CN112231109A - Buffer resource management system, method and device - Google Patents

Abstract

The embodiment of the application provides a buffer resource management system, method and device. The first module is arranged in the terminal equipment in the public network, the management platform is arranged in the server in the production network, and the first module can carry out safety verification on operations such as inquiry, use, addition, deletion, modification and the like of business personnel in a mode of verifying the business personnel by utilizing a white list. After the safety verification is passed, the operation of the service personnel can be transmitted to the buffer resource management system through the terminal equipment, so that the linkage of two sets of independent network environments of a public network and a production network is realized, the service personnel do not need to manage the buffer resources in a fixed place or on a machine, the maintenance scene of the buffer resources is triggered by one key, the buffer resource management system can display the processed result to the service personnel through the terminal equipment, the automatic management of the buffer resources is realized, and the service personnel can monitor the buffer resources in real time.

Description

Buffer resource management system, method and device

Technical Field

The embodiment of the application relates to the technical field of computers, in particular to a buffer resource management system, method and device.

Background

The core idea of a Virtual Machine (VM) is as follows: multiple Virtual Machines (VMs) are virtualized on a physical host, on which multiple independent operating systems can run simultaneously. The reasonable management of the Buffer (Buffer) resources of the virtual machines is beneficial to solving the problems that the virtual machines have faults or the number of the virtual machines is insufficient or excessive, and is convenient for service personnel to adjust the number of the virtual machines in time, so that the physical machine can smoothly realize services and the performance of the virtual machines for executing the services is influenced.

At present, a manual table maintenance mode may be adopted, in which the resource condition of each virtual machine is recorded, or a resource pool platform may be adopted to manage the resource condition of an idle virtual machine in a manual input mode, so as to implement unified management of Buffer (Buffer) resources.

However, the service executed on the virtual machine is generally applied to the field of financial technology (Fintech), and has a high requirement on security performance. Therefore, the execution processes in the two manners need that service personnel are in fixed places or use fixed machines, and then the Buffer area (Buffer) resources can be uniformly managed, and the manual timing management is relied on, so that the flexibility and the management efficiency of the service personnel for managing the Buffer area (Buffer) resources are reduced, and the management cost of the Buffer area (Buffer) resources is increased.

Disclosure of Invention

The embodiment of the application provides a buffer resource management system, method and device, which not only realize linkage of two sets of independent network environments, namely a public network and a production network, so that service personnel do not need to manage buffer resources in a fixed place or on a machine, but also realize automatic management of the buffer resources, reduce the error rate and the complexity of manual operation, and improve the management efficiency of the buffer resources.

In a first aspect, an embodiment of the present application provides a buffer resource management system, including: a first module and a management platform in different networks.

The first module is used for receiving a first message of a service person, wherein the first message carries a first instruction content, an identifier of a first virtual machine and a role identifier of the service person, and the first instruction content is used for indicating that a virtual machine corresponding to the identifier of the first virtual machine is inquired from a buffer resource. The first module is further configured to send a first request to the management platform when it is determined that the service person has the management right of the buffer resource based on the role identifier of the service person, where the first request carries the first instruction content, the identifier of the first virtual machine, and the role identifier of the service person. And the management platform is used for analyzing the first instruction content to obtain a first script code corresponding to the role identifier of the service personnel. And the management platform is further used for querying the virtual machine corresponding to the identifier of the first virtual machine from the buffer resources based on the first script code to obtain a query result. And the management platform is also used for sending a first response to the first module, wherein the first response carries the query result. The first module is also used for displaying the query result to the service personnel.

According to the system provided by the first method, the first module is arranged in the terminal equipment in the public network, the management platform is arranged in the server in the production network, and the first module adopts a white list to verify business personnel, so that the safety verification is carried out on the inquiry operation of the business personnel. After the safety check is passed, the operation of the service personnel can be transmitted to the management platform by the first module through the terminal equipment, thereby not only realizing the linkage of two sets of independent network environments of the public network and the production network, and leading the data intercommunication between the public network and the production network, and avoiding the need of the service personnel to manage the Buffer area resources on a fixed place or a machine, improving the flexibility of the service personnel to manage the Buffer area (Buffer) resources, but also triggering the query scene of the Buffer area (Buffer) resources by one key, and the first module can display the query result processed by the management platform to the service personnel through the terminal equipment, realizing the automatic management of the Buffer area (Buffer) resources, reducing the error rate and the complexity of manual operation, shortening the operation time of the maintenance of the service personnel, reducing the management cost of the Buffer area (Buffer) resources, and improving the management efficiency of the Buffer area (Buffer) resources, and service personnel can monitor BUFFER area (BUFFER) resources in real time, and a tamping basis is provided for the service personnel to adjust the use condition of the virtual machine in time based on the service volume corresponding to the service subsystem.

In a possible design, the first module is further configured to receive a second message of the service person, where the second message carries a second instruction content, an identifier of the second virtual machine, and a role identifier of the service person, the second instruction content is used to indicate that the second virtual machine is used, and the second virtual machine is a virtual machine that is determined from the query result and is the same as the first virtual machine in type. And the first module is further used for sending a second request to the management platform when the service personnel is determined to have the management right of the buffer resource based on the role identification of the service personnel, wherein the second request carries a second instruction content, the identification of the second virtual machine and the role identification of the service personnel. And the management platform is also used for analyzing the second instruction content to obtain a second script code corresponding to the role identifier of the service personnel. And the management platform is also used for preparing the release of the code version of the second virtual machine based on the second script code to obtain a release result. And the management platform is also used for sending a second response to the first module, wherein the second response carries the release result. The first module is also used for displaying the publishing result to the service personnel.

Therefore, when the service personnel determine that the second virtual machine is needed to be used currently in the query result, the first module is used for verifying the service personnel by adopting the white list, and the using operation of the service personnel is subjected to safety verification to link two sets of independent network environments of the public network and the production network, so that data intercommunication can be realized between the public network and the production network. Therefore, service personnel do not need to manage the Buffer area resources on a fixed place or a machine, and the flexibility of managing the Buffer area (Buffer) resources by the service personnel is improved. After the safety verification is passed, the operation of the service personnel can be transmitted to the management platform through the terminal equipment by the first module, the use scene of BUFFER area (BUFFER) resources is triggered by one key, so that the management platform can prepare for the release of the version of the second virtual machine, and the first module can display the release result processed by the management platform to the service personnel through the terminal equipment, so that the service personnel can confirm whether the second virtual machine is available or not in time. Therefore, service personnel can conveniently and smoothly use the virtual machines, the problem that the number of the virtual machines is insufficient or the service volume corresponding to the service subsystem is increased is solved in time, and the management efficiency of BUFFER area (BUFFER) resources is improved.

In one possible design, the management platform is specifically configured to configure the information related to the second virtual machine in the second module. The management platform is further specifically configured to configure a trust relationship between the second virtual machine and the production board jumper in the third module. The management platform is further specifically configured to configure, in the fourth module, an association relationship record between the second virtual machine and the service subsystem corresponding to the second virtual machine. And the management platform is further specifically used for calling the fifth module to apply for a change approval process of the second virtual machine. The management platform is further specifically configured to obtain a release result when the fifth module is called to determine that the change approval process of the second virtual machine is completed.

Therefore, the management platform can respectively utilize the second module, the third module, the fourth module and the fifth module to acquire the bottom layer data corresponding to the resources of the management BUFFER area (BUFFER), and a tamped data source is provided for realizing the efficient management of the resources of the BUFFER area (BUFFER).

In a possible design, the first module is further configured to receive a third message of the service person, where the third message carries a third instruction content, an identifier of the third virtual machine, and a role identifier of the service person, the third instruction content is used to instruct to delete the third virtual machine, and the third virtual machine is a virtual machine in an idle state determined from the query result. The first module is further configured to send a third request to the management platform when it is determined that the service person has the management right of the buffer resource based on the role identifier of the service person, where the third request carries a third instruction content, an identifier of the third virtual machine, and the role identifier of the service person. And the management platform is also used for analyzing the third instruction content to obtain a third script code corresponding to the role identifier of the service personnel. And the management platform is further used for deleting the first virtual machine from the buffer resources based on the third script code to obtain a deletion result. And the management platform is also used for sending a third response to the first module, wherein the third response carries the deletion result. The first module is also used for displaying the deletion result to the service personnel.

Therefore, when a service person confirms that the third virtual machine needs to be deleted from the Buffer (Buffer) resource based on the query result, the first module is used for verifying the service person in a white list mode, and safety verification is carried out on the deletion operation of the service person so as to link two sets of independent network environments of the public network and the production network, and data intercommunication can be carried out between the public network and the production network. Therefore, service personnel do not need to manage the Buffer area resources on a fixed place or a machine, and the flexibility of managing the Buffer area (Buffer) resources by the service personnel is improved. After the safety verification is passed, the operation of the service personnel can be transmitted to the management platform from the first module through the terminal equipment, a deletion scene of BUFFER (BUFFER) resources is triggered by one key, and the first module can display a deletion result processed by the management platform to the service personnel through the terminal equipment, so that the service personnel can timely know that the third virtual machine is deleted from the BUFFER (BUFFER) resources. Therefore, the service personnel can update the state of the used virtual machine in the BUFFER (BUFFER) resource conveniently, the problem that the service corresponding to the service subsystem cannot be realized because the service personnel do not use the virtual machine in a non-idle state is avoided, the maintenance operation time of the service personnel is shortened, and the management efficiency of the BUFFER (BUFFER) resource is improved.

In a possible design, the first module is further configured to receive a fourth message of the service person, where the fourth message carries a fourth instruction content, an identifier of the first virtual machine, and a role identifier of the service person, the fourth instruction content is used to instruct to store in the first virtual machine, and the first virtual machine is a virtual machine in a non-idle state determined from the query result. The first module is further configured to send a fourth request to the management platform when it is determined that the service person has the management right of the buffer resource based on the role identifier of the service person, where the fourth request carries a fourth instruction content, an identifier of the first virtual machine, and the role identifier of the service person. And the management platform is also used for analyzing the fourth instruction content to obtain a fourth script code corresponding to the role identifier of the service personnel. And the management platform is also used for storing the first virtual machine into the buffer resource based on the fourth script code to obtain a storage result. And the management platform is also used for sending a fourth response to the first module, and the fourth response carries the storage result. The first module is also used for displaying the storage result to the service personnel.

Therefore, when service personnel confirm that the first virtual machine needs to be stored in Buffer (Buffer) resources based on the query result, the mode of verifying the service personnel by utilizing a white list through the first module is used for carrying out safety verification on the added operation of the service personnel so as to link two sets of independent network environments of the public network and the production network, and the data intercommunication can be realized between the public network and the production network. Therefore, service personnel do not need to manage the Buffer area resources on a fixed place or a machine, and the flexibility of managing the Buffer area (Buffer) resources by the service personnel is improved. After the safety verification is passed, the operation of the service personnel can be transmitted to the management platform through the terminal equipment by the first module, the adding scene of the BUFFER area (BUFFER) resource is triggered by one key, and the first module can display the storing result processed by the management platform to the service personnel through the terminal equipment, so that the service personnel can add the first virtual machine to the BUFFER area (BUFFER) resource in time. Therefore, service personnel can update the state of the virtual machine in the idle state in the BUFFER (BUFFER) resource conveniently, the problem of resource waste caused by the fact that the service personnel cannot use the virtual machine in the idle state is solved, resource support is provided for services corresponding to other service subsystems, and the management efficiency of the BUFFER (BUFFER) resource is improved.

In one possible embodiment, the first module is specifically configured to receive, by the administrative group, a first message sent by a business person. The first module is further specifically used for judging whether the preset members of the management group include the service personnel based on the role identifiers of the service personnel; and when the preset members of the management group comprise service personnel, determining that the service personnel have the management authority of the buffer area resources. The first module is further specifically configured to display the query result to the service staff through the management group.

Therefore, the first module can acquire the white list of the service personnel in a mode of pre-establishing the management group and pre-setting members in the management group, so that the first module can quickly determine whether the operation of the service personnel is safe, and the convenience of safety verification is improved.

