CN109067621A - Apparatus monitoring method, apparatus and system - Google Patents

Abstract

The invention discloses a kind of apparatus monitoring methods, device and system, this method comprises: one or more equipment is distributed to multiple agent nodes；Wherein, each equipment is according to the mark ID of the equipment and the capacity assignment of each agent node respectively to the agent node；The hardware information of equipment transmitted by each agent node is received respectively；The hardware information for distinguishing every equipment based on the received, determines the operating status of the equipment, can reduce the load and network flow of monitoring management platform, and then guarantee the stability of data center.

Description

Apparatus monitoring method, apparatus and system

Technical field

This application involves field of computer technology, and in particular to a kind of apparatus monitoring method, device and system.

Background technique

With being increasing for data center's hardware device quantity, running environment becomes increasingly complex, using active monitoring Mode configures monitoring management platform hardware and the requirement of network bandwidth is higher and higher.Actively monitoring be by monitoring management platform and Monitored equipment will be placed in the same network, the network storm as caused by the broadcast of acquisition protocols, serious consumption network Bandwidth.

Summary of the invention

In order to solve the above-mentioned technical problem, this application provides a kind of apparatus monitoring methods, device and system, reduce monitoring The load and network flow of platform are managed, and then guarantees the stability of data center.

This application provides a kind of apparatus monitoring methods, comprising:

One or more equipment is distributed into multiple agent nodes；Wherein, each equipment is the mark according to the equipment respectively The capacity assignment of ID and each agent node is known to the agent node；

The hardware information of equipment transmitted by each agent node is received respectively；

The hardware information for distinguishing every equipment based on the received, determines the operating status of the equipment.

In an exemplary embodiment, the above method also has the following characteristics that

Each equipment is according to the mark ID of the equipment and the capacity assignment of the agent node respectively to the agency Node refers to:

Modulo operation is carried out to the cryptographic Hash of one or more device id, by the identical device id pair of remainder after modulus The equipment answered distributes to the same agent node；Wherein, the equipment number for the distribution of each agent node is less than or equal to the generation Manage the maximum device load capacity of node.

In one exemplary embodiment, the above method also has the following characteristics that

The hardware information of the difference every equipment based on the received, determines the operating status of the equipment, comprising:

Every equipment is proceeded as follows respectively:

According to the device id of every equipment, the device type of this equipment is determined；

Key message according to the pre-stored data and device type correspond to table, extract this from the hardware information of every equipment The key message of equipment；It wherein, include the performance parameter for the one or more components that the equipment is included in the key message；

According to the performance parameter of each of key message part, the operating status of each component is determined respectively；

According to the operating status for each component that the equipment is included, the operating status of the equipment is determined.

In one exemplary embodiment, the above method also has the following characteristics that

According to the operating status for each component that the equipment is included, the operating status of the equipment is determined, comprising:

The weight of each component is set；

According to the operating status of each component, processing is weighted to the component of every equipment；It is handled according to weighting Result determine the operating status of every equipment.

This application provides a kind of Supervisions to control, comprising: memory and processor:

The memory, for storing computer-readable instruction；

The processor, for executing the computer-readable instruction, to perform the following operations:

One or more equipment is distributed into multiple agent nodes；Wherein, each equipment is the mark according to the equipment respectively The capacity assignment of ID and each agent node is known to the agent node；

The hardware information of equipment transmitted by the multiple agent node is received respectively；

The hardware information for distinguishing every equipment based on the received, determines the operating status of the equipment.

In one exemplary embodiment, above-mentioned apparatus also has the following characteristics that

The hardware information of the difference every equipment based on the received, determines the operating status of the equipment, comprising:

Every equipment is proceeded as follows respectively:

According to the device id of every equipment, the device type of this equipment is determined；

Key message according to the pre-stored data and device type correspond to table, extract this from the hardware information of every equipment The key message of equipment；It wherein, include the performance parameter for the one or more components that the equipment is included in the key message；

According to the performance parameter of each of key message part, the operating status of each component is determined respectively；

According to the operating status for each component that the equipment is included, the operating status of the equipment is determined.

This application provides a kind of apparatus monitoring methods, comprising:

One or more equipment is distributed to multiple agent nodes by equipment monitoring apparatus；Wherein, each equipment is root respectively According to the mark ID of the equipment and the capacity assignment of each agent node to the agent node；

Each agent node obtains the hardware information for distributing to the equipment of this node, and acquired hardware information is sent to The equipment monitoring apparatus；

The equipment monitoring apparatus receives the hardware letter that the multiple agent node is sent respectively；

The equipment monitoring apparatus distinguishes the hardware information of every equipment based on the received, determines the operation of the equipment State.

