CN202385116U - Distributed operation and maintenance data acquisition device - Google Patents

Abstract

The utility model discloses a distributed operation and maintenance data acquisition device. The distributed operation and maintenance data acquisition device comprises the following components: a central server, a proxy server and an acquisition machine, wherein the central server is configured with a monitoring unit and a proxy server control unit, the monitoring unit is formed according a monitoring device and a monitoring index, and the proxy server control unit is formed according to the proxy server index; an acquisition machine monitoring unit and a data storage unit are configured on the proxy server, and the setting of the acquisition machine monitoring unit on the proxy server adapts to the setting of the monitoring unit of the central server; an acquirer and a data temporary store unit are configured on the acquisition machine, and the setting of the acquirer adapts to the setting of the acquisition machine monitoring unit of the proxy server; and the acquisition machine is connected with the proxy server which is connected with the central server. The acquisition device can acquire performance data of various network devices and is high in the utilizing rate of system resource.

Description

A kind of distributed O&M data acquisition unit

Technical field

The utility model relates to IT O&M field, relates in particular to a kind of device of network management system distributed capture scheduling.

Background technology

Along with network size enlarges day by day, structure is day by day complicated, to various kinds of equipment or application service to administer and maintain difficulty increasing, also more and more obvious to the intelligent management demand.

Too many or when having VLAN to divide when Network Management Equipment quantity; General collection scheduling method has only single acquisition system; Often be difficult to satisfy problems such as collection is timely, CPU time balanced tenancy; So not only be difficult to device performance data is accurately gathered, and cause easily CPU take causes system fluctuated response not problem.

SNMP, Simple Network Management Protocol, Simple Network Management Protocol.

JDBC, Java Data Base Connectivity, the java database connects, and is used to carry out the Java api interface of SQL statement.

RMI, Remote Method Invocation, RMI.

VLAN, Virtual Local Area Network, VLAN.

The utility model content

The purpose of the utility model is to provide a kind of distributed capture dispatching method and device, comprises a central server, an acting server, many harvesters in this device.The user can dispose many harvesters; Only need give different harvesters in the various network device information distribution that central server will be gathered; The acquisition tasks of the scheduling oneself that each harvester just can be independent so; Thereby realize acquisition tasks scheduling more efficiently, can let the CPU of each harvester take to drop to lower, reduce system load not risk.

The purpose of the utility model adopts following scheme to realize: a kind of distributed O&M data acquisition unit; Include following assembly: central server, acting server, harvester; Central server disposes monitoring unit and acting server control unit; Monitoring unit forms according to watch-dog and monitor control index setting, and setting forms the acting server control unit according to the acting server index; Dispose harvester supervision unit and data storage cell on the acting server, the setting of the harvester supervision unit on the acting server and the monitoring unit of central server adapts; Harvester is provided with collector and data temporary storage location, and the setting of the setting of collector and the harvester of acting server supervision unit adapts; Harvester is connected with acting server, and acting server is connected with central server.

The further scheme of this practical information is: said monitoring unit and acting server control unit, harvester monitoring unit and data storage cell, data temporary storage location are erasable device.

The further scheme of this practical information is: the data storage cell of said harvester is provided with and empties control unit, empties control unit and is connected with the harvester monitoring unit.

The utility model is particularly suitable for the network that the network equipment is various and have VLAN to divide; Can central server, harvester be placed on respectively in the different subnets; And central server does not need and can communicate by letter with harvester place subnet, only needs them can get final product with the acting server communication respectively.With respect to traditional acquisition method, this method collection is in each sub-net, to carry out, and the performance data of being gathered so will be more truly, more accurate, thereby provides more in all directions, real-time monitoring.

The purpose of the utility model also can realize through following scheme: a kind of distributed capture dispatching method may further comprise the steps: 1) central server typing watch-dog and monitor control index; 2) on the central server configuration with the information of acting server and carry out authentication; 3) on the harvester configuration with the information of acting server and carry out authentication; 4) on central server, obtain the harvester tabulation, and be configured for each harvester from acting server; 5) harvester carries out the acquisition tasks scheduling and gathers; 6) on the harvester collection value is sent to acting server, and discharge the resource that this time acquisition tasks is occupied; 7) acting server sends to central server with the collection value, and central server is handled the collection value; When 8) on the central server equipment, monitor control index being done change, can modification information be sent to harvester through acting server and change.

Use said method; Can reduce the utilization of resources of single collection scheduling system, significantly improve CPU balanced tenancy problem, and image data is handled and represented and can carry out unified management at central server; So not only practice thrift the manual maintenance cost, and reduced the risk of maintenance management.

In the utility model, said step 1) is through import perhaps human-edited's method typing Network Management Equipment information and relevant informations such as monitor control index, acquisition mode thereof from EXCEL, XML, TXT automatically.As acquisition tasks unit, can guarantee that each monitor control index does not interact, thereby the collection that reaches each monitor control index is truer with each monitor control index of each equipment.

In the utility model, said step 2), 3) be the information of configuration center server and harvester and acting server respectively and carry out authentication.Wherein relate to the communication mode of central server and harvester and acting server, mainly can be divided into RMI (Remote Method Invocation, RMI), Socket mode.Directly not communicating between central server and the harvester, all is to give acting server with information to carry out alternately.Can carry out authentication behind the Configuration Agent server info, authentication mode uses the mode of authentication code, and the authentication code that central server, each harvester identified is different, thereby confirms the source and the target of message in reciprocal process.

