CN106961440A - The method that monitoring management platform is run based on enterprise-level resource - Google Patents

Abstract

The invention relates to a method for operating a monitoring and management platform based on enterprise-level resources. According to the existing R&D and application server resources of the enterprise, the original server resources are collected and upgraded, and the enterprise resources are constructed by integrating all enterprise-level IT service resources. The cloud platform of the pool forms a R&D resource pool, a test resource pool, and an enterprise application resource pool. The integrated resource pool provides corresponding resources for the development, testing, and application of each department of the enterprise based on the principle of on-demand allocation.

Description

A method for operating a monitoring and management platform based on enterprise-level resources

technical field

The invention relates to the technology of enterprise internal development and new technology application resources, in particular, a method based on enterprise-level resource operation monitoring and management platform.

Background technique

With the development of the company, due to the increase of R&D projects within the enterprise, the demand for R&D servers, test servers, and application server resources within the enterprise continues to increase. With the increase of servers, it will bring challenges to the power supply, cooling, and cabinet space usage of enterprise computer rooms, and the operation and maintenance costs of enterprise computer rooms will also continue to increase. In order to be more effective, it can improve the comprehensive utilization rate of the internal server resources of the enterprise and reduce the operating cost of the company's computer room.

At present, the operation and maintenance monitoring is still manual monitoring. The monitoring and monitoring method is relatively primitive, which is not conducive to proactively discovering problems. It is often found only when a fault occurs. The operation and maintenance is relatively passive. It is necessary to build a set of information system operation and maintenance monitoring system to assist the company Information system operation and maintenance monitoring of development, testing, and application.

With the increase of development, testing and application environments, the number of deployment nodes also increases exponentially. At present, program updates are deployed manually. In order to improve work efficiency and reduce human configuration errors, the research program automatically releases deployment tools.

Contents of the invention

The purpose of the present invention is to provide a method for operating a monitoring and management platform based on enterprise-level resources, so as to overcome the defects in the prior art.

In order to achieve the above purpose, the technical solution of the present invention is: a method for operating a monitoring and management platform based on enterprise-level resources, according to the existing R&D and application server resources of the enterprise, by collecting servers and upgrading and transforming the original server resources, by integrating all Enterprise-level IT service resources, building a cloud platform for enterprise resource pools, forming R&D resource pools, testing resource pools, and enterprise application resource pools. The integrated resource pools provide corresponding resources for the development, testing, and application of various departments of the enterprise based on the principle of on-demand allocation. .

In an embodiment of the present invention, the cloud platform includes a cloud computing resource management center, a cloud exit security device group connected to the cloud computing resource management center, and a first data center switch connected to the cloud exit security device group , the second data center switch connected to the computing resource management center, the first X86 virtualization module connected to the first data center switch, the first host server module and the first operation and maintenance management module, and the The second X86 virtualization module, the second host server module and the second operation and maintenance management module connected to the second data center switch, the first X86 virtualization module, the first host server module and the first operation and maintenance module The management modules are respectively connected to the first SAN, the second X86 virtualization module, the second host server module and the second operation and maintenance management module are respectively connected to the second SAN, and the first heterogeneous storage virtualization module And the first synchronization device accesses the first shared storage module of the first SAN, accesses the second shared storage module of the first SAN through the first heterogeneous storage virtualization module and the first synchronization device, respectively through the second A data disaster recovery device accesses the third shared storage module and the fourth shared storage module of the first SAN, and accesses the fifth shared storage module of the second SAN through the second heterogeneous storage virtualization module and the second synchronization device. The storage module accesses the sixth shared storage module of the second SAN through the second heterogeneous storage virtualization module and the second synchronization device, and accesses the seventh shared storage module of the second SAN through the second data disaster recovery device respectively. The storage module shares the storage module with the eighth.

In an embodiment of the present invention, the cloud egress security device group includes: a firewall, an IPS, and a link load balancer.

In an embodiment of the present invention, it further includes a first server application loader connected to the first data center switch and a second server application loader connected to the second data center switch.

