a delivery flow of the network communication service, each delivery step in the delivery flow for indicating a progress of the network communication product provided to the user by the network service provider.

The service management platform also provides the function of configuring the delivery process of the network communication product for each network service provider which is already resident. And the delivery flow configuration interface may be provided by the service management platform. The service management platform provides a delivery process configuration interface to the network service provider through a third application program, and the first terminal of the network service provider displays the delivery process configuration interface.

The third application program is provided by a cloud service provider, and has a plurality of functions of providing a delivery flow for configuring the network communication product, debugging an interface, scanning security and the like for the network service provider. The third application may be an application of a client or an application of a web application. If the third application is an application of a client, the client may be installed in the first terminal, and the first terminal runs the third application. If the third application program is a web application, the third application program is run by a second computing device where the service management platform is located, and the first terminal can access the web application through a browser.

In a possible implementation manner, the operation and maintenance person of the network service provider opens the third application program at the first terminal, the first terminal displays a main interface of the third application program, and the operation and maintenance person displays the delivery process configuration interface at the main interface. And if the operation for triggering the delivery process configuration interface is detected on the main interface, the first terminal displays the delivery process configuration interface. The process of displaying the main interface of the third application program by the first terminal is the same as the process of displaying the main interface of the first application program by the first terminal in step 2011, and here, the process of displaying the main interface of the third application program by the first terminal is not described in detail in this embodiment of the application.

Each of the plurality of step options corresponds to a delivery step, and it is also understood that each step option is used to define a delivery step. In one possible implementation manner, the first terminal configures the multiple step options on the delivery process configuration interface through operation of an operation and maintenance person of a network service provider. And the operation and maintenance person selects part or all step options from the multiple step options to form the delivery flow. The process of configuring a step option by the first terminal may include the following steps 3011-3013.

Step 3011, the first terminal displays a step option template in the delivery flow configuration interface.

The delivery process configuration interface comprises a process arrangement panel and a process tool panel, wherein the process arrangement panel is used for arranging the delivery process of the network communication product. The process tool panel is used for providing option templates for compiling the delivery process, and the option templates comprise a custom option template and a predefined option template.

The custom option template comprises a custom step option template and a decision step option template. The option template of the self-defining step is used for configuring the processing role and the processing content of the corresponding step in a self-defining way, namely the option template of the step to be configured. For example, a delivery step submits to a customer demand information indicating the customer's demand for the network communication product, wherein the "customer" is the processing role in the delivery step and the "submitting demand information" is the processing content of the customer in the delivery step. The decision step option template is used for customizing the processing role and the processing content of the configuration judgment step, and the judgment step, such as a network service provider, judges whether the requirement information submitted by the client can be audited or not.

The predefined option templates include a predefined step option template, a connection option template, a start option template, and an end option template. The predefined step option template is defined and configured with the processing role and the processing content of the corresponding step, and can also be regarded as a configured step option, and the predefined step option template corresponds to the delivery step and can be directly used for arranging the delivery flow without secondary configuration. For example, if the process of opening network communication products of the same network service provider by the customer may be the same, the operation and maintenance personnel of the network service provider may configure a custom step option as a step option of opening the service, and add the step option of opening the service as a predefined step option template to the process tool panel for subsequent use in orchestration of the delivery process. The connection option template is a template for connecting the options of the respective steps, such as a template of a connection line. The start option template is used for indicating the start of the delivery process, and the end option template is used for indicating the end of the delivery process. Such as the flow tool panel in fig. 4, where fig. 4 is a schematic diagram of a configuration delivery flow provided by an embodiment of the present application.

In a possible implementation manner, the operation and maintenance personnel of the network service provider performs selection operation on any step option template on the process tool panel, and the first terminal adds and displays any step option on the process arrangement panel based on the selection operation on the any step option template on the process tool panel. For example, if the first terminal detects a selection operation on the option template of any step on the process tool plane, the option template of any step is added to the flow Cheng Bianpai panel and displayed, and at this time, the option template is also a step option template displayed on the delivery process configuration interface in this step 3011.

If the step option template displayed on the delivery process configuration interface is a custom step option template or a decision step option template, the first terminal configures any step option template through the following step 3012, so as to configure the step option template as a step option in a delivery process. If the option template of any step is a predefined option template of step, the first terminal uses the option template of any step as a step option in the delivery process, without performing the configuration process of step 3012 below on the option template of any step.

And 3012, the first terminal obtains the target processing role and the target processing content in the self-defined step based on the configuration operation of the option template in the step.

Wherein, the self-defining step is a delivery step of the network communication product self-defined by the network service provider. The configuration operation of the option template in the step comprises a first configuration operation and a second configuration operation, wherein the first configuration operation is used for triggering the first terminal to acquire the target processing role in the first self-defined step. The second configuration operation is used for triggering the first terminal to acquire the target processing role and the target processing content of the self-defining step.

In one possible implementation, this step 3012 is implemented by steps C1 and C2 described below.

And step C1, the first terminal acquires the target processing role of the self-defining step based on the first configuration operation of the option template of the step.

Wherein the target processing role is an attribute defining a step. And configuring the attribute information of the user-defined step by performing a first configuration operation on the step option template by the operation and maintenance personnel of the network service provider, wherein the processing role is an attribute in the attribute information, and the processing role in the attribute information is also the target processing role after the first terminal acquires the attribute information.

The attribute information of the custom step includes at least one of a name of the definition step, an encryption identifier, a submission identifier, a file type, a target processing role, a definition type, and an identifier of a processing platform. The encryption flag is used to indicate whether to encrypt the target processing content. Optionally, the encryption identifier includes a first encryption identifier or a second encryption identifier, the first encryption identifier is used to indicate that the target processing content is encrypted, and the second encryption identifier is used to indicate that the target processing content is not encrypted. The submission identifier indicates whether to submit the targeted processing content to the first computing device. Optionally, the submission identifier includes a first submission identifier indicating that the targeted processing content is to be submitted to the first computing device or a second submission identifier indicating that the targeted processing content is not to be submitted to the first computing device. The file type is used to indicate a file type of a file carrying the target processing content, and may be any file type, such as any file type in a document (doc) file type, a Portable Document Format (PDF) file type, or a joint photographic experts group (jpg) file type. A target processing role for a custom step processing role such as customer, network service provider) or cloud service provider. The definition type is used for indicating whether the target processing content is a custom, optionally, the definition type includes a first definition type or a second definition type, where the first definition type is used for indicating that the target processing content is a custom processing content, and the second definition type is used for indicating that the target processing content is a predefined processing content. The processing platform is a platform for facilitating the target processing role to process the target content.

In one possible implementation, this step C1 is implemented by the process shown in steps C11-C12 described below.

And step C11, the first terminal displays a step attribute panel based on the first configuration operation of the step option template.

Wherein, the step property panel is used for configuring the property information of the self-defining step. The step attribute panel comprises at least one step attribute input box, and each step attribute input box is used for configuring an attribute of the definition step, such as the name of a self-defining step, an encryption identifier, a submission identifier, a file type, a target processing role, a definition type or an identifier of an auditing platform.

In a possible implementation manner, operation and maintenance personnel of the network service provider perform a first configuration operation on the step option template, and when the first terminal detects the first configuration operation on the step option template, the first terminal displays the step attribute panel. After the first terminal displays the step attribute panel, the operation and maintenance personnel of the network service provider can input the attribute corresponding to the custom step in the at least one step attribute input box.

Taking the configured custom step as an example of submitting the requirement information for the client, referring to fig. 4, if a first configuration operation is detected on any step option template (e.g., the custom step option template) in the process layout interface, the first terminal displays a step attribute panel. The step attribute input boxes on the step attribute panel comprise a node name input box, a node type input box, a form template input box, a processing role selection box and a processing platform input box. The name of the custom step entered by the operation and maintenance personnel of the network service provider in the node name entry box is "customer submission requirement information". The operation and maintenance personnel of the network service provider enter a first definition type "custom form submission" in the node type input box. The name of the target processing content input by the operation and maintenance personnel of the network service provider in the form template input box is 'network deployment requirement list _ 01', and the network deployment requirement list _01 is used for recording the target processing content. The target role selected by the operation and maintenance personnel of the network service provider in the process role selection box is the client. The identification of the processing platform entered by the network service provider in the processing platform input box is "trading platform".

And step C12, the first terminal acquires each attribute of the self-defining step from at least one step attribute input box based on the first end configuration operation on the step option template, and the acquired attributes of the self-defining step form attribute information of the self-defining step.

And after detecting the first configuration finishing operation on the option template of the step, the first terminal acquires each attribute of the custom step from at least one step attribute input box and forms the acquired attribute of the custom step into attribute information of the custom step.

And after the first terminal acquires the attribute information of the self-defining step, the first terminal establishes the corresponding relation between the attribute information of the self-defining step and the step option template so that the first terminal can display the attribute information on the step attribute panel of the step option template in the following process.

And step C2, the first terminal acquires the target processing content of the self-defining step based on the second configuration operation of the option template of the step.

The target processing content may be information to be processed by the target processing role in the customization step (i.e., information to be processed in the customization step), such as information submitted by the target processing role in the customization step or information audited by the target processing role in the customization step.

In a possible implementation manner, the operation and maintenance personnel of the network service provider performs a second configuration operation on the step option template to configure the content arrangement template of the target processing content in the self-defined step, so as to configure the target processing content in the self-defined step. The content arrangement template comprises at least one field, and each field is used for recording one piece of information to be processed in the self-defining step.

The first terminal can acquire template definition information of the content arrangement template configured by operation and maintenance personnel of the network service provider, and the template definition information is used as target processing content of the self-defining step. The template definition information is used to define each field in the content layout template, or is used to define the data format of the content layout template. The template definition information includes format information of the at least one field, the format information of each field indicating a data format of each field in the information template.

In one possible implementation manner, for any field in the at least one field, the format information of the any field includes a field name, a data type, arrangement information, and a length of the any field. Wherein, the data type of any field is the data type of the field content of any field, such as text type or picture type. The arrangement information of any field is used for indicating the arrangement format of any field in the delivery information. In a possible implementation manner, the format information of any field further includes at least one of the check rule information and the prompt information of any field. The check rule information of any field is used to indicate a check rule for checking the field content of any field, for example, whether the length of the field content is the same as that of any field, whether the field content contains a sensitive word, or whether the field content is composed of chinese and english characters, etc. The prompt information of any field is used for prompting the user to input the field content in any field, for example, the name of any field is a company name, and the prompt information of any field may be "please input the company full name".

In one possible implementation, this step C2 is implemented by the process shown in steps C21-C24 below.

And step C21, the first terminal displays a processing content configuration interface based on the second configuration operation of the option template of the step.

The process content configuration interface includes a field tool panel to process content orchestration panels. The field tool panel is used for providing a field template for the field in the configuration content arrangement template, and the field template on the field tool panel comprises a text input box, a multi-line text field input box, an attachment uploading box, a password box, a pull-down selection box, a radio button, a multi-selection button, a position cascade box, a time input box and a submit button. The text input box is used for inputting single-line text information and is used for configuring a single-line field. A multi-line text field is an input box for entering multi-line text information for configuring fields of multiple lines. The attachment uploading frame is an input frame for uploading the attachment and is used for configuring fields of the uploading attachment. The password box is an input box for inputting a password and is used for configuring fields for inputting the password. The drop-down selection box is an input box supporting drop-down display of a plurality of drop-down options and is used for configuring fields with selection functions. The radio button is an input box supporting single item selection and is used for configuring fields supporting single item selection. The multi-selection button is an input box supporting multiple selections and is used for configuring fields supporting the multiple selections. The position cascade box is an input box for displaying position information with cascade relation (such as cascade relation between province/city/district), and is used for configuring fields of the position information with cascade relation. The time input box is an input box supporting input of a date, and is used for configuring a field indicating the input date. The submission button is a shortcut control for triggering submission of the processing content. For example, the field tool panel shown in fig. 5, where fig. 5 is a schematic diagram of a processing content configuration interface provided in an embodiment of the present application.

And the operation and maintenance personnel of the network service provider performs second configuration operation on the step option template, and when the first terminal detects the second configuration operation on the step option template, the first terminal displays the processing content configuration interface. After the first terminal displays the processing content configuration interface, the network service provider can configure the template definition information in the processing content layout panel through the field template in the field tool panel.

And step C22, for any field template displayed in the processing content configuration interface, the first terminal acquires format information of one field in the content arrangement template based on the definition configuration operation of any field template.

The field template is any field template displayed on the field tool panel, and the field is a field configured by any field template and is any field in the content arrangement template.

In a possible implementation manner, the operation and maintenance personnel of the network service provider performs a selection operation on any field template on the field tool panel, and the first terminal adds and displays any field template on the processing content layout panel based on the selection operation on any field template on the field tool panel. For example, if a selection operation for any field template is detected on the field tool panel, the first terminal adds and displays the any field template to the processing content layout template.

After any field template is displayed on the field tool panel, the operation and maintenance personnel of the network service provider performs configuration operation on any field template on the processing content layout panel. The first terminal displays a field attribute panel based on a configuration operation for the arbitrary field template on the processing content layout panel. Wherein the field attribute panel is used for configuring the format information of the field. The field attribute panel includes a plurality of field attribute input boxes, each field attribute input box for configuring a format information of the field (e.g., any of a field name, a data type, arrangement information, or a length of the field).

And inputting the corresponding format information of the field in a field attribute input box in each field attribute panel by the operation and maintenance personnel of the network service provider. And when the input is finished, the operation and maintenance personnel of the network service provider performs the operation of finishing configuration on any field template. And if detecting that the first terminal detects the ending configuration operation of any field template, acquiring the configured format information of the field from the field attribute panel.

And step C23, the first terminal displays the field on the processing content arrangement panel based on the format information of the field.

When the format information of the field is acquired, the first terminal displays any field template as the field on the processing content layout panel based on the format information of the field, and the configuration of any field template is completed.

The first terminal may display the respective fields of the content arrangement template on the processing content layout panel using the procedure shown in steps C21-C23.

Step C24, the first terminal acquires the target processing content based on the end configuration operation of the content arrangement template.

When a plurality of fields are displayed on the processing content layout panel, the plurality of fields constitute the content layout template. The operation and maintenance personnel of the network service provider finish the configuration operation on the content arrangement template, if the first terminal detects the configuration operation on the content arrangement template on the processing content arrangement panel, the first terminal acquires the format information of the plurality of fields as the template definition information of the content arrangement template, and because the template definition information is used for indicating the content arrangement template and the content arrangement template is the target processing content, the process of acquiring the template definition information by the first terminal is also the process of acquiring the target processing content by the first terminal.

To further illustrate the process shown in steps C22-C24, and taking fig. 5 as an example, the content assignment template includes a plurality of fields, which are a company name field, a Subscriber Identity Module (SIM) card shipping address field, a detailed address field, a contact phone field, a zip code field, and a submit field. Each field of the plurality of fields may be configured in a field attribute panel, and the field attribute entry boxes in the field attribute panel include an entry box for a field title, an entry box for a field type, a multiple selection button for an alignment, an entry box for a length limit, a text entry box for a test rule, and an entry box for a prompt message. Wherein the input box of the field header is used for configuring the name of the field. The field type entry box is used to configure the data type of the field. The aligned multi-item button boxes are used to configure the arrangement information of the field. The length limited input box is used to configure the length of the field. The input box of the check rule is used for checking rule information of the configuration field. The prompt information input box is used for configuring prompt information of the field.

