CN105306234A - Equipment monitoring method and device - Google Patents

Abstract

The invention provides an equipment monitoring method and device. The method comprises the following steps: obtaining data of one or more equipment, wherein the data are data acquired by the one or more equipment according to corresponding monitoring indexes; the one or more equipment comprises at least one virtual equipment; and monitoring the one or more equipment according to the obtained data. By means of the equipment monitoring method and device disclosed by the invention, the problem that IT equipment in a whole data centre cannot be monitored due to the fact that virtual IT equipment cannot be monitored and managed in the related technology can be solved; and thus, the effect of monitoring the IT equipment in the whole data centre is realized.

Description

Apparatus monitoring method and device

Technical field

The present invention relates to the communications field, in particular to apparatus monitoring method and device.

Background technology

Along with the development of cloud computing technology, increasing data center starts to build, and in the data in the heart, then run all kinds of information technoloy equipments more than more and more coming, these equipment are based on Windows, UNIX and (SuSE) Linux OS mostly; And on these information technoloy equipments, running increasing virtual I T equipment, these virtual I T equipment are based on Windows and (SuSE) Linux OS mostly.For guaranteeing the reliability service of information technoloy equipment, the attendant of data center needs a kind of means effectively to monitor the running status of IT hardware device and the running status of virtual I T equipment, can make corresponding process.Traditional IT monitoring resource can only cover the hardware device of IT, and then cannot carry out effectively virtual I T equipment and monitoring and management accurately, this does not meet data center's fine-grained management and control overflow more.

Therefore, also exist in the related and cannot carry out monitoring and management to virtual I T equipment, and then the problem cannot monitored the information technoloy equipment of whole data center caused.

Summary of the invention

The invention provides a kind of apparatus monitoring method and device, with at least solve exist in correlation technique due to monitoring and management cannot be carried out to virtual I T equipment, and then the problem cannot monitored the information technoloy equipment of whole data center caused.

According to an aspect of the present invention, provide a kind of apparatus monitoring method, comprising: the data obtaining one or more equipment, wherein, described data are data that the monitor control index according to correspondence of described one or more equipment gathers, and described one or more equipment comprises at least one virtual unit; The monitoring to described one or more equipment is realized according to the data got.

Preferably, the data obtaining described virtual unit comprise: the resident module of the virtual sampling to described virtual unit deploy sends Data Collection instruction, and wherein, the resident module of described virtual sampling is for gathering the data of virtual unit; Receive response data, wherein, described response data is the data of the resident module of described virtual sampling according to described Data Collection instruction acquisition.

Preferably, receive described response data and comprise: receive the described response data sent from Host-resident module, wherein, the described response data that described Host-resident module sends comes from the resident module of described virtual sampling; Described Host-resident module is deployed on node, for collecting and reporting the data of the virtual unit that described node runs.

Preferably, carry the mark of described virtual unit in described response data, described mark is for distinguishing different virtual units.

Preferably, before the data obtaining one or more equipment, also comprise: the configuration information obtaining described one or more equipment, wherein, described configuration information comprise following one of at least: the IP address of the system type of the node type belonging to one or more equipment, one or more equipment, the access way of one or more equipment, the port of one or more equipment, one or more equipment, log in user name that described equipment uses and password, log in the login mode that described equipment uses; Described one or more equipment is connected according to described configuration information.

Preferably, described apparatus monitoring method also comprises: according to the data got described in predetermined monitor control index threshold decision whether trigger alerts; When judged result is for being, send alarm information.

According to a further aspect in the invention, provide a kind of equipment monitoring apparatus, comprise: the first acquisition module, for obtaining the data of one or more equipment, wherein, described data are data that the monitor control index according to correspondence of described one or more equipment gathers, and described one or more equipment comprises at least one virtual unit; Monitoring module, for realizing the monitoring to described one or more equipment according to the data got.

Preferably, described first acquisition module comprises: transmitting element, for when described one or more equipment comprises virtual unit, the resident module of virtual sampling to described virtual unit deploy sends Data Collection instruction, wherein, the resident module of described virtual sampling is for gathering the data of virtual unit; Receiving element, for receiving response data, wherein, described response data is the data of the resident module of described virtual sampling according to described Data Collection instruction acquisition.