In a second aspect, an embodiment of the present application provides a buffer resource management method, which is applied to a first module, where the first module and a management platform are in different networks.

The method comprises the following steps: the first module receives a first message sent by a service person, wherein the first message carries a first instruction content, an identifier of a first virtual machine and a role identifier of the service person, and the first instruction content is used for indicating that a virtual machine corresponding to the identifier of the first virtual machine is inquired from a buffer resource. When determining that the service personnel has the management right of the buffer resource based on the role identification of the service personnel, the first module sends a first request to the management platform, wherein the first request carries the first instruction content, the identification of the first virtual machine and the role identification of the service personnel. The first module receives a first response from the management platform, the first response carries a query result, the query result is obtained by the management platform querying the virtual machine corresponding to the identifier of the first virtual machine from the buffer resource based on a first script code corresponding to the role identifier of the service personnel, and the first script code corresponding to the role identifier of the service personnel is obtained by the management platform analyzing the first instruction content. The first module displays the query result to the service personnel.

In one possible design, the method further includes: the first module receives a second message of the service personnel, wherein the second message carries a second instruction content, an identifier of a second virtual machine and a role identifier of the service personnel, the second instruction content is used for indicating that the second virtual machine is used, and the second virtual machine is a virtual machine which is determined from the query result and has the same type as the first virtual machine. And when determining that the service personnel has the management right of the buffer resource based on the role identification of the service personnel, the first module sends a second request to the management platform, wherein the second request carries a second instruction content, an identification of the second virtual machine and the role identification of the service personnel. The first module receives a second response from the management platform, the second response carries a release result, the release result is obtained by preparing release of the code version of the second virtual machine by the management platform based on a second script code corresponding to the role identifier of the service personnel, and the second script code corresponding to the role identifier of the service personnel is obtained by analyzing second instruction content by the management platform. The first module displays the publishing result to the service personnel.

In one possible design, the method further includes: the first module receives a third message of the service personnel, wherein the third message carries a third instruction content, an identifier of a third virtual machine and a role identifier of the service personnel, the third instruction content is used for indicating to delete the third virtual machine, and the third virtual machine is a virtual machine in an idle state determined from the query result. And when determining that the service personnel has the management right of the buffer resource based on the role identification of the service personnel, the first module sends a third request to the management platform, wherein the third request carries a third instruction content, an identification of a third virtual machine and the role identification of the service personnel. The first module receives a third response from the management platform, the third response carries a deletion result, the deletion result is obtained by deleting the third virtual machine from the buffer resource based on a third script code corresponding to the role identifier of the service personnel, and the third script code corresponding to the role identifier of the service personnel is obtained by analyzing the third instruction content by the management platform. The first module displays the deletion result to the service personnel.

In one possible design, the method further includes: the first module receives a fourth message of the service personnel, wherein the fourth message carries a fourth instruction content, an identifier of the first virtual machine and a role identifier of the service personnel, the fourth instruction content is used for indicating to store in the first virtual machine, and the first virtual machine is a virtual machine which is determined from the query result and is in a non-idle state. And when determining that the service personnel has the management right of the buffer resource based on the role identification of the service personnel, the first module sends a fourth request to the management platform, wherein the fourth request carries a fourth instruction content, the identification of the first virtual machine and the role identification of the service personnel. The first module receives a fourth response from the management platform, the fourth response carries a storage result, the storage result is obtained by the management platform storing the first virtual machine into the buffer resource based on a fourth script code corresponding to the role identifier of the service personnel, and the fourth script code corresponding to the role identifier of the service personnel is obtained by the management platform analyzing the fourth instruction content. The first module displays the logging result to the service personnel.

In one possible design, the first module determines that the service person has the management authority of the buffer resource based on the role identifier of the service person, and includes: the first module judges whether the preset members of the management group comprise business personnel or not based on the role identification of the business personnel. The first module determines that the service personnel have the management authority of the buffer resource when the preset members of the management group comprise the service personnel.

The beneficial effects of the buffer resource management methods provided in the second aspect and in each possible design of the second aspect may refer to the beneficial effects brought by each possible implementation manner of the first aspect and the first aspect, and are not described herein again.

In a third aspect, an embodiment of the present application provides a buffer resource management method, which is applied to a management platform, where the management platform and a first module are in different networks.

The method comprises the following steps: the management platform receives a first request from a first module, wherein the first request carries a first instruction content, an identifier of a first virtual machine and a role identifier of a service person, the first request is sent to the management platform by the first module when the service person is determined to have the management right of the buffer resource based on the role identifier of the service person, the first instruction content, the identifier of the first virtual machine and the role identifier of the service person are obtained by the first module from a received first message sent by the service person, and the first instruction content is used for indicating to query the virtual machine corresponding to the identifier of the first virtual machine from the buffer resource. And the management platform analyzes the first instruction content to obtain a first script code corresponding to the role identification of the service personnel. And the management platform queries the virtual machine corresponding to the identifier of the first virtual machine from the buffer resources based on the first script code to obtain a query result. And the management platform sends a first response to the first module, wherein the first response carries the query result, so that the first module displays the query result to the service personnel.

In one possible design, the method further includes: the management platform receives a second request from the first module, wherein the second request carries second instruction content, an identifier of a second virtual machine and a role identifier of a service person, the second request is sent to the management platform by the first module when the service person is determined to have the management right of the buffer resource based on the role identifier of the service person, the second instruction content, the identifier of the second virtual machine and the role identifier of the service person are obtained by the first module from a received second message of the service person, the second instruction content is used for indicating to use the second virtual machine, and the second virtual machine is a virtual machine which is determined from a query result and is the same as the first virtual machine in type. And the management platform analyzes the second instruction content to obtain a second script code corresponding to the role identification of the service personnel. And the management platform prepares for the release of the code version of the second virtual machine based on the second script code to obtain a release result. And the management platform sends a second response to the first module, wherein the second response carries the release result, so that the first module displays the release result to the service personnel.

In one possible design, the preparing, by the management platform, the release of the code version of the second virtual machine based on the second script code to obtain a release result includes: and the management platform configures the relevant information of the second virtual machine in the second module. And the management platform configures the trust relationship between the second virtual machine and the production springboard server in the second module. And the management platform configures the association relationship between the second virtual machine and the service subsystem corresponding to the second virtual machine in the second module. And the management platform calls a fifth module to apply for a change approval process of the second virtual machine. And the management platform obtains a release result when calling the fifth module to determine that the change approval process of the second virtual machine is completed.

In one possible design, the method further includes: the management platform receives a third request from the first module, the third request carries third instruction content, an identifier of a third virtual machine and a role identifier of a service person, the third request is sent to the management platform by the first module when the service person is determined to have the management right of the buffer resource based on the role identifier of the service person, the third instruction content, the identifier of the third virtual machine and the role identifier of the service person are obtained by the first module from a received third message of the service person, the third instruction content is used for indicating to delete the third virtual machine, and the third virtual machine is a virtual machine in an idle state determined from a query result. And the management platform analyzes the third instruction content to obtain a third script code corresponding to the role identification of the service personnel. And the management platform deletes the third virtual machine from the buffer resources based on the third script code to obtain a deletion result. And the management platform sends a third response to the first module, wherein the third response carries the deletion result, so that the first module displays the deletion result to the service personnel.

In one possible design, the method further includes: the management platform receives a fourth request from the first module, the fourth request carries fourth instruction content, an identifier of the first virtual machine and a role identifier of the service personnel, the fourth request is sent to the management platform by the first module when the service personnel is determined to have the management right of the buffer resource based on the role identifier of the service personnel, the fourth instruction content, the identifier of the first virtual machine and the role identifier of the service personnel are obtained by the first module from a received fourth message of the service personnel, the fourth instruction content is used for indicating to store in the first virtual machine, and the first virtual machine is a virtual machine which is determined from a query result and is in a non-idle state. And the management platform analyzes the fourth instruction content to obtain a fourth script code corresponding to the role identification of the service personnel. And the management platform stores the first virtual machine into the buffer area resource based on the fourth script code to obtain a storage result. And the management platform sends a fourth response to the first module, wherein the fourth response carries the storage result, so that the first module displays the storage result to the service personnel.

The beneficial effects of the buffer resource management methods provided in the third aspect and the possible designs of the third aspect may refer to the beneficial effects brought by the possible embodiments of the first aspect and the first aspect, and are not described herein again.

In a fourth aspect, an embodiment of the present application provides a buffer resource management apparatus, which is applied to a first module, where the first module and a management platform are in different networks.

The device includes: the first receiving submodule is used for receiving a first message sent by a service person, wherein the first message carries a first instruction content, an identifier of a first virtual machine and a role identifier of the service person, and the first instruction content is used for indicating that a virtual machine corresponding to the identifier of the first virtual machine is inquired from a buffer resource.

And the first sending submodule is used for sending a first request to the management platform when the determining submodule determines that the service personnel has the management right of the buffer resource based on the role identification of the service personnel, wherein the first request carries the first instruction content, the identification of the first virtual machine and the role identification of the service personnel.

The first receiving submodule is further configured to receive a first response from the management platform, where the first response carries a query result, the query result is obtained by the management platform querying, based on a first script code corresponding to the role identifier of the service person, a virtual machine corresponding to the identifier of the first virtual machine from the buffer resource, and the first script code corresponding to the role identifier of the service person is obtained by the management platform analyzing the first instruction content.

And the display sub-module is used for displaying the query result to the service personnel.

In a possible design, the first receiving sub-module is further configured to receive a second message of the service person, where the second message carries a second instruction content, an identifier of the second virtual machine, and a role identifier of the service person, the second instruction content is used to indicate that the second virtual machine is used, and the second virtual machine is a virtual machine that is determined from the query result and is the same as the first virtual machine in type.

And the first sending submodule is also used for sending a second request to the management platform when the determining submodule determines that the service personnel has the management right of the buffer resource based on the role identification of the service personnel, wherein the second request carries the second instruction content, the identification of the second virtual machine and the role identification of the service personnel.

The first receiving submodule is further configured to receive a second response from the management platform, where the second response carries a release result, the release result is obtained by preparing, by the management platform, for release of the code version of the second virtual machine based on the second script code corresponding to the role identifier of the service person, and the second script code corresponding to the role identifier of the service person is obtained by analyzing, by the management platform, the second instruction content.

And the display sub-module is also used for displaying the release result to the service personnel.

In a possible design, the first receiving sub-module is further configured to receive a third message of the service person, where the third message carries a third instruction content, an identifier of the third virtual machine, and a role identifier of the service person, the third instruction content is used to instruct to delete the third virtual machine, and the third virtual machine is a virtual machine in an idle state determined from the query result.

And the first sending submodule is also used for sending a third request to the management platform when the determining submodule determines that the service personnel has the management right of the buffer resource based on the role identification of the service personnel, wherein the third request carries the third instruction content, the identification of the third virtual machine and the role identification of the service personnel.

The first receiving submodule is further configured to receive a third response from the management platform, where the third response carries a deletion result, the deletion result is obtained by deleting, by the management platform, the third virtual machine from the buffer resource based on a third script code corresponding to the role identifier of the service person, and the third script code corresponding to the role identifier of the service person is obtained by analyzing, by the management platform, the third instruction content.

And the display submodule is also used for displaying the deletion result to the service personnel.

In a possible design, the first receiving sub-module is further configured to receive a fourth message of the service person, where the fourth message carries a fourth instruction content, an identifier of the first virtual machine, and a role identifier of the service person, the fourth instruction content is used to instruct to store the fourth instruction content in the first virtual machine, and the first virtual machine is a virtual machine in a non-idle state determined from the query result.

And the first sending submodule is also used for sending a fourth request to the management platform when the determining submodule determines that the service personnel has the management right of the buffer resource based on the role identification of the service personnel, wherein the fourth request carries the fourth instruction content, the identification of the first virtual machine and the role identification of the service personnel.

The first receiving submodule is further configured to receive a fourth response from the management platform, where the fourth response carries a storage result, the storage result is obtained by the management platform storing the first virtual machine into the buffer resource based on a fourth script code corresponding to the role identifier of the service person, and the fourth script code corresponding to the role identifier of the service person is obtained by the management platform analyzing the fourth instruction content.