Taking the example of configuring the text input box in the field tool panel as the company name field in the content layout template, if the first terminal detects a selection operation for the text input box in the field tool panel, the first terminal adds and displays the text input box in the processing content layout panel. And if the first terminal detects the configuration operation of the text input box in the processing content layout panel, the first terminal displays a field attribute panel. The field name entered by the network service provider's operation and maintenance personnel in the field header entry box is "company name". The operation and maintenance personnel of the network service provider inputs the data type of the field type into the input box of the field type, namely a text input box, so as to indicate the text information required to be input by the field. The operation and maintenance personnel of the network service provider select a 'left' button and an 'exclusive line' button from the multiple selection buttons of the alignment mode. The network service provider's operation and maintenance personnel enter the length of the company name field in the length limited entry box, which may be 5-100 characters, for example. The operation and maintenance personnel of the network service provider inputs the check rule information of the field, such as Chinese and English check, in an input box of the check rule. And after the operation and maintenance personnel of the network service provider finishes configuring the format information of the field in the field attribute panel, if the first terminal detects the ending operation of the text input box, the first terminal acquires the format information of the field and displays the text input box as the company name field based on the format information of the field.

In a possible implementation manner, after or before the first terminal acquires the template definition information of the content arrangement template, the first terminal displays a processed content attribute panel based on an attribute configuration operation on the content arrangement template, where the processed content attribute panel includes at least one processed content attribute option, and each processed content attribute option is used to configure attribute information of the content arrangement template. The at least one processing content attribute option includes at least one of a name option, a status option, and a flow description option of the content arrangement template, where the name option of the content arrangement template is used to configure a name of the content arrangement template. The status option is used to configure the status of the content arrangement template, for example, a draft status of the configured content arrangement template at this time. The flow description option is used for describing the content to be input in the content arrangement template.

And inputting the attribute information (such as name, state or information indicating the content to be input) of the content arrangement template in the input box corresponding to each option in the processing content attribute panel by the operation and maintenance personnel of the network service provider. The first terminal acquires the attribute information of the content arrangement template from the processed content attribute panel based on the ending attribute configuration operation on the content arrangement template.

Still taking fig. 5 as an example, after the content layout template is displayed on the processing content layout panel, if the attribute configuration operation on the content layout template is detected, the first terminal displays the processing content attribute template. The operation and maintenance staff of the network service provider may input the name "network deployment requirement list _01" of the content arrangement template in the input box of the name option (such as form name) in the processing content attribute template, and the operation and maintenance staff of the network service provider selects the "draft" status button in the status button corresponding to the status option. The operation and maintenance personnel of the network service provider inputs 'basic data information required for submitting network deployment and opening' in the flow description option input box so as to indicate the basic data information required for network deployment and opening to be input in the content arrangement template.

The steps C1-C2 are processes for configuring one processing role (i.e., target processing role) and processing content of the processing role (i.e., target processing content) in one delivery step, and if there are multiple processing roles in one delivery step and each processing role corresponds to one processing content, the first terminal adopts the processes of the steps C1-C2 to continue to configure the processing content corresponding to the other processing roles and the other processing roles for the delivery step.

In a possible implementation manner, the first terminal performs the step C2 first and then performs the step C1, where the execution sequence of the steps C1-C2 is not limited in this embodiment of the application.

3013, the first terminal displays the step options of the custom step in the delivery process configuration interface based on the target processing role and the target processing content of the custom step.

And when the target processing role and the target processing content in the self-defined delivery step are configured, the first terminal displays the step option template as a step option of the self-defined step based on the target processing role and the target processing content.

The first terminal may display each of the plurality of step options in a delivery flow configuration interface through the process shown in steps 3012-3013.

In a possible implementation manner, after the first terminal adds a plurality of step option templates to the flow layout panel, the process shown in steps 3012-3013 is performed on each step option template on the flow layout panel, so as to configure the step option templates into step options for indicating delivery steps. In another possible implementation manner, after each step option template is added to the flow layout panel, the first terminal may also perform the processes shown in steps 3012 to 3013 for the step option template newly added to the flow layout panel. Still taking fig. 4 as an example, after the first terminal displays the step option named as the customer submission requirement, if the selection operation of the self-defined step option template is detected on the process tool panel, the first terminal adds and displays the self-defined step option template on the process layout panel, and the first terminal refers to the processes shown in steps 3012 to 3013, and displays the newly added self-defined step option template on the process layout panel as the step option named as the operator (i.e., network service provider) review form, the step option named as the operator (i.e., network service provider) deployment network, or the step option named as the customer confirmation acceptance. And if the selection operation of the option template of the decision step is detected on the flow tool panel, the first terminal adds the option template of the decision step and displays the option template of the decision step on the flow arrangement panel, and the first terminal displays the option template of the decision step as a decision step option for judging whether the verification is successful or not or as a decision step option for judging whether the acceptance is successful or not based on the configuration of operation and maintenance personnel of a network service provider on the option template of the decision step. When the step option with the name of opening the service is the predefined option template, if the selection operation of the step option with the name of opening the service is detected on the flow tool panel, the first terminal adds and displays the step option with the name of opening the service on the flow arrangement panel. In addition, if the selection operation of the starting option template and/or the ending option template is detected on the flow tool panel, the first terminal adds and displays the step option template and/or the ending option template on the flow arrangement panel.

302. The service management platform generates a delivery flow for showing the progress of the network communication product provided by the network service provider to the user according to at least one delivery step selected from the plurality of delivery steps by the network service provider.

In a possible implementation manner, the service management platform displays the delivery process composed of the at least one step option through a delivery process configuration interface, that is, the service management platform generates a delivery process according to the at least one delivery step.

In a possible implementation manner, the step of displaying, by the service management platform through the delivery process configuration interface, the delivery process composed of the at least one step option includes: after the step options corresponding to the plurality of delivery steps are all displayed on the flow layout panel, the operation and maintenance personnel of the network service provider connects at least one step option on the flow Cheng Bianpai panel to connect the at least one step option into a schematic diagram of the delivery flow composed of the at least one step option. The connection operation of the at least one step option is a process in which the network service provider selects at least one step option from the plurality of delivery step options.

For example, when there are a plurality of at least one step option, the operation and maintenance personnel of the network service provider may perform a connection operation on at least one step option of the plurality of step options, so that the at least one step option constitutes the flowchart of the delivery process. For another example, the operation and maintenance personnel of the network service provider may perform a connection operation on any two step options in the at least one step option until all of the at least one step option are connected as the flow chart of the delivery process.

303. And the service management platform issues the delivery flow.

In a possible implementation manner, the first terminal sends the delivery flow configured by the network service provider to the service management platform, and then the service management platform issues the delivery flow. For example, steps 3031-3034 shown in fig. 6, where fig. 6 is a flowchart of a delivery process issue provided by an embodiment of the present application.

Step 3031, the first terminal obtains step execution sequence information of the delivery flow according to at least one delivery step selected by the network service provider from the plurality of delivery step options, where the step execution sequence information is used to indicate an execution sequence of the delivery step corresponding to the at least one step option in the delivery flow.

Wherein, the delivery step corresponding to the at least one step option is at least one, and each delivery step option corresponds to one delivery step. In a possible implementation manner, the step execution sequence information includes a step identifier of at least one delivery step corresponding to the at least one step option, and the step identifier of one delivery step is used for uniquely indicating the delivery step. Optionally, the step identifier of the at least one delivery step is sequentially arranged in the step execution order information to indicate the execution order of the at least one delivery step in the delivery flow. For example, the at least one delivery step includes 3 delivery steps, the identification of the 3 delivery steps is A, B, C, and if the step execution sequence information includes the delivery step A, B, C, the execution sequence of the delivery flow is the delivery step A, B, C.

In one possible implementation, the step execution sequence information further includes an execution sequence of each of the at least one delivery step, and the execution sequence of the at least one delivery step in the delivery flow is indicated by the execution sequence of each delivery step. At this time, the step identifier of the at least one delivery step may be ordered in the step execution order information in the same order as or different from the execution order of the at least one delivery step in the delivery flow.

In a possible implementation manner, the step execution sequence information further includes information configured by the network service provider for each delivery step in the at least one delivery step, such as attribute information configured for each delivery step, template definition information configured for each delivery step, attribute information of a content arrangement template configured for each delivery step, and the like.

In a possible implementation manner, the first terminal determines the step execution sequence of the at least one delivery step based on the connection operation on the at least one step option. For example, for any two step options in the at least one step option, the operation and maintenance person of the network service provider drags the connection option on the flow tool panel to the two step options to connect the two step options together, and the operation and maintenance person of the network service provider completes the connection operation of the two step options. The first terminal determines a step execution order of the two delivery steps based on the connection operation to the two step options and the direction of the connection option. For another example, when detecting that the two step options are connected by the connection option, if the connection option is directed from the first step option to the second step option, the first terminal determines that the step execution sequence of the two delivery steps is: and the delivery step corresponding to the first step option and the delivery step corresponding to the second step option. Wherein the first step option is any one of the two step options, and the second step option is one of the two step options except the first step option.

And when the step execution sequence of the at least one step is determined, the first terminal acquires step execution sequence information of the delivery flow based on the step execution sequence determined by the connection operation on the at least one step option.

Still taking fig. 4 as an example, the flow chart of the delivery process shown on the flow chart layout panel in fig. 4 is obtained by connecting a plurality of step options to the network service provider, and the first terminal determines, based on the connection relationship between the step options in the flow chart of the delivery process, that the step execution sequence of the delivery process is as follows: the first delivery step submits the requirements for the customer; the second delivery step is the operator audit form (i.e., audit the requirements submitted by the customer); the third delivery step is that the operator judges whether the audit is successful, if the audit is unsuccessful, the first delivery step is skipped, and if the audit is successful, the fourth delivery step is skipped; the fourth delivery step is that the operator deploys the network; the fifth delivery step is to open the network communication product; and the sixth delivery step is that the customer confirms and checks the network communication product, if the customer successfully checks and accepts, the delivery flow is ended, the delivery is completed, and if the customer unsuccessfully checks and accepts, the fourth delivery step is executed by skipping. And the first terminal acquires the step execution sequence information of the delivery flow based on the step execution sequence.

In a possible implementation manner, the step execution sequence information further includes attribute information of the delivery flow, and the attribute information of the delivery flow includes identification, status information, and description information of the delivery flow. The delivery process identifier may be a name of the delivery process, and the delivery process status information is used to indicate a current status of the delivery process, for example, when the delivery process is being arranged, the delivery process status is a draft status, and a subsequent customer purchases the network communication product, then the operation and maintenance staff of the network service provider needs to deliver the network communication product to the customer, and the delivery process is in a delivery status, and if the delivery process is completed, the delivery process is in a delivery complete status.

The attribute information of the delivery flow is configured by a network service provider, and the first terminal acquires the attribute information of the delivery flow configured by the network service provider. In a possible implementation manner, the operation and maintenance personnel of the network service provider performs an attribute configuration operation on the delivery flow on a flow layout panel, the first terminal displays a flow attribute panel based on the attribute configuration operation on the delivery flow, the flow attribute panel is used for configuring attribute information of the delivery flow, the flow attribute panel includes a plurality of flow attribute options, and each flow attribute option is used for configuring attribute information of the delivery flow. And configuring the attribute information corresponding to the delivery process by the operation and maintenance personnel of the network service provider in each attribute option on the process attribute panel. And after the configuration is finished, the operation and maintenance personnel of the network service provider performs attribute configuration ending operation on the delivery flow. The first terminal acquires the attribute information of the delivery flow configured by the network service provider from the flow attribute panel based on the ending attribute configuration operation of the delivery flow.

Such as the flow property panel of fig. 3, on which the flow property options include a flow name option, a status option, and a flow description option. The operation and maintenance personnel of the network service provider inputs the identifier of the delivery flow into the input box corresponding to the flow Cheng Mingchen as the 'campus xx network delivery flow _ 01', the state of the delivery flow configured by the state option is a 'draft' state, and the description information of the delivery flow input into the input box corresponding to the flow description option is 'the delivery flow for deploying and opening the mobile communication network service for the original type enterprise customer'. ".

Step 3032, the first terminal sends a process issuing request to the service management platform, wherein the process issuing request is used for indicating to issue the step execution sequence information to the service management platform.

Wherein, the flow issuing request includes the step execution sequence information. Optionally, the process issuance request further includes an identifier of the network service provider and an identifier of the network communication product, so as to indicate that the step execution order information is the step execution order information of the delivery process of the network communication product of the network service provider.

In one possible implementation manner, the first terminal sends a process issuing request to the second computing device based on the operation of an operation and maintenance person of a network service provider. For example, the operation and maintenance personnel of the network service provider performs a selection operation on a delivery and issuance option on the delivery configuration interface, and if the selection operation on the delivery and issuance option is detected, the first terminal generates the process issuance request based on the step execution sequence information, the identifier of the network service provider, and the identifier of the network communication product, and sends the process issuance request to the service management platform. For example, the first terminal may first send the step execution sequence information to the second computing device, and then the second computing device issues the step execution sequence information to the service management platform,

step 3033, the service management platform receives the process issue request.

Step 3034, the service management platform issues the step execution sequence information.

After receiving the flow issuing request, the service management platform acquires step execution sequence information, the identifier of the network service provider and the identifier of the network communication product from the flow issuing request, associates and stores the step execution sequence information, the identifier of the network service provider and the identifier of the network communication product in a storage address associated with the service management platform, so that the service management platform acquires the step execution sequence information by accessing the storage address, and generates and displays a delivery flow according to the step execution sequence information, thereby realizing that the delivery flow is issued to the service management platform.

In order to ensure the correctness of the delivery process composed of the step execution sequence information, in a possible implementation manner, the service management platform verifies the step execution sequence information, and if the step execution sequence information passes the verification, the service management platform issues the step execution information.

The step of verifying the execution sequence information by the service management platform comprises the following steps: the service management platform prompts operation and maintenance personnel of the cloud service provider to verify the step execution sequence information on line, and the operation and maintenance personnel of the cloud service provider verify the step execution sequence information on line based on a preset verification rule. If the step execution sequence information is verified to be passed, the operation and maintenance personnel of the cloud service provider sends verification passing response to the step execution sequence information to the service management platform, if the service management platform receives the verification passing response, the step execution sequence information is verified to be passed, and if not, the step execution sequence information is not verified to be passed. Wherein the preset validation rule includes whether the execution logic of each delivery step indicated by the step execution sequence information is correct. The prompt mode of the service management platform prompting the cloud service provider to verify the step execution sequence information offline is the same as the prompt mode of the service management platform prompting the operation and maintenance personnel of the cloud service provider to perform qualification audit on the network service provider offline in step 203. Here, the prompting manner in which the service management platform prompts the operation and maintenance personnel of the cloud service provider to verify the step execution sequence information online is not described in detail in the embodiment of the present application.

It should be noted that the process shown in fig. 3 may be before the network service provider requests to publish the network communication product to the service management platform, or may be after the network service provider requests to publish the network communication product to the service management platform.

In one possible implementation, the steps performed by the service management platform in fig. 3 are performed by a second computing device on which the service management platform is located, or by a delivery platform in the service management platform, or by a second computing device on which the delivery platform is located. The delivery platform is used for processing the delivery flow based on the network communication product.

According to the method provided by the embodiment of the application, the network service provider configures the delivery flow of the network communication product at the first terminal, and the first terminal issues the delivery flow configured by the network service provider to the service management platform, so that the network service provider customizes the delivery flow of the network communication product, and when a customer purchases the network communication product later, the network service provider and the customer can complete the delivery of the network communication product according to the corresponding delivery step executed in the delivery flow.

In a possible implementation manner, the network service provider further provides an application for managing the network communication product, such as a service inquiry application of the network communication product, facing the client, so that the client who subsequently purchases the network communication product can inquire the application about the information of the network communication product purchased by the client. When a network service provider publishes a network communication product on a service management platform, in order to ensure security, the cloud service provider may verify whether an application provided by the network service provider is secure, and therefore, before the network service provider requests to publish the network communication product, the service management platform may perform security scanning on the application to ensure that the application is secure. To further illustrate the process of the security scanning application, refer to a flow chart of security scanning provided in the embodiment of the present application shown in fig. 7.

701. The first terminal displays a scanning interface, and the scanning interface comprises a scanning option.

Wherein the scanning option corresponds to an application for managing the network communication product. The scanning interface is used for configuring the scanning content of at least one scanning service and displaying the scanning result of each scanning service, for example, the security scanning is a scanning service. The at least one scanning service may be set according to a specific application scenario, and the embodiment of the present application does not limit the at least one scanning service. Optionally, the scanning interface includes a menu bar, the menu bar including at least one scanning service option, and each scanning service option corresponds to one scanning service.