Preferably, described receiving element is for receiving the described response data sent from Host-resident module, and wherein, the described response data that described Host-resident module sends comes from the resident module of described virtual sampling; Described Host-resident module is deployed on computing node, for collecting and reporting the data of the virtual unit that described computing node runs.

Preferably, carry the mark of described virtual unit in described response data, described mark is for distinguishing different virtual units.

Preferably, described equipment monitoring apparatus also comprises: the second acquisition module, for obtaining the configuration information of described one or more equipment, wherein, described configuration information comprise following one of at least: the IP address of the system type of the node type belonging to one or more equipment, one or more equipment, the access way of one or more equipment, the port of one or more equipment, one or more equipment, log in user name that described equipment uses and password, log in the login mode that described equipment uses; Link block, for connecting described one or more equipment according to described configuration information.

Preferably, described equipment monitoring apparatus also comprises: judge module, for according to the data got described in predetermined monitor control index threshold decision whether trigger alerts; Sending module, for when judged result is for being, sends alarm information.

By the present invention, adopt the data obtaining one or more equipment, wherein, described data are data that the monitor control index according to correspondence of described one or more equipment gathers, and described one or more equipment comprises at least one virtual unit; The monitoring to described one or more equipment is realized according to the data got, solve exist in correlation technique due to monitoring and management cannot be carried out to virtual I T equipment, cause the problem cannot monitored the information technoloy equipment of whole data center, and then reach the effect realizing monitoring the information technoloy equipment of whole data center.

Accompanying drawing explanation

Accompanying drawing described herein is used to provide a further understanding of the present invention, and form a application's part, schematic description and description of the present invention, for explaining the present invention, does not form inappropriate limitation of the present invention.In the accompanying drawings:

Fig. 1 is the flow chart of the apparatus monitoring method according to the embodiment of the present invention;

Fig. 2 is the structured flowchart of the equipment monitoring apparatus according to the embodiment of the present invention;

Fig. 3 is the structured flowchart one of the first acquisition module 22 in the equipment monitoring apparatus according to the embodiment of the present invention;

Fig. 4 is the preferred structure block diagram one of the equipment monitoring apparatus according to the embodiment of the present invention;

Fig. 5 is the preferred structure block diagram two of the equipment monitoring apparatus according to the embodiment of the present invention;

Fig. 6 is the supervisory control system link schematic diagram according to the embodiment of the present invention;

Fig. 7 is according to each functions of modules of supervisory control system in the embodiment of the present invention and processing procedure schematic diagram;

Fig. 8 is according to watch-dog management logic schematic diagram in the embodiment of the present invention.

Embodiment

Hereinafter also describe the present invention in detail with reference to accompanying drawing in conjunction with the embodiments.It should be noted that, when not conflicting, the embodiment in the application and the feature in embodiment can combine mutually.

Provide a kind of apparatus monitoring method in the present embodiment, Fig. 1 is the flow chart of the apparatus monitoring method according to the embodiment of the present invention, and as shown in Figure 1, this flow process comprises the steps:

Step S102, obtains the data of one or more equipment, and wherein, these data are data that the monitor control index according to correspondence of one or more equipment gathers, and one or more equipment comprises at least one virtual unit;

Step S104, realizes the monitoring to one or more equipment according to the data got;

Pass through above-mentioned steps, obtain the data of one or more equipment, wherein, these data are the data of the equipment gathered according to the monitor control index of correspondence, and this one or more equipment comprises at least one virtual unit, and realize the monitoring to one or more equipment according to the data got, thus can according to the monitor and managment of data realization to virtual unit obtained, and then realize monitoring the equipment of whole data center, thus solve exist in correlation technique due to monitoring and management cannot be carried out to virtual I T equipment, and then the problem cannot monitored the information technoloy equipment of whole data center caused, reach the effect realizing monitoring the information technoloy equipment of whole data center.