And the display submodule is also used for displaying the storage result to the service personnel.

In one possible design, the determining submodule is specifically configured to determine whether the preset member of the management group includes a service person based on the role identifier of the service person. And when the preset members of the management group comprise service personnel, determining that the service personnel have the management authority of the buffer area resources. The beneficial effects of the buffer resource management apparatus provided in the fourth aspect and in each possible design of the fourth aspect may refer to the beneficial effects brought by each possible implementation manner of the second aspect and the second aspect, and are not described again here.

In a fifth aspect, an embodiment of the present application provides a buffer resource management apparatus, which is applied to a management platform, where the management platform and a first module are in different networks.

The device includes: the second receiving submodule is used for receiving a first request from the first module, wherein the first request carries a first instruction content, an identifier of the first virtual machine and a role identifier of a service person, the first request is sent to the management platform by the first module when the service person is determined to have the management right of the buffer resource based on the role identifier of the service person, the first instruction content, the identifier of the first virtual machine and the role identifier of the service person are obtained by the first module from a received first message sent by the service person, and the first instruction content is used for indicating to query the virtual machine corresponding to the identifier of the first virtual machine from the buffer resource.

And the processing submodule is used for analyzing the first instruction content to obtain a first script code corresponding to the role identifier of the service personnel.

The processing sub-module is further used for querying the virtual machine corresponding to the identifier of the first virtual machine from the buffer resource based on the first script code to obtain a query result;

and the second sending submodule is used for sending a first response to the first module, wherein the first response carries the query result, so that the first module displays the query result to the service personnel.

In a possible design, the second receiving sub-module is further configured to receive a second request from the first module, where the second request carries second instruction content, an identifier of the second virtual machine, and a role identifier of the service person, the second request is sent to the management platform by the first module when it is determined that the service person has the management right of the buffer resource based on the role identifier of the service person, the second instruction content, the identifier of the second virtual machine, and the role identifier of the service person are obtained by the first module from a received second message of the service person, the second instruction content is used to instruct to use the second virtual machine, and the second virtual machine is a virtual machine that is determined from the query result and is the same as the first virtual machine in type.

And the processing submodule is also used for analyzing the second instruction content to obtain a second script code corresponding to the role identifier of the service personnel.

And the processing submodule is also used for preparing the release of the code version of the second virtual machine based on the second script code to obtain a release result.

And the second sending submodule is also used for sending a second response to the first module, wherein the second response carries the release result, so that the first module displays the release result to the service personnel.

In one possible embodiment, the second processing submodule has relevant information for configuring the second virtual machine in the second module. And configuring a trust relationship between the second virtual machine and the production springboard server in the second module. And configuring the incidence relation between the second virtual machine and the service subsystem corresponding to the second virtual machine in the second module. And calling a fifth module to apply for a change approval process of the second virtual machine. And obtaining a release result when the fifth module is called to determine that the change approval process of the second virtual machine is completed.

In a possible design, the second receiving sub-module is further configured to receive a third request from the first module, where the third request carries third instruction content, an identifier of a third virtual machine, and a role identifier of a service person, the third request is sent to the management platform by the first module when it is determined that the service person has the management right of the buffer resource based on the role identifier of the service person, the third instruction content, the identifier of the third virtual machine, and the role identifier of the service person are obtained by the first module from a received third message of the service person, the third instruction content is used to instruct to delete the third virtual machine, and the third virtual machine is a virtual machine in an idle state determined from the query result.

And the processing submodule is also used for analyzing the third instruction content to obtain a third script code corresponding to the role identifier of the service personnel.

And the processing submodule is also used for deleting the third virtual machine from the buffer resources based on the third script code to obtain a deletion result.

And the second sending submodule is also used for sending a third response to the first module, wherein the third response carries the deletion result, so that the first module displays the deletion result to the service personnel.

In a possible design, the second receiving sub-module is further configured to receive a fourth request from the first module, where the fourth request carries fourth instruction content, an identifier of the first virtual machine, and a role identifier of the service person, the fourth request is sent to the management platform by the first module when it is determined that the service person has the management right of the buffer resource based on the role identifier of the service person, the fourth instruction content, the identifier of the first virtual machine, and the role identifier of the service person are obtained by the first module from a received fourth message of the service person, the fourth instruction content is used to instruct to store in the first virtual machine, and the first virtual machine is a virtual machine in a non-idle state determined from the query result.

And the processing submodule is also used for analyzing the fourth instruction content to obtain a fourth script code corresponding to the role identifier of the service personnel.

And the processing submodule is also used for storing the first virtual machine into the buffer area resource based on the fourth script code to obtain a storage result.

And the second sending submodule is also used for sending a fourth response to the first module, and the fourth response carries the storage result so that the first module displays the storage result to the service personnel.

The beneficial effects of the buffer resource management apparatus provided in the fifth aspect and in each possible design of the fifth aspect may refer to the beneficial effects brought by each possible implementation manner of the third aspect and the third aspect, and are not described again here.

In a sixth aspect, an embodiment of the present application provides an electronic device, including: a memory and a processor; the memory is used for storing program instructions; the processor is used for calling the program instructions in the memory to make the electronic equipment execute the buffer resource management method in the second aspect and any one of the possible designs of the second aspect; alternatively, the processor is configured to invoke the program instructions in the memory to cause the electronic device to perform the buffer resource management method in any one of the possible designs of the third aspect and the third aspect.

In a seventh aspect, an embodiment of the present application provides a computer storage medium, which includes computer instructions, and when the computer instructions are executed on an electronic device, the electronic device is caused to execute the second aspect and the buffer resource management method in any possible design of the second aspect; or, the electronic device is caused to perform the buffer resource management method in any one of the possible designs of the third aspect and the fourth aspect.

In an eighth aspect, embodiments of the present application provide a computer program product, which when run on a computer, causes the computer to execute the buffer resource management method in any one of the possible designs of the second aspect and the second aspect; alternatively, the computer may be caused to perform the buffer resource management method in any one of the possible designs of the third aspect and the fourth aspect.

In a ninth aspect, an embodiment of the present application provides a chip system, where the chip system includes: a processor; when the processor executes the computer instructions stored in the memory, the electronic device performs the buffer resource management method of the second aspect and any one of the possible designs of the second aspect; alternatively, the electronic device performs the buffer resource management method in any one of the possible designs of the third aspect and the fourth aspect.

Drawings

Fig. 1 is a schematic structural diagram of a buffer resource management system according to an embodiment of the present application;

fig. 2 is a signaling interaction diagram of a buffer resource management method according to an embodiment of the present application;

fig. 3 is a signaling interaction diagram of a buffer resource management method according to an embodiment of the present application;

fig. 4 is a signaling interaction diagram of a buffer resource management method according to an embodiment of the present application;

fig. 5 is a signaling interaction diagram of a buffer resource management method according to an embodiment of the present application.

Detailed Description

The embodiment of the application provides a buffer resource management system, a buffer resource management method, a buffer resource management device, a buffer resource management computer storage medium and a computer program product, which are applied to the field of financial science and technology such as banking and the like.

After the verification is passed, the operation of the service personnel can be transmitted to the buffer area resource management system through the terminal equipment, so that the linkage of two independent network environments of the public network and the production network is realized, and the data intercommunication between the public network and the production network is realized. Therefore, service personnel do not need to manage the Buffer resources on a fixed place or a machine, the flexibility of the service personnel for managing the Buffer resources is improved, a maintenance scene of the Buffer resources is triggered by one key, the Buffer resource management system can display the processed result to the service personnel through terminal equipment, the automatic management of the Buffer resources is realized, the error rate and the complexity of manual operation are reduced, the operation time for maintenance of the service personnel is shortened, the management cost of the Buffer resources is reduced, the management efficiency of the Buffer resources is improved, the service personnel can monitor the Buffer resources in real time, and a tamping basis is provided for timely adjusting the use condition of the virtual machine.

Referring to fig. 1, fig. 1 is a schematic structural diagram of a buffer resource management system according to an embodiment of the present application.

As shown in fig. 1, the buffer resource management system may include: a first module 11, a management platform 12, at least one virtual machine (illustrated as a virtual machine 13 in fig. 1), a second module 14, a third module 15, a fourth module 16, and a fifth module 17.

The management platform 12 is communicatively connected to the first module 11, each virtual machine, the second module 14, the third module 15, the fourth module 16, and the fifth module 17 through interfaces. The first module 11 is also communicatively connected to the fifth module 17 via an interface. In addition, the application does not limit the parameters such as the physical position, the type, the number and the like of at least one virtual machine. In addition, the first module 11 is in a public network and the management platform 12 is in a production network (which may be understood as a private network). For example, the first module 11 is in the cellular network of a cell phone and the management platform 12 is in the internal network of a banking system.

Wherein the first module 11 may be deployed on a terminal device. The management platform 12, the second module 14, the third module 15, the fourth module 16, and the fifth module 17 may be deployed on the same or different servers, such as a File Transfer Protocol (FTP) server, a Web server, an enterprise core application server, and the like. For example, the management platform 12 is deployed on one server, the first module 11 is deployed on a terminal device, the second module 14 is deployed on another server, and the third module 15, the fourth module 16, and the fifth module 17 may be integrally deployed on another server.

A first module 11

The first module 11 serves as a medium for connecting the service personnel with the management platform 12, and can not only receive messages sent by the service personnel, but also communicate with the management platform 12.

1. The first module 11 may be configured to establish a management group of Buffer (Buffer) resources in an application program or a webpage of the terminal device, install an enterprise robot corresponding to the first module 11, and trigger the enterprise robot to start using an instruction (e.g., "install wbrobot" fixed instruction), so as to activate the management group. Wherein managing members of a group comprises: business personnel and enterprise robots. Thus, the enterprise robot can receive messages sent by business personnel through the management group and show the business personnel the results of the management platform 12 processing Buffer resources.

It should be noted that, in addition to the above manner of recording the members of the management group in the white list, the first module 11 may also preset other forms of white lists, for example, the white list records the identity of the service personnel, or the white list records the identity of the service personnel and the identity of the terminal device. When a service person sends a message carrying an identity of the service person to the first module 11 through a terminal, the first module 11 may determine whether the identity of the service person is in a white list, so as to determine whether the received message is safe. The embodiment of the present application is not limited to the foregoing manner for ensuring the security of the messages transmitted by the service personnel.

2. After the enterprise robot receives the message sent by the business personnel, the first module 11 may format the message sent by the business personnel, and splice the group name of the management group, the message sent by the business personnel, and the channel type corresponding to the management group into a JSON (JavaScript Object Notation) data string.

The first module 11 may parametrically communicate the JSON data string to the management platform 12 by calling the fifth module 17. The management platform 12 performs corresponding logical processing based on the JSON data string. The management platform 12 transmits the processing result to the first module 11 through a curl (command line interface resource locator) file transmission tool, and the first module 11 may display the processing result to the service personnel through the management group.

In addition, before the first module 11 executes the above process, the first module 11 may also call a specified form (Buffer _ operation _ itsm) in the fifth module 17 by a post request method of a hypertext transfer protocol (HTTP) protocol, and complete approval processing of a standardized flow sheet formed based on JSON data strings, so as to register operations of business personnel, clearly record the operations of the business personnel, standardize an operation flow of Buffer (Buffer) resource management, and facilitate subsequent tracing of the responsibility of the business personnel.

Management platform 12

1. The management platform 12 may be constructed using, for example, a SpringBoot backend framework.

The management platform 12 receives the JSON data string from the first module 11 based on the HTTP protocol, and analyzes the instruction content in the JSON data string based on the mapping relationship between the instruction content and the script code to obtain the analyzed script code.

For example, the mapping relationship between the instruction content and the script code is as follows:

in addition, in consideration of different roles of different service personnel, the management platform 12 may also introduce role control to configure different operation authorities for different roles. For example, the developer corresponds to the read-only authority of the script code, the operation and maintenance personnel corresponds to the read-write authority of the script code, and the administrator corresponds to the management authority of the management platform 12.