In the embodiment of the present application, an example that the menu bar includes a scanning service option and the scanning service option corresponds to a security scanning service is described. Wherein the security scanning service comprises at least one scanned content, e.g. an application for managing network communication products is a scanned content. The at least one scanned content may be set according to a specific application scenario, and the at least one scanned content is not limited in this application embodiment.

In a possible implementation manner, after the first terminal displays a main interface of the third application program, the operation and maintenance personnel of the network service provider performs a selection operation on the security option of the main interface. And the first terminal displays the scanning interface based on the selection operation of the safety option. And the operation and maintenance personnel of the network service provider performs configuration operation on the scanning service option corresponding to the security scanning service in the menu bar. And the first terminal displays a scanning service management panel on the scanning page based on the configuration operation of the scanning service option, wherein the scanning service management panel is used for configuring at least one scanning content of the security scanning service.

The scanning service management panel comprises a scanning service management list and scanning options, the scanning service management list is a list with multiple rows and multiple columns, and each row of the scanning service management list is used for recording relevant information of one scanned content of the security scanning service, such as an identifier of the scanned content, scanning data generated in a scanning process of the scanned content, and a management operation of the scanned content. The identifier of the scanned content is used to uniquely indicate the scanned content, and may be a name of the scanned content. The scanning data generated by the scanning process of the scanned content comprises the scanning time of the scanned content and the scanning result of the scanned content. The management operation of the scanned content comprises a scanning operation, an editing operation and a deleting operation, wherein the scanning operation is used for triggering the security scanning of the scanned content, and the scanning operation corresponds to the scanning option corresponding to the scanned content in the scanning service management list. The editing operation is used for triggering editing of the processing content, and the editing operation corresponds to an editing option corresponding to the scanning content in the scanning service management list. The deleting operation is used for triggering and deleting the information related to the processing content, and the deleting operation corresponds to a deleting option corresponding to the scanning content in the scanning service management list. In one possible implementation, the scan service management panel further includes an add scan service option, where the add scan service is used to trigger adding a new scan content to the scan service management list.

For example, fig. 8 is a schematic diagram of a scanning interface provided in the embodiment of the present application. And scanning service options displayed in a menu bar in the scanning interface are options for applying security vulnerability scanning, and the scanning service options correspond to the security scanning service. And configuring the scanning option by operation and maintenance personnel of the network service provider, and displaying a scanning service management panel if the first terminal detects the configuration operation of the scanning service option. In fig. 8, the name of the scanning service management panel is the application security vulnerability-scanning service management panel, and the scanning service management panel does not display the scanning option. The newly added scanning service option is positioned above a scanning service management list, and the service management list comprises a service information column, an authentication state column, a scanning time column, a scanning result column and an operation column. The service information column is used for recording at least one scanning content of the service inquiry application, wherein one scanning content is scanning client foreground service. The authentication status column is used to record the authentication status, such as authenticated status or unauthenticated status, of each scanned content. The scan time column is used to record the scan time of each scanned content. The scan result column is used to record the scan result of each scanned content, for example, by scanning or in a scan. The operation column is used for displaying scanning options, editing options and deleting options corresponding to the management operation of each scanned content. Take an example in which one processing content of the security scanning service is the service inquiry application. The network service provider selects the newly added scanning service option. The first terminal adds a row of tables in the scan service management list based on the selection operation of the added scan service option, and the network service provider can input the name of the service query application, namely client foreground service, in the service information column of the added row of tables, and input the state of the service query application, namely authenticated, in the authentication state column.

In a possible implementation manner, for any scanned content in the at least one scanned content included in the security scanning service, the network service provider performs a selection operation on an editing option corresponding to the any scanned content. And the first terminal displays an editing service panel based on the selection operation of the editing option, the editing service panel is used for configuring any scanning content, and the operation and maintenance personnel of the network service provider configure any scanning content on the editing service panel.

Taking any scanned content as the business query application as an example, the editing service panel is used for configuring address information and login information of an application for managing a network communication product. The application may be a web application, and the address information includes a service address of the application and a page address of a landing page of the application. Optionally, the address information further includes a verification website, where the verification website is an authorized website of the login page, and is used to verify whether the login of the client is successful, and if the login is successful, directly skip to the verification website. The login information includes a user name and a login password. Optionally, the login information further includes a name of the service query application.

Still based on fig. 8, the operation and maintenance staff of the network service provider performs a selection operation on the editing option corresponding to the "customer front desk service", and the first terminal displays an editing service panel on the scanning page based on the selection operation on the editing option, where the editing service panel includes a name input box, a service address input box, a login page input box, a user name input box, a password confirmation input box, and a post-verification-login website input box. The operation and maintenance personnel of the network service provider inputs the name ' customer foreground service ' of the business query application in a name input box, inputs the service address ' https:// xxx. The operation and maintenance personnel of the network service provider inputs the user name 'xxx' of a built-in client role in a user name input box, wherein the built-in client role is the client role set by the network service provider for security scanning. The web service provider enters the login password "×") in the password input box, enters the login password "×", again in the confirmation password input box, and enters the verification website "https:// xxx. After the operation and maintenance personnel of the network service provider configures the address information and the login information of the client foreground service on the editing service panel, the operation and maintenance personnel select the editing option corresponding to the client foreground service again, the first terminal closes the editing service panel, and acquires the address information and the login information of the client foreground service configured by the network service provider from the editing service panel.

702. The first terminal sends a security scanning request of a network service provider to a service management platform based on the selection operation of the scanning option, wherein the security scanning request indicates that security scanning is performed on an application provided by the network service provider and used for managing the network communication product, and the security scanning request comprises at least one function which is selected by the network service provider and needs security scanning.

The scanning option corresponds to the application, and the scanning request further includes address information and login information of the application.

In one possible implementation, the operation and maintenance personnel of the network service provider selects at least one function requiring security scanning in the scanning service management panel, for example, the security scanning is performed on the application as a function requiring security scanning, or the function to be scanned in the application is performed on the function requiring security scanning. And the operation and maintenance personnel of the network service provider select the scanning option, and if the first terminal detects the selection operation of the scanning option, the scanning request is generated based on the address information and the login information of the application, which are acquired from the editing service panel, and the security scanning request is sent to the service management platform.

703. The service management platform receives a security scan request of the network service provider.

704. And the service management platform determines a security scanning result of the application according to the security scanning request.

And after receiving the security scanning request, the service management platform acquires the address information and the login information of the application from the security scanning request, logs in the application according to the address information and the login information, and performs security scanning on the application to obtain a security scanning result of the application.

705. And the service management platform sends a scanning response to the first terminal, wherein the scanning response carries a security scanning result of the application.

706. The first terminal receives the scan response.

The process shown in the above steps 702-706 is a process of performing security scanning on the service query application of the network communication product by the service management platform based on the selection operation of the scanning option by the first terminal.

If the security scanning service includes multiple scanned contents, the first terminal may perform security scanning on each of the multiple scanned contents through the processes shown in steps 702 to 706, so as to obtain a scanning result of the security scanning on the multiple scanned contents.

Fig. 8 illustrates an example of one scanning option for each scanned content. In some embodiments, a total control scanning option is further provided outside or in the service management list, the service management list is further provided with scanning selection columns, each scanning selection column includes a selection frame, each selection frame provides a function of selecting corresponding scanning content, an operation and maintenance person of the network service provider selects a plurality of scanning contents in the service management list through the selection frame and performs a selection operation on the total control scanning option, then a scanning request sent by the first terminal to the service management platform includes related information of the plurality of scanning contents, the service management platform performs security scanning on the plurality of scanning contents, and returns a security scanning result of the plurality of scanning contents to the first terminal.

In one possible implementation, the steps performed by the business management platform in fig. 3 are performed by a second computing device on which the business management platform is located, or by an asset management platform in the business management platform, or by a second computing device on which the asset management platform is located. The asset management platform is used for providing management services for the network communication product.

According to the method provided by the embodiment of the application, the application for managing the network communication product is safely scanned through the service management platform, so that the safety of the application is ensured.

In one possible implementation, the first computing device that the network service provider logs in is used for storing data related to the network communication product of the network service provider, such as metadata of the network communication product or business data of the network communication product. In order to facilitate subsequent storage of the service data generated in the process of purchasing the network communication product on the delivery platform by the customer to the first computing device, system interfacing needs to be performed between the network service management system of the network service provider and the service management platform of the cloud service provider, for example, the service management platform debugs a call interface of the network communication product in the first computing device. For further explanation of the process of debugging the call interface of the network communication product, refer to a flowchart of interface debugging provided in the embodiment of the present application shown in fig. 9.

901. The first terminal displays an interface debugging interface of the network communication product, wherein the interface debugging interface comprises interface debugging options.

Wherein the interface debug option is used to trigger sending a debug request to the service management platform (as shown in step 902 below). The interface debugging interface is used for configuring a calling interface of a network communication product, for example, configuring an interface address of the calling interface and product information of the network communication product, where the interface address may be an address of the first computing device, such as a Uniform Resource Locator (URL) address of the first computing device. The product information includes at least one of Identification (ID), specification information, cycle type, cycle number, and coverage area of the network communication product. The identifier of the network communication product is used for uniquely indicating the network communication product, and since the network communication product is subsequently used as a commodity for transaction, the identifier of the network communication product can also be called a commodity ID. The specification information of the network communication product is used for indicating the service specification of the network service. The cycle type of the network communication product is used to indicate a service cycle of the network communication product, such as a packet year type: the service period for purchasing the network communication product is year, and the monthly type is: the service period of the network communication product is a month. The number of cycles of the network communication product is the maximum number of service cycles of the network communication service. In one possible implementation, the interface debug interface implements visualization based on a markup (yaml).

In a possible implementation manner, after the first terminal displays the main interface of the third application program, the operation and maintenance personnel of the network service provider select the system debugging option of the main interface. And the first terminal displays the interface debugging interface based on the selection operation of the system debugging option. The interface debugging options include a menu bar including a system interface debugging option and a use case management option, for example, a schematic diagram of an interface debugging interface provided in the embodiment of the present application shown in fig. 10. The system interface debugging option is used for calling an interface configuration panel of a network communication product, and the interface configuration panel is used for configuring an interface address of a calling interface of the network communication product and product information of the network communication product. And the use case management option is used for calling debugging success information of the calling interface which has been successfully debugged.

In a possible implementation manner, an operation and maintenance person of a network service provider performs a selection operation on a system interface debugging option in a menu bar, and the first terminal displays an interface configuration panel on an interface debugging interface based on the selection operation on the system interface debugging option, where the interface configuration panel includes a debug request generation option, an interface debugging option, and a configuration box. Wherein the generate debug request option is used to trigger the generate debug request. The interface debugging option is used for triggering and sending the generated debugging request, and the configuration box is used for configuring the interface address of the calling interface and the product information of the network communication product.

In one possible implementation, the configuration box includes a configuration list for configuring the interface address of the calling interface and the product information of the network communication product. In one possible implementation, the configuration box further includes a plurality of status options of the network communication product, such as a new purchase option, a renewal option, an expiration option, a release option, and an upgrade option. The new purchase option is used for indicating that the network communication product is purchased by a customer, and the time length between the payment time length and the service period of the network communication product purchased by the customer is greater than or equal to a first time length, at the moment, the network communication product is in a new purchase state, the first time length is less than the service period, and the payment time length is the time length from the time when the customer purchases the network communication product to the current time. The renewal option is used for indicating that the network communication product purchased by the customer is about to expire, namely, the time length between the payment time length and the service period of the network communication product purchased by the customer is less than a second time length, wherein the second time length is less than the first time length, and the network communication product is in a renewal state. The expiration option is used for indicating that the network communication product is paid for more than a service period and the network communication product is purchased again without a renewal fee by the customer, and the network communication product is in an expiration state. The renewal option is used to indicate that the network communication product is not used by the customer, and the network communication product is in a released state. The upgrade option is used for indicating that the version of the network communication product is upgraded, and the network communication product is in an upgraded state and has a plurality of versions.

Still taking fig. 10 as an example, the configuration list in the configuration frame in fig. 10 includes a parameter description column, a parameter name column, and a parameter value column, where the parameter description column is used to describe each parameter to be configured, the parameter name column is used to record the name of each parameter to be configured, and the parameter value column is used to configure the parameter value of the parameter. The method comprises the steps that operation and maintenance personnel of a network service provider inputs a URL address 'https:// xxx.example.com' of first computing equipment in a parameter value column corresponding to an interface address, inputs specification information 'xxx' of a network communication product in a parameter value column corresponding to a product specification, inputs an identifier 'xxx' of the network communication product in a parameter value column corresponding to a commodity ID, inputs the cycle number '5' of the network communication product in a parameter value column corresponding to a cycle number, and inputs a coverage area of the network communication product in a parameter value column corresponding to a coverage area.

902. And the first terminal sends an interface debugging request to the service management platform based on the selection operation of the interface debugging option, wherein the interface debugging request comprises at least one interface which is selected by the network service provider and needs to be debugged.

Wherein, the at least one interface is a calling interface of the network communication product configured by the network service provider on an interface configuration interface. The calling interface comprises a period management interface or a delivery management interface of the network communication product, and the period management interface is used for calling opening information generated by a user (namely a client) in the process of opening the network communication product, such as the time length for opening the network communication product (namely the service time length of the purchased network communication product), the remaining time length for opening the network service, and the like. The delivery management interface is used for calling the delivery flow information generated in the process of delivering the network communication product.

In a possible implementation manner, an operation and maintenance person of a network service provider selects a debugging request generation option on an interface configuration panel, the first terminal acquires an interface address of the calling interface configured by the network service provider and product information of the network communication product from a configuration frame based on the selection operation of the debugging request generation option, and generates and displays a debugging request based on the interface address and the product information. Optionally, the debug request includes a head (header) and a body (body), the interface address may be located at the head, and the product information may be located at the body, for example, as shown in fig. 10.

After the debugging request is displayed, operation and maintenance personnel of the network service provider select the interface debugging option, and if the first terminal detects the selection operation of the interface debugging option, the debugging request is sent to the service management platform. The interface debugging option in fig. 10 is an option of "debug and use case".

903. The service management platform receives an interface debugging request of the network service provider.

904. And the service management platform determines that the connection between the at least one interface and the service management platform is in an available state according to the debugging request.

After receiving the debugging request, for any interface in the at least one interface, the service management platform acquires an interface address of the any interface from the debugging request and connects the first computing device indicated by the any interface address, if the connection is successful, the debugging of the any interface is successful, and the first terminal determines that the direct connection between the any interface and the service management platform is in an available state. Otherwise, the first terminal determines that the direct connection between any interface and the service management platform is in an unavailable state.

If the debugging is successful, the service management platform sends a debugging success response to the first terminal to indicate that the debugging of any interface is successful, if the debugging is failed, the service management platform sends a debugging failure response to the first terminal to indicate that the debugging of any interface is failed, the first terminal receives and displays the debugging failure response to prompt operation and maintenance personnel of a network service provider to reconfigure any interface at the first terminal and trigger the first terminal to resend a debugging request so that the service management platform can debug the newly configured calling interface.

In a possible implementation manner, after the debugging of any interface is successful, the service management platform further performs the processes shown in the following steps 905 to 906.

905. The service management platform stores debugging success information of any interface which is connected with the service management platform in an available state, and the debugging success information is used for indicating that any interface is successfully debugged.

The debugging success information comprises an identifier of the network service provider, product information of network communication products, an interface address of any interface and a success identifier, and the success identifier is used for indicating that the interface is debugged successfully. In one possible implementation, the debugging success information may also be referred to as a use case.