In one exemplary embodiment, the equipment monitoring apparatus distinguishes the hardware of every equipment based on the received Information determines the operation shape of the equipment, comprising:

Every equipment is proceeded as follows respectively:

According to the device id of every equipment, the device type of this equipment is determined；

Key message according to the pre-stored data and device type correspond to table, extract this from the hardware information of every equipment The key message of equipment；It wherein, include the performance parameter for the one or more components that the equipment is included in the key message；

According to the performance parameter of each of key message part, the operating status of each component is determined respectively；

According to the operating status for each component that the equipment is included, the operating status of the equipment is determined.

Present invention also provides a kind of equipment monitoring systems, comprising: equipment monitoring apparatus and multiple agent nodes；

The equipment monitoring apparatus is configured to one or more described equipment distributing to the multiple agent node；Its In, each equipment is according to the mark ID of the equipment and the capacity assignment of each agent node respectively to the agent node； Receive the hardware information that a agent node is sent；Distinguish the hardware information of every equipment based on the received, determining should The operating status of equipment；

The agent node is configured to obtain the hardware information for every equipment for distributing to this agent node, will acquire The hardware information of every equipment be sent to equipment monitoring apparatus.

In one exemplary embodiment, the equipment monitoring apparatus equipment is as follows respectively according to received by Every equipment hardware information, determine the operating status of the equipment: every equipment proceeded as follows respectively:

According to the device id of every equipment, the device type of this equipment is determined；

Key message according to the pre-stored data and device type correspond to table, extract this from the hardware information of every equipment The key message of equipment；It wherein, include the performance parameter for the one or more components that the equipment is included in the key message；

According to the performance parameter of each of key message part, the operating status of each component is determined respectively；

According to the operating status for each component that the equipment is included, the operating status of the equipment is determined.

To sum up, by the way that one or more equipment is distributed to multiple agent nodes；Wherein, each equipment is that basis should respectively The mark ID of equipment and the capacity assignment of each agent node are to the agent node；Each agent node is received respectively to be sent out The hardware information for the equipment sent；The hardware information for distinguishing every equipment based on the received, determines the operating status of the equipment, The load and network flow of monitoring management platform are reduced, and then guarantees the stability of data center.

Other features and advantages of the present invention will be illustrated in the following description, also, partly becomes from specification It obtains it is clear that understand through the implementation of the invention.The objectives and other advantages of the invention can be by specification, right Specifically noted structure is achieved and obtained in claim and attached drawing.

Detailed description of the invention

Attached drawing is used to provide to further understand technical solution of the present invention, and constitutes part of specification, with this The embodiment of application technical solution for explaining the present invention together, does not constitute the limitation to technical solution of the present invention.

Fig. 1 is the flow chart of the equipment of the embodiment of the present invention monitoring method；

Fig. 2 is the schematic diagram of the equipment of the embodiment of the present invention monitoring device；

Fig. 3 is the flow chart of the equipment of the embodiment of the present invention monitoring method；

Fig. 4 is the schematic diagram of the equipment of the embodiment of the present invention monitoring system.

Specific embodiment

To make the objectives, technical solutions, and advantages of the present invention clearer, below in conjunction with attached drawing to the present invention Embodiment be described in detail.It should be noted that in the absence of conflict, in the embodiment and embodiment in the application Feature can mutual any combination.

Fig. 1 is the flow chart of the equipment of the embodiment of the present invention monitoring method, according to the flow chart, the Supervision of the present embodiment Prosecutor method, comprising:

Step S101: one or more equipment is distributed into multiple agent nodes；Wherein, each equipment is that basis should respectively The mark ID of equipment and the capacity assignment of each agent node are to the agent node.

In one exemplary embodiment, it after one or multiple devices are distributed to multiple agent nodes, can incite somebody to action The communication protocol information and configuration parameter for distributing to the equipment of each agent node are sent to the agent node.Wherein, equipment Communication protocol is communication protocol used when the equipment that agent node distributes to the node communicates；Configuration parameter is agency section The point login parameters used in communication process with the agent node is distributed to and parameters for authentication.For example, agent node with It the use of IPMI protocol is being that the configuration parameter used is needed to have: user using IPMI protocol and snmp protocol when server communication Name and password；The parameter used is needed to have when using snmp protocol: user name, identifying algorithm, authentication key, private key, Privacy algorithm, the parameters such as security level.When for example, agent node is communicated with magnetic battle array, using snmp protocol and SMI-S agreement, Need the configuration parameter used to have when using snmp protocol: user name, identifying algorithm, authentication key, private key, privacy are calculated Method, the parameters such as security level；When using SMI-S agreement, the configuration parameter for needing to use has: the IP of SMI-S provider Location, user name, password etc..