In an optional embodiment, the data of virtual unit can be obtained: first according to following method, the resident module of virtual sampling to virtual unit deploy sends Data Collection instruction, wherein, the resident module of this virtual sampling is data for gathering virtual unit, Data Collection instruction is the instruction of collecting virtual device data for triggering the resident module of virtual employing, and, when carrying out Data Collection, can collect according to predetermined time granularity, namely, the Data Data of virtual unit can be collected in predetermined time interval, wherein, this time granularity can adjust according to demand accordingly, namely, this time interval to carry out different settings, after the resident module collection data of this virtual employing complete, receive the response data that the resident module of this virtual sampling returns, wherein, the data that this response data gathers according to Data Collection instruction for the resident module of virtual sampling.And, this response data can be directly report supervisory control system by the resident module of virtual sampling, also can report supervisory control system by other intermediate modules, can determine to be reported by that module according to the configuration of system, considerably increase the flexibility that data report.

In another optional embodiment, by Host-resident module, response data can be reported supervisory control system, the method can comprise: Host-resident module receives the response data that the resident module of virtual sampling sends, wherein, this Host-resident module is deployed on the computing node of data center, for collecting and reporting the data of virtual unit, and virtual unit operates on these computing nodes; After Host-resident module have received response data, this response data can be reported supervisory control system.It should be noted that, also can utilize other modules, as intermediate module, response data is reported supervisory control system.Supervisory control system can realize effective monitoring to virtual unit and management according to these response datas.

Response data involved in above-described embodiment is used to the data monitoring virtual unit, therefore, the mark of virtual unit can be carried respectively in these response datas, for distinguishing different virtual units, this ensures that there supervisory control system and can identify response data respectively from which virtual unit according to the mark of virtual unit, and then realize the monitoring to different virtual units.

In another one optional embodiment, can before the data obtaining one or more equipment, first this one or more equipment is connected, before connecting, first can obtain the configuration information of this one or more equipment, these configuration informations can comprise at least one in following information: the node type belonging to one or more equipment, the system type of one or more equipment, the access way of one or more equipment, the port of one or more equipment, the IP address of one or more equipment, log in user name and password that described equipment uses, log in the login mode that described equipment uses, certainly, configuration information can also comprise other information, then one or more equipment is connected according to above-mentioned configuration information.

In another optional embodiment, can also judge whether to need to report to the police according to the data of the one or more equipment obtained, the data whether trigger alerts of one or more equipment can be got according to predetermined monitor control index threshold decision, when judged result is for being, when namely needing trigger alerts system, send alarm information.Automatically can be represented the risk position of whole data center by trigger alerts and transmission alarm information, be convenient to user's Timeliness coverage and this risk of process, avoid resulting in greater loss.

Additionally provide a kind of equipment monitoring apparatus in the present embodiment, this device is used for realizing above-described embodiment and preferred implementation, has carried out repeating no more of explanation.As used below, term " module " can realize the software of predetermined function and/or the combination of hardware.Although the device described by following examples preferably realizes with software, hardware, or the realization of the combination of software and hardware also may and conceived.

Fig. 2 is the structured flowchart of the equipment monitoring apparatus according to the embodiment of the present invention, and as shown in Figure 2, this device comprises the first acquisition module 22 and monitoring module 24, is described below to this equipment monitoring apparatus.

First acquisition module 22, for obtaining the data of one or more equipment, wherein, these data are data that the monitor control index according to correspondence of one or more equipment gathers, and this one or more equipment comprises at least one virtual unit; Monitoring module 24, is connected to above-mentioned first acquisition module 22, for realizing the monitoring to above-mentioned one or more equipment according to the data got.

Fig. 3 is the structured flowchart one of the first acquisition module 22 in the equipment monitoring apparatus according to the embodiment of the present invention, and as shown in Figure 3, this first acquisition module 22 comprises transmitting element 32 and receiving element 34, is described below to this first acquisition module 22.

Transmitting element 32, for when one or more equipment comprises virtual unit, the resident module of the virtual sampling to virtual unit deploy sends Data Collection instruction, and wherein, the resident module of virtual sampling is for gathering the data of virtual unit; Receiving element 34, is connected to above-mentioned transmitting element 32, and for receiving response data, wherein, response data is the data of the resident module of virtual sampling according to Data Collection instruction acquisition.