The operation and maintenance personnel of the network service provider can select the use case management option in the interface debugging interface displayed by the first terminal, and the first terminal sends a use case acquisition request to the service management platform based on the selection operation of the use case management option. After the service management platform receives the use case acquisition request, each piece of debugging success information corresponding to the network service provider is sent to the first terminal based on the identifier of the network service provider in the use case acquisition request, and each piece of debugging success information corresponding to the network service provider is received and displayed by the first terminal.

906. And the service management platform carries out dial testing on any interface.

In one possible implementation, the service management platform periodically debugs any of the interfaces. The service management platform can be connected with any interface at any time, so that opening information or delivery process information of the network communication product can be sent to the first computing equipment through any interface at any time.

It should be noted that the process shown in fig. 9 may be before the network service provider requests to publish the network communication product, or may be after the network service provider requests to publish the network communication product.

In one possible implementation, the steps performed by the business management platform in fig. 3 are performed by a second computing device on which the business management platform is located, or by an asset management platform in the business management platform, or by a second computing device on which the asset management platform is located.

According to the method provided by the embodiment of the application, the call interface of the network communication product is debugged through the service management platform, the system butt joint of the cloud service provider and the network communication provider is realized, and the communication between the service management platform and the system of the network communication provider is ensured.

It should be noted that the processes shown in fig. 3, fig. 7, or fig. 9 are all business processing processes. The service processed in fig. 3 is to issue the delivery flow of the network communication product to the delivery platform, the service processed in fig. 7 is to perform security scanning on the application for managing the network communication product, and the service processed in fig. 9 is to debug the call interface of the network communication product.

In a possible implementation manner, the release of the network communication product to the service management platform is also a service processing procedure, and for the purpose of explaining the procedure, refer to a flowchart of a service processing method provided in the embodiment of the present application shown in fig. 11.

1101. The first terminal determines a plurality of preset attribute parameters of the network communication product.

The preset attribute parameters comprise characteristic parameters, and the characteristic parameters comprise any one or more of the following parameters: uplink bandwidth, maximum operating terminal number, version. The upstream bandwidth is a bandwidth when data is input by a terminal using the network communication product. The maximum number of terminals is the maximum number of terminals that can be accessed by the network communication product. Versions of the network communication product are for different types of customers, the versions of the network communication product are different, such as for individual customers or home customers, the version of the network communication product is a basic version, and the version of the network communication product is an enterprise version for panel enterprise customers.

In one possible implementation manner, the multiple attribute parameters further include an operation parameter, and the operation parameter includes a coverage area, where the coverage area is a deployment area or a service area of the network communication product.

In a possible implementation manner, the multiple kinds of attribute information are preset by the cloud service provider on a service management platform, and are sent to the first terminal by the service management platform. In another possible implementation manner, in order to facilitate the network service to provide attribute information of the personalized network communication product, the network service provider presets the multiple attribute parameters at the service management platform through the first terminal.

The service management platform provides a parameter customization interface to the network service provider, for example, the service management platform provides the parameter customization interface to the network service provider through a third application program, and the first terminal of the network service provider displays the parameter customization interface, so that operation and maintenance personnel of the network service provider can preset various attribute parameters on the parameter customization interface.

In a possible implementation manner, after the first terminal displays the main interface of the third application program, the operation and maintenance personnel of the network service provider select the information customization option on the main interface, and the first terminal displays the parameter customization interface based on the selection operation of the information customization option. The operation and maintenance personnel of the network service provider can configure various attribute parameters of the network communication product on the parameter custom interface, and the first terminal obtains the various attribute parameters configured by the network service provider from the parameter custom interface. For further explanation of the process, refer to a flowchart of an attribute parameter obtaining method provided in the embodiment of the present application shown in fig. 12. Fig. 12 includes the following steps 11A1 to 11A4.

Step 11A1, the parameter customization interface includes an operation parameter customization option, and the first terminal displays an operation parameter customization panel based on a selection operation of the operation parameter customization option.

The operation parameter self-defining panel comprises a menu bar, the menu bar comprises operation parameter management options, and the operation parameter management options are used for calling the operation parameter list panel. The operating parameter list board is used for configuring at least one operating parameter of the network communication product, and each operating parameter is used for indicating one parameter related to the operation of the network communication product, such as the coverage area of the network communication product. The at least one operating parameter of the network communication product may be configured according to the network communication product in a specific implementation scenario, and the embodiment of the present application does not limit the at least one operating parameter of the network communication product.

In a possible implementation manner, the operation and maintenance personnel of the network service provider performs selection operation on the operation parameter customization option, if the first terminal detects the selection operation on the operation parameter customization option, the first terminal displays the operation parameter customization panel, and the operation and maintenance personnel of the network service provider configures various operation parameters of the network communication product in the operation parameter customization panel.

Step 11A2, the first terminal obtains at least one preset operation parameter from the operation parameter customization panel.

In a possible implementation manner, the operation and maintenance personnel of the network service provider performs a selection operation on the operation parameter management option, and if the first terminal detects the selection operation on the operation parameter management option, the first terminal displays the operation parameter list panel. The operation parameter list panel comprises a user-defined operation parameter list and a newly-added operation parameter option, wherein each row of the user-defined operation parameter list is used for configuring one operation parameter of the network communication product, and the newly-added operation parameter option is used for triggering the addition of a row of lists at the tail end of the user-defined operation parameter list. For example, fig. 13 is a schematic diagram of an operation parameter customization panel provided in the embodiment of the present application.

And the operation and maintenance personnel of the network service provider performs selection operation on the newly-added operation parameter option, and the first terminal adds a row list at the tail end of the user-defined operation parameter list based on the selection operation on the newly-added operation parameter option. The operation column in the added row list includes an editing option and a deleting option, the editing option is used to invoke an operation parameter editing panel, the operation parameter editing panel is used to configure an operation parameter, for example, configure a name, an operation value, a data type, and a scene of the operation parameter, where the data type of the operation parameter is a data type of the operation value of the operation parameter, for example, an enumeration type or an input text type, and the enumeration type indicates that each operation value of the operation parameter is enumerated. The enumerated multiple selection type is used for indicating that the operation values of the operation parameters are enumerated, and the client allows to select a plurality of operation values of the operation parameters when using the network communication product. For example, the operation parameter is a service time, and the operation value of the service time includes monday to sunday, and the client selects the time required for the service from the several operation values of monday to sunday. The input text type is used to indicate that the operational value of the operational parameter is remarked by the customer, e.g. the customer fills in a specific requirement for the operational parameter when purchasing the network communication product. The scene of the operation parameter indicates an application scene of the network communication product under the operation parameter, such as a new purchase scene of a new purchase or a first purchase of the network communication product. The delete operation triggers the deletion of the list, i.e., the deletion of an operational parameter configured by the network service provider.

And the operation and maintenance personnel of the network service provider select the editing option, the first terminal displays an operation parameter editing panel based on the first selection operation of the editing option, the operation and maintenance personnel of the network service provider inputs the name, the data type, the operation value and the scene of the operation parameter in the operation parameter editing panel, and the operation and maintenance personnel of the network service provider select the editing option again after the input is completed. And the first terminal closes the operation parameter editing panel based on the second selection operation of the editing option, acquires the name, the data type, the operation value and the scene of the operation parameter input by the operation and maintenance personnel of the network service provider from the operation parameter editing panel, namely acquires the attribute information of the operation parameter, displays the acquired attribute information in a corresponding column in the newly added row, and completes the configuration of the operation parameter.

Taking fig. 13 as an example, if the operation of selecting the editing option in the first row list is detected in the operation parameter list panel, the first terminal displays an operation parameter editing panel. Taking the configured operation parameter as the coverage area of the network communication product as an example, an operator of the network service provider selects the data type of the operation parameter as an enumeration single selection type in a parameter type input box of the operation parameter editing panel, and inputs a parameter code "coverageArea" of the operation parameter in a parameter code input box, wherein the parameter code refers to the number of the operation parameter and is used for transmitting a corresponding parameter value, such as the coverage area, when a service management system interface of the network service provider is called. The operation and maintenance personnel of the network service provider inputs the Chinese name "coverage area" of the operation parameter in the Chinese name input box, inputs the English name "coverageArea" of the operation parameter in the English name input box, selects the scene "new purchase" of the operation parameter in the scene input box, and inputs an operation value of the operation parameter in each input box of enumerated values, such as "Xx park in Xx city Xx of Xx province" or "Yy park in Yy city Yy park in Yy province". If the input box of the enumeration value is insufficient, the operation and maintenance personnel of the network service provider performs selection operation on the option of adding (+) enumeration value, the first terminal adds an enumeration value input box based on the selection operation on the option of adding enumeration value, and the operation and maintenance personnel of the network service provider inputs other operation values of the operation parameter in the new enumeration value input box. After the operation and maintenance personnel of the network service provider configure the operation parameters on the operation parameter editing panel, the first terminal displays the information of the name, the data type, the operation value (namely, the attribute value), the scene and the like of the operation parameters configured on the operation parameter editing panel in the corresponding column of the row where the editing option is located.

It should be noted that the above steps 11A1-11A2 are optional steps, and in some embodiments, at least one operation parameter of the network communication product is not configured, and accordingly, the first terminal does not perform the above steps 11A1-11A2. Whether the above steps 11A1-11A2 are performed or not may be determined by the specific implementation scenario and the network service provider.

And step 11A3, the parameter customization interface comprises a characteristic parameter customization option, and the first terminal displays a characteristic parameter customization panel based on the selection operation of the characteristic parameter customization option.

The characteristic parameter self-defining panel is an interface for a network service provider to define the characteristic parameters of the network communication product. The feature parameter customization panel includes a menu bar that includes feature parameter management options for invoking the feature parameter list panel.

In a possible implementation manner, operation and maintenance personnel of a network service provider perform selection operation on the feature parameter customization option, and if the first terminal detects the selection operation on the feature parameter customization option, the first terminal displays the feature parameter customization panel.

Step 11A4, the first terminal obtains at least one feature parameter of the network communication product configured by the network service provider from the feature parameter custom panel.

And the operation and maintenance personnel of the network service provider select the characteristic parameter management options in the characteristic parameter custom panel menu bar, and the first terminal displays the characteristic parameter list panel based on the selection operation of the characteristic parameter management options. The characteristic parameter list board comprises a user-defined characteristic parameter list and newly added characteristic parameter options, wherein the user-defined characteristic parameter list is used for configuring the characteristic parameters of the network communication product, and each line is used for configuring one characteristic parameter of the network communication product. The new feature parameter option is used to trigger the addition of a new row at the tail end of the custom feature parameter list.

Each row in the custom feature parameter list comprises a deletion option and an editing option, and the deletion option is used for triggering deletion of the row where the deletion option is located. The edit option is for invoking a feature parameter edit panel, the feature parameter edit panel for configuring a feature parameter of the network communication product. For example, at least one of the name, type, feature code, unit, and feature description information of a feature parameter is configured, where the type of the feature parameter is a data type, such as a number or an enumerated type, of a feature value of the feature parameter. The feature description information of the feature parameter is used to describe the feature parameter. The feature code of the feature parameter is used for instructing a client to open a value type attribute value of the feature parameter of the network communication product, such as how many terminals the client uses the network communication product. Referring to fig. 14, a schematic diagram of a feature parameter customization panel according to an embodiment of the present application is shown.

And the operation and maintenance personnel of the network service provider select the newly added characteristic parameter options in the characteristic parameter list panel, and the first terminal adds a row list at the tail end of the user-defined operation parameter list based on the selection operation of the newly added operation parameter options. And the operation and maintenance personnel of the network service provider select the editing option in the row list, and the first terminal displays a characteristic parameter editing panel based on the first selection operation of the editing option. The operation and maintenance personnel of the network service provider inputs the name, type, feature code, unit and feature description information of the feature parameter in the feature parameter editing panel. After the input is completed, the operation and maintenance personnel of the network service provider selects the editing option again. And the first terminal closes the characteristic parameter editing panel based on the second selection operation of the editing option, acquires the name, type, characteristic code, unit and characteristic description information of the characteristic parameter configured by the network service provider from the characteristic parameter editing panel, namely acquires the attribute information of the characteristic parameter, and displays the acquired attribute information in a corresponding column in a newly added line, thereby completing the configuration of the characteristic parameter.

Taking fig. 14 as an example, the operation and maintenance personnel of the network service provider configures a feature parameter "upstream bandwidth" of the network communication product in the first row list of the customized feature parameter list in the feature parameter list panel. And configuring another feature parameter 'maximum terminal number' of the network communication product in a second row list of the custom feature parameter list. For example, if a selection operation of an editing option in the second row list is detected, the first terminal displays a characteristic parameter editing panel. The operation and maintenance personnel of the network service provider select the type of the characteristic parameter as the number in the characteristic type input box of the characteristic parameter editing panel, select the characteristic code of the characteristic parameter as the number 'amount' in the characteristic code input box, input the Chinese name 'Maximum terminal number' of the characteristic parameter in the Chinese name input box, input the English name 'Maximum number of terminals' of the characteristic parameter in the English name input box, select the unit 'number' of the characteristic parameter in the unit input box, and input the characteristic description information 'Maximum terminal number that the network connection product can accommodate' of the characteristic parameter in the characteristic description input box. After the operation and maintenance personnel of the network service provider configure the attribute information of the characteristic parameter "maximum terminal number" on the characteristic parameter editing panel, the first terminal displays the attribute information configured on the characteristic parameter editing panel in the corresponding column of the row where the editing option is located. Similarly, the operation and maintenance personnel of the network service provider configure another Zhang Tezheng parameter "version" of the network communication product in the third row of the feature parameter list.

In one possible implementation, the parameter customization interface does not include an operation parameter customization option, an operation parameter customization panel is not provided, and the network service provider configures the operation parameters of the network communication product as the characteristic parameters.

1102. The service management platform provides an attribute configuration interface to the network service provider, and the attribute configuration interface provides a plurality of preset attribute parameters.

The attribute configuration interface comprises a product release panel and a feature display panel. The product publishing panel is used for applying for publishing the network communication product, and the product publishing panel provides the operating parameters in the plurality of attribute parameters. The characteristic display panel is used for displaying characteristic parameters in the multiple attribute parameters.

In a possible implementation manner, the service management platform provides an attribute configuration interface to a network service provider through a third application program, and the first terminal of the network service provider displays the attribute configuration interface. For example, after the first terminal displays the main interface of the third application program, the operation and maintenance personnel of the network service provider select the product release option of the main interface, and the first terminal displays the product release panel based on the selection operation of the product release option. The product release panel includes at least one of a product name input box, a product description input box, an interface address input box, an associated security scan result input box, a delivery flow input box, an operation parameter box, and the add feature specification option, for example, the product release panel shown in the left diagram in fig. 15, where fig. 15 is a schematic diagram of an attribute configuration interface provided in an embodiment of the present application.

Wherein the product name input box is used for inputting the identification (such as name) of the network communication product. The product description input box is used for inputting the description information of the network communication product. The interface address input box is used for inputting an interface address of a calling interface of the network communication product. Optionally, a debugging prompt message is also displayed under the interface address input box, where the debugging prompt message is used to prompt a network service provider to perform interface debugging, for example, "if the interface address originally filled by you is not stored, the product is not selectable when modified, an interface debugging or a management debugging case is requested, and the production interface docking is performed again", where generating the interface docking is to debug a call interface of the network communication product. The associated security scan result input box is used for inputting a security scan result of an application for managing the network communication product. The delivery flow input box is used for inputting the name of the delivery flow. The operation parameter box comprises an addition parameter option and an operation parameter list, wherein the addition parameter option is used for calling the operation parameter list panel. The operation parameter list is used for displaying the operation parameters of the network communication product configured by the network service provider on the operation parameter list panel. The operation parameter list includes a name column for displaying names of the operation parameters of the network communication product, a parameter column for displaying operation values of the corresponding operation parameters, a hint description for prompting the client to input the corresponding operation values (i.e. prompting the client to input or select the corresponding operation values correctly), for example, explaining the role of the coverage area, and selecting the coverage area correctly, and an operation column. The action column includes a delete option for triggering deletion of the row in which the delete option resides. The add feature specification option is used to invoke a specification configuration panel, which also belongs to the property configuration interface.