Accordingly, the management platform 12 can select a script code matching the role of the business person from the parsed script codes based on the association relationship between the script code and the role.

The embodiment of the present application does not limit the specific implementation manner of the mapping relationship between the instruction content and the script code and the association relationship between the script code and the role. In addition, the mapping relationship between the command content and the script code and the association relationship between the script code and the role can be converted into the association relationship among the command content, the script code and the role, so that the management platform 12 selects the script code matched with the role of the business personnel based on the association relationship among the command content, the script code and the role.

2. The management platform 12 may execute a script code matching with the role of the service person to manage Buffer resources and obtain a processing result. Thus, the management platform 12 may call the interface of the second module 14, perform operations such as query, use, addition, deletion, and modification on Buffer (Buffer) resources stored in the second module 14, perform linkage on data between the public network and the production network stored in the second module 14, and perform aggregation management on each virtual machine.

The management platform 12 calls an Application Programming Interface (API) of the first module 11 (e.g., auto _ cwate _ mapping _ sendmsg.do) by using a current file transfer tool according to a preset and fixed JSON data string (e.g., { "type": text "," Group ":" wechat communication Group name "," msg ": ip | | | dcn | | | | | | | | | idc | | | | status", "media") to transmit a processing result to the first module 11, so that a service person can obtain the processing result in time, such as maintenance data (buffer _ data: data, dstan, idc, ip) and maintenance result status (success/failure), and other information.

Third and second modules 14

The second module 14 stores Buffer (Buffer) resources, and can store relevant information such as IP of a virtual machine, type of the virtual machine, machine fixed asset number, machine rack number, machine cabinet number, specification information of a physical host (such as memory, CPU, disk, etc.) by using a database manner such as relational database management system (mySQL), PostgreSQL, Orcale, etc. In addition, the second module 14 also stores standard configuration tables (such as the firewall and the encryption platform) of each service subsystem. Therefore, the related information of the virtual machine is accurately maintained, and the unified management of the virtual machine in the Buffer (Buffer) resource is also ensured.

The second module 14 may receive operation instructions from the management platform 12 to perform operations such as querying, using, adding, deleting, and modifying the virtual machine in the Buffer (Buffer) resource.

Four, third 15, fourth 16 and fifth 17 modules

1. The third module 15 may provide a version release standard operation tool, which provides a floor support for the version release of the virtual machine in the Buffer (Buffer) resource and the service subsystem corresponding to the virtual machine.

The third module 15 may include, but is not limited to, an Automated Operation and Maintenance Platform (AOMP) for micro-banking.

2. The fourth module 16 configures deployment areas, IPs, machine fixed asset numbers, machine cabinets, machine racks, and other information of all virtual machines, and provides the management platform 12 with the target virtual machine and the bottom layer data of the virtual machine.

The fourth module 16 may include, but is not limited to, a Configuration Management Database (CMDB) for the micro-bank.

3. The fifth module 17 provides the first module 11 with an approval processing function of an automated flow sheet, provides the management platform 12 with an automated flow application service function, provides a standard flow for opening policies such as a firewall and an encryption platform, records maintenance and operation behaviors of Buffer (Buffer) resources each time, and provides tamped bottom layer data for subsequent behavior investigation.

The fifth module 17 may include, but is not limited to, an IT Service Management (ITSM) for the micro-banking.

The management platform 12 executes script codes matching the roles of the business persons, and can also acquire relevant information of the virtual machine designated for maintenance from the fourth module 16. When the instruction content in the JSON data string indicates that a virtual machine in the Buffer (Buffer) resource is used, the third module 15 automatically issues a code version to the virtual machine, and the management platform 12 automatically deploys scripts such as log archiving to the corresponding virtual machine, and the corresponding virtual machine provides specification information of a physical host corresponding to the virtual machine to the management platform 12, so that bottom data is provided for automatically maintaining the Buffer (Buffer) resource, and service personnel can conveniently use the virtual machine of the corresponding specification as required.

Based on the above description, with reference to fig. 2, a specific implementation process of the buffer resource management method according to the embodiment of the present application is described with each module in the buffer resource management system as an execution subject.

Referring to fig. 2, fig. 2 is a signaling interaction diagram of a buffer resource management method according to an embodiment of the present application. As shown in fig. 2, a method for managing buffer resources according to an embodiment of the present application may include:

s101, a first module receives a first message of a service person.

When the service person wants to know the current Buffer (Buffer) resource, the service person may send a first message to the first module 11 through the terminal device. The first message carries a first instruction content, an identifier of the first virtual machine and a role identifier of the service personnel. The first instruction content is used to instruct to query the virtual machine corresponding to the identifier of the first virtual machine from the buffer resource, for example, the first instruction content may be @ robot select _ buffer DCN.

The virtual machine corresponding to the identifier of the first virtual machine may be the first virtual machine, or may be a virtual machine of the same type as the first virtual machine, or may be the first virtual machine and a virtual machine of the same type as the first virtual machine, which is not limited in this embodiment of the application. In addition, the number, the type and other parameters of the first virtual machines are not limited in the application.

S102, when the service personnel is determined to have the management right of the buffer zone resource based on the role identification of the service personnel, a first request is sent to a management platform by a first module.

After the first module 11 receives the first message, the first model may determine the security of the first message based on the role identifier of the service person to determine whether the service person has the management authority of the buffer resource, so as to avoid the influence of the unsafe message on the management platform 12.

Therefore, when determining that the service person has the management right of the buffer resource, the first module 11 may splice the first instruction content, the identifier of the first virtual machine, and the role identifier of the service person into a first request in a fixed format, such as a JSON data string. Thus, the first module 11 may invoke the management platform 12 to send the first request to the management platform 12 by a post request method such as the HTTP protocol.

S103, the management platform analyzes the first instruction content to obtain a first script code corresponding to the role identification of the business personnel.

After the management platform 12 receives the first request, the management platform 12 disassembles the first request according to the KEY separator (KEY) using, for example, a python script of a computer programming language, so as to obtain the first instruction content, the identifier of the first virtual machine, and the role identifier of the service personnel.

Therefore, the management platform 12 analyzes the first instruction content based on the mapping relationship between the instruction content and the script code, and obtains the corresponding script code. The management platform 12 may screen out a first script code corresponding to the role identifier of the service person from the corresponding script code based on the association relationship between the script code and the role.

In the embodiment of the present application, the sequence of the analyzing step and the screening step executed by the management platform 12 in the time sequence is not limited, and may be executed simultaneously or sequentially.

In addition, the management platform 12 may further determine the first script code according to the first instruction content and the role identifier of the service person based on the association relationship among the instruction content, the script code, and the role.

S104, the management platform queries the virtual machine corresponding to the identifier of the first virtual machine from the buffer resources based on the first script code to obtain a query result.

Based on the execution of the first script code, the management platform 12 may splice the identifier (DCN field value, such as { "Group": the "wechat Group name", "DCN": 999}) of the first virtual machine into an operation instruction (database select statement, such as select from we _ buffer _ vm _ data where DCN _ data ═ 999) of the second module 14, and send the operation instruction to the second module 14, so that the management platform 12 can obtain the relevant information (such as IP, DCN, IDC, machine model, CPU, memory, disk, STATUS, etc.) of the virtual machine corresponding to the identifier of the first virtual machine from the buffer resource of the second module 14, and obtain the query result. The query result may be in the form of a result file (we _ slice _ select _ result).

S105, the management platform sends a first response to the first module, and the first response carries the query result.

The management platform 12 may use the curl file transfer tool to call the API of the first module 11, and transfer the processed query result to the first module 11.

S106, the first module displays the query result to the service personnel.

After the first module 11 receives the query result, the first module 11 may display the query result to the service staff through the terminal device in a form of, for example, a result file (we _ Buffer _ select _ result), so that the service staff can timely obtain related information, such as a resource usage condition and a resource remaining condition of the virtual machine corresponding to the identifier of the first virtual machine in the current Buffer (Buffer) resource.

According to the buffer resource management method provided by the embodiment of the application, the first module is arranged in the terminal equipment in the public network, the management platform is arranged in the server in the production network, and the first module adopts a white list to verify business personnel, so that the safety verification is carried out on the inquiry operation of the business personnel. After the safety check is passed, the operation of the service personnel can be transmitted to the management platform by the first module through the terminal equipment, thereby not only realizing the linkage of two sets of independent network environments of the public network and the production network, and leading the data intercommunication between the public network and the production network, and avoiding the need of the service personnel to manage the Buffer area resources on a fixed place or a machine, improving the flexibility of the service personnel to manage the Buffer area (Buffer) resources, but also triggering the query scene of the Buffer area (Buffer) resources by one key, and the first module can display the query result processed by the management platform to the service personnel through the terminal equipment, realizing the automatic management of the Buffer area (Buffer) resources, reducing the error rate and the complexity of manual operation, shortening the operation time of the maintenance of the service personnel, reducing the management cost of the Buffer area (Buffer) resources, and improving the management efficiency of the Buffer area (Buffer) resources, and service personnel can monitor BUFFER area (BUFFER) resources in real time, and a tamping basis is provided for the service personnel to adjust the use condition of the virtual machine in time based on the service volume corresponding to the service subsystem.

In the embodiment of the present application, the first module 11 interacts with service personnel in multiple ways.

In some embodiments, the first module 11 may receive the first message through a pre-set management group on the terminal device. The first module 11 determines whether the preset members of the management group include service personnel based on the role identifiers of the service personnel.

When the preset member of the management group includes a service person, the first module 11 may determine that the service person has a management authority of the buffer resource. Therefore, when the first module 11 receives the query result sent by the management platform 12, the first module 11 may display the query result to the service staff through the management group.

When the preset member of the management group does not include the service person, the first module 11 may not respond to the first message, and may perform an early warning prompt to the management platform 12. Thus, the impact of unsecured messages on the management platform 12 is avoided.

When the first virtual machine fails in the operation and maintenance process or the number of the first virtual machines cannot support the service volume corresponding to the service subsystem, service personnel need to add one or more new virtual machines in an idle state, which are of the same type as the first virtual machine, to the service subsystem in time, so that the service subsystem can smoothly implement corresponding services.

Therefore, the service person needs to determine whether a virtual machine of the same type as the first virtual machine exists in the current Buffer (Buffer) resource, so that when the service person determines from the query result that a virtual machine of the same type as the first virtual machine exists, the service person can use the virtual machine of the same type as the first virtual machine, which is helpful for solving the above problem in time.

Next, with reference to fig. 3, a specific implementation process of the service personnel implementing the virtual machine of the same type as the first virtual machine through the management platform 12 is described.

Referring to fig. 3, fig. 3 is a signaling interaction diagram of a buffer resource management method according to an embodiment of the present application. As shown in fig. 3, a method for managing buffer resources according to an embodiment of the present application may include:

s201, a first module receives a first message of a service person.

The first message carries a first instruction content, an identifier of the first virtual machine and a role identifier of the service personnel, and the first instruction content is used for indicating that the virtual machine corresponding to the identifier of the first virtual machine is inquired from the buffer resource.

S202, when the service personnel is determined to have the management right of the buffer zone resource based on the role identification of the service personnel, the first module sends a first request to the management platform.

The first request carries a first instruction content, an identifier of the first virtual machine and a role identifier of a service person.

S203, the management platform analyzes the first instruction content to obtain a first script code corresponding to the role identification of the business personnel.

S204, the management platform queries the virtual machine corresponding to the identifier of the first virtual machine from the buffer resources based on the first script code to obtain a query result.

S205, the management platform sends a first response to the first module, and the first response carries the query result.

S206, the first module displays the query result to the service personnel.

S201 to S206 are similar to S101 to S106 in the embodiment of fig. 2, and are not described herein again in this embodiment of the present application.

And S207, the first module receives a second message of the service personnel.

Based on the query result in step S206, the service personnel can clearly obtain the current Buffer (Buffer) resource, so that the service personnel can match the virtual machine with the same type as the first virtual machine, i.e. the second virtual machine, from the current Buffer (Buffer) resource. For example, if the model of the first virtual machine is 2C4G, the second virtual machine matched by the service person from the query result is also 2C 4G.