Step S102: the hardware information of equipment transmitted by each agent node is received respectively.

Step S103: distinguish the hardware information of every equipment based on the received, determine the operating status of the equipment.

By above step, the load and network flow of monitoring management platform are reduced, and then guarantees the stabilization of data center Property.

In one embodiment, each equipment is the load according to the mark ID and the agent node of the equipment respectively Amount is distributed to the agent node and is referred to:

Modulo operation is carried out to the cryptographic Hash of one or more device id, by the identical device id pair of remainder after modulus The equipment answered distributes to the same agent node；Wherein, the equipment number for the distribution of each agent node is less than or equal to the generation Manage the maximum device load capacity of node.For example, there are 20 equipment in data center, 20 equipment are distributed into 3 agency's sections Point, wherein the load capacity of first agent's node is 6, and the load capacity of second agent's node is 7, the load of third agent node Amount is 10；The cryptographic Hash of the ID of 20 equipment is distinguished into mould 3,6 equipment that have that are 0 by remainder, remainder is 1 there are 9 to set Standby, remainder is 2 to have 5 equipment；6 equipment that remainder is 0 are distributed into first agent's node, 9 equipment for being 1 by remainder Third agent node is distributed to, 5 equipment that remainder is 2 are distributed into second agent's node.If data center continues growing Increased equipment is assigned to second agent's node since the load capacity of first agent's node has reached ultimate load by equipment With third agent node.

In other embodiments, equipment can also be distributed into multiple agent nodes, the application couple using other modes This is without limiting.

In an exemplary embodiment of present embodiment, the hardware of the difference every equipment based on the received Information determines the operating status of the equipment, comprising:

Every equipment is proceeded as follows respectively:

According to the device id of every equipment, the device type of this equipment is determined；

Key message according to the pre-stored data and device type correspond to table, extract this from the hardware information of every equipment The key message of equipment；It wherein, include the performance parameter for the one or more components that the equipment is included in the key message；

According to the performance parameter of each of key message part, the operating status of each component is determined respectively；

According to the operating status for each component that the equipment is included, the operating status of the equipment is determined.

For example, the key message of server includes the performance parameter of the components such as CPU, memory, network interface card, fan, power supply.

In one embodiment, according to the performance parameter of each component, the operating status of each component is determined respectively, works as institute When stating the performance parameter of component and meeting preset parameter index, determine that the operating status of the component is normal；When the component Performance parameter when not meeting preset parameter index, determine that the operating status of the component is abnormal.For example, in server Fan component, the fan current rotating speed in key message is 2500 revs/min, and preset specific rotation speeds are 2000 revs/min of (ginsengs Number indexs), current rotation speed of the fan has been more than scheduled rated speed, then can determine that the current operating status of fan is not just Normal operating status；If sensor detects that current rotation speed of the fan is 1800 revs/min, current rotation speed of the fan is lower than scheduled Specific rotation speeds can then determine that the current operating status of fan is up state.

In one embodiment, the operating status for each component for being included according to the equipment, determines the fortune of the equipment Row state, comprising:

The weight of each component is set；

According to the operating status of each component, processing is weighted to the component of every equipment；It is handled according to weighting Result determine the operating status of every equipment.

It, can be true according to importance of the component in whole equipment operational process when the weight of each component is arranged Fixed, when the operating status of the component is normal, weight is the weight set, if the operating status of component is abnormal When, weight 0.

Fig. 2 is the equipment of the embodiment of the present invention monitoring device, including memory 10 and processor 20；

The memory 10, for storing computer-readable instruction；

The processor 20, for executing the computer-readable instruction, to perform the following operations:

One or more equipment is distributed into multiple agent nodes；Wherein, each equipment is the mark according to the equipment respectively The capacity assignment of ID and each agent node is known to the agent node；

The hardware information of equipment transmitted by the multiple agent node is received respectively；

The hardware information for distinguishing every equipment based on the received, determines the operating status of the equipment.