In one possible implementation manner, the operation and maintenance personnel of the network service provider inputs corresponding content in each input box in the product release panel, for example, the product release panel shown in the left diagram in fig. 15, the operation and maintenance personnel of the network service provider inputs the name "Xxx network product" of the network communication product in the product name input box, inputs the description information "xxxxxx" of the network communication product in the product description input box, inputs the interface address "https:// xxx.example.com/process" of the call interface of the network communication product in the interface address input box, inputs the security Scan result "xxxx service-Scan-Report-2021052412" of the application in the associated security Scan result input box, and inputs the name "campus xx network delivery flow — 01" of the delivery flow of the network communication product in the delivery flow input box.

In a possible implementation manner, operation and maintenance personnel of a network service provider perform selection operation on an option of adding a feature specification on a product release panel, and the first terminal displays a specification configuration panel based on the selection operation on the option of adding the feature specification on the product release panel.

The specification configuration panel is used for configuring specification information and price information of the network communication product. The number of the specification information of the network communication product is at least one, and one specification information of the network communication product is the minimum unit for purchasing the network communication product. Alternatively, the specification information may also be referred to as Stock Keeping Unit (SKU). Each specification information corresponds to one price information, and each price information indicates a price of the network communication product for which one specification information is purchased. The specification information and the price information of the network communication product are configured by the operation and maintenance personnel of the network service provider.

The specification configuration panel includes at least one of a name output box, an option to generate a specification based on the feature, or a specification price presentation list, such as the specification configuration panel shown in the right diagram in fig. 15. Wherein the name output box is used for inputting the identification of the network communication product. The specification price display list is used for configuring price information corresponding to each specification information of the network communication product and displaying the specification information of the network communication product and the price information configured by the network service provider. The feature generation specification based option is used to invoke a feature presentation panel of the network communication product. The feature display panel is used for displaying various feature parameters of the network communication product configured by a network service provider. The feature display panel comprises a feature parameter display list and next step options, wherein each row of the feature parameter display list comprises a selection box and a feature parameter of the network communication product, and the selection box provides a function of selecting the corresponding feature parameter for a network service provider. The next option is for triggering the first terminal to determine at least one characteristic parameter selected by the network service provider.

In a possible implementation manner, operation and maintenance personnel of a network service provider select an option based on a feature generation specification, if the first terminal detects the selection operation of the option based on an attribute generation specification, the first terminal displays a feature display panel, acquires at least one feature parameter of the network communication product configured by the network service provider from a custom feature parameter list panel, and displays the acquired at least one feature parameter in the feature parameter display list. For example, fig. 16 is a characteristic display panel shown in the upper left diagram, where fig. 16 is a schematic diagram of generating specification information of a network communication product according to an embodiment of the present application. The feature parameter display list in the feature display panel in the upper left diagram of fig. 16 shows 6 feature parameters of the network communication product, where the 6 feature parameters are uplink bandwidth, maximum terminal number, version, xxx, yyy, and zzz, respectively, where the xxx, yyy, and zzz are other feature parameters configured by the network service provider except for the uplink bandwidth, the maximum terminal number, and the version.

1103. The first terminal determines at least one selected by the network service provider from the plurality of preset attribute parameters.

In a possible implementation manner, for any one of the multiple attribute parameters, on the feature parameter display list, the operation and maintenance personnel of the network service provider performs a selection operation on the selection box corresponding to the any one of the multiple attribute parameters, and if the first terminal detects the selection operation on the selection box, the first terminal determines that the any one of the multiple attribute parameters is the feature parameter selected by the network service provider. Therefore, the operation and maintenance personnel of the network service provider can select at least one characteristic parameter from the multiple kinds of attribute information according to the characteristics of the network communication products, and the first terminal can also determine the at least one characteristic parameter selected by the network service provider.

In a possible implementation manner, after the first terminal determines that any one of the feature parameters is the feature parameter selected by the network service provider, the first terminal displays a selected identifier in a selection box corresponding to the any one of the feature parameters, so as to prompt an operation and maintenance person of the network service provider that the any one of the feature parameters has been selected. For example, as shown in the upper left diagram in fig. 16, the operation and maintenance personnel of the network service provider performs a selection operation on 3 feature parameters, namely, the uplink bandwidth, the maximum terminal number, and the version, displayed on the feature parameter display list, and the first terminal displays the check mark "√" in the selection box corresponding to the 3 feature parameters.

1104. The first terminal sends at least one selected from the plurality of preset attribute parameters of the network service provider to the service management platform.

Wherein, the at least one attribute parameter is at least one feature parameter selected from the configured features by the network service provider. In a possible implementation manner, the operation and maintenance personnel of the network service provider performs a selection operation on a next option in the feature display panel, and the first terminal sends an attribute value configuration request to the service management platform based on the selection operation on the next option, where the attribute value configuration request includes at least one attribute parameter selected by the network service provider in the feature display panel.

1105. The service management platform receives at least one selected by the network service provider from the plurality of preset attribute parameters.

The service management platform receives an attribute value configuration request sent by the first terminal, and obtains at least one attribute parameter selected by the network service provider from the attribute value configuration request.

1106. And the service management platform generates specification information of the network communication product according to the selected at least one attribute parameter.

The specification information of the network communication product is at least one, and if the number of the specification information of the network communication product is 1, the specification information comprises an attribute value of the at least one attribute parameter. If the number of the specification information of the network communication product is greater than 1, for any attribute parameter in the at least one attribute parameter, if the type of the any attribute parameter is an enumeration type, each specification information of the network communication product respectively comprises an attribute value of the any attribute parameter, and if the type of the any attribute parameter is a quantity type, each specification information of the network communication product respectively comprises each attribute value corresponding to the any attribute parameter. Optionally, each specification information further includes a name of each specification information.

In a possible implementation manner, the network service provider configures the attribute value of the at least one attribute parameter through the first terminal, and the service management platform generates the specification information of the network communication product based on the attribute value of the at least one attribute parameter configured by the network service provider. For example, steps 11B1-11B4 shown in fig. 17, where fig. 17 is a flowchart of a specification information generating method provided in an embodiment of the present application.

Step 11B1, the first terminal displays an attribute value editing panel, where the attribute value editing panel is used to configure at least one attribute value corresponding to the at least one attribute information.

The attribute value editing panel comprises an editing box of the at least one attribute parameter, and the editing box of each attribute parameter is used for configuring the attribute value of each attribute parameter. In a possible implementation manner, for any attribute parameter in the at least one attribute parameter, if the type of the any attribute parameter is an enumeration type, the edit box of the any attribute parameter includes at least one enumeration value input box and an enumeration attribute option. Wherein, each enumeration value input box is used for inputting an attribute value of any attribute parameter. The enumeration property option is used to trigger the addition of an enumeration value entry box in the edit box. If the type of any attribute parameter is a quantity type, the edit box comprises a minimum input box, a maximum input box and a step length input box. The minimum value input box is used for inputting the minimum attribute value of any attribute parameter, and the maximum input box is used for inputting the maximum attribute value of any attribute parameter. The step size input box is used for indicating the step size between two adjacent numerical values of any attribute parameter.

In a possible implementation manner, the attribute value editing panel further includes a previous option and a next option, the previous option is used to invoke the feature display panel, and the next option is used to trigger the first terminal to acquire the attribute value of at least one attribute parameter in the attribute value editing panel.

And after the service management platform acquires the at least one attribute parameter, the service management platform generates rendering data of an attribute value editing panel according to the at least one attribute parameter and sends the rendering data to the first terminal. And displaying the attribute value editing panel by the first terminal according to the rendering data.

And the operation and maintenance personnel of the network service provider inputs the attribute values of the corresponding attribute parameters in the edit boxes of the attribute value edit panel, and after the input of the attribute values of all the attribute parameters is finished, the operation and maintenance personnel of the network service provider performs selection operation on the next step options in the attribute value edit panel. And the first terminal acquires the attribute value of the at least one attribute parameter configured by the network service provider from the characteristic parameter editing panel based on the selection operation of the next step option.

For example, in the attribute value edit panel shown in the upper right diagram in fig. 16, edit boxes for displaying 3 attribute parameters such as the maximum terminal number, the upstream bandwidth, and the version are displayed, and the minimum attribute value of the maximum terminal number input by the operation and maintenance staff of the network service provider in the edit box for the maximum terminal number is 1, the maximum attribute value of the maximum terminal number is 99, and the step length is 2. The 2 enumerated values input in the edit box of the uplink bandwidth are 2Mb and 5Mb,2Mb and 5Mb respectively, namely 2 attribute values of the uplink bandwidth. The 2 enumerated values input in the edit box of the version are the basic version and the enterprise version, namely the 2 attribute values of the version.

And step 11B2, the first terminal sends a specification information generation request to the service management platform based on the attribute value of the at least one attribute parameter.

Wherein the specification information generation request is used for indicating that the specification information of the network communication product is generated based on the attribute value of the at least one attribute parameter, and the specification information generation request comprises the attribute value of the at least one attribute parameter.

And step 11B3, the service management platform receives the specification information generation request.

And step 11B4, the service management platform generates specification information of the network communication product based on the specification information generation request.

Wherein each specification information includes at least one attribute value of the at least one attribute parameter. When the specification information of the network communication product is multiple, the attribute value of at least one attribute parameter in any two specification information is different.

And after receiving the specification information generation request, the service management platform acquires the attribute value of the at least one attribute parameter configured by the network service provider from the specification information generation request. The service management platform combines the attribute values of the at least one attribute parameter based on the type of the at least one attribute parameter to obtain at least one specification information of the network communication product, and displays the name of the at least one specification information in the specification information display panel.

Here, the embodiment of the present application does not limit a manner in which the service management platform combines the attribute values of the at least one attribute parameter based on the type of the at least one attribute parameter. It should be noted that, each specification information includes an attribute value of an enumerated type attribute parameter in the at least one attribute parameter, and the number of the at least one specification information is: the product of the number of attribute values of each enumerated type attribute parameter in the at least one attribute parameter, so that when the number of attribute values corresponding to the enumerated type attribute parameter in the at least one attribute parameter is large, the number of the combined specification information is large. Considering that specification information of a generally issued network communication product is limited, when a product of the number of attribute values of enumerated type attribute parameters in the at least one attribute parameter is greater than a target threshold value, the service management platform sends upper limit prompt information to the first terminal, and the first terminal receives and displays the upper limit prompt information, wherein the upper limit prompt information is used for prompting that the attribute value of the at least one attribute parameter configured by a network service provider exceeds an upper limit, and the configured attribute value is required to be reduced.

Still based on the attribute value editing panel shown in the upper right diagram in fig. 16, the attribute value of the maximum terminal number in the attribute value editing panel shown in fig. 16 includes values with step size 2 in 1 to 99, the attribute value of the upstream bandwidth includes 2Mb and 5Mb, and the attribute value of the version includes the base and the enterprise version. After detecting the selection operation of the next option in the attribute value editing panel shown in fig. 16, the first terminal sends the attribute values of the attribute parameters on the attribute value editing panel to the service management platform. The service management platform combines each numerical value with the step length of 2 in 1-99, 2Mb, 5Mb, a basic book and an enterprise edition based on the types of the 3 attribute parameters of the maximum terminal number, the uplink bandwidth and the edition to obtain specification information 1-4. Wherein, the specification information 1 comprises each numerical value with the step length of 2 in 1-99, 2Mb, a basic version and the name of the specification information 1, the specification information 2 comprises each numerical value with the step length of 2 in 1-99, 2Mb, an enterprise version and the name of the specification information 2, namely enterprise version-2M, the specification information 3 comprises each numerical value with the step length of 2 in 1-99, 5Mb, a basic version and the name of the specification information 3, namely basic version-5M, and the specification information 4 comprises each numerical value with the step length of 2 in 1-99, 5Mb, an enterprise version and the name of the specification information 4, namely enterprise version-5M.

1107. And the service management platform sends the specification information of the network communication product to the first terminal.

In a possible implementation manner, after the service management platform acquires the at least one specification information, the service management platform generates rendering data of the specification information display panel according to the at least one specification information, and sends the rendering data to the first terminal. The candidate specification information display panel is used for displaying at least one specification information of the network communication product.

1108. The first terminal receives and displays specification information of the network communication product.

In one possible implementation manner, the first terminal receives rendering data of the specification information display panel and displays the specification information display panel according to the rendering data. The specification information display panel displays the specification information of the network communication product.

For example, 4 pieces of specification information, i.e., a basic edition-2M, a basic edition-5M, an enterprise edition-2M, and an enterprise edition-5M, are displayed on the specification information display panel shown in the lower left of fig. 16. In the specification information display panel shown in the lower left of fig. 16, the numerical values of step size 2 within 1 to 99 in each specification information are not shown.

In a possible implementation manner, the specification information display panel further includes a configuration completion option, after the specification information of the network communication product is displayed on the specification information display panel, the operation and maintenance personnel of the network service provider performs a selection operation on the configuration completion option, the first terminal closes the specification information display panel based on the selection operation on the configuration completion option, and displays the names of the specification information of the network communication product in a specification price display list in the specification configuration panel, and the names of the specification information are respectively displayed in one row in the specification price display list.

The specification price display list of each line further comprises at least one price input box, and each price input box is used for configuring price information. The unit of price information in each price entry box may be different, for example, the unit of price information in one price entry box is element/piece/month, and the unit of price information in another price entry box is element/piece/year.

Optionally, the specification price presentation list of each row further includes a selection box for indicating whether the corresponding specification information is selected by the network service provider.

In one possible implementation, at least one specification information of the network communication product is used as the candidate specification information. The operation and maintenance personnel of the network service provider can select part or all of the candidate specification information from the at least one specification information to be used as the final specification information of the network communication product. For example, the operation and maintenance personnel of the network service provider performs selection operation on the selection frame corresponding to at least one target specification information in the at least one specification information, and inputs a corresponding price in the price input frame corresponding to the at least one target specification information. The first terminal takes the at least one target specification information as the specification information of the network communication product based on the selection operation of the selection frame corresponding to the at least one target specification information. And the first terminal displays the selected mark on the selection frame corresponding to the at least one piece of target specification information.

For example, in the specification configuration panel shown in the right diagram of fig. 15, the operation and maintenance staff of the network service provider performs a selection operation on selection frames corresponding to the specification information names "basic edition-2M" and "enterprise edition-2M" displayed on the specification price display list, and the first terminal uses two specification information names "basic edition-2M" and "enterprise edition-2M" as target specification information and displays a check mark "√" in the corresponding selection frames.

1109. The first terminal sends a product release request to the service management platform, and the product release request releases the network communication product containing the specification information.

The product release request also comprises at least one target specification information of the network communication product, price information corresponding to each target specification information, an identifier of the network communication product, description information, a security scanning result and an identifier of the network service provider.

In a possible implementation manner, the product release panel further includes an application release option, the operation and maintenance staff of the network service provider performs a selection operation on the application release option, the first terminal obtains, from the product release panel, an identifier, description information, and a security scanning result of the network communication product configured by the operation and maintenance staff of the network service provider based on the selection operation on the application release option, and generates the product release request based on the identifier of the network service provider, at least one target specification information selected by the operation and maintenance staff of the network service provider in the specification configuration panel, price information corresponding to each target specification information, and the identifier, description information, and security scanning result of the network communication product, and sends the product release request to the service management platform.

1110. The service management platform receives a product release request.

1111. The service management platform issues the network communication product containing the specification information.

In a possible implementation manner, the service management platform obtains the identifier, the description information, at least one target specification information, and price information corresponding to each target specification information of the network communication product from the product release request, and displays, on a commodity display interface, the service management platform: the identification, the description information, at least one target specification information and the price information corresponding to each target specification information of the network communication product. The commodity display interface also comprises a purchase option which is used for triggering the application of purchasing the network communication product which is selected by the customer and contains one or more pieces of target specification information.

