CN109150599A - A kind of O&M monitoring system based on cloud framework - Google Patents

Abstract

The present invention provides a kind of O&M monitoring system based on cloud framework, is related to O&M monitoring technology, and the invention mainly comprises following several modules: 1) resource management module, and 2) rear end O&M module, 3) front end O&M interface, 4) monitoring center module；The deployment for supporting cloud product, provides the monitoring function of system；By carrying out O&M monitoring to the product based on cloud framework, realizes to the deployment of system, O&M, monitoring, reduce the cost of artificial O&M.

Description

Operation and maintenance monitoring system based on cloud architecture

Technical Field

The invention relates to an operation and maintenance monitoring technology, in particular to an operation and maintenance monitoring system based on a cloud architecture.

Background

With the arrival of big data and cloud times, internal applications are more and more, enterprises run more and more depending on the applications, and how to make the applications be accessed by various terminals anytime and anywhere is an important guarantee for the working efficiency of the enterprises. Meanwhile, the number of application servers is increased sharply, and management, monitoring and backup of the servers become important issues which have to be considered by enterprises, so that the enterprises pay more attention to deployment of cloud platforms.

Meanwhile, in order to support the increasing business volume of an enterprise, the system needs to support distributed deployment, a cluster mode, capacity expansion and a micro-service architecture, and in order to support the complex system architecture, the deployment of the system is more and more complex, and for the deployment structure, an efficient and stable operation and maintenance management system needs to be provided to realize the overall operation, maintenance and monitoring of the system.

Disclosure of Invention

In order to solve the technical problems, the invention provides an operation and maintenance monitoring system based on a cloud architecture. The operation and maintenance monitoring method mainly carries out operation and maintenance monitoring on products based on the cloud architecture, achieves deployment, operation and maintenance and monitoring of the system, and reduces the cost of manual operation and maintenance.

The operation and maintenance monitoring system supports the deployment of cloud products. The system can deploy related application programs and database instances according to the needs of cloud products, meanwhile, deployment according to the architecture and the cluster mode of the micro-service is supported, the system also provides a topological structure of cloud product deployment, the deployment situation of the products can be known integrally, and meanwhile, a load balancing function is provided aiming at the integration mode.

The operation and maintenance monitoring system provides a monitoring function of the system. The running states of the application server and the database server can be detected, such as information of a cpu, a memory, a disk space and the like; meanwhile, the service system, especially the micro service system under the container and cloud primitive can be tracked, monitored and diagnosed, and the bottleneck and the problem of the system can be rapidly found through monitoring and diagnosing the service system.

The technical scheme of the invention is as follows:

an operation and maintenance monitoring system based on cloud architecture is characterized in that,

the device mainly comprises the following parts: 1) the system comprises a resource management module, 2) a rear-end operation and maintenance module, 3) a front-end operation and maintenance interface, and 4) a monitoring center module; wherein,

1) the resource management module is mainly used for realizing resource registration and resource scheduling; the resources comprise virtual machines, physical machines and containers; registering project resources into an operation and maintenance monitoring system through a resource registration function, wherein the project resources comprise basic information of the resources and a plop relation between the resources; the resource scheduling is based on the resource registration information, and the function scheduling is carried out on the resources;

2) the back-end operation and maintenance module deploys related application programs and database instances according to the requirements of cloud products and deploys according to the architecture and the cluster mode of the micro-service; the cloud product deployment topological structure is provided, the deployment condition of the product is known on the whole, and meanwhile, a load balancing function is provided for an integration mode;

mainly comprises the following parts:

a) an application program and a database deployment module; the deployment function of the application program and the database is a basic function of the operation and maintenance monitoring system, and the operation and maintenance monitoring system supports containerized deployment and physical deployment of the application program and supports deployment according to a micro-service architecture; the database part supports the deployment of a master-slave architecture mode;

b) an application program and a database upgrading module; according to the topological relation graph, selecting batch application servers and databases for upgrading, ensuring the consistency of application programs and application programs in a cluster and databases and database versions, and simultaneously realizing uninterrupted service during upgrading;

c) an application load module; the request pressure is dispersed to different machines, the separation of dynamic and static pages is realized according to a scheduling rule, and the load balance is carried out on a back-end server according to polling, IP hash, URL hash and weight modes;

d) a system capacity expansion module; automatically expanding the capacity of the corresponding server according to the access amount of the service system and by combining a capacity expansion strategy;

3) the front end adopts the mainstream DashBoard style to display the operation and maintenance interface of the front end, and adopts the technical framework of small parts to ensure that the expansibility and the layout of the interface are more flexible; the front-end interface provides system topology, capacity expansion, system deployment and system more functions;

4) the system comprises a monitoring center module, a data center module and a data center module, wherein the system monitoring center is divided into a front end and a rear end, and the front end displays various monitoring data and early warning data based on a DashBoard style; the back end mainly realizes the functions of performance tracking, performance analysis and intelligent early warning of the system. And detecting the operating conditions of the application server and the database server through the monitoring center, and tracking, monitoring and diagnosing the service system.

The invention has the advantages that

Through fortune dimension monitored control system, system administrator can realize the whole fortune dimension to cloud product system, including deployment, load balancing, dilatation and the control of system to quick realization system deployment can carry out real time monitoring and performance analysis to the system simultaneously, and when the system goes wrong, the location problem root that can be quick, and then has improved the efficiency of system fortune dimension on the whole.