In one embodiment, the hardware information of the difference every equipment based on the received, determines the equipment Operating status, comprising:

Every equipment is proceeded as follows respectively:

According to the device id of every equipment, the device type of this equipment is determined；

Key message according to the pre-stored data and device type correspond to table, extract this from the hardware information of every equipment The key message of equipment；It wherein, include the performance parameter for the one or more components that the equipment is included in the key message；

According to the performance parameter of each of key message part, the operating status of each component is determined respectively；

According to the operating status for each component that the equipment is included, the operating status of the equipment is determined.

Fig. 3 is the flow chart of the equipment of the embodiment of the present invention monitoring method, according to the flow chart, the Supervision of the present embodiment Prosecutor method, comprising:

Step S301: one or more equipment is distributed to multiple agent nodes by equipment monitoring apparatus；Wherein, each equipment It is according to the mark ID of the equipment and the capacity assignment of each agent node respectively to the agent node；

Step S302: each agent node obtains the hardware information for distributing to the equipment of this node, by acquired hardware Information is sent to the equipment monitoring apparatus；

Step S303: the equipment monitoring apparatus receives the hardware letter that the multiple agent node is sent respectively；

Step S304: the equipment monitoring apparatus distinguishes the hardware information of every equipment based on the received, and determining should The operating status of equipment.

In one exemplary embodiment, the equipment monitoring apparatus distinguishes the hardware of every equipment based on the received Information determines the operation shape of the equipment, comprising:

Every equipment is proceeded as follows respectively:

According to the device id of every equipment, the device type of this equipment is determined；

Key message according to the pre-stored data and device type correspond to table, extract this from the hardware information of every equipment The key message of equipment；It wherein, include the performance parameter for the one or more components that the equipment is included in the key message；

According to the performance parameter of each of key message part, the operating status of each component is determined respectively；

According to the operating status for each component that the equipment is included, the operating status of the equipment is determined.

Fig. 4 is the schematic diagram of the equipment of the embodiment of the present invention monitoring system, and the equipment monitoring system in the present embodiment includes Equipment monitoring apparatus 40 and multiple agent nodes, wherein monitoring device 40 is connected with multiple agent nodes, each agent node and The equipment for distributing to the agent node is connected.

The equipment monitoring apparatus is configured to one or more described equipment distributing to the multiple agent node；Its In, each equipment is according to the mark ID of the equipment and the capacity assignment of each agent node respectively to the agent node； Receive the hardware information that the multiple agent node is sent；Distinguish the hardware information of every equipment based on the received, determines The operating status of the equipment；

The agent node is configured to obtain the hardware information for every equipment for distributing to this agent node, will acquire The hardware information of every equipment be sent to equipment monitoring apparatus.

In one exemplary embodiment, the equipment monitoring apparatus equipment is as follows respectively according to received by Every equipment hardware information, determine the operating status of the equipment: every equipment proceeded as follows respectively:

According to the device id of every equipment, the device type of this equipment is determined；

Key message according to the pre-stored data and device type correspond to table, extract this from the hardware information of every equipment The key message of equipment；It wherein, include the performance parameter for the one or more components that the equipment is included in the key message；

According to the performance parameter of each of key message part, the operating status of each component is determined respectively；

According to the operating status for each component that the equipment is included, the operating status of the equipment is determined.

Those of ordinary skill in the art will appreciate that all or part of the steps in the above method can be instructed by program Related hardware is completed, and described program can store in computer readable storage medium, such as read-only memory, disk or CD Deng.Optionally, one or more integrated circuits can be used also to realize in all or part of the steps of above-described embodiment.Accordingly Ground, each module/unit in above-described embodiment can take the form of hardware realization, can also use the shape of software function module Formula is realized.The present invention is not limited to the combinations of the hardware and software of any particular form.

The above is only a preferred embodiment of the present invention, and certainly, the invention may also have other embodiments, without departing substantially from this In the case where spirit and its essence, those skilled in the art make various corresponding changes in accordance with the present invention And deformation, but these corresponding changes and modifications all should fall within the scope of protection of the appended claims of the present invention.

Claims (10)

1. a kind of apparatus monitoring method characterized by comprising

One or more equipment is distributed into multiple agent nodes；Wherein, each equipment is the mark ID according to the equipment respectively Capacity assignment with each agent node is to the agent node；

The hardware information of equipment transmitted by each agent node is received respectively；

The hardware information for distinguishing every equipment based on the received, determines the operating status of the equipment.

2. the method according to claim 1, wherein each equipment is mark ID and the institute according to the equipment respectively The capacity assignment for stating agent node refers to the agent node:

Modulo operation is carried out to the cryptographic Hash of one or more device id, the identical device id of remainder after modulus is corresponding Equipment distributes to the same agent node；Wherein, the equipment number for the distribution of each agent node is saved less than or equal to the agency The maximum device load capacity of point.