For example, fig. 18 is a schematic diagram of a product display interface provided in an embodiment of the present application, where the product display interface in fig. 18 includes a display diagram of the network communication product, the display diagram may include description information/product information of the network communication product, the identifier of the network communication product is "xxx network product", price information is "rajxx.00", and at least one target specification information includes version, uplink bandwidth, number of terminals, purchase mode, operation parameter, and the like, where an operation value of the operation parameter is "Xx park in Xx city Xx park" in Xx province.

In a possible implementation manner, the service management platform performs qualification audit on the network communication product based on at least one of target specification information, description information, a security scanning result and an identifier of a network service provider, which are carried by a product release request, and if the qualification audit is passed, the second computing device releases the network communication product containing the specification information.

Wherein the second computing device performing qualification audit on the network communication product based on at least one of at least one target specification information, description information, security scanning result and an identifier of a network service provider carried by the product release request comprises: the service management platform prompts operation and maintenance personnel of the cloud service provider to perform qualification audit on the network communication product on the basis of at least one item of target specification information, description information, a safety scanning result and an identifier of the network service provider, and if the operation and maintenance personnel of the cloud service provider pass the qualification audit on the network communication product, the operation and maintenance personnel of the cloud service provider issue qualification audit passing response to the service management platform. If the business management platform receives the qualification audit passing response, the qualification audit of the network communication product passes, otherwise, the qualification audit of the network communication product does not pass. The prompting mode of the second computing device for prompting the cloud service provider to perform qualification audit on the network communication product online is the same as the prompting mode of the service management platform in step 203 for prompting the operation and maintenance personnel of the cloud service provider to perform qualification audit on the network service provider online.

In a possible implementation manner, the performing, by the service management platform, qualification audit on the network communication product based on at least one of target specification information, description information, a security scanning result, and an identifier of a network service provider, which are carried in the product release request, includes: for any one of at least one of the target specification information, the description information, the security scanning result and the identifier of the network service provider, if the operation and maintenance personnel of the cloud service provider pass the audit of the any one, the service platform determines that the any one passes the audit, and the service management platform issues the network communication product containing the specification information. For example, if the operation and maintenance personnel of the cloud service provider pass the security scanning result of the application for managing the network communication product, the service platform determines that the security scanning result of the application passes the verification, and publishes the network communication product including the specification information. Or if the operation and maintenance personnel of the cloud service provider all audit at least one of the target specification information, the description information, the security scanning result and the identification of the network service provider, the service platform determines that at least one of the target specification information, the description information, the security scanning result and the identification of the network service provider all audit at least one of the target specification information, the description information, the security scanning result and the identification of the network service provider, and the service management platform issues the network communication product containing the specification information.

In one possible implementation, the steps performed by the service management platform in fig. 11 are performed by a second computing device on which the service management platform is located, or by a third application in the service management platform, or by a device on which the third application is located.

According to the method provided by the embodiment of the application, the specification information of the network communication product is generated through the service management platform of the cloud service provider, the network communication product containing the specification information is issued to the service management platform, and the network service provider does not need to build an IT operation system, so that the cost for developing the IT operation system and the operation and maintenance cost of the IT operation system by the network service provider can be reduced.

For further explanation of the process, refer to a flowchart of a network communication product purchasing method provided in this embodiment of the present application shown in fig. 19.

1901. And the third terminal displays a network communication product display page of the service management platform, and the network communication product display page displays at least one network communication product of a network service provider.

The at least one network service provider is a network service provider which is already resident in the service management platform, and the network communication product display page displays a display diagram of the network communication product released by the at least one network service provider.

The third terminal displays a commodity display interface of any network communication product based on the selection operation of the display diagram of any network communication product, so that the customer can browse the identification, the description information, at least one target specification information, the price information corresponding to each target specification information and the like of any network communication product on the commodity display interface.

Therefore, the client does not need to browse the relevant information of the respective network communication product through the respective IT operation system of the at least one network service provider, but can browse the relevant information of the network communication product of the at least one network service provider directly through the network communication product display page of the service management platform, and the client can compare the network communication product of the at least one network service provider conveniently.

1902. And the third terminal generates a purchase request of the user based on the purchase operation of the network communication product displayed on the network communication product display page, wherein the purchase request is used for indicating the purchase of the network communication product.

Wherein the user is a customer who purchases the network communication product. The purchase request includes an attribute value corresponding to each attribute parameter selected from the specification information of the network communication product. For convenience of description, the purchase request includes specification information recorded as first specification information, where the first specification information is selected by the network communication product purchased by the customer. In one possible implementation, the purchase request further includes an identification of the network communication product, a transaction amount, and an identification of a network service provider of the network service. Optionally, the transaction information further includes processing content of a first delivery step in a delivery flow of the network communication product. For convenience of description, other information in the purchase request than the processing content of the first delivery step is recorded as transaction information.

In a possible implementation manner, the customer selects first specification information from at least one target specification information displayed in a goods display interface of the network communication product, and performs a selection operation on a purchase option in the goods display interface, and the third terminal displays the content arrangement template of the first delivery step based on the selection operation on the purchase option. The client inputs the processing contents of the first delivery step on the contents arrangement template. Such as the content arrangement template shown in fig. 5, the client inputs corresponding information in each field of the content arrangement template.

When the input is completed, the third terminal generates the purchase request based on the processing content of the first delivery step, the identification of the network communication product, the first specification information, the transaction amount, and the identification of the network service provider of the network service.

1903. The third terminal sends the purchase request to the service management platform.

1904. The service management platform receives the purchase request.

1905. The service management platform sends the purchase request to the first terminal.

Wherein, the first terminal is a terminal logged in by a network service provider to which the network communication product belongs. The process in step 1905 is that the service management platform sends the purchase request to the network service provider.

1906. The first terminal receives the purchase request.

And after receiving the purchase request, the first terminal acquires the processing content of the first delivery step of the delivery flow from the purchase request, and displays the delivery flow starting message to prompt operation and maintenance personnel of the network service provider to start the delivery flow and process the processing content of the second delivery step of the delivery flow, wherein the delivery flow starting message comprises the processing content of the first delivery step of the delivery flow.

Taking the second delivery step as an operation auditing form as an example, the operation and maintenance personnel of the network service provider audits the processing content of the first delivery step in the delivery flow starting message. If the verification is not passed, the operation and maintenance personnel of the network service provider sends an un-passed verification response of the first delivery step to the first terminal to indicate that the processing content of the first delivery step is not passed through the verification. And the first terminal sends the non-passing audit response to the service management platform, and the service management platform sends the non-passing audit response to the third terminal. And when the third terminal receives the non-passing audit response, displaying the non-passing audit response to prompt the user to upload the processing content of the first delivery step again.

If the verification is passed, the operation and maintenance personnel of the network service provider sends a verification passing response of the first delivery to the third terminal, and after the first terminal receives the verification passing response, the second delivery step is completed.

1907. The first terminal sends network deployment completion information to the service management platform, wherein the network deployment completion information is used for indicating that a network service provider deploys the network communication product.

Wherein the network deployment completion information includes an identification of the network communication product and an identification of the network service provider.

And after the operation and maintenance personnel of the network service provider approves the processing content of the first delivery step, the operation and maintenance personnel of the network service provider deploys the purchased network communication products for the user on line. After the deployment is completed, the operation and maintenance personnel of the network service provider issues a network deployment completion instruction of the network communication product to the first terminal, and after the first terminal receives the network deployment completion instruction, the network deployment completion information is generated and sent to the service management platform.

1908. And the service management platform sends network deployment completion information and confirmation prompt information to the third terminal.

1909. And the third terminal receives and displays the network deployment completion information and the delivery confirmation prompt information.

Wherein the delivery confirmation prompting message is used for prompting the user to confirm whether the network communication product is delivered. The third terminal displays the network deployment completion information to prompt the user that the network communication product purchased by the user has been deployed completely.

1910. The third terminal sends a delivery confirmation response to the service management platform, wherein the delivery confirmation response is used for indicating that the user confirms that the network communication product is delivered.

Wherein the delivery confirmation response includes the transaction information. And after the network communication product is deployed, the user opens the network communication product with the first specification information through the third terminal. If the connection is successful, the user sends a delivery confirmation instruction to the third terminal, and after receiving the delivery confirmation instruction, the third terminal sends a delivery confirmation response to the first terminal.

If the third terminal is not successfully opened, the user sends a confirmation non-delivery instruction to the third terminal, and after receiving the confirmation non-delivery instruction, the third terminal sends a delivery failure response to the service management platform to indicate that any network communication product fails to be delivered. And sending a delivery failure response to the first terminal by the service management platform. When the first terminal receives and delivers the failure response, the network service provider is prompted to redeploy the network communication product for the user.

1911. The service management platform receives the delivery confirmation response.

1912. The service management platform sends the delivery confirmation response to the first terminal and the first computing device.

1913. The first terminal and the first computing device receive the delivery confirmation response.

1914. The first computing device stores transaction information and delivery records for the network communication product.

Wherein the delivery record indicates that the network communication product has been delivered to the customer.

The first computing device obtains the transaction information from the delivery confirmation response and stores the delivery information. When the first computing device receives the delivery confirmation response, the first computing device indicates that the network communication product purchased by the user at the moment has been delivered completely, and then the first computing device generates a delivery record of the network communication product and stores the delivery record.

In one possible implementation manner, the steps performed by the service management platform in fig. 19 are performed by the second computing device where the service management platform is located, or performed by the trading platform in the service management platform, or performed by the second computing device where the trading platform is located.

In the method provided by the embodiment of the application, since the service management platform displays the network communication products of each network service provider, a customer does not need to browse the relevant information of each network communication product through the IT operation system of each network service provider, but can browse the relevant information of the network communication product of each network service provider directly through the application as the management platform, so that the customer can compare the network communication products of at least one network service provider conveniently, and purchase the network communication products through the service management platform.

For further explanation, in a process that a network service provider hosts a service management platform of a cloud service provider and publishes a network communication service on the service management platform, an operation and maintenance person of the network service provider and an operation and maintenance person of the cloud service provider need to perform work, refer to a flowchart of the network service provider on the service management platform provided in this embodiment of the present application and shown in fig. 20. In the stage of the network service provider's immigration, the operation and maintenance personnel of the network service provider fill in qualification information and a cooperation agreement between the network service provider and the cloud service provider. The operation and maintenance personnel of the cloud service provider checks the qualification information, and after the checking is passed, the cloud service provider signs a cooperation agreement with the network service provider to become a service provider of the network service provider, as shown in fig. 2. In the delivery process arrangement stage, the operation and maintenance personnel of the network service provider visually configures each delivery step in the delivery process, such as configuring the processing role and the processing content in each delivery step. The network service provider's operation and maintenance personnel select configured delivery steps to orchestrate the delivery process and save the delivery process, such as the process shown in FIG. 3. In the platform interface integration docking stage, the operation and maintenance personnel of the network service provider debugs the call interface of the network communication product, and saves the use case (i.e., the call interface successfully debugged) successfully debugged, for example, the process shown in fig. 9. In the commodity release stage, operation and maintenance personnel of a network service provider configure attribute information of a network communication product, fill in product description information of the network communication product, and configure specification information of the network communication product based on the configured attribute information. For example, operation and maintenance personnel of a network service provider configure attribute values of various attribute parameters of a network communication product, and a first terminal automatically generates specification information of the network communication product according to the configured attribute values of various attributes. And the operation and maintenance personnel of the network service provider check the required specification information and price, and then submit a product release request to a service management platform of the cloud service provider. The operation and maintenance personnel of the cloud service provider audits the network communication product to be released, and after the audit is passed, the network communication product is released on the service management platform, so that the product is put on shelf, for example, the process shown in fig. 11 is completed. In the commodity life cycle management stage, operation and maintenance personnel of the network service provider apply for the service management platform to modify the specification information of the network communication product. And auditing the network communication product to be modified by the operation and maintenance personnel of the cloud service provider, and if the auditing is passed, the operation and maintenance personnel of the cloud service provider approve and modify the specification information of the network communication product. The operation and maintenance personnel of the network service provider can also shelf network communication products on the service management platform.

To further explain the process of purchasing and opening a network communication product on the service management platform, refer to a flowchart of purchasing and opening a network communication product provided in this embodiment of the present application shown in fig. 21. In the stage of inquiring commodity information, a customer knows product brief information of network communication products through a search engine or other popularization channels, and compares product information of the same type of network communication products of different network service providers on a portal website (portal) of a service management platform, wherein the portal website is a website where a network communication product display page of the service management platform is located. In the purchasing stage, the customer selects the network communication product meeting the requirement on the service management platform, fills in the additional information for purchasing the network communication product, submits the order and pays the amount. In the delivery stage, the client applies for opening the network communication product and submits form information (such as a network deployment requirement list shown in fig. 5) required for opening the network communication product, so as to trigger the opening of the delivery process. And confirming the form information submitted by the client and deploying the network communication product by the operation and maintenance personnel of the network service provider. The operation and maintenance personnel of the cloud service provider can check the delivery steps executed by the network service provider and the client and arbitrate disputes between the two parties, for example, if the network service provider does not confirm that the form information submitted by the client passes, the cloud service provider reminds the client to submit the list information again. After the network service provider deploys the purchased network communication product for the customer and opens the purchased network communication product for the customer, the customer confirms and verifies the network communication product, the delivery of the network communication product is completed, and the delivery flow is finished. In the specification changing stage, the customer checks the purchased network communication product, selects the changed product specification information, and fills in the change additional information. After the completion of the filling, the customer submits a new order and pays to instruct to purchase the network communication product with new specification information, and then the delivery process is carried out for the newly purchased network communication product.

A service management platform provided by a cloud service provider has more functions, and in a possible implementation manner, the service management platform includes a plurality of sub-platforms, each sub-platform has a part of functions of the service management platform, see a schematic structural diagram of a service management platform provided in an embodiment of the present application shown in fig. 22. The service management platform comprises sub-platforms such as a provider self-service management platform, a delivery platform, an asset management platform, a workflow platform, a transaction platform, a portal website and a cloud service provider operation management platform of a cloud service provider. The provider self-service management platform provides front-end services, such as a third application program, for the network service provider, and has the functions of self-service arrangement of visual processes, attribute configuration of network fields, security scanning of access addresses, interface debugging and maintenance cases, filling of commodity information and field expansion parameters, application and release of products and the like. The delivery platform provides back-end service for a network service provider and has the functions of service flow metadata management, service flow instance management and the like. The asset management platform provides back-end services for network service providers and has the functions of field attribute management, asset security scanning, asset calling interface management and the like. The workflow platform provides back-end service for a network service provider and has the functions of workflow metadata management, workflow instance management and the like. The trading platform provides back-end services for network service providers, and can also be called a cloud operation support system, and has the functions of commodity management, trading management, resource life cycle management, settlement management, partner management and the like. The portal provides a front-end service for the customer, is used for showing the network communication products released by various network service providers and provides a channel for purchasing the network communication products, such as a first application program of a Web application. The portal website supports the functions of browsing network products (namely network communication products), selecting specification information, selecting custom configuration specification information, purchasing and opening the network communication products, changing the specification of the network communication products and the like. The cloud service provider operation management platform provides front-end service for the cloud service provider and has the functions of commodity release auditing, service flow auditing and the like.

The sub-platform in the service management platform can perform data interaction with a network service management system of a network service provider, wherein the network service management system provides back-end service for the network service provider and has the functions of network resource specification management, network resource instance management, delivery process management and the like

For further explanation of the functions of each network element in the system shown in fig. 22, reference is made to a flowchart of the network communication product distribution provided in the embodiment of the present application shown in fig. 23.

Step A, a network service provider resides in a trading platform.

In one possible implementation, the present step a includes the following steps a.1 and a.2.

And step A.1, operation and maintenance personnel of the network service provider request to reside as a partner of the cloud service provider.

The network service provider opens a portal of the cloud service provider through the first terminal, and requests to camp on the transaction platform through the portal to become a partner of the cloud service provider, for example, the process described in step 201 above.

And step A.2, the operation and maintenance personnel of the cloud service provider checks the qualification information of the network service provider, and the network service provider signs a business cooperation agreement.