Wherein, this receiving element 34 may be used for receiving the described response data sent from Host-resident module, and wherein, the response data that this Host-resident module sends comes from the resident module of virtual sampling; Host-resident module is deployed on computing node, for collecting and reporting the data of the virtual unit that computing node runs.

Fig. 4 is the preferred structure block diagram one of the equipment monitoring apparatus according to the embodiment of the present invention, and as shown in Figure 4, this device, except comprising all modules shown in Fig. 2, also comprises the second acquisition module 42 and link block 44, is described below to this device.

Second acquisition module 42, for obtaining the configuration information of one or more equipment, wherein, this configuration information comprise following one of at least: the IP address of the system type of the node type belonging to one or more equipment, one or more equipment, the access way of one or more equipment, the port of one or more equipment, one or more equipment, log in user name that described equipment uses and password, log in the login mode that described equipment uses; Link block 44, is connected to above-mentioned second acquisition module 42 and the first acquisition module 22, for connecting one or more equipment according to configuration information.

Fig. 5 is the preferred structure block diagram two of the equipment monitoring apparatus according to the embodiment of the present invention, and as shown in Figure 6, this device, except comprising above-mentioned all modules, also comprises judge module 52 and sending module 54.Below this device is described.

Judge module 52, is connected to above-mentioned monitoring module 24, for the data that get according to predetermined monitor control index threshold decision whether trigger alerts; Sending module 54, is connected to above-mentioned judge module 52, for when judged result is for being, sends alarm information.

For raising is to the validity of data center IT monitoring resource and serviceability, monitoring in the urgent need to the actual resource and virtual resource that develop a kind of technology or method Lai Shi data center is united, it is more convenient and directly perceived to make the management of resource, the compatible dissimilar hardware environment of energy, provides unified performance index and alarm management platform.To this, in the embodiment of the present invention, provide a kind of unified monitoring method of data center IT resource, to realize the unified monitoring to entity information technoloy equipment and virtual I T equipment, improve the availability of supervisory control system, raise the efficiency.Here entity information technoloy equipment refers to based on Windows, UNIX or (SuSE) Linux OS, runs the IT hardware device of virtualization software thereon; Virtual I T equipment refers to based on Windows or (SuSE) Linux OS, runs the IT virtual unit of miscellaneous service system thereon.Entity information technoloy equipment hereinafter described and virtual I T equipment, all refer to the said equipment.

Another object of the present invention is the system providing a kind of unified information technoloy equipment to monitor, and can realize the method for above-mentioned information technoloy equipment monitoring.For achieving the above object, in the embodiment of the present invention, provide following scheme:

According to the embodiment of the present invention, provide a kind of supervisory control system of information technoloy equipment, this system comprises:

Interface display interactive module, device configuration management module (corresponding to above-mentioned second acquisition module), SSH/Telnet protocol module (corresponding to above-mentioned link block), snmp protocol module (corresponding to above-mentioned link block), timed task driver module (corresponding to above-mentioned receiving element), Host-resident module (corresponding to above-mentioned receiving element), empty machine is sampled resident module, communication management module, alarm management module is (corresponding to above-mentioned judge module, sending module), and overall logic scheduler module.Below each module is described:

Interface display interactive module, for showing the interface of monitoring, show the information technoloy equipment added, the monitor control index configured under display device, display device IP address, which kind of device type display device belongs to, and which frame display device belongs to; Further, user can pass through interface operation, and arrange the monitor control index to each equipment and monitoring granularity, the monitoring situation of presentation device is carried out by the mode regularly refreshed in interface; Also by the alarm threshold of each index of equipment, the function of alarm can be enabled, thus on equipment, shows the relevant information of alarm;

Device configuration management module, belongs to a part for interface function, and its major function is the facility information being configured entity information technoloy equipment, comprises the information such as node type, system type, access way, IP, port, user name, password;

SSH/Telnet protocol module, for linking between supervisory control system with information technoloy equipment (non-Windows operating system), further, supervisory control system is logged on monitored IT entity device by SSH/Telnet protocol module, perform specified command, is received the corresponding informance returned;