Compared with the prior art, the present invention has the following beneficial effects: a method based on the enterprise-level resource operation monitoring and management platform proposed by the present invention, according to the existing resource equipment, achieves higher efficiency by improving resource utilization, Including substantial energy savings. Take advantage of enhanced industry-standard hardware and software to maximize availability while minimizing incremental costs. Improve capacity management with new business intelligence tools.

Description of drawings

FIG. 1 is a schematic diagram of the frame structure of an enterprise-level resource operation monitoring and management platform built in an embodiment of the present invention.

detailed description

The technical solution of the present invention will be specifically described below in conjunction with the accompanying drawings.

With the maturity of cloud computing technology, the use of virtualization technology to build cloud computing resource pools and carry out unified hosting of service platforms has become an important way for operators to integrate service platforms. The positioning of the business platform resource pool is clarified. Aiming at the characteristics of the business network, an implementation strategy of using the cloud platform to integrate the business platform is proposed. The construction scheme of the cloud computing resource pool of the business platform is discussed in detail, and suggestions are provided for the configuration and selection of hardware equipment and virtualization software.

The present invention provides a method for operating a monitoring and management platform based on enterprise-level resources. According to the existing R&D and application server resources of the enterprise, the original server resources are collected and upgraded, and the enterprise resources are constructed by integrating all enterprise-level IT service resources. The cloud platform of the pool forms a R&D resource pool, a test resource pool, and an enterprise application resource pool. The integrated resource pool provides corresponding resources for the development, testing, and application of each department of the enterprise based on the principle of on-demand allocation.

Further, the cloud platform includes a cloud computing resource management center, a cloud exit security device group connected to the cloud computing resource management center, a first data center switch connected to the cloud exit security device group, and the computing resource The second data center switch connected to the management center, the first X86 virtualization module connected to the first data center switch, the first host server module and the first operation and maintenance management module, and the second data center switch connected The second X86 virtualization module, the second host server module and the second operation and maintenance management module, the first X86 virtualization module, the first host server module and the first operation and maintenance management module are respectively connected to the first SAN, the second X86 virtualization module, the second host server module, and the second operation and maintenance management module are respectively connected to the second SAN, and connected through the first heterogeneous storage virtualization module and the first synchronization device The first shared storage module of the first SAN is connected to the second shared storage module of the first SAN through the first heterogeneous storage virtualization module and the first synchronization device, respectively connected through the first data disaster recovery device The third shared storage module and the fourth shared storage module of the first SAN access the fifth shared storage module of the second SAN via the second heterogeneous storage virtualization module and the second synchronization device, and access the fifth shared storage module of the second SAN via the second heterogeneous storage virtualization module. The storage virtualization module and the second synchronization device access the sixth shared storage module of the second SAN, respectively access the seventh shared storage module and the eighth shared storage module of the second SAN through the second data disaster recovery device module. The cloud egress security device group includes: a firewall, an IPS, and a link load balancer. It also includes a first server application loader connected to the first data center switch and a second server application loader connected to the second data center switch.

Further, when building a cloud platform, consider the following aspects:

1. Do a good job in planning the converged infrastructure

The enterprise's investment in private cloud is not a new investment project. It can achieve the ultimate goal by integrating the enterprise's current IT infrastructure, and bundle the existing storage, server, network and other hardware together for compatibility testing. Most of the private cloud solutions currently provided by vendors can provide solutions for converged infrastructure. In this regard, Active Infrastructure solutions, available through vendors, can benefit businesses in every part of IT, including a strategic approach to applications, infrastructure and management. Such as Dell Active Fabric solutions to improve the performance of integrated I/O traffic and improve the economics of converged data centers while simplifying operations and management.

2. Integrate resources to build enterprise big data

Currently, data has become the core asset of an enterprise, so the construction of a cloud data center is largely based on the integration of data. Almost anything related to enterprise business can be digitized. These data present complex and heterogeneous characteristics. How to centrally store these data on the cloud platform requires data mining, analysis, archiving, deduplication, and other processing, so that effective data Extract it.

