CN107305471A - A kind of storage resource topological system virtualized based on vmware - Google Patents

Abstract

The invention provides a kind of storage resource topological system virtualized based on vmware, including storage resource Data Integration and the displaying of virtualized memory resource topological view under virtualization and operating system aspect.Storage resource Data Integration includes data acquisition module, data conversion module and data memory module under the virtualization and operating system aspect.The advantage of this patent is：Physical machine that the storage connected and the complete and detailed situation of virtual machine are illustrated in units of every storage in topological diagram；Topological view is supported to pull in itself, moved and arbitrary zoom, can clearly embody any complicated topological structure；Distinguished for the virtual machine for deploying operating system monitoring with green, corresponding physical disk and the logic magnetic disc situation for showing it under an operating system can be further spread out by clicking on the virtual machine, realize sufficient virtualized memory resource management.

Description

Storage resource topological system based on vmware virtualization

Technical Field

The invention relates to a virtualized storage resource topological system, in particular to a storage resource topological system based on vmware virtualization.

Background

At present, no product capable of realizing virtualized storage resources and integrating virtualization and an operating system to realize comprehensive storage monitoring management in a topology view mode exists in domestic and foreign markets.

Disclosure of Invention

In order to solve the problems, the invention provides a storage resource topology system based on vmware virtualization.

The storage resource topology system based on vmware virtualization for achieving the purpose of the invention comprises storage resource data integration and virtualized storage resource topology view display under the virtualization and operating system level.

The data integration of the storage resources under the virtualization and operating system level comprises a data acquisition module, a data conversion module and a data storage module.

Wherein,

a data acquisition module: acquiring virtualized configuration and performance data through vsphere sdk, and providing data in json format for a data conversion module in a rest mode; configuration and performance data of an operating system layer are collected in a ssh and wmi command mode, and data in a json format are provided in a rest mode for a data conversion module to use; the problem of overlong acquisition time caused by too many nodes in a virtualization environment is solved by applying a distributed deployment concept;

the data conversion module: converting the scattered json format data acquired by the data acquisition module into centralized data to be used, and storing the centralized data to be used in a memory for a page request;

a data storage module: the data processing system is used for aggregating and cutting data and storing the processed data in a database.

The working steps are as follows: the virtualized data collector calls an sdk interface of the vcenter, the vcenter responds to data returned from the calling interface, the collector transmits the data to the data processor through an http protocol, the data processor performs related calculation and sorting on the data, inserts the data into a database and a memory, provides a rest interface through data conversion, and returns data in a json format. The data of the operating system is collected in a proxy-free mode, the windows system is collected through WMI, the linux system is used for collecting storage configuration and performance data through ssh protocol, the collector transmits the data to the data processor through http protocol, the data processor is used for carrying out related calculation and arrangement on the data, inserting the data into a database and a memory, providing a rest interface through data conversion to the outside and returning data in json format.

The virtualized storage resource topology view presentation comprises the following steps:

the method comprises the steps that the use condition of a physical machine, a virtual disk, a physical disk of an operating system layer, a logical disk or a file system related to certain data storage is shown in a topological graph mode; wherein:

showing through a multi-branch tree mode, wherein the center stores the selected data, the upper layer is the associated physical machine, and the lower layer is the associated virtual machine;

distinguishing a normal virtual machine, a virtual machine with a power supply turned off and a virtual machine which is monitored by a deployed operating system through different colors;

distinguishing virtualized data and operating system monitoring data through different colors;

the using condition of the virtual disk is displayed in a table form on topology, and physical machine virtualization data, data storage virtualization data and virtual machine virtualization data of a certain data storage requesting the data storage from a data processing layer are clicked.

Showing the use condition of a physical disk of an operating system layer in a table form on topology;

showing the use condition of a logic disk or a file system of an operating system layer in a table form on topology;

and the monitoring interface of the operating system is contracted in a clicking mode, and a virtual machine which is clicked to monitor a certain IT requests the IT monitoring physical disk data, the IT monitoring logic disk data and the IT monitoring file system data of the virtual machine from the data processing layer.

The advantage of this patent lies in:

and generating a topology architecture view of real-time storage resources of the virtualization environment by using a professional tool drawn by the topology view, wherein the topology view shows the complete and detailed conditions of the physical machine and the virtual machine connected with the storage by taking each storage as a unit, including the configuration conditions (type, quantity and the like) of each physical machine and each virtual machine connected with the storage and the disk on each virtual machine. The connection topology and the use condition of each storage device with the physical machine and the virtual machine in the virtualization environment are fully mastered by a user.

The topological view supports dragging, moving and arbitrary zooming, and any complex topological structure can be clearly embodied.

For green difference of the virtual machine with deployed operating system monitoring, clicking the virtual machine can further expand and display the corresponding physical disk and logical disk conditions of the virtual machine under the operating system, including the configuration and utilization rate of the physical disk and the logical disk, so that a user can fully master the specific conditions of each storage device at the virtualization level and the operating system level, and full virtualized storage resource management is realized.

Drawings

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

Detailed Description

As shown in fig. 1, the storage resource topology system based on vmware virtualization according to the present invention includes storage resource data integration and virtualized storage resource topology view display at the virtualization and operating system level.

The data integration of the storage resources under the virtualization and operating system level comprises a data acquisition module, a data conversion module and a data storage module.