Snmp protocol module, for linking between supervisory control system with information technoloy equipment (Windows operating system), supervisory control system by snmp protocol module to data corresponding to monitored IT entity device request, receive the corresponding informance returned;

Timed task driver module, for realizing the data collection function of timing, further referring to, carrying out task scheduling and the management of data acquisition, and preserves the data collected;

Host-resident module, is deployed on the computing node of data center, for providing the relevant information of virtual I T equipment in the machine to supervisory control system, collects and report the image data of virtual I T equipment according to task scheduling situation;

Empty machine is sampled resident module, is deployed on the example of the empty machine of each activity, and is in active state.For gathering the achievement data of this empty machine, and report collected data message to Host-resident module.

Communication management module, is deployed on main frame and empty machine respectively, is embedded into Host-resident module and empty machine is sampled in resident module, for carrying out the communication between main frame and empty machine, also can think that it is that Host-resident module and empty machine are sampled the submodule of resident module;

Alarm management module, according to set metrics-thresholds, carries out alert analysis and filtration, triggers and produces alarm and alarm clearing, and carry out showing, inquire about and managing on interface;

Overall logic scheduler module, for realizing communication and the scheduling of above-mentioned intermodule, further refers to management thread pond and scheduling thread, makes total Thread Count remain on the receivable scope of computer system, coordinates the process of each module;

Said system, except the processing procedure of above-mentioned module, also comprises the data interaction logic etc. of the management logic of monitored device, AM/BAM.

Based on the system of above-mentioned each module, the embodiment of the present invention additionally provides the method for a kind of data center information technoloy equipment unified monitoring, and the method comprises:

A, the relevant information of information technoloy equipment need be monitored in supervisory control system configuration, realize the normal access of monitored device;

B, supervisory control system obtain the configuration information of monitored information technoloy equipment from configuration interface;

C, supervisory control system connect monitored information technoloy equipment, perform corresponding instruction, obtain corresponding achievement data according to fixed time granularity;

D, for the monitored information technoloy equipment belonging to computing node, except performing the action of step c, also can send an instruction to Host-resident modular program, make the Data Collection task of Host-resident module startup to empty machine, data request information is sent to its lower empty machine run, after message is sent completely, program is blocked, and waits for the process of each empty machine;

After e, each empty machine receive above-mentioned data request information, start log-on data and collect: perform corresponding data acquisition instructions, obtain corresponding data, and response is given to request message;

After information technoloy equipment in f, Step d receives response data, data are write in local file, and notify that the program got clogged in d carries out the reading of data;

After g, supervisory control system complete the acquisition of all data, data are carried out processing rear write into Databasce;

H, simultaneously supervisory control system according to the metrics-thresholds of joined configuration, can determine whether trigger alerts and alarm clearing.If meet trigger condition, then by information write into Databasce relevant for alarm, and send message to foreground and make it can normal presentation warning information;

I, interface, foreground are refreshed according to the interface of the request of user and timing, show the index monitoring situation to designated equipment;

In addition, the state of empty machine needs monitored system senses to arrive, the state of the empty machine of Host-resident module meeting periodic scanning, and when empty machine state changes, initiatively send message to supervisory control system, supervisory control system can according to information such as the states of the empty machine of this information updating.

Wherein, the information technoloy equipment in step a, refers to entity information technoloy equipment, and normal access refers to and normally can log in and be connected, and can perform number order;

The information of the monitored information technoloy equipment of step b includes but not limited to the IP address of monitored information technoloy equipment, login user name and the information such as password, landing approach, and configuration interface refers to a kind of program interface that can add, delete and configure monitored device attribute;

Time granularity in step c, can be adjusted according to demand by interface, and need the regular hour because fill order obtains data, recommended value is more than 5 minutes;

Computing node in steps d is a type of monitored information technoloy equipment, the type equipment runs virtual information technoloy equipment, and a main frame can run multiple virtual information technoloy equipment; The instruction sent to Host-resident modular program comprises the information such as pointer type;

In response message in step e, the mark of self empty machine information technoloy equipment can be added, so that distinguish different virtual machines;

The result that step g obtains image data refers to: cruising inspection system is received by SSH/Telnet/SNMP link and inspection device performed the standard output character stream of script and the text data that on computing node, empty machine returns;

The interface of the timing in step I is refreshed, and realized by the asynchronous technique of AM/BAM, interface can adopt the media modes such as chart to represent, to improve the perceptibility of user.