3. Consideration of high virtualization and high resource sharing requirements

Another key factor of private cloud is to achieve a high degree of resource sharing. However, it is difficult to achieve a high degree of resource sharing. This is not only related to technical issues, but also closely related to IT architecture. Generally speaking, a high degree of virtualization can bring a high degree of resource sharing. At this time, virtualization is not only reflected in server virtualization, but also includes network virtualization, storage virtualization and desktop virtualization. Therefore, when enterprise users consider deploying a private cloud, in addition to choosing reasonable technologies and products, they also need to consider whether the enterprise has a highly virtualized, highly resource-sharing IT architecture, technical reserves, personnel conditions, and basic environment.

We can provide capabilities to extend enterprise private cloud building solutions with hypervisor options from market-leading vendors as well as dedicated virtualization software options. Take advantage of purpose-built virtualization software from virtualization management partners to give your virtual environment more than a hypervisor can provide.

4. Evaluation of Elastic Space and Scalability

One of the most essential features of cloud computing is to help enterprise users realize the flexible and efficient use of IT resources when needed. Therefore, for the deployment of cloud computing platforms, the real requirements for elastic space and scalability must be considered. Because at present, no matter in terms of servers or storage, the existing product architecture of many enterprises cannot have good scalability, which can well meet the elastic demand of private cloud for expansion space. Therefore, a real evaluation of the flexibility requirements is an important consideration before implementing a private cloud deployment that adds or reduces IT resources on demand.

Some vendors adopt the open source OpenStack cloud solution for open cloud computing construction. With vendor expertise and experience, enterprises can build cloud foundations designed to handle massive data loads and still remain highly flexible and scalable.

Furthermore, the construction of a cloud computing resource pool cannot be achieved in one domain. Factors such as cost, service carrying requirements, and technology development maturity need to be considered comprehensively. The following principles are recommended.

(1) Dynamic expansion of business platform resource pool

The scale of the business platform cloud can meet the resource requirements of the initial pilot engineering projects that introduce cloud computing technology, and at the same time ensure a certain surplus of resources. Later, the cloud computing resource pool will be gradually expanded according to the needs of the project.

(2) Virtualization technology from easy to difficult

According to the maturity of resource virtualization technology, introduce different virtualization technologies on the service platform from easy to difficult. The suggested sequence of virtualization integration for various basic resources is: PC server, storage system, minicomputer and network.

(3) Cloud management platform

In the early stage, some basic management functions can be considered, such as unified management to realize resource virtualization, dynamic migration, elastic capacity, etc., and then realize service automation and complex business management in the stage of cloud computing technology scale introduction.

(4) Disaster recovery backup and security

In terms of disaster recovery and backup, the basic HA (high availability, high availability) function can be realized through online hot migration of virtual machines and shared storage in the initial stage of resource pool construction. Higher-level data off-site disaster recovery and backup can be implemented using technologies such as data deduplication, data mirroring, data snapshots, and continuous data protection. It is recommended to implement it at the scale introduction stage. In terms of cloud security, at the initial stage, technologies such as firewall and virtual machine isolation can be used to achieve basic host security and network security. In the stage of scale introduction, technologies such as intrusion detection and protection and anti-virus software can be used to achieve a higher level of business and data security, as well as operation and management security.

Further, the cloud infrastructure adds a virtualization layer and a cloud layer on the basis of traditional infrastructure computing, storage, and network hardware layers.

Virtualization layer: Virtualization technologies are widely used in most cloud infrastructures, including computing virtualization, storage virtualization, network virtualization, etc. Through the virtualization layer, the differences and complexity of the hardware layer are shielded, and it is presented as a standardized, flexible expansion and contraction, and elastic virtualized resource pool;

Cloud layer: deploy and combine resource pools, automatically generate and expand required hardware resources according to the needs of application systems, and improve IT efficiency by streamlining and automating deployment and management of more application systems.