And the operation and maintenance personnel of the cloud service provider open the operation management platform of the cloud service provider through the second terminal, the operation management platform of the cloud service provider verifies the qualification information of the network service provider, and after the verification is passed, the operation management personnel signs a business cooperation agreement with the network service provider to complete the enrollment. And operation and maintenance personnel of the cloud service provider record the network service provider is resident on the transaction platform, so that a partner management function is realized. The operation and maintenance personnel of the cloud service provider receive the cost of the network service provider for entering the trading platform through the trading platform, and therefore the settlement management function of the trading platform is achieved.

Step 1, operation and maintenance personnel of a network service provider apply for releasing network communication products on a trading platform.

In one possible implementation, this step 1 comprises the following steps 1.1-1.3.

Step 1.1, the operation and maintenance personnel of the network service provider stores the metadata of the network communication product in the network service management system.

The metadata of the network communication product comprises the specification information of the network service, and is stored in the network service management system, so that the network service management system can manage the metadata of the network communication product, and the function of network resource specification management is realized.

And step 1.2, the operation and maintenance personnel of the network service provider apply for releasing the network communication product at a self-service management station of the provider.

And the operation and maintenance personnel of the network service provider open the provider self-service management platform through the first terminal, the first terminal configures the processing role and the processing content of each delivery step in the delivery flow at the provider self-service management platform according to the instruction of the operation and maintenance personnel of the network service provider, and self-arranges the configured delivery steps into the delivery flow. The first terminal stores metadata of the delivery flow in the delivery platform, wherein the metadata of the delivery flow comprises step execution sequence information of the delivery flow.

In a possible implementation manner, the delivery process may also be referred to as a service flow, and the delivery platform stores and manages metadata of the service flow sent by the first terminal, so as to implement a function of managing the metadata of the service flow.

In one possible implementation, the operation and maintenance personnel of the network service provider also call the asset management platform through the provider self-service management station to perform security scanning on the application for managing the network communication product. And the asset management platform establishes a scanning task of the security scanning service inquiry application through the cloud vulnerability scanning service platform. And the cloud vulnerability scanning service platform executes the scanning task, returns a scanning result to the asset management platform, and forwards the scanning result to the provider self-service management platform.

In a possible implementation manner, the operation and maintenance personnel of the network service provider also maintain a port (endpoint) address (that is, an access address of a network communication product) of the network service management system, debug a call interface of the network communication product, and manage and debug a successful use case through a provider self-service management platform. For example, operation and maintenance personnel of a network service provider call the asset management platform to debug the call interface of the network communication product through the provider self-service management platform, the asset management platform feeds back the successful debugging to the provider self-service management platform and stores the access address (i.e., the example) of the successfully debugged call interface, so that the asset management platform can dial and test the successfully debugged call interface in the following process, and the function of resource delivery interface management is realized.

In a possible implementation manner, the provider self-service management station supports the function of network domain configuration, and the operation and maintenance personnel of the network service provider also configure the attribute parameters of the bandwidth, version and the like of the network communication product through the provider self-service management station. The asset management platform has the function of field attribute management, and the provider self-service management station can also store the attribute parameters of the network communication product in the provider self-service management station.

In a possible implementation manner, the provider self-service management platform supports filling in of the commodity information and the field extension parameters, and operation and maintenance personnel of the network service provider can configure the description information of the network communication product and configure the field extension parameters such as the operation parameters of the network communication product through the provider self-service management platform.

In a possible implementation manner, the operation and maintenance personnel of the network service provider can configure the value range of the attribute value of the network communication product through the provider self-service management station and automatically generate SKU (specification information), and the operation and maintenance personnel of the network service provider can fill in the price corresponding to the SKU through the provider self-service management station and apply for releasing the network communication product to the work flow platform.

And step 1.3, after the operation and maintenance personnel of the network service provider submit the release application, the workflow platform automatically starts the process of auditing the workflow.

And after receiving the release application, the workflow platform stores the metadata of the workflow to be audited, wherein the metadata of the workflow to be audited comprises information such as description information, SKU (stock-keeping unit), price and safety scanning result of the network communication product.

And the workflow platform takes the workflow of the network communication product to be issued as a workflow instance and records the state of the workflow instance, wherein the state of the workflow instance is a state to be audited.

And the workflow platform sends the metadata of the workflow to the operation management platform of the cloud service provider, and informs operation and maintenance personnel of the cloud service provider to examine the workflow so as to start the process of examining the workflow.

And 2, releasing the network communication product by operation and maintenance personnel of the cloud service provider.

In one possible implementation, this step 2 comprises the following steps 2.1-2.3.

And 2.1, auditing the network communication product and the delivery flow by operation and maintenance personnel of the cloud service provider.

After receiving the metadata of the service flow, the delivery platform sends the metadata of the service flow to the cloud service provider operation management platform, and the cloud service provider operation management platform informs operation and maintenance personnel of the cloud service provider to check the metadata of the service flow. And if the audit is passed, the service flow is in compliance, otherwise, the service flow is not in compliance.

When the cloud service provider operation management platform receives the metadata of the workflow, operation and maintenance personnel of the cloud service provider are informed to carry out auditing on the workflow (namely, auditing the network communication product), if the auditing is passed, the content of the network communication product is in compliance, otherwise, the content is not in compliance.

And 2.2, converting the workflow state flow into an audit passing state.

And after the workflow is approved, the cloud service provider operation management platform informs the workflow platform that the workflow is approved, and the workflow platform updates the state of the workflow instance into an approved state, so that the function of workflow instance management is realized.

And 2.3, the provider self-service management desk stores the commodity information of the network communication product in the transaction platform.

The commodity information of the network communication product comprises description information, SKU, price and other information of the network communication product.

And 3, the client purchases the network communication product on the transaction platform.

In one possible implementation, this step 3 comprises the process shown in steps 3.1-3.9 below.

And 3.1, purchasing, opening or changing the network communication product on the transaction platform by the customer.

The client logs in a portal (namely, a portal of the transaction platform) of the cloud service provider through the third terminal, and browses the commodity information of the network communication product on the portal. The client can purchase, open or change the network communication product on the portal, and herein, the embodiment of the application is described by taking the client purchasing the network communication product as an example,

and 3.2, selecting the SKU of the network communication product on the portal by the client, ordering and paying the amount corresponding to the selected SKU by the client, and sending the transaction information to the transaction platform by the third terminal after the ordering of the client is completed.

And 3.3, starting a delivery process example by the transaction platform.

Wherein the delivery process example is the delivery process of the network communication product purchased by the customer.

After receiving the transaction information, the transaction platform starts service cycle management of the network communication product purchased by the customer, namely records service duration of the network communication product purchased by the customer, thereby realizing the function of resource life cycle management.

The transaction platform triggers a delivery process of the network communication product which is purchased by the customer. For example, the transaction platform notifies the delivery platform to initiate a delivery process for the network communication product purchased by the customer. The delivery platform records an example of a delivery process of the network communication product purchased by the customer, namely, an example of the delivery process. The delivery platform and flows to the initial step of the delivery flow (i.e., service flow).

And 3.4, submitting the materials required by the delivery process by the client through the third terminal.

The materials required for the delivery process include form data and document attachments (such as related data of the opened network communication product), etc.

In a possible implementation manner, the service management platform further includes a tenant management station, and the tenant management station is used for providing a background service and has functions of managing a service delivery process and managing purchased resources.

The third terminal sends the materials submitted by the customer to the tenant management table, and the tenant management table forwards the materials submitted by the customer to the delivery platform and records the network communication products purchased by the customer, so that the functions of managing a service delivery process and managing purchased resources are realized.

And 3.5, the delivery platform submits the materials to a network service management system, and the network service management system stores the material information submitted by the client, so that the delivery process management function is realized.

And 3.6, the operation and maintenance personnel of the network service provider confirms whether the materials meet the requirements or not in the network service management system.

And when the network service management system receives the material submitted by the client, informing operation and maintenance personnel of the network service provider to check the material. The operation and maintenance personnel of the network service provider check whether the materials submitted by the client meet the requirements in the network service management system.

In a possible implementation manner, the delivery platform may further forward the materials mentioned by the customer to a provider self-service management station, and after the provider self-service management station receives the materials submitted by the customer, the provider self-service management station notifies operation and maintenance personnel of the network service provider to check the materials. And the operation and maintenance personnel of the network service provider check whether the materials submitted by the customers meet the requirements at the self-service management station of the provider.

And 3.7, if the operation and maintenance personnel of the network service provider confirm that the material meets the requirements, the network service management system feeds back a confirmation result to the delivery platform interface.

And 3.8, deploying the network communication product for the customer by operation and maintenance personnel of the network service provider, and after the network communication product is successfully deployed, informing the delivery platform of the completion of the deployment of the network communication product purchased by the customer through a network service management system or a self-service management desk of the provider.

And 3.9, checking whether the deployed network communication products are delivered completely by the client line, and confirming that the checking is completed in the tenant management table.

After the delivery of the network communication product which is accepted and deployed by the client off line is finished, the client opens the network communication product through the third terminal, and confirms that the verification of the network communication product purchased by the client is finished to the tenant management station through the third terminal, and the delivery flow of the network communication product is finished.

The method of the embodiment of the present application is introduced above, and the service management platform of the embodiment of the present application is introduced below. It should be understood that the service management platform described below has any of the functions of the service management platform in the above-described method.

Fig. 24 is a schematic structural diagram of a service management platform provided in an embodiment of the present application, where the service management platform 2400 may be part of the service management platforms in the foregoing embodiments or fig. 2, fig. 3, fig. 6, fig. 7, fig. 9, fig. 11, fig. 17, or fig. 19, and is configured to execute a method executed by the service management platform.

The service management platform 2400 includes:

a communication module 2401, configured to provide an attribute configuration interface to a network service provider, where the network service provider is configured to provide a network communication product; receiving at least one selected by the network service provider from the plurality of preset attribute parameters;

a processing module 2402, configured to generate specification information of a network communication product according to the selected at least one attribute parameter; and issuing the network communication product containing the specification information.

Optionally, each selected characteristic attribute is provided with at least one attribute value;

the communication module 2401 is configured to receive a purchase request of a user, where the purchase request includes an attribute value corresponding to each selected attribute parameter in the specification information; sending the purchase request to the network service provider.

Optionally, the communication module 2401 is configured to receive a security scan request of the network service provider, where the security scan request indicates to perform security scan on an application provided by the network service provider for managing the network communication product, and the security scan request includes at least one function that needs security scan and is selected by the network service provider;

the processing module 2402 is configured to determine a security scanning result of the application according to the security scanning request; and determining that the safety scanning result of the application is approved, and issuing the network communication product containing the specification information.

Optionally, the communication module 2401 is configured to provide a delivery process configuration interface to the network service provider, where the delivery process configuration interface includes a plurality of delivery steps;

the processing module 2402 is configured to generate a delivery flow according to at least one delivery step selected from the plurality of delivery steps by the network service provider, where the delivery flow is used to show a progress of a network communication product provided by the network service provider to a user; the communication module 2401 is further configured to issue the delivery flow.

Optionally, the communication module 2401 is configured to receive a debugging request of the network service provider, where the debugging request includes at least one interface that needs to be debugged and is selected by the network service provider;

the processing module 2402 is configured to determine, according to the debugging request, that the connection between the at least one interface and the service management platform is in an available state.

It should be understood that the service management platform 2400 corresponds to the service management platform in the foregoing method embodiment, and each module and the foregoing other operations and/or functions in the service management platform 2400 are respectively for implementing various steps and methods implemented by the service management platform in the method embodiment, and specific details may be referred to the foregoing method embodiment, and are not described herein again for brevity.

It should be understood that, when the service management platform 2400 issues a network communication product, the foregoing division of the functional modules is merely used for illustration, and in practical applications, the foregoing function distribution may be completed by different functional modules according to needs, that is, the internal structure of the service management platform 2400 is divided into different functional modules, so as to complete all or part of the functions described above. In addition, the service management platform 2400 provided in the foregoing embodiment has the same concept as the foregoing method embodiment, and the specific implementation process thereof is described in the foregoing method embodiment and is not described herein again.

It should be understood that the service management platform 2400 may correspond to the service management platform 100, or correspond to an execution component in the service management platform 100.

An embodiment of the present application provides a computing device cluster, where the computing device cluster includes at least one computing device, and each computing device is as shown in fig. 25, where fig. 25 is a schematic structural diagram of a computing device provided in the embodiment of the present application. The computing device cluster may be configured as a first computing device cluster and, accordingly, computing device 2500 is configured as a first computing device. Or the computing device cluster may be configured as a second computing device cluster and, accordingly, computing device 2500 is configured as a second computing device.

Computing device 2500 includes a processor 2501 and a memory 2502, optionally at least one of the processor 2501 and the memory 2502. The memory 2502 is coupled to the processor 2501, and the memory 2501 is configured to store instructions (e.g., computer program instructions) which, when executed by the processor 2501, cause the computing device 2500 to perform the related method steps described above to implement the business processing method in the above-described embodiment. Of course, the computing device 2500 may also have components such as a wired or wireless network interface, a keyboard, and an input/output interface, so as to perform input and output, and the computing device 2500 may also include other components for implementing device functions, which are not described herein again.

Fig. 26 is a schematic structural diagram of a terminal according to an embodiment of the present application. The terminal 2600 may be: a smart phone, a tablet computer, a moving picture experts group audio layer III (MP 3) player, a moving picture experts group audio layer IV (MP 4) player, a notebook computer or a desktop computer. Terminal 2600 may also be referred to as user equipment, portable terminal, laptop terminal, desktop terminal, or other name.

In general, terminal 2600 includes: a processor 2601 and memory 2602.

The processor 2601 may include one or more processing cores, such as a 4-core processor, an 8-core processor, and so forth. The processor 2601 may be implemented in at least one hardware form selected from Digital Signal Processing (DSP), field-programmable gate array (FPGA), and Programmable Logic Array (PLA). The processor 2601 may also include a main processor and a coprocessor, where the main processor is a processor for processing data in an awake state, and is also called a Central Processing Unit (CPU); a coprocessor is a low power processor for processing data in a standby state. In some embodiments, the processor 2601 may be integrated with a Graphics Processing Unit (GPU) which is responsible for rendering and drawing the content required to be displayed by the display screen. In some embodiments, the processor 2601 may further include an Artificial Intelligence (AI) processor for processing computational operations related to machine learning.

Memory 2602 may include one or more computer-readable storage media, which may be non-transitory. Memory 2602 may also include high-speed random access memory, as well as non-volatile memory, such as one or more magnetic disk storage devices, flash memory storage devices. In some embodiments, a non-transitory computer readable storage medium in the memory 2602 is used to store at least one program code for execution by the processor 2601 to implement the business processing methods provided by the method embodiments herein.

In some embodiments, terminal 2600 can also optionally include: a peripheral interface 2603 and at least one peripheral. The processor 2601, memory 2602, and peripheral interface 2603 may be connected by buses or signal lines. Various peripheral devices may be connected to peripheral interface 2603 via buses, signal lines, or circuit boards. Specifically, the peripheral device includes: at least one of a radio frequency circuit 2604, a display screen 2605, a camera assembly 2606, an audio circuit 2607, a positioning assembly 2608, and a power supply 2609.

The peripheral interface 2603 may be used to connect at least one input/output (I/O) related peripheral to the processor 2601 and the memory 2602. In some embodiments, the processor 2601, memory 2602, and peripheral interface 2603 are integrated on the same chip or circuit board; in some other embodiments, any one or both of the processor 2601, the memory 2602, and the peripheral interface 2603 may be implemented on separate chips or circuit boards, which is not limited by the present embodiments.