Following beneficial effect can be reached by the technical scheme in above-described embodiment:

1) the index entry in embodiment of the present invention supervisory control system can flexible configuration, and can conveniently expand;

2) alarm function in embodiment of the present invention supervisory control system can represent the risk position of whole data center automatically, is convenient to Timeliness coverage and the process of user;

3) embodiment of the present invention supervisory control system can more fully be monitored the information technoloy equipment of whole data center, disposes the serviceability that this supervisory control system can improve data center.

Basic thought of the present invention is: the supervisory control system designing a kind of information technoloy equipment, by backstage from being dynamically connected monitored information technoloy equipment, collecting achievement data result, and carrying out Data Integration and process, displaying to user.

Fig. 6 is the supervisory control system link schematic diagram according to the embodiment of the present invention, as shown in Figure 6, this supervisory control system is installed on computers, is linked with monitored device by TCP/IP network, monitored device can be N platform, and information technoloy equipment can be UNIX/Linux system equipment or Windows system equipment.

Fig. 7 is according to each functions of modules of supervisory control system in the embodiment of the present invention and processing procedure schematic diagram, and as shown in Figure 7, the processing procedure of supervisory control system comprises:

Step S702: the configuration information of overall logic scheduler module fetch equipment Configuration Manager.

Read configuration information, refer to the information such as the node type of the access way of acquisition equipment, equipment, address, port, user name, password.

Step S704: mutual by with database of overall logic scheduler module, shows the information required for user to user, comprises achievement data, alarm etc.

Step S706: alarm management module, to the data analysis collected and process, transmits the information of alarm situation to interface display interactive module via overall logic scheduler module.

Step S708: timed task driver module drives overall logic scheduler module to go to connect monitored information technoloy equipment termly, gathers corresponding achievement data.

Step S710:SSH/Telnet/SNMP protocol module connects the appointment by overall logic scheduler module, sends order and receive the data flow returned to monitored main frame;

Step S712: monitored main frame, after receiving data acquisition command, performs corresponding instruction to obtain corresponding achievement data, then responds to protocol module.

Step S714: the message of the resident module of communication management module Receiving Host, and to sample resident module to empty machine Message Transmission; Communication management module as Host-resident module and empty machine sample resident module passage and exist, the communication between both all with it for matchmaker.

Step S716: after the Host-resident module on monitored computing node receives order, to empty machine sample resident module send message, to carry out data acquisition; In addition, the empty machine image data that Host-resident module also can will get, responds and carries out processing and put in storage to overall logic scheduler module.

Step S718: empty machine is sampled the order of the resident module of resident module Receiving Host, in good time log-on data acquisition tasks; After collection completes, by the data that collect by communication management module feedback on main frame, read for main frame.

Step S720: empty machine samples resident module by performing the order of specifying, and carries out the collection of achievement data

Wherein, above-mentioned steps has been set forth supervisory control system treatment step and has been corresponded to function and the correlation of each module, in this supervisory control system, can add multiple monitored device.

Fig. 8 is according to watch-dog management logic schematic diagram in the embodiment of the present invention.As shown in Figure 8, by inspection device management point 3 logical levels:

Level 1: micromodule layer, each data center has multiple micromodule, and each micromodule comprises more than ten frame, and each frame has again multiple information technoloy equipment.

Level 2: mechanical floor, information technoloy equipment is the attribute of the monitored object of supervisory control system, this layer-management equipment, comprises index entry and alarm threshold that device name, device IP and equipment configures below.

Level 3: virtual unit layer, the virtual unit of data center is the example of mirror image, runs on the computing node of mechanical floor, relies on Intel Virtualization Technology and communicates with its host.