3. according to the method described in claim 1, it is characterized by: the hardware of the difference every equipment based on the received Information determines the operating status of the equipment, comprising:

Every equipment is proceeded as follows respectively:

According to the device id of every equipment, the device type of this equipment is determined；

Key message according to the pre-stored data and device type correspond to table, this equipment is extracted from the hardware information of every equipment Key message；It wherein, include the performance parameter for the one or more components that the equipment is included in the key message；

According to the performance parameter of each of key message part, the operating status of each component is determined respectively；

According to the operating status for each component that the equipment is included, the operating status of the equipment is determined.

4. according to the method described in claim 3, it is characterized in that, the operation shape for each component for being included according to the equipment State determines the operating status of the equipment, comprising:

The weight of each component is set；

According to the operating status of each component, processing is weighted to the component of every equipment；According to the knot of weighting processing Fruit determines the operating status of every equipment.

5. a kind of equipment monitoring apparatus characterized by comprising memory and processor；It is characterized by:

The memory, for storing computer-readable instruction；

The processor, for executing the computer-readable instruction, to perform the following operations:

One or more equipment is distributed into multiple agent nodes；Wherein, each equipment is the mark ID according to the equipment respectively Capacity assignment with each agent node is to the agent node；

The hardware information of equipment transmitted by the multiple agent node is received respectively；

The hardware information for distinguishing every equipment based on the received, determines the operating status of the equipment.

6. device according to claim 5, which is characterized in that the hardware of the difference every equipment based on the received Information determines the operating status of the equipment, comprising:

Every equipment is proceeded as follows respectively:

According to the device id of every equipment, the device type of this equipment is determined；

Key message according to the pre-stored data and device type correspond to table, this equipment is extracted from the hardware information of every equipment Key message；It wherein, include the performance parameter for the one or more components that the equipment is included in the key message；

According to the performance parameter of each of key message part, the operating status of each component is determined respectively；

According to the operating status for each component that the equipment is included, the operating status of the equipment is determined.

7. a kind of apparatus monitoring method characterized by comprising

One or more equipment is distributed to multiple agent nodes by equipment monitoring apparatus；Wherein, each equipment is that basis should respectively The mark ID of equipment and the capacity assignment of each agent node are to the agent node；

Each agent node obtains the hardware information for distributing to the equipment of this node, acquired hardware information is sent to described Equipment monitoring apparatus；

The equipment monitoring apparatus receives the hardware letter that the multiple agent node is sent respectively；

The equipment monitoring apparatus distinguishes the hardware information of every equipment based on the received, determines the operation shape of the equipment State.

8. the method according to the description of claim 7 is characterized in that the equipment monitoring apparatus is every based on the received respectively The hardware information of platform equipment determines the operation shape of the equipment, comprising:

Every equipment is proceeded as follows respectively:

According to the device id of every equipment, the device type of this equipment is determined；

Key message according to the pre-stored data and device type correspond to table, this equipment is extracted from the hardware information of every equipment Key message；It wherein, include the performance parameter for the one or more components that the equipment is included in the key message；

According to the performance parameter of each of key message part, the operating status of each component is determined respectively；

According to the operating status for each component that the equipment is included, the operating status of the equipment is determined.

9. a kind of equipment monitoring system, comprising: equipment monitoring apparatus；It is characterized by further comprising: multiple agent nodes；

The equipment monitoring apparatus is configured to one or more described equipment distributing to the multiple agent node；Wherein, often A equipment is according to the mark ID of the equipment and the capacity assignment of each agent node respectively to the agent node；Receive institute State the hardware information that multiple agent nodes are sent；The hardware information for distinguishing every equipment based on the received, determines the equipment Operating status；

The agent node is configured to obtain the hardware information for every equipment for distributing to this agent node, and what be will acquire is every The hardware information of platform equipment is sent to equipment monitoring apparatus.

10. system according to claim 9, it is characterised in that: the equipment monitoring apparatus equipment is divided as follows The not hardware information of every equipment based on the received, determines the operating status of the equipment: every equipment is carried out respectively Following operation:

According to the device id of every equipment, the device type of this equipment is determined；

Key message according to the pre-stored data and device type correspond to table, this equipment is extracted from the hardware information of every equipment Key message；It wherein, include the performance parameter for the one or more components that the equipment is included in the key message；

According to the performance parameter of each of key message part, the operating status of each component is determined respectively；

According to the operating status for each component that the equipment is included, the operating status of the equipment is determined.