Thus, the service person can send a second message to the first module 11 via the terminal device. The second message carries a second instruction content, an identifier of the second virtual machine and a role identifier of the service personnel, and the second instruction content is used for indicating the use of the second virtual machine. For example, the identification of the second virtual machine may be IP 192.168.0.2 of the second virtual machine, and the second instruction content may be @ robot user _ buffer IP SYSNAME.

The number of the second virtual machines and other parameters are not limited in the application.

S208, when the service personnel is determined to have the management right of the buffer zone resource based on the role identification of the service personnel, the first module sends a second request to the management platform.

After the first module 11 receives the second message, the first model may determine the security of the second message based on the role identifier of the service person to determine whether the service person has the management authority of the buffer resource, so as to avoid the influence of the unsafe message on the management platform 12.

Therefore, when determining that the service personnel has the management right of the buffer resource, the first module 11 may splice the second instruction content, the identifier of the second virtual machine, and the role identifier of the service personnel into a second request with a fixed format, such as a JSON data string. The first module 11 may invoke the management platform 12 by a post request method, such as the HTTP protocol, to send a second request to the management platform 12.

For example, the first module 11 concatenates USER _ BUFFER, IP, sysneame into JSON data string { "USER _ BUFFER": "insert _ buffer", "IP": "192.168.0.3", "SYSNAME": "abc-syss", and calls the interface of the management platform 12 through the post request method of the HTTP protocol.

S209, the management platform analyzes the second instruction content to obtain a second script code corresponding to the role identifier of the service personnel.

After the management platform 12 receives the second request, the management platform 12 disassembles the second request according to the KEY separator (KEY: VALUE) using, for example, a python script of the computer programming language to obtain the second instruction content, the identifier of the second virtual machine, and the role identifier of the service person.

Therefore, the second instruction content is analyzed based on the mapping relation between the instruction content and the script code, and the corresponding script code can be obtained. The management platform 12 may screen out a second script code corresponding to the role identifier of the service person from the corresponding script code based on the association relationship between the script code and the role.

In the embodiment of the present application, the sequence of the analyzing step and the screening step executed by the management platform 12 in the time sequence is not limited, and may be executed simultaneously or sequentially.

In addition, the management platform 12 may further determine the second script code according to the second instruction content and the role identifier of the service person based on the association relationship among the instruction content, the script code and the role.

S210, the management platform performs preparation operation on the code version release of the second virtual machine based on the second script code to obtain a release result.

Based on the execution of the second script code, the management platform 12 may prepare for the release of the code version of the second virtual machine in order to obtain the release result.

In some embodiments, the management platform 12 may send an operation instruction to the second module 14 to implement management of Buffer (Buffer) resources, add an instance of a new service subsystem in the fourth module 16, configure a mutual access trust relationship in the third module 15, and automatically apply for a change approval process through the fifth module 17.

1. The management platform 12 may re-splice the second instruction content, the identifier of the second virtual machine, and the role identifier of the service person into JSON strings (e.g., { "sysram": "abc-systems", "IP": 192.168.0.3) "), and call the API (operatci/cmdb/API/instance.do) encapsulated by the fourth module 16 to add the association relationship between the second virtual machine and the service subsystem corresponding to the second virtual machine through the POST request method of the HTTP protocol.

2. The management platform 12 then processes the sub-number separator KEY: the identities of the second virtual machine split by the VALUE (e.g., { "IP": 192.168.0.3 "}) are spliced into a JSON data string, and an encapsulated API (new/aomp/API/trustvm.do) of the third module 15 is called by a POST request method of the HTTP protocol to configure a trust relationship between the second virtual machine and the production trigger (192.168.0.5) (e.g., enter a directory-/. ssh of the production trigger 192.168.0.5, execute a ssh-keygen-t rsa to generate a key, and execute a ssh-add _ rsa to load a key in the second virtual machine 192.168.0.3).

3. The management platform 12 configures a database table (buffer _ systems _ conf _ table, which includes fields such as a service subsystem name system _ name, a firewall _ data, and an encryption platform encryption _ data) based on each service subsystem standard maintained by the second module 14, and performs query association matching with the service subsystem name system _ name corresponding to the second virtual machine, that is, configures the relevant information of the second virtual machine in the second module 14.

4. The management platform 12 splices into JSON data string { "system _ name" according to the specific configuration of the service subsystem name system _ name (system _ name: abc-systems | | | firewall _ data: yes | | | encryption _ data: no): "abc-pro sys", "ip": "192.168.0.3", "firewall _ data": "yes", "encryption _ data": "no" calls an API (get _ itsm _ request.do) of the fifth module 17 to automatically apply for a service change approval process such as a firewall and an encryption platform through a POST method request of the HTTP protocol, so that a second virtual machine can be used to apply for a change approval process.

Accordingly, the management platform 12 may periodically call the API (query _ instance _ request _ status.do) packaged by the fifth module 17 to poll and capture the state of the change approval process of the second virtual machine. When the management platform 12 resolves that the state (itsm _ status) of the second virtual machine application change approval process is in a completed state, the management platform 12 may splice the identifier of the second virtual machine into a JSON data string (SYSNAME IP), and call, through a POST request method of an HTTP protocol, an API (new/aomp/API/version _ release.do) packaged by the third module 15 to perform a code version issue operation on the service subsystem corresponding to the second virtual machine and the second virtual machine (SYSNAME IP).

The management platform 12 logs in a Secure remote file copy command (Secure copy, scp) through a Secure Shell protocol (ssh) of the system linux, so as to issue an operation and maintenance script such as log archiving and deploy a second virtual machine, and obtain an issue result, that is, a version issue result file (aomp _ release _ result).

S211, the management platform sends a second response to the first module, and the second response carries the release result.

The management platform 12 calls an API (auto _ cwash _ information _ sendmsg.do) of the first module 11 through a curl file transfer tool to send a second response carrying a release result (an aomp _ release _ result) to the first module 11.

S212, the first module displays the publishing result to the service personnel.

After the first module 11 receives the release result, the first module 11 may display the release result to the service staff through the terminal device in a form such as a version release result file (aomp _ release _ result), so that the service staff can timely know the version release and transaction states of the second virtual machine and the service subsystem corresponding to the second virtual machine, and the service subsystem smoothly uses the second virtual machine to implement a corresponding service.

In the embodiment of the application, when the service staff determines that the second virtual machine needs to be used currently in the query result, the first module is used for verifying the service staff by adopting the white list, and the service staff is subjected to safety verification to link two sets of independent network environments of the public network and the production network, so that the public network and the production network can be communicated. Therefore, service personnel do not need to manage the Buffer area resources on a fixed place or a machine, and the flexibility of managing the Buffer area (Buffer) resources by the service personnel is improved. After the safety verification is passed, the operation of a service person can be transmitted to the management platform through the terminal device by the first module, the use scene of BUFFER area (BUFFER) resources is triggered by one key, so that the management platform can prepare for version release of the second virtual machine, and the first module can display a release result processed by the management platform to the service person through the terminal device, so that the service person can confirm whether the second virtual machine is available or not in time, thereby facilitating the service person to smoothly use the virtual machine, solving the problem of insufficient number of the virtual machines or sudden increase of service volume corresponding to a service subsystem in time, and improving the management efficiency of the BUFFER area (BUFFER) resources.

In the operation and maintenance process, the management translation provides a real-time and elastic capacity expansion and contraction function for business personnel. Under the condition that the number of the current virtual machines is not enough to support the service volume corresponding to the service subsystem, service personnel can timely extract idle virtual machines from Buffer area (Buffer) resources to serve as machines for bearing the service volume corresponding to the service subsystem, and high availability of services can be met. Under the condition that the number of the current virtual machines is excessive, service personnel can timely store the virtual machines in an idle state into Buffer area (Buffer) resources so as to provide resource support for other service subsystems.

Next, referring to fig. 4, when the service person uses the third virtual machine in the idle state in the current Buffer (Buffer) resource, a specific implementation process that the service person deletes the third virtual machine from the current Buffer (Buffer) resource through the management platform 12 is described.

Referring to fig. 4, fig. 4 is a signaling interaction diagram of a buffer resource management method according to an embodiment of the present application. As shown in fig. 4, a method for managing buffer resources according to an embodiment of the present application may include:

s301, a first module receives a first message of a service person.

The first message carries a first instruction content, an identifier of the first virtual machine and a role identifier of the service personnel, and the first instruction content is used for indicating that the virtual machine corresponding to the identifier of the first virtual machine is inquired from the buffer resource.

S302, when the service personnel is determined to have the management right of the buffer zone resource based on the role identification of the service personnel, the first module sends a first request to the management platform.

The first request carries a first instruction content, an identifier of the first virtual machine and a role identifier of a service person.

S303, the management platform analyzes the first instruction content to obtain a first script code corresponding to the role identification of the service personnel.

S304, the management platform queries the virtual machine corresponding to the identifier of the first virtual machine from the buffer resources based on the first script code to obtain a query result.

S305, the management platform sends a first response to the first module, and the first response carries the query result.

S306, the first module displays the query result to the service personnel.

S301 to S306 are similar to the implementation manners of S101 to S106 in the embodiment of fig. 2, and are not described herein again in this embodiment of the application.

S307, the first module receives a third message of the service personnel.

Based on the query result in step S306, the service personnel can clearly obtain the current Buffer (Buffer) resource condition. Because the service personnel determines that the actual state of the third virtual machine is a non-idle state, but the third virtual machine is in an idle state in the query result, the service personnel needs to delete the third virtual machine from the current Buffer area (Buffer) resource so as to obtain real-time update of the current Buffer area (Buffer) resource, the condition of the Buffer area (Buffer) resource is accurate, the phenomenon that the service personnel utilizes the virtual machine in the non-idle state due to the error condition of the Buffer area (Buffer) resource is avoided, and the service corresponding to the service subsystem can be smoothly realized.

Thus, the service person can send a third message to the first module 11 via the terminal device. The third message carries third instruction content, an identifier of the third virtual machine and a role identifier of the service personnel, and the third instruction content is used for indicating deletion of the third virtual machine. For example, the third instruction content may be @ robot delete _ buffer IP.

The number and other parameters of the third virtual machines are not limited in the application. For example, the third virtual machine may be the second virtual machine in fig. 3.

S308, the first module sends a third request to the management platform when the business personnel is determined to have the management right of the buffer zone resource based on the role identification of the business personnel.

After the first module 11 receives the third message, the first model may determine whether the service person has the management authority of the buffer resource based on the role identifier of the service person to determine the security of the third message, so as to avoid the influence of the unsafe message on the management platform 12.

Therefore, when determining that the service person has the management right of the buffer resource, the first module 11 may splice the third instruction content, the identifier of the third virtual machine, and the role identifier of the service person into a third request in a fixed format, such as a JSON data string. Thus, the first module 11 may call the management platform 12 by a post request method such as the HTTP protocol, and send a third request to the management platform 12.

S309, the management platform analyzes the third instruction content to obtain a third script code corresponding to the role identification of the business personnel.

After the management platform 12 receives the third request, the management platform 12 disassembles the third request according to the KEY separator (KEY: VALUE) by using, for example, a python script of the computer programming language, so as to obtain the third instruction content, the identifier of the third virtual machine, and the role identifier of the service personnel.

Therefore, the third instruction content is analyzed based on the mapping relation between the instruction content and the script code, and the corresponding script code can be obtained. The management platform 12 may screen out a third script code corresponding to the role identifier of the service person from the corresponding script code based on the association relationship between the script code and the role.

In the embodiment of the present application, the sequence of the analyzing step and the screening step executed by the management platform 12 in the time sequence is not limited, and may be executed simultaneously or sequentially.

In addition, the management platform 12 may further determine a third script code according to the third instruction content and the role identifier of the service person based on the association relationship among the instruction content, the script code, and the role.

S310, the management platform deletes the third virtual machine from the buffer resources based on the third script code to obtain a deletion result.