Obviously, those skilled in the art should be understood that, above-mentioned of the present invention each module or each step can realize with general calculation element, they can concentrate on single calculation element, or be distributed on network that multiple calculation element forms, alternatively, they can realize with the executable program code of calculation element, thus, they can be stored and be performed by calculation element in the storage device, and in some cases, step shown or described by can performing with the order be different from herein, or they are made into each integrated circuit modules respectively, or the multiple module in them or step are made into single integrated circuit module to realize.Like this, the present invention is not restricted to any specific hardware and software combination.

The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations.Within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (12)

1. an apparatus monitoring method, is characterized in that, comprising:

Obtain the data of one or more equipment, wherein, described data are data that the monitor control index according to correspondence of described one or more equipment gathers, and described one or more equipment comprises at least one virtual unit;

The monitoring to described one or more equipment is realized according to the data got.

2. method according to claim 1, is characterized in that, the data obtaining described virtual unit comprise:

The resident module of virtual sampling to described virtual unit deploy sends Data Collection instruction, and wherein, the resident module of described virtual sampling is for gathering the data of virtual unit;

Receive response data, wherein, described response data is the data of the resident module of described virtual sampling according to described Data Collection instruction acquisition.

3. method according to claim 2, is characterized in that, receives described response data and comprises:

Receive the described response data sent from Host-resident module, wherein, the described response data that described Host-resident module sends comes from the resident module of described virtual sampling; Described Host-resident module is deployed on node, for collecting and reporting the data of the virtual unit that described node runs.

4. method according to claim 3, is characterized in that, carries the mark of described virtual unit in described response data, and described mark is for distinguishing different virtual units.

5. method according to claim 1, is characterized in that, before the data obtaining one or more equipment, also comprises:

Obtain the configuration information of described one or more equipment, wherein, described configuration information comprise following one of at least: the internet protocol address of the system type of the node type belonging to one or more equipment, one or more equipment, the access way of one or more equipment, the port of one or more equipment, one or more equipment, log in user name that described equipment uses and password, log in the login mode that described equipment uses;

Described one or more equipment is connected according to described configuration information.

6. the method according to any one of claim 1 to 5, is characterized in that, also comprises:

According to the data got described in predetermined monitor control index threshold decision whether trigger alerts;

When judged result is for being, send alarm information.

7. an equipment monitoring apparatus, is characterized in that, comprising:

First acquisition module, for obtaining the data of one or more equipment, wherein, described data are data that the monitor control index according to correspondence of described one or more equipment gathers, and described one or more equipment comprises at least one virtual unit;

Monitoring module, for realizing the monitoring to described one or more equipment according to the data got.

8. device according to claim 7, is characterized in that, described first acquisition module comprises:

Transmitting element, for when described one or more equipment comprises virtual unit, the resident module of the virtual sampling to described virtual unit deploy sends Data Collection instruction, and wherein, the resident module of described virtual sampling is for gathering the data of virtual unit;

Receiving element, for receiving response data, wherein, described response data is the data of the resident module of described virtual sampling according to described Data Collection instruction acquisition.

9. device according to claim 8, is characterized in that,

Described receiving element is for receiving the described response data sent from Host-resident module, and wherein, the described response data that described Host-resident module sends comes from the resident module of described virtual sampling; Described Host-resident module is deployed on computing node, for collecting and reporting the data of the virtual unit that described computing node runs.

10. device according to claim 9, is characterized in that, carries the mark of described virtual unit in described response data, and described mark is for distinguishing different virtual units.

11. devices according to claim 7, is characterized in that, also comprise:

Second acquisition module, for obtaining the configuration information of described one or more equipment, wherein, described configuration information comprise following one of at least: the IP address of the system type of the node type belonging to one or more equipment, one or more equipment, the access way of one or more equipment, the port of one or more equipment, one or more equipment, log in user name that described equipment uses and password, log in the login mode that described equipment uses;

Link block, for connecting described one or more equipment according to described configuration information.

12. devices according to any one of claim 7 to 11, is characterized in that, also comprise:

Judge module, for according to the data got described in predetermined monitor control index threshold decision whether trigger alerts;

Sending module, for when judged result is for being, sends alarm information.