Furthermore, compared with the traditional infrastructure, the cloud infrastructure is integrated and automated through virtualization, and the application system shares the infrastructure resource pool to achieve high utilization, high availability, low cost, and low energy consumption, and through the automatic management of the cloud platform layer, Realize rapid deployment, easy expansion, intelligent management, and help users build IaaS (Infrastructure as a Service) cloud business model.

The cloud infrastructure resource pool makes computing, storage, network and corresponding virtualization individual products and technologies no longer the core. What is important is the integration of these resources to form an organic, flexible scheduling and scalable resource pool for cloud applications Realize automated deployment, monitoring, management, and O&M.

The integration of cloud infrastructure resources poses new challenges to computing, storage, and network virtualization, and drives a series of changes in network and virtualization technologies. In the traditional mode, servers, networks, and storage are connected based on physical devices. Therefore, policies such as access control, QoS bandwidth, and traffic monitoring for servers and storage are deployed based on physical ports. The management interface is clear, and the devices and corresponding policies are static, fixed.

Furthermore, the key to cloud infrastructure integration lies in the network. At present, computing virtualization and storage virtualization technologies are relatively mature and self-contained. However, in terms of the entire IT infrastructure, the network is the link that connects computing resource pools, storage resource pools, and user connection groups. Only the network can fully perceive Dynamic changes in computing resource pools, storage resource pools, and user access can only be dynamically responded to, while maintaining network connectivity and ensuring the consistency of network policies. Otherwise, through manual intervention and manual configuration, the flexibility, scalability and manageability of cloud infrastructure will be greatly reduced.

The above are the preferred embodiments of the present invention, and all changes made according to the technical solution of the present invention, when the functional effect produced does not exceed the scope of the technical solution of the present invention, all belong to the protection scope of the present invention.

Claims (4)

1. A method for operating a monitoring and management platform based on enterprise-level resources, characterized in that, according to the existing R&D and application server resources of the enterprise, by collecting servers and upgrading the original server resources, by integrating all enterprise-level IT service resources, Build a cloud platform for enterprise resource pools, form R&D resource pools, test resource pools, and enterprise application resource pools. The integrated resource pools provide corresponding resources for the development, testing, and application of each department of the enterprise based on the principle of on-demand allocation. 2. The method for operating a monitoring and management platform based on enterprise-level resources according to claim 1, wherein the cloud platform includes a cloud computing resource management center, and the cloud exit security device group connected to the cloud computing resource management center , the first data center switch connected to the cloud egress security device group, the second data center switch connected to the computing resource management center, the first X86 virtualization module connected to the first data center switch, The first host server module and the first operation and maintenance management module, the second X86 virtualization module connected to the second data center switch, the second host server module and the second operation and maintenance management module, the first X86 virtualization module, the first host server module, and the first operation and maintenance management module respectively access the first SAN, and the second X86 virtualization module, the second host server module, and the second operation and maintenance management module Respectively access the second SAN, access the first shared storage module of the first SAN through the first heterogeneous storage virtualization module and the first synchronization device, and connect to the first shared storage module of the first SAN through the first heterogeneous storage virtualization module and the first synchronization device into the second shared storage module of the first SAN, access the third shared storage module and the fourth shared storage module of the first SAN through the first data disaster recovery device respectively, and connect through the second heterogeneous storage virtualization module And the second synchronization device accesses the fifth shared storage module of the second SAN, and accesses the sixth shared storage module of the second SAN via the second heterogeneous storage virtualization module and the second synchronization device, respectively via the second The second data disaster recovery device accesses the seventh shared storage module and the eighth shared storage module of the second SAN. 3. The method for operating a monitoring and management platform based on enterprise-level resources according to claim 2, wherein the cloud egress security device group includes: a firewall, an IPS, and a link load balancer. 4. The method for operating a monitoring and management platform based on enterprise-level resources according to claim 1, further comprising a first server application load connected to the first data center switch and a first server application load connected to the second data center The second server connected to the switch applies a loader.