Based on the execution of the third script code, the management platform 12 may splice the identifier of the third virtual machine into an operation instruction of the second module 14, and send the operation instruction to the second module 14, so that the management platform 12 deletes the relevant information of the virtual machine (such as the IP, DCN, IDC, machine model, CPU, memory, disk, STATUS, and the like of the virtual machine) corresponding to the identifier of the third virtual machine from the buffer resource of the second module 14, and obtains a deletion result.

S311, the management platform sends a third response to the first module, and the third response carries the deletion result.

The management platform 12 may use the curl file transfer tool to call the API of the first module 11, and transfer the deletion result of the processing to the first module 11.

And S312, the first module displays the deletion result to the service personnel.

After the first module 11 receives the deletion result, the first module 11 may display the deletion result to the service staff through the terminal device in a form such as a result file, so that the service staff can timely know whether the third virtual machine is deleted from the current Buffer (Buffer) resource, so that the service staff can timely update the condition of the Buffer (Buffer) resource through the management platform 12, and the service staff can conveniently obtain the accurate condition of the Buffer (Buffer) resource subsequently.

In the embodiment of the application, when a service person confirms that a third virtual machine needs to be deleted from Buffer (Buffer) resources based on a query result, the first module verifies the service person by using a white list, and performs security verification on the deletion operation of the service person to link two sets of independent network environments of the public network and the production network, so that data intercommunication can be realized between the public network and the production network. Therefore, service personnel do not need to manage the Buffer area resources on a fixed place or a machine, and the flexibility of managing the Buffer area (Buffer) resources by the service personnel is improved. After the safety verification is passed, the operation of the service personnel can be transmitted to the management platform from the first module through the terminal equipment, a deletion scene of BUFFER (BUFFER) resources is triggered by one key, and the first module can display a deletion result processed by the management platform to the service personnel through the terminal equipment, so that the service personnel can timely know that the third virtual machine is deleted from the BUFFER (BUFFER) resources. Therefore, the service personnel can update the state of the used virtual machine in the BUFFER (BUFFER) resource conveniently, the problem that the service corresponding to the service subsystem cannot be realized because the service personnel do not use the virtual machine in a non-idle state is avoided, the maintenance operation time of the service personnel is shortened, and the management efficiency of the BUFFER (BUFFER) resource is improved.

Next, referring to fig. 5, when the service person determines that the first virtual machine in the current Buffer (Buffer) resource is in a non-idle state, and the actual state of the first virtual machine is in an idle state, a specific implementation process of the service person storing the first virtual machine in the idle state through the management platform 12 is described.

Referring to fig. 5, fig. 5 is a signaling interaction diagram of a buffer resource management method according to an embodiment of the present application. As shown in fig. 5, a method for managing buffer resources according to an embodiment of the present application may include:

s401, a first module receives a first message of a service person.

The first message carries a first instruction content, an identifier of the first virtual machine and a role identifier of the service personnel, and the first instruction content is used for indicating that the virtual machine corresponding to the identifier of the first virtual machine is inquired from the buffer resource.

S402, when the service personnel is determined to have the management right of the buffer zone resource based on the role identification of the service personnel, the first module sends a first request to the management platform.

The first request carries a first instruction content, an identifier of the first virtual machine and a role identifier of a service person.

S403, the management platform analyzes the first instruction content to obtain a first script code corresponding to the role identifier of the service personnel.

S404, the management platform queries the virtual machine corresponding to the identifier of the first virtual machine from the buffer resources based on the first script code to obtain a query result.

S405, the management platform sends a first response to the first module, and the first response carries the query result.

S406, the first module displays the query result to the service personnel.

S401 to S406 are respectively similar to the implementation manners of S101 to S106 in the embodiment of fig. 2, and are not described herein again in this embodiment of the application.

And S407, the first module receives a fourth message of the service personnel.

Based on the query result in step S207, the service person can clearly obtain the current Buffer (Buffer) resource. Because the service personnel determines that the actual state of the first virtual machine is an idle state, but the first virtual machine is in a non-idle state in the query result, the service personnel needs to store the first virtual machine into the current Buffer (Buffer) resource so as to obtain real-time update of the current Buffer (Buffer) resource, the condition of the Buffer (Buffer) resource is accurate, the phenomenon that the service personnel cannot utilize the virtual machine in the idle state due to the error condition of the Buffer (Buffer) resource is avoided, and the service corresponding to the service subsystem can be smoothly realized.

The service person can thus send a fourth message to the first module 11 via the terminal device. The fourth message carries a fourth instruction content, an identifier of the first virtual machine and a role identifier of the service personnel, and the fourth instruction content is used for indicating to store in the first virtual machine. For example, the third instruction content may be @ robot insert _ buffer IP.

S408, the first module sends a fourth request to the management platform when determining that the service personnel has the management right of the buffer resource based on the role identification of the service personnel.

After the first module 11 receives the fourth message, the first model may determine whether the service person has the management authority of the buffer resource based on the role identifier of the service person to determine the security of the fourth message, so as to avoid the influence of the unsafe message on the management platform 12.

Therefore, when determining that the service person has the management right of the buffer resource, the first module 11 may splice the fourth instruction content, the identifier of the first virtual machine, and the role identifier of the service person into a fourth request in a fixed format, such as a JSON data string. Thus, the first module 11 may call the management platform 12 by a post request method such as the HTTP protocol, and send a fourth request to the management platform 12.

S409, the management platform analyzes the fourth instruction content to obtain a fourth script code corresponding to the role identifier of the service personnel.

After the management platform 12 receives the fourth request, the management platform 12 distinguishes the KEY VALUE from the VALUE { "Group" according to the KEY delimiter (KEY: VALUE) using, for example, a computer programming language python script: "wechat communication group name", "hammand": "insert _ buffer", "ip _ data": "192.168.0.3", and parsing the fourth request (e.g., parsing a JSON data string (instruction content: instruction _ buffer, VALUE of IP field IP _ data: 192.168.0.3)), to obtain the fourth instruction content, the identification of the first virtual machine, and the role identification of the service personnel.

Therefore, the fourth instruction content is analyzed based on the mapping relation between the instruction content and the script code, and the corresponding script code can be obtained. The management platform 12 may screen out a fourth script code corresponding to the role identifier of the service person from the corresponding script codes based on the association relationship between the script codes and the roles.

In the embodiment of the present application, the sequence of the analyzing step and the screening step executed by the management platform 12 in the time sequence is not limited, and may be executed simultaneously or sequentially.

In addition, the management platform 12 may further determine a fourth script code according to the fourth instruction content and the role identifier of the service person based on the association relationship among the instruction content, the script code and the role.

S410, the management platform stores the first virtual machine into the buffer area resource based on the fourth script code to obtain a storage result.

Based on the execution of the fourth script code, the management platform 12 calls the API that has been packaged by the fourth module 16 through the curl file transfer tool based on the identifier of the first virtual machine (e.g., VALUE of VALUE in IP field (192.168.0.3)), and obtains the relevant information of the first virtual machine, such as IP, DCN, IDC, machine model, CPU, memory, disk, and the like, from the fourth module 16. The management platform 12 splices the related information of the first virtual machine into a save (insert) statement like a database, and stores the save statement in a Buffer (Buffer) resource for the real-time elastic expansion of other subsequent service subsystems to obtain a save result.

Wherein the logging result may include, but is not limited to, a logging state of the first virtual machine. In addition, the logging results may take the form of a results file.

S411, the management platform sends a fourth response to the first module, and the fourth response carries the storage result.

The management platform 12 may call the API of the first module 11 using the curl file transfer tool, and transfer the logging result of the processing to the first module 11.

And S412, the first module displays the storage result to the service personnel.

After the first module 11 receives the storage result, the first module 11 may display the storage result to the service staff through the terminal device in a form of a result file, so that the service staff can timely know whether the first virtual machine is stored in the current Buffer (Buffer) resource, so that the service staff can timely update the condition of the Buffer (Buffer) resource through the management platform 12, and the service staff can conveniently obtain the condition of the accurate Buffer (Buffer) resource subsequently.

In the embodiment of the application, when a service person confirms that a first virtual machine needs to be stored in a Buffer (Buffer) resource based on a query result, the first module verifies the mode of the service person by using a white list, and performs security verification on the added operation of the service person to link two sets of independent network environments of a public network and a production network, so that data intercommunication can be realized between the public network and the production network. Therefore, service personnel do not need to manage the Buffer area resources on a fixed place or a machine, and the flexibility of managing the Buffer area (Buffer) resources by the service personnel is improved. After the safety verification is passed, the operation of the service personnel can be transmitted to the management platform through the terminal equipment by the first module, the adding scene of the BUFFER area (BUFFER) resource is triggered by one key, and the first module can display the storing result processed by the management platform to the service personnel through the terminal equipment, so that the service personnel can add the first virtual machine to the BUFFER area (BUFFER) resource in time. Therefore, service personnel can update the state of the virtual machine in the idle state in the BUFFER (BUFFER) resource conveniently, the problem of resource waste caused by the fact that the service personnel cannot use the virtual machine in the idle state is solved, resource support is provided for services corresponding to other service subsystems, and the management efficiency of the BUFFER (BUFFER) resource is improved.

Illustratively, the application also provides a buffer resource management device. The buffer resource management device can be arranged in the terminal equipment, and can realize the operation of the buffer resource management method corresponding to the first module, and the first module and the management platform are in different networks. The apparatus may include:

the first receiving submodule is used for receiving a first message sent by a service person, wherein the first message carries a first instruction content, an identifier of a first virtual machine and a role identifier of the service person, and the first instruction content is used for indicating that a virtual machine corresponding to the identifier of the first virtual machine is inquired from a buffer resource.

And the first sending submodule is used for sending a first request to the management platform when the determining submodule determines that the service personnel has the management right of the buffer resource based on the role identification of the service personnel, wherein the first request carries the first instruction content, the identification of the first virtual machine and the role identification of the service personnel.

The first receiving submodule is further configured to receive a first response from the management platform, where the first response carries a query result, the query result is obtained by the management platform querying, based on a first script code corresponding to the role identifier of the service person, a virtual machine corresponding to the identifier of the first virtual machine from the buffer resource, and the first script code corresponding to the role identifier of the service person is obtained by the management platform analyzing the first instruction content.

And the display sub-module is used for displaying the query result to the service personnel.

In some embodiments, the first receiving sub-module is further configured to receive a second message of the service person, where the second message carries a second instruction content, an identifier of the second virtual machine, and a role identifier of the service person, the second instruction content is used to indicate that the second virtual machine is used, and the second virtual machine is a virtual machine that is determined from the query result and is the same as the type of the first virtual machine.

And the first sending submodule is also used for sending a second request to the management platform when the determining submodule determines that the service personnel has the management right of the buffer resource based on the role identification of the service personnel, wherein the second request carries the second instruction content, the identification of the second virtual machine and the role identification of the service personnel.

The first receiving submodule is further configured to receive a second response from the management platform, where the second response carries a release result, the release result is obtained by preparing, by the management platform, for release of the code version of the second virtual machine based on the second script code corresponding to the role identifier of the service person, and the second script code corresponding to the role identifier of the service person is obtained by analyzing, by the management platform, the second instruction content.

And the display sub-module is also used for displaying the release result to the service personnel.

In some embodiments, the first receiving sub-module is further configured to receive a third message of the service person, where the third message carries a third instruction content, an identifier of the third virtual machine, and a role identifier of the service person, the third instruction content is used to instruct to delete the third virtual machine, and the third virtual machine is a virtual machine in an idle state determined from the query result.

And the first sending submodule is also used for sending a third request to the management platform when the determining submodule determines that the service personnel has the management right of the buffer resource based on the role identification of the service personnel, wherein the third request carries the third instruction content, the identification of the third virtual machine and the role identification of the service personnel.

The first receiving submodule is further configured to receive a third response from the management platform, where the third response carries a deletion result, the deletion result is obtained by deleting, by the management platform, the third virtual machine from the buffer resource based on a third script code corresponding to the role identifier of the service person, and the third script code corresponding to the role identifier of the service person is obtained by analyzing, by the management platform, the third instruction content.