Wherein,

a data acquisition module: acquiring virtualized configuration and performance data through vsphere sdk, and providing data in json format for a data conversion module in a rest mode; configuration and performance data of an operating system layer are collected in a ssh and wmi command mode, and data in a json format are provided in a rest mode for a data conversion module to use; the problem of overlong acquisition time caused by too many nodes in a virtualization environment is solved by applying a distributed deployment concept;

the data conversion module: converting the scattered json format data acquired by the data acquisition module into centralized data to be used, and storing the centralized data to be used in a memory for a page request;

a data storage module: the data processing system is used for aggregating and cutting data and storing the processed data in a database.

The working steps are as follows: the virtualized data collector calls an sdk interface of the vcenter, the vcenter responds to data returned from the calling interface, the collector transmits the data to the data processor through an http protocol, the data processor performs related calculation and sorting on the data, inserts the data into a database and a memory, provides a rest interface through data conversion, and returns data in a json format. The data of the operating system is collected in a proxy-free mode, the windows system is collected through WMI, the linux system is used for collecting storage configuration and performance data through ssh protocol, the collector transmits the data to the data processor through http protocol, the data processor is used for carrying out related calculation and arrangement on the data, inserting the data into a database and a memory, providing a rest interface through data conversion to the outside and returning data in json format.

The virtualized storage resource topology view presentation comprises the following steps:

the method comprises the steps that the use condition of a physical machine, a virtual disk, a physical disk of an operating system layer, a logical disk or a file system related to certain data storage is shown in a topological graph mode; wherein:

showing through a multi-branch tree mode, wherein the center stores the selected data, the upper layer is the associated physical machine, and the lower layer is the associated virtual machine;

distinguishing a normal virtual machine, a virtual machine with a power supply turned off and a virtual machine which is monitored by a deployed operating system through different colors;

distinguishing virtualized data and operating system monitoring data through different colors;

the using condition of the virtual disk is displayed in a table form on topology, and physical machine virtualization data, data storage virtualization data and virtual machine virtualization data of a certain data storage requesting the data storage from a data processing layer are clicked.

Showing the use condition of a physical disk of an operating system layer in a table form on topology;

showing the use condition of a logic disk or a file system of an operating system layer in a table form on topology;

and the monitoring interface of the operating system is contracted in a clicking mode, and a virtual machine which is clicked to monitor a certain IT requests the IT monitoring physical disk data, the IT monitoring logic disk data and the IT monitoring file system data of the virtual machine from the data processing layer.

The above-mentioned embodiments are merely illustrative of the preferred embodiments of the present invention, and do not limit the scope of the present invention, and various modifications and improvements of the technical solution of the present invention by those skilled in the art should fall within the protection scope defined by the claims of the present invention without departing from the spirit of the present invention.

Claims (4)

1. A storage resource topology system based on vmware virtualization is characterized by comprising storage resource data integration and virtualized storage resource topology view display under the virtualization and operating system level.

2. The vmware virtualization-based storage resource topology system of claim 1, wherein the virtualization and operating system-level storage resource data integration comprises a data acquisition module, a data conversion module and a data storage module, wherein the data acquisition module: acquiring virtualized configuration and performance data through vsphere sdk, providing data in a json format for a data conversion module to use in a rest mode, acquiring configuration and performance data on the operating system level through ssh and wmi commands, providing data in the json format for the data conversion module to use in the rest mode, and solving the problem of overlong acquisition time caused by too many nodes in a virtualized environment by applying a distributed deployment concept; the data conversion module: converting the scattered json format data acquired by the data acquisition module into centralized data to be used, and storing the centralized data to be used in a memory for a page request; a data storage module: the data processing system is used for aggregating and cutting data and storing the processed data in a database.

3. The vmware virtualization based storage resource topology system as claimed in claim 1, wherein the working steps are as follows: the virtualized data collector calls an sdk interface of the vcenter, the vcenter responds to data returned to the called interface, the collector transmits the data to the data processor through an http protocol, the data processor performs related calculation and sorting on the data, inserts the data into a database and a memory, provides a rest interface through data conversion to the outside, and returns data in a json format, the data of an operating system is collected in a non-proxy mode, a windows system collects the data through WMI, a linux system collects storage configuration and performance data through an ssh protocol, the collector transmits the data to the data processor through the http protocol, the data processor performs related calculation and sorting on the data, inserts the data into the database and the memory, provides the rest interface through data conversion to the outside, and returns data in the json format.

4. The vmware virtualization-based storage resource topology system as recited in claim 1, wherein the virtualized storage resource topology view presentation comprises the following steps: the method comprises the steps that the use condition of a physical machine, a virtual disk, a physical disk of an operating system layer, a logical disk or a file system related to certain data storage is shown in a topological graph mode;

wherein:

showing through a multi-branch tree mode, wherein the center stores the selected data, the upper layer is the associated physical machine, and the lower layer is the associated virtual machine;

distinguishing a normal virtual machine, a virtual machine with a power supply turned off and a virtual machine which is monitored by a deployed operating system through different colors;

distinguishing virtualized data and operating system monitoring data through different colors;

the using condition of the virtual disk is displayed in a table form on topology, and physical machine virtualization data, data storage virtualization data and virtual machine virtualization data of a certain data storage requesting the data storage from a data processing layer are clicked.

Showing the use condition of a physical disk of an operating system layer in a table form on topology;

showing the use condition of a logic disk or a file system of an operating system layer in a table form on topology;

and the monitoring interface of the operating system is contracted in a clicking mode, and a virtual machine which is clicked to monitor a certain IT requests the IT monitoring physical disk data, the IT monitoring logic disk data and the IT monitoring file system data of the virtual machine from the data processing layer.