Drawings

FIG. 1 is a schematic diagram of the system architecture of the present invention.

Detailed Description

The invention is explained in more detail below:

the invention relates to an operation and maintenance monitoring system based on a cloud architecture, which comprises the following parts,

1) and a resource management module. The method mainly realizes resource registration and resource scheduling, and resources comprise virtual machines, physical machines, containers and the like; registering project resources into an operation and maintenance monitoring system through a resource registration function, wherein the project resources comprise basic information of the resources and a plop relation between the resources; the resource scheduling is based on the resource registration information, and performs function scheduling on the resource, such as functions of starting and stopping operation of the resource, capacity expansion of the resource, load of the resource, and the like.

2) And a back-end operation and maintenance module. The background operation and maintenance function mainly comprises the following modules:

a) an application program and a database deployment module. The deployment function of the application program and the database is a basic function of the operation and maintenance monitoring system, and the operation and maintenance monitoring system supports containerized deployment and physical deployment of the application program and supports deployment according to a micro-service architecture; the database part is deployed in a manner that supports a master-slave architecture.

b) An application program and a database upgrading module. And selecting batch application servers and databases for upgrading according to the topological relation diagram, ensuring the consistency of the application programs and the application programs in a cluster and the database version, and simultaneously realizing uninterrupted service during upgrading.

c) And applying a load module. The cloud product supports a multi-tenant mode, the deployment mode of the application server is more and more complex along with the increasing of the access amount of the system, the clustering deployment needs to be supported, the operation and maintenance monitoring system provides a load balancing function for the scene, the request pressure is dispersed to different machines, the separation of dynamic and static pages is realized according to the scheduling rule, and the load balancing can be performed on the back-end server according to various modes such as polling, IP hash, URL hash, weight and the like.

d) And a system capacity expansion module. With the wide application of cloud products, the user access volume is also larger and larger, and particularly when the service access volume reaches a peak value, the system needs to be expanded to meet the performance requirement of the service system.

3) A front-end operation and maintenance interface. The front end adopts the mainstream DashBoard style for displaying, and simultaneously adopts the technical architecture of a small component, so that the expansibility and the layout of the interface are more flexible; the front-end interface provides system topology, capacity expansion, system deployment and system updating functions.

4) And a monitoring center module. The system monitoring center is divided into a front end and a rear end, and the front end displays various monitoring data and early warning data based on a DashBoard style; the back end mainly realizes the functions of performance tracking, performance analysis and intelligent early warning of the system. The monitoring center can detect the running conditions of the application server and the database server, such as information of CPU, memory, disk space and the like; meanwhile, the service system, especially the micro service system under the container and cloud primitive can be tracked, monitored and diagnosed, and the bottleneck and the problem of the system can be rapidly found through monitoring and diagnosing the service system.

Claims (4)

1. An operation and maintenance monitoring system based on cloud architecture is characterized in that,

the device mainly comprises the following parts: 1) the system comprises a resource management module, 2) a rear-end operation and maintenance module, 3) a front-end operation and maintenance interface, and 4) a monitoring center module; wherein,

1) the resource management module is mainly used for realizing resource registration and resource scheduling; registering project resources into an operation and maintenance monitoring system through a resource registration function, wherein the project resources comprise basic information of the resources and a plop relation between the resources; the resource scheduling is based on the resource registration information, and the function scheduling is carried out on the resources;

2) the back-end operation and maintenance module deploys related application programs and database instances according to the requirements of cloud products and deploys according to the architecture and the cluster mode of the micro-service; the cloud product deployment topological structure is provided, the deployment condition of the product is known on the whole, and meanwhile, a load balancing function is provided for an integration mode;

3) the front end adopts the mainstream DashBoard style to display the operation and maintenance interface of the front end, and adopts the technical framework of small parts to ensure that the expansibility and the layout of the interface are more flexible; the front-end interface provides system topology, capacity expansion, system deployment and system more functions;

4) and the monitoring center module is used for detecting the operating conditions of the application server and the database server and tracking, monitoring and diagnosing the service system.

2. The method of claim 1,

the resources comprise virtual machines, physical machines and containers.

3. The method of claim 1,

the back end operation and maintenance module mainly comprises the following parts:

a) an application program and a database deployment module; the deployment function of the application program and the database is a basic function of the operation and maintenance monitoring system, and the operation and maintenance monitoring system supports containerized deployment and physical deployment of the application program and supports deployment according to a micro-service architecture; the database part supports the deployment of a master-slave architecture mode;

b) an application program and a database upgrading module; according to the topological relation graph, selecting batch application servers and databases for upgrading, ensuring the consistency of application programs and application programs in a cluster and databases and database versions, and simultaneously realizing uninterrupted service during upgrading;

c) an application load module; the request pressure is dispersed to different machines, the separation of dynamic and static pages is realized according to a scheduling rule, and the load balance is carried out on a back-end server according to polling, IP hash, URL hash and weight modes;

d) a system capacity expansion module; and automatically expanding the capacity of the corresponding server according to the access amount of the service system and by combining a capacity expansion strategy.

4. The method of claim 1,

the system monitoring center is divided into a front end and a rear end, and the front end displays various monitoring data and early warning data based on a DashBoard style; the back end mainly realizes the functions of performance tracking, performance analysis and intelligent early warning of the system.