And the display submodule is also used for displaying the deletion result to the service personnel.

In some embodiments, the first receiving sub-module is further configured to receive a fourth message of the service person, where the fourth message carries a fourth instruction content, an identifier of the first virtual machine, and a role identifier of the service person, the fourth instruction content is used to instruct to store in the first virtual machine, and the first virtual machine is a virtual machine in a non-idle state determined from the query result.

And the first sending submodule is also used for sending a fourth request to the management platform when the determining submodule determines that the service personnel has the management right of the buffer resource based on the role identification of the service personnel, wherein the fourth request carries the fourth instruction content, the identification of the first virtual machine and the role identification of the service personnel.

The first receiving submodule is further configured to receive a fourth response from the management platform, where the fourth response carries a storage result, the storage result is obtained by the management platform storing the first virtual machine into the buffer resource based on a fourth script code corresponding to the role identifier of the service person, and the fourth script code corresponding to the role identifier of the service person is obtained by the management platform analyzing the fourth instruction content.

And the display submodule is also used for displaying the storage result to the service personnel.

In some embodiments, the determining sub-module is specifically configured to determine whether the preset member of the management group includes a service person based on the role identifier of the service person. And when the preset members of the management group comprise service personnel, determining that the service personnel have the management authority of the buffer area resources.

In the embodiment of the present application, the buffer resource management device may be divided into functional modules according to the above method example, for example, each functional module may be divided according to each function, or two or more functions may be integrated into one processing module. The integrated module can be realized in a hardware mode, and can also be realized in a software functional module mode. It should be noted that the division of the modules in the embodiments of the present application is schematic, and is only one division of logic functions, and there may be another division manner in actual implementation.

The buffer resource management apparatus in this embodiment of the present application may be configured to execute the aforementioned technical solution of the management platform in the application container management method, and the implementation principle and the technical effect of the buffer resource management apparatus are similar, where the implementation operation of each module may further refer to the relevant description of the method embodiment, and is not described herein again. The modules herein may also be replaced with components or circuits.

Illustratively, the application also provides a buffer resource management device. The buffer resource management device can be arranged in the terminal equipment, and can realize the operation of the embodiment of the buffer resource management method corresponding to the management platform, and the management platform and the first module are in different networks. The apparatus may include:

the second receiving submodule is used for receiving a first request from the first module, wherein the first request carries a first instruction content, an identifier of the first virtual machine and a role identifier of a service person, the first request is sent to the management platform by the first module when the service person is determined to have the management right of the buffer resource based on the role identifier of the service person, the first instruction content, the identifier of the first virtual machine and the role identifier of the service person are obtained by the first module from a received first message sent by the service person, and the first instruction content is used for indicating to query the virtual machine corresponding to the identifier of the first virtual machine from the buffer resource.

And the processing submodule is used for analyzing the first instruction content to obtain a first script code corresponding to the role identifier of the service personnel.

The processing sub-module is further used for querying the virtual machine corresponding to the identifier of the first virtual machine from the buffer resource based on the first script code to obtain a query result;

and the second sending submodule is used for sending a first response to the first module, wherein the first response carries the query result, so that the first module displays the query result to the service personnel.

In some embodiments, the second receiving sub-module is further configured to receive a second request from the first module, where the second request carries second instruction content, an identifier of the second virtual machine, and a role identifier of the service person, where the second request is sent by the first module to the management platform when the service person is determined to have the management right of the buffer resource based on the role identifier of the service person, the second instruction content, the identifier of the second virtual machine, and the role identifier of the service person are obtained by the first module from a received second message of the service person, the second instruction content is used to instruct to use the second virtual machine, and the second virtual machine is a virtual machine of the same type as the first virtual machine determined from the query result.

And the processing submodule is also used for analyzing the second instruction content to obtain a second script code corresponding to the role identifier of the service personnel.

And the processing submodule is also used for preparing the release of the code version of the second virtual machine based on the second script code to obtain a release result.

And the second sending submodule is also used for sending a second response to the first module, wherein the second response carries the release result, so that the first module displays the release result to the service personnel.

In some embodiments, a processing submodule has associated information for configuring a second virtual machine in a second module. And configuring a trust relationship between the second virtual machine and the production springboard server in the second module. And configuring the incidence relation between the second virtual machine and the service subsystem corresponding to the second virtual machine in the second module. And calling a fifth module to apply for a change approval process of the second virtual machine. And obtaining a release result when the fifth module is called to determine that the change approval process of the second virtual machine is completed.

In some embodiments, the second receiving sub-module is further configured to receive a third request from the first module, where the third request carries third instruction content, an identifier of a third virtual machine, and a role identifier of a service person, where the third request is sent by the first module to the management platform when the service person is determined to have the management right of the buffer resource based on the role identifier of the service person, the third instruction content, the identifier of the third virtual machine, and the role identifier of the service person are obtained by the first module from a received third message of the service person, the third instruction content is used to instruct to delete the third virtual machine, and the third virtual machine is a virtual machine in an idle state determined from the query result.

And the processing submodule is also used for analyzing the third instruction content to obtain a third script code corresponding to the role identifier of the service personnel.

And the processing submodule is also used for deleting the third virtual machine from the buffer resources based on the third script code to obtain a deletion result.

And the second sending submodule is also used for sending a third response to the first module, wherein the third response carries the deletion result, so that the first module displays the deletion result to the service personnel.

In some embodiments, the second receiving sub-module is further configured to receive a fourth request from the first module, where the fourth request carries fourth instruction content, an identifier of the first virtual machine, and a role identifier of the service person, the fourth request is sent to the management platform by the first module when the service person is determined to have the management right of the buffer resource based on the role identifier of the service person, the fourth instruction content, the identifier of the first virtual machine, and the role identifier of the service person are obtained by the first module from a received fourth message of the service person, the fourth instruction content is used to instruct to store in the first virtual machine, and the first virtual machine is a virtual machine in a non-idle state determined from the query result.

And the processing submodule is also used for analyzing the fourth instruction content to obtain a fourth script code corresponding to the role identifier of the service personnel.

And the processing submodule is also used for storing the first virtual machine into the buffer area resource based on the fourth script code to obtain a storage result.

And the second sending submodule is also used for sending a fourth response to the first module, and the fourth response carries the storage result so that the first module displays the storage result to the service personnel.

In the embodiment of the present application, the buffer resource management device may be divided into functional modules according to the above method example, for example, each functional module may be divided according to each function, or two or more functions may be integrated into one processing module. The integrated module can be realized in a hardware mode, and can also be realized in a software functional module mode. It should be noted that the division of the modules in the embodiments of the present application is schematic, and is only one division of logic functions, and there may be another division manner in actual implementation.

The buffer resource management apparatus in this embodiment of the present application may be configured to execute the aforementioned technical solution of the management platform in the application container management method, and the implementation principle and the technical effect of the buffer resource management apparatus are similar, where the implementation operation of each module may further refer to the relevant description of the method embodiment, and is not described herein again. The modules herein may also be replaced with components or circuits.

Illustratively, an embodiment of the present application further provides an electronic device, including: a memory and a processor; the memory is used for storing program instructions; the processor is configured to invoke program instructions in the memory to cause the electronic device to perform the buffer resource management method of the foregoing embodiments.

Illustratively, the present application further provides a computer storage medium, which includes computer instructions, when the computer instructions are run on an electronic device, the electronic device is caused to execute the buffer resource management method in the foregoing embodiments.

Illustratively, the embodiment of the present application further provides a computer program product, which when running on a computer, causes the computer to execute the buffer resource management method in the foregoing embodiment.

Illustratively, an embodiment of the present application provides a chip system, which includes: a processor; when the processor executes the computer instructions stored in the memory, the electronic device performs the buffer resource management method of the previous embodiment.

In the above-described embodiments, all or part of the functions may be implemented by software, hardware, or a combination of software and hardware. When implemented in software, may be implemented in whole or in part in the form of a computer program product. The computer program product includes one or more computer instructions. The procedures or functions according to the embodiments of the present application are all or partially generated when the computer program instructions are loaded and executed on a computer. The computer may be a general purpose computer, a special purpose computer, a network of computers, or other programmable device. The computer instructions may be stored in a computer readable storage medium. The computer-readable storage medium can be any available medium that can be accessed by a computer or a data storage device, such as a server, a data center, etc., that incorporates one or more of the available media. The usable medium may be a magnetic medium (e.g., a floppy disk, a hard disk, a magnetic tape), an optical medium (e.g., a DVD), or a semiconductor medium (e.g., a Solid State Disk (SSD)), among others.

One of ordinary skill in the art will appreciate that all or part of the processes in the methods of the above embodiments may be implemented by hardware related to instructions of a computer program, which may be stored in a computer-readable storage medium, and when executed, may include the processes of the above method embodiments. And the aforementioned storage medium includes: various media capable of storing program codes, such as ROM or RAM, magnetic or optical disks, etc.

Claims (21)

1. A buffer resource management system, comprising: a first module and a management platform in different networks;

the first module is configured to receive a first message of a service person, where the first message carries a first instruction content, an identifier of a first virtual machine, and a role identifier of the service person, and the first instruction content is used to instruct a virtual machine corresponding to the identifier of the first virtual machine to be queried from a buffer resource;

the first module is further configured to send a first request to a management platform when it is determined that the service person has the management right of the buffer resource based on the role identifier of the service person, where the first request carries the first instruction content, the identifier of the first virtual machine, and the role identifier of the service person;

the management platform is used for analyzing the first instruction content to obtain a first script code corresponding to the role identifier of the service personnel;

the management platform is further configured to query, based on the first script code, a virtual machine corresponding to the identifier of the first virtual machine from the buffer resource to obtain a query result;

the management platform is further configured to send a first response to the first module, where the first response carries the query result;

the first module is further configured to display the query result to the service staff.

2. The system of claim 1,

the first module is further configured to receive a second message of the service staff, where the second message carries a second instruction content, an identifier of a second virtual machine, and a role identifier of the service staff, the second instruction content is used to instruct to use the second virtual machine, and the second virtual machine is a virtual machine that is determined from the query result and is of the same type as the first virtual machine;

the first module is further configured to send a second request to the management platform when it is determined that the service person has the management right of the buffer resource based on the role identifier of the service person, where the second request carries the second instruction content, the identifier of the second virtual machine, and the role identifier of the service person;

the management platform is further used for analyzing the second instruction content to obtain a second script code corresponding to the role identifier of the service personnel;

the management platform is further configured to prepare for release of the code version of the second virtual machine based on the second script code to obtain a release result;

the management platform is further configured to send a second response to the first module, where the second response carries the release result;

the first module is further configured to display the publishing result to the service staff.

3. The system of claim 2,

the management platform is specifically configured to configure, in a second module, related information of the second virtual machine;

the management platform is further specifically configured to configure a trust relationship between the second virtual machine and the production board jumper in a third module;

the management platform is further specifically configured to configure, in a fourth module, an association relationship record between the second virtual machine and a service subsystem corresponding to the second virtual machine;

the management platform is further specifically configured to invoke a fifth module to apply for a change approval process of the second virtual machine;

the management platform is further specifically configured to obtain the release result when the fifth module is called to determine that the change approval process of the second virtual machine is completed.

4. The system of claim 1,

the first module is further configured to receive a third message of the service person, where the third message carries a third instruction content, an identifier of a third virtual machine, and a role identifier of the service person, where the third instruction content is used to instruct to delete the third virtual machine, and the third virtual machine is a virtual machine in an idle state determined from the query result;

the first module is further configured to send a third request to the management platform when it is determined that the service person has the management right of the buffer resource based on the role identifier of the service person, where the third request carries the third instruction content, the identifier of the third virtual machine, and the role identifier of the service person;

the management platform is further configured to analyze the third instruction content to obtain a third script code corresponding to the role identifier of the service person;

the management platform is further configured to delete the first virtual machine from the buffer resource based on the third script code, and obtain a deletion result;

the management platform is further configured to send a third response to the first module, where the third response carries the deletion result;

the first module is further configured to display the deletion result to the service staff.