The radio frequency circuit 2604 is used for receiving and transmitting Radio Frequency (RF) signals, also called electromagnetic signals. The radio frequency circuit 2604 communicates with communication networks and other communication devices via electromagnetic signals. The rf circuit 2604 converts an electrical signal into an electromagnetic signal for transmission, or converts a received electromagnetic signal into an electrical signal. Optionally, the radio frequency circuit 2604 comprises: an antenna system, an RF transceiver, one or more amplifiers, a tuner, an oscillator, a digital signal processor, a codec chipset, a subscriber identity module card, and so forth. The radio circuit 2604 may communicate with other terminals via at least one wireless communication protocol. The wireless communication protocols include, but are not limited to: metropolitan area networks, various generation mobile communication networks (2G, 3G, 4G, and 5G), wireless local area networks, and/or wireless fidelity (WiFi) networks. In some embodiments, the rf circuit 2604 may further include a Near Field Communication (NFC) related circuit, which is not limited in this application.

The display screen 2605 is used to display a User Interface (UI). The UI may include graphics, text, icons, video, and any combination thereof. When the display screen 2605 is a touch display screen, the display screen 2605 also has the ability to capture touch signals on or over the surface of the display screen 2605. The touch signal may be input to the processor 2601 as a control signal for processing. At this point, the display 2605 may also be used to provide virtual buttons and/or virtual keyboards, also referred to as soft buttons and/or soft keyboards. In some embodiments, the display 2605 may be one, providing the front panel of the terminal 2600; in other embodiments, the display 2605 can be at least two, respectively disposed on different surfaces of the terminal 2600 or in a folded design; in still other embodiments, display 2605 can be a flexible display disposed on a curved surface or a folded surface of terminal 2600. Even further, the display screen 2605 may be arranged in a non-rectangular irregular figure, i.e., a shaped screen. The display screen 2605 may be made of Liquid Crystal Display (LCD), organic light-emitting diode (OLED), or the like.

The camera assembly 2606 is used to capture images or video. Optionally, the camera assembly 2606 includes a front camera and a rear camera. Generally, a front camera is disposed at a front panel of the terminal, and a rear camera is disposed at a rear surface of the terminal. In some embodiments, the number of the rear cameras is at least two, and each of the rear cameras is any one of a main camera, a depth-of-field camera, a wide-angle camera and a telephoto camera, so that the main camera and the depth-of-field camera are fused to realize a background blurring function, and the main camera and the wide-angle camera are fused to realize a panoramic shooting function and a Virtual Reality (VR) shooting function or other fusion shooting functions. In some embodiments, the camera assembly 2606 can also include a flash. The flash lamp can be a single-color temperature flash lamp or a double-color temperature flash lamp. The double-color-temperature flash lamp is a combination of a warm-light flash lamp and a cold-light flash lamp, and can be used for light compensation at different color temperatures.

The audio circuit 2607 may include a microphone and a speaker. The microphone is used for collecting sound waves of a user and the environment, converting the sound waves into electric signals, and inputting the electric signals to the processor 2601 for processing or inputting the electric signals to the radio frequency circuit 2604 to achieve voice communication. For stereo capture or noise reduction purposes, multiple microphones may be provided, each at a different location of terminal 2600. The microphone may also be an array microphone or an omni-directional pick-up microphone. The speaker is used to convert electrical signals from the processor 2601 or the radio frequency circuit 2604 into sound waves. The loudspeaker can be a traditional film loudspeaker or a piezoelectric ceramic loudspeaker. When the speaker is a piezoelectric ceramic speaker, the speaker can be used for purposes such as converting an electric signal into a sound wave audible to a human being, or converting an electric signal into a sound wave inaudible to a human being to measure a distance. In some embodiments, the audio circuit 2607 may also include a headphone jack.

Positioning component 2608 is configured to locate a current geographic location of terminal 2600 for navigation or Location Based Service (LBS). The positioning component 2608 can be a positioning component based on the Global Positioning System (GPS) of the united states, the beidou system of china, the graves system of russia, or the galileo system of the european union.

A power supply 2609 is used to supply power to various components in the terminal 2600. The power supply 2609 may be ac, dc, disposable or rechargeable. When the power supply 2609 includes a rechargeable battery, the rechargeable battery may support wired or wireless charging. The rechargeable battery may also be used to support fast charge technology.

In some embodiments, terminal 2600 also includes one or more sensors 2610. The one or more sensors 2610 include, but are not limited to: acceleration sensor 2611, gyro sensor 2612, pressure sensor 2613, fingerprint sensor 2614, optical sensor 2615 and proximity sensor 2616.

The acceleration sensor 2611 can detect the magnitude of acceleration in three coordinate axes of the coordinate system established with the terminal 2600. For example, the acceleration sensor 2611 may be used to detect components of the gravitational acceleration in three coordinate axes. The processor 2601 may control the touch screen 2605 to display a user interface in a landscape view or a portrait view according to the gravitational acceleration signal collected by the acceleration sensor 2611. The acceleration sensor 2611 may also be used for acquisition of motion data of a game or user.

The gyro sensor 2612 may detect a body direction and a rotation angle of the terminal 2600, and the gyro sensor 2612 may acquire a 3D motion of the user on the terminal 2600 in cooperation with the acceleration sensor 2611. The processor 2601 may implement the following functions according to the data collected by the gyro sensor 2612: motion sensing (such as changing the UI according to a user's tilting operation), image stabilization at the time of photographing, game control, and inertial navigation.

Pressure sensor 2613 may be disposed on a side frame of terminal 2600 and/or underlying touch display 2605. When the pressure sensor 2613 is disposed on the side frame of the terminal 2600, a user's grip signal on the terminal 2600 may be detected, and the processor 2601 may perform right-left hand recognition or shortcut operation based on the grip signal acquired by the pressure sensor 2613. When the pressure sensor 2613 is disposed at the lower layer of the touch display screen 2605, the processor 2601 controls the operability control on the UI interface according to the pressure operation of the user on the touch display screen 2605. The operability control comprises at least one of a button control, a scroll bar control, an icon control, and a menu control.

The fingerprint sensor 2614 is used for collecting fingerprints of users, and the processor 2601 identifies the users according to the fingerprints collected by the fingerprint sensor 2614, or the fingerprint sensor 2614 identifies the users according to the collected fingerprints. Upon recognizing that the user's identity is a trusted identity, the processor 2601 authorizes the user to perform relevant sensitive operations including unlocking the screen, viewing encrypted information, downloading software, paying for and changing settings, etc. The fingerprint sensor 2614 may be disposed on a front, back, or side of the terminal 2600. When a physical button or vendor Logo is provided on the terminal 2600, the fingerprint sensor 2614 may be integrated with the physical button or vendor Logo.

The optical sensor 2615 is used to collect ambient light intensity. In one embodiment, the processor 2601 may control the display brightness of the touch screen 2605 according to the intensity of the ambient light collected by the optical sensor 2615. Specifically, when the ambient light intensity is high, the display luminance of the touch display screen 2605 is adjusted high; when the ambient light intensity is low, the display luminance of the touch display screen 2605 is turned down. In another embodiment, the processor 2601 may also dynamically adjust the shooting parameters of the camera assembly 2606 according to the ambient light intensity collected by the optical sensor 2615.

Proximity sensor 2616, also referred to as a distance sensor, is typically disposed on the front panel of terminal 2600. Proximity sensor 2616 is used to capture the distance between the user and the front face of terminal 2600. In one embodiment, when proximity sensor 2616 detects that the distance between the user and the front face of terminal 2600 is gradually decreasing, touch display screen 2605 is controlled by processor 2601 to switch from a bright screen state to a dark screen state; when the proximity sensor 2616 detects that the distance between the user and the front face of the terminal 2600 is gradually increasing, the processor 2601 controls the touch display 2605 to switch from the breath-screen state to the bright-screen state.

Those skilled in the art will appreciate that the architecture shown in fig. 26 is not intended to be limiting with respect to terminal 2600, and may include more or fewer components than those shown, or may combine certain components, or may employ a different arrangement of components.

In an exemplary embodiment, a computer readable storage medium, such as a memory of computer program instructions, executable by a processor in a computing device to perform the traffic management method in the above embodiments, is also provided. For example, the computer-readable storage medium is a non-transitory computer-readable storage medium, such as a read-only memory (ROM), a Random Access Memory (RAM), a compact disc-read-only memory (CD-ROM), a magnetic tape, a floppy disk, an optical data storage device, and the like.

The present application also provides a computer program product, where the computer program product includes instructions (such as computer program instructions), the instructions are stored in a computer-readable storage medium, a processor of a computer device cluster reads the instructions from the computer-readable storage medium, and the processor executes the instructions, so that the computer device cluster executes the service processing method.

In addition, an apparatus, which may be specifically a chip, a component or a module, may include a processor and a memory connected to each other; the memory is used for storing computer program instructions, and when the device runs, the processor can execute the computer program instructions stored in the memory, so that the chip can execute the business processing method in the above-mentioned method embodiments.

The apparatus, the device, the computer-readable storage medium, the computer program product, or the chip provided in this embodiment are all configured to execute the corresponding method provided above, so that the beneficial effects achieved by the apparatus, the device, the computer-readable storage medium, the computer program product, or the chip may refer to the beneficial effects in the corresponding method provided above, and are not described herein again.

Through the description of the above embodiments, those skilled in the art will understand that, for convenience and simplicity of description, only the division of the above functional modules is used as an example, and in practical applications, the above function distribution may be completed by different functional modules as needed, that is, the internal structure of the device may be divided into different functional modules to complete all or part of the above described functions. In addition, the same concept as the service processing method embodiment provided in the above embodiment belongs, and the specific implementation process thereof is described in detail in the method embodiment and is not described herein again.

In the several embodiments provided in the present application, it should be understood that the disclosed apparatus and method may be implemented in other ways. For example, the above-described device embodiments are merely illustrative, and for example, the division of the modules or units is only one logical functional division, and there may be other divisions when actually implemented, for example, a plurality of units or components may be combined or may be integrated into another device, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form.

The units described as separate parts may or may not be physically separate, and parts displayed as units may be one physical unit or multiple physical units, that is, may be located in one place, or may be distributed in multiple different places. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, functional units in the embodiments of the present application may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.

The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a readable storage medium. Based on such understanding, the technical solutions of the embodiments of the present application may be essentially or partially contributed to by the prior art, or all or part of the technical solutions may be embodied in the form of a software product, where the software product is stored in a storage medium and includes several instructions to enable a device (which may be a single chip, a chip, or the like) or a processor (processor) to execute all or part of the steps of the methods described in the embodiments of the present application. And the aforementioned storage medium includes: various media capable of storing program codes, such as a U disk, a removable hard disk, a ROM, a RAM, a magnetic disk, or an optical disk.

In the description of this application, "/" denotes "or" means, for example, a/B may denote a or B, unless otherwise indicated. "and/or" herein is merely an association describing an associated object, and means that there may be three relationships, e.g., a and/or B, which may mean: a exists alone, A and B exist simultaneously, and B exists alone. Further, "at least one" means one or more, "a plurality" means two or more. The terms "first", "second", and the like do not necessarily limit the number and execution order, and the terms "first", "second", and the like do not necessarily limit the difference.

In this application, the words "exemplary" or "such as" are used to mean serving as an example, instance, or illustration. Any embodiment or design described herein as "exemplary" or "e.g.," is not necessarily to be construed as preferred or advantageous over other embodiments or designs. Rather, use of the word "exemplary" or "such as" is intended to present concepts related in a concrete fashion.

All the above optional technical solutions may be combined arbitrarily to form the optional embodiments of the present disclosure, and are not described herein again.

The above description is only exemplary of the present application and should not be taken as limiting, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims (15)

1. A business processing method is applied to a business management platform of a cloud service provider, and comprises the following steps:

the service management platform provides an attribute configuration interface to a network service provider, and the attribute configuration interface provides a plurality of preset attribute parameters;

the business management platform receives at least one selected from the preset attribute parameters by the network service provider;

the service management platform generates specification information of the network communication product according to the selected at least one attribute parameter;

and the service management platform issues the network communication product containing the specification information.

2. The method of claim 1, wherein each selected feature attribute is provided with at least one attribute value, and after the service management platform releases the network communication product containing the specification information, the method further comprises:

the service management platform receives a purchase request of a user, wherein the purchase request comprises an attribute value corresponding to each selected attribute parameter in the specification information;

and the service management platform sends the purchase request to the network service provider.

3. The method according to claim 1 or 2, wherein the attribute parameters comprise characteristic parameters comprising any one or more of: uplink bandwidth, maximum operating terminal number, version.

4. The method of any of claims 1 to 3, wherein the attribute parameters comprise operating parameters, the operating parameters comprising coverage areas.

5. The method according to any of claims 1 to 4, wherein before the service management platform releases the network communication product containing the specification information, the method further comprises:

the service management platform receives a security scanning request of the network service provider, wherein the security scanning request indicates that security scanning is performed on an application provided by the network service provider and used for managing the network communication product, and the security scanning request comprises at least one function which is selected by the network service provider and needs security scanning;

the service management platform determines a security scanning result of the application according to the security scanning request;

and determining that the safety scanning result of the application is approved, and issuing the network communication product containing the specification information by the service management platform.

6. The method according to any of claims 1 to 5, wherein before the service management platform releases the network communication product containing the specification information, the method further comprises:

the service management platform provides a delivery process configuration interface to the network service provider, wherein the delivery process configuration interface comprises a plurality of delivery steps;

the service management platform generates a delivery flow according to at least one delivery step selected from the plurality of delivery steps by the network service provider, wherein the delivery flow is used for showing the progress of the network communication product provided by the network service provider to the user;

and the service management platform issues the delivery flow.

7. The method according to any of claims 1 to 6, wherein before the service management platform releases the network communication product containing the specification information, the method further comprises:

the service management platform receives a debugging request of the network service provider, wherein the debugging request comprises at least one interface which is selected by the network service provider and needs to be debugged;

and the service management platform determines that the connection between the at least one interface and the service management platform is in an available state according to the debugging request.

8. A service management platform, comprising:

the communication module is used for providing an attribute configuration interface to a network service provider, and the network service provider is used for providing network communication products; receiving at least one selected from the plurality of preset attribute parameters by the network service provider;

the processing module is used for generating specification information of the network communication product according to the selected at least one attribute parameter; and issuing the network communication product containing the specification information.

9. The transaction management platform of claim 8, wherein each selected feature attribute is provided with at least one attribute value;

the communication module is used for receiving a purchase request of a user, wherein the purchase request comprises an attribute value corresponding to each selected attribute parameter in the specification information; sending the purchase request to the network service provider.

10. The service management platform of claim 8 or 9, wherein the communication module is configured to receive a security scan request from the network service provider, the security scan request indicating that an application provided by the network service provider for managing the network communication product is to be security scanned, and the security scan request includes at least one function selected by the network service provider that requires security scanning;

the processing module is used for determining a security scanning result of the application according to the security scanning request; and determining that the safety scanning result of the application is approved, and issuing the network communication product containing the specification information.

11. The business management platform of any one of claims 8 to 10, wherein the communication module is configured to provide a delivery process configuration interface to the network service provider, the delivery process configuration interface comprising a plurality of delivery steps;

the processing module is used for generating a delivery flow according to at least one delivery step selected from the plurality of delivery steps by the network service provider, and the delivery flow is used for showing the progress of the network communication product provided by the network service provider to the user; the communication module is further configured to issue the delivery flow.

12. The service management platform according to any one of claims 8 to 11, wherein the communication module is configured to receive a debugging request of the network service provider, where the debugging request includes at least one interface selected by the network service provider and requiring debugging;

and the processing module is used for determining that the connection between the at least one interface and the service management platform is in an available state according to the debugging request.

13. A cluster of computing devices comprising at least one computing device, each computing device comprising a processor and a memory;

the processor of the at least one computing device is to execute instructions stored in the memory of the at least one computing device to cause the cluster of computing devices to perform the method of any of claims 1 to 6.

14. A computer program product comprising instructions which, when executed by a cluster of computer devices, cause the cluster of computer devices to perform the method of any one of claims 1 to 6.

15. A computer readable storage medium comprising computer program instructions which, when executed by a cluster of computing devices, perform the method of any of claims 1 to 6.

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