5. The system of claim 1,

the first module is further configured to receive a fourth message of the service staff, where the fourth message carries a fourth instruction content, an identifier of the first virtual machine, and a role identifier of the service staff, where the fourth instruction content is used to instruct to store in the first virtual machine, and the first virtual machine is a virtual machine in a non-idle state determined from the query result;

the first module is further configured to send a fourth request to the management platform when it is determined that the service person has the management right of the buffer resource based on the role identifier of the service person, where the fourth request carries the fourth instruction content, the identifier of the first virtual machine, and the role identifier of the service person;

the management platform is further used for analyzing the fourth instruction content to obtain a fourth script code corresponding to the role identifier of the service personnel;

the management platform is further configured to store the first virtual machine into a buffer resource based on the fourth script code to obtain a storage result;

the management platform is further configured to send a fourth response to the first module, where the fourth response carries the storage result;

the first module is also used for displaying the storage result to the service personnel.

6. The system according to any one of claims 1 to 5,

the first module is specifically configured to receive the first message sent by the service staff through a management group;

the first module is further specifically configured to determine, based on the role identifier of the service person, whether a preset member of the management group includes the service person; when the preset members of the management group comprise the service personnel, determining that the service personnel have the management authority of the buffer resource;

the first module is further specifically configured to display the query result to the service staff through the management group.

7. A buffer resource management method is applied to a first module, wherein the first module and a management platform are in different networks;

the method comprises the following steps:

the first module receives a first message sent by a service person, wherein the first message carries a first instruction content, an identifier of a first virtual machine and a role identifier of the service person, and the first instruction content is used for indicating that a virtual machine corresponding to the identifier of the first virtual machine is inquired from a buffer resource;

the first module sends a first request to the management platform when determining that the service personnel has the management right of the buffer resource based on the role identification of the service personnel, wherein the first request carries the first instruction content, the identification of the first virtual machine and the role identification of the service personnel;

the first module receives a first response from the management platform, wherein the first response carries a query result, the query result is obtained by the management platform querying a virtual machine corresponding to the identifier of the first virtual machine from the buffer resource based on a first script code corresponding to the role identifier of the service personnel, and the first script code corresponding to the role identifier of the service personnel is obtained by the management platform analyzing first instruction content;

and the first module displays the query result to the service personnel.

8. The method of claim 7, further comprising:

the first module receives a second message of the service personnel, wherein the second message carries a second instruction content, an identifier of a second virtual machine and a role identifier of the service personnel, the second instruction content is used for indicating to use the second virtual machine, and the second virtual machine is a virtual machine which is determined from the query result and has the same type as the first virtual machine;

the first module sends a second request to the management platform when determining that the service personnel has the management right of the buffer resource based on the role identification of the service personnel, wherein the second request carries the second instruction content, the identification of the second virtual machine and the role identification of the service personnel;

the first module receives a second response from the management platform, wherein the second response carries a release result, the release result is obtained by preparing for release of the code version of the second virtual machine by the management platform based on a second script code corresponding to the role identifier of the service personnel, and the second script code corresponding to the role identifier of the service personnel is obtained by analyzing the second instruction content by the management platform;

and the first module displays the release result to the service personnel.

9. The method of claim 7, further comprising:

the first module receives a third message of the service personnel, wherein the third message carries a third instruction content, an identifier of a third virtual machine and a role identifier of the service personnel, the third instruction content is used for indicating to delete the third virtual machine, and the third virtual machine is a virtual machine in an idle state determined from the query result;

the first module sends a third request to the management platform when determining that the service personnel has the management right of the buffer resource based on the role identification of the service personnel, wherein the third request carries the third instruction content, the identification of the third virtual machine and the role identification of the service personnel;

the first module receives a third response from the management platform, wherein the third response carries a deletion result, the deletion result is obtained by deleting the third virtual machine from the buffer resource by the management platform based on a third script code corresponding to the role identifier of the service personnel, and the third script code corresponding to the role identifier of the service personnel is obtained by analyzing the third instruction content by the management platform;

and the first module displays the deletion result to the service personnel.

10. The method of claim 7, further comprising:

the first module receives a fourth message of the service personnel, wherein the fourth message carries a fourth instruction content, an identifier of the first virtual machine and a role identifier of the service personnel, the fourth instruction content is used for indicating to store in the first virtual machine, and the first virtual machine is a virtual machine which is determined from the query result and is in a non-idle state;

the first module sends a fourth request to the management platform when determining that the service personnel has the management right of the buffer resource based on the role identification of the service personnel, wherein the fourth request carries the fourth instruction content, the identification of the first virtual machine and the role identification of the service personnel;

the first module receives a fourth response from the management platform, wherein the fourth response carries a storage result, the storage result is obtained by storing the first virtual machine into a buffer resource by the management platform based on a fourth script code corresponding to the role identifier of the service personnel, and the fourth script code corresponding to the role identifier of the service personnel is obtained by analyzing the fourth instruction content by the management platform;

and the first module displays the storage result to the service personnel.

11. The method of any one of claims 7-10, wherein the first module determines that the service person has management authority over buffer resources based on the role identifier of the service person, and comprises:

the first module judges whether a preset member of the management group comprises the service personnel or not based on the role identification of the service personnel;

and the first module determines that the service personnel has the management authority of the buffer resource when the preset members of the management group comprise the service personnel.

12. A buffer resource management method is characterized in that the method is applied to a management platform, and the management platform and a first module are in different networks;

the method comprises the following steps:

the management platform receives a first request from a first module, wherein the first request carries a first instruction content, an identifier of a first virtual machine and a role identifier of a service person, the first request is sent to the management platform by the first module when the service person is determined to have the management right of a buffer resource based on the role identifier of the service person, the first instruction content, the identifier of the first virtual machine and the role identifier of the service person are obtained by the first module from a received first message sent by the service person, and the first instruction content is used for indicating to query the virtual machine corresponding to the identifier of the first virtual machine from the buffer resource;

the management platform analyzes the first instruction content to obtain a first script code corresponding to the role identification of the service personnel;

the management platform queries a virtual machine corresponding to the identifier of the first virtual machine from the buffer resource based on the first script code to obtain a query result;

and the management platform sends a first response to the first module, wherein the first response carries the query result, so that the first module displays the query result to the service personnel.

13. The method of claim 12, further comprising:

the management platform receives a second request from the first module, where the second request carries a second instruction content, an identifier of a second virtual machine, and a role identifier of a service person, the second request is sent to the management platform by the first module when the service person is determined to have a management right of a buffer resource based on the role identifier of the service person, the second instruction content, the identifier of the second virtual machine, and the role identifier of the service person are obtained by the first module from a received second message of the service person, the second instruction content is used to instruct to use the second virtual machine, and the second virtual machine is a virtual machine of the same type as the first virtual machine determined from the query result;

the management platform analyzes the second instruction content to obtain a second script code corresponding to the role identification of the service personnel;

the management platform prepares for release of the code version of the second virtual machine based on the second script code to obtain a release result;

and the management platform sends a second response to the first module, wherein the second response carries the release result, so that the first module displays the release result to the service personnel.

14. The method of claim 13, wherein the management platform prepares for release of the code version of the second virtual machine based on the second script code, resulting in a release result, comprising:

the management platform configures the relevant information of the second virtual machine in a second module;

the management platform configures a trust relationship between the second virtual machine and a production springboard server in a second module;

the management platform configures an incidence relation between the second virtual machine and a service subsystem corresponding to the second virtual machine in a second module;

the management platform calls a fifth module to apply for a change approval process of the second virtual machine;

and the management platform obtains the release result when calling the fifth module to determine that the change approval process of the second virtual machine is completed.

15. The method of claim 12, further comprising:

the management platform receives a third request from the first module, where the third request carries a third instruction content, an identifier of a third virtual machine, and a role identifier of a service person, the third request is sent to the management platform by the first module when the service person is determined to have a management right of a buffer resource based on the role identifier of the service person, the third instruction content, the identifier of the third virtual machine, and the role identifier of the service person are obtained by the first module from a received third message of the service person, the third instruction content is used to instruct to delete the third virtual machine, and the third virtual machine is a virtual machine in an idle state determined from the query result;

the management platform analyzes the third instruction content to obtain a third script code corresponding to the role identification of the service personnel;

the management platform deletes the third virtual machine from the buffer resource based on the third script code to obtain a deletion result;

and the management platform sends a third response to the first module, wherein the third response carries the deletion result, so that the first module displays the deletion result to the service personnel.

16. The method of claim 12, further comprising:

the management platform receives a fourth request from the first module, where the fourth request carries a fourth instruction content, an identifier of a first virtual machine, and a role identifier of a service person, the fourth request is sent to the management platform by the first module when the service person is determined to have a management right of a buffer resource based on the role identifier of the service person, the fourth instruction content, the identifier of the first virtual machine, and the role identifier of the service person are obtained by the first module from a received fourth message of the service person, the fourth instruction content is used to instruct to store in the first virtual machine, and the first virtual machine is a virtual machine in a non-idle state determined from the query result;

the management platform analyzes the fourth instruction content to obtain a fourth script code corresponding to the role identification of the service personnel;

the management platform stores the first virtual machine into buffer zone resources based on the fourth script code to obtain a storage result;

and the management platform sends a fourth response to the first module, wherein the fourth response carries the storage result, so that the first module displays the storage result to the service personnel.

17. The buffer resource management device is applied to a first module, wherein the first module and a management platform are in different networks;

the device comprises:

the first receiving submodule is used for receiving a first message sent by a service person, wherein the first message carries a first instruction content, an identifier of a first virtual machine and a role identifier of the service person, and the first instruction content is used for indicating that a virtual machine corresponding to the identifier of the first virtual machine is inquired from a buffer resource;

the first sending submodule is used for sending a first request to a management platform when the determining submodule determines that the service personnel has the management right of the buffer resource based on the role identification of the service personnel, wherein the first request carries the first instruction content, the identification of the first virtual machine and the role identification of the service personnel;

the first receiving submodule is further configured to receive a first response from the management platform, where the first response carries a query result, the query result is obtained by querying, by the management platform, a virtual machine corresponding to an identifier of the first virtual machine from the buffer resource based on a first script code corresponding to a role identifier of the service person, and the first script code corresponding to the role identifier of the service person is obtained by analyzing, by the management platform, a first instruction content;

and the display sub-module is used for displaying the query result to the service personnel.

18. The buffer resource management device is applied to a management platform, wherein the management platform and a first module are in different networks;

the device comprises:

a second receiving submodule, configured to receive a first request from a first module, where the first request carries a first instruction content, an identifier of a first virtual machine, and a role identifier of a service person, where the first request is sent by the first module to the management platform when it is determined, based on the role identifier of the service person, that the service person has a management right of a buffer resource, and the first instruction content, the identifier of the first virtual machine, and the role identifier of the service person are obtained by the first module from a received first message sent by the service person, where the first instruction content is used to instruct to query, from the buffer resource, a virtual machine corresponding to the identifier of the first virtual machine;

the processing submodule is used for analyzing the first instruction content to obtain a first script code corresponding to the role identifier of the service personnel;

the processing sub-module is further configured to query, based on the first script code, a virtual machine corresponding to the identifier of the first virtual machine from the buffer resource to obtain a query result;

and the second sending submodule is used for sending a first response to the first module, wherein the first response carries the query result, so that the first module displays the query result to the service personnel.

19. An electronic device, comprising: a memory and a processor;

the memory is to store program instructions;

the processor is configured to invoke program instructions in the memory to cause the electronic device to perform the buffer resource management method of any of claims 7-11; or cause the electronic device to perform the buffer resource management method of any of claims 12-16.

20. A computer storage medium comprising computer instructions which, when run on an electronic device, cause the electronic device to perform the buffer resource management method of any one of claims 7-11; or cause the electronic device to perform the buffer resource management method of any of claims 12-16.

21. A computer program product, which, when run on a computer, causes the computer to perform a buffer resource management method according to any one of claims 7-11; or cause the computer to perform a buffer resource management method as claimed in any one of claims 12 to 16.

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