In the utility model, said step 4) is to be disposed the information of harvester by central server, mainly disposes the equipment that each harvester gathers and the scope of monitor control index, different harvesters is distributed in Information Monitoring on request, thereby realized distributed capture.

In the utility model, said step 5) is the process how each harvester carries out collection scheduling.Harvester is minimum acquisition tasks unit with monitor control index; Each acquisition tasks is at first put in the task scheduling formation, and task scheduling queue scheduling acquisition tasks mode can adopt but be not limited to following two kinds of automatic regular polling patterns: designated period is poll pattern, fixed time point poll pattern at interval.

In the utility model, said step 6) is that harvester can send to the collection value on the acting server after step 5) collection success.After acting on behalf of the value information that server receives that harvester sends, can return the transmission information of successful to harvester, then represent to have accomplished the collection of the monitor control index in this cycle to this, will carry out the release of resources such as thread, internal memory, connection on the subsequent acquisition machine.

In the utility model, said step 7) central server gets access to after acting server passes the collection value come, and can put in storage the collection value, processing such as threshold values filtrations, alarm, thereby realize to the network equipment in time, monitor accurately.

In the utility model, said step 8) is the network equipment on the central server, when monitor control index has change, need with information synchronization to harvester, makes harvester can upgrade acquisition tasks timely.

In the utility model, step 1), 2), 3) be configuration step, can exchange arbitrarily.

In the utility model, step 4) is in step 2), 3) just can carry out after the configuration successful, so need be with 2), 3) step is prerequisite.

In the utility model, step 5), 6), 7) be the scheduling process of acquisition tasks, not interchangeable, need be with 1), 2), 3), 4) be prerequisite after the step.

In the utility model, step 8) needs 1), 2), 3), 4) be prerequisite after the step, but with 5), 6), 7) order do not conflict.

A kind of distributed capture dispatching device; Described device comprises central server, acting server, harvester and the network equipment, and central server is connected with acting server, and acting server is connected with harvester; Harvester is connected to the network equipment; Acting server is provided with maintenance device, and acting server is provided with the harvester control device, and harvester can carry out index collection to the network equipment.

In sum, adopt technique scheme: can gather the disparate networks device performance data automatically, can utilize system resource more efficiently; Improve collection scheduling more efficiently; Both practiced thrift the cost of labor management, and can understand the operation conditions of various kinds of equipment more in time, accurately again, thereby administer and maintain; Guarantee the normal operation of various kinds of equipment effectively, reduced maintenance cost.

Description of drawings

Fig. 1: the general flow chart that is the distributed capture scheduling.

Fig. 2: the schematic diagram that is the distributed capture scheduling.

Fig. 3: the interacting message figure that is the distributed capture scheduling.

Embodiment

Disclosed all characteristics in this specification, or the step in disclosed all methods or the process cannot make up by any way.

Disclosed arbitrary characteristic in this specification is only if special narration all can be replaced by other equivalences or the alternative features with similar purpose.That is, only if special narration, each characteristic is an example in a series of equivalences or the similar characteristics.

As shown in Figure 1, the whole step of distributed capture scheduling is: 1) user's typing network equipment and monitor control index information; Network equipment information comprises: Device IP, device type, system version etc.; Monitor control index information comprises: index name, index collection mode, index collection cycle etc.2) user's Configuration Agent server info on central server, harvester, information comprises: acting server IP, acting server port, connected mode etc.3) central server and harvester carry out authentication to acting server, and authentication information is through step 2) in obtain; Could communicate mutually after having only authentication success.4) information of configuration harvester on central server.This step can be utilized step 2), the acting server and the authentication information thereof that dispose in the step 3); Central server is obtained authenticated harvester tabulation from acting server; Then the monitor message of typing in the step 1) is distributed to different harvesters; And assignment information sent to each harvester through acting server, let harvester gather according to the information of distributing.5) get access to the Information Monitoring of distribution on the harvester after, will be with monitor control index as acquisition tasks, put into and gather in the middle of the formation, wait for that collection period arrives to carry out to gather.6) when carrying out collection, can utilize the information such as acquisition mode that dispose in the step 1) that monitor control index is carried out and gather.7) after execution is gathered on the harvester; Need the collection value is issued acting server; Acting server can return the sign of accepting success or not to harvester; Acting server is issued central server with the collection value more simultaneously, lets central server that the collection value is handled, to reach the purpose that central server is managed concentratedly and represented image data.8) when collecting device and acquisition index have change, can on central server, change, through acting server modification information issued harvester then.

In the utility model, distributed capture scheduling schematic diagram is as shown in Figure 2, in the utility model to the collection of the network equipment all from each harvester, central server self does not carry out concrete device data acquisition operations, only the value after gathering is focused on.Central server at first obtains authenticated harvester information from acting server, and distributes acquisition tasks for each harvester, can according to the actual conditions of harvester confirm collecting device number that each harvester needs distributes how much; Secondly central server is managed the performance situation of displaying whole system that can be more complete concentratedly to the performance data of each harvester collection.

A kind of distributed O&M data acquisition unit; Include following assembly: central server, acting server, harvester; Central server disposes monitoring unit and acting server control unit; Monitoring unit forms according to watch-dog and monitor control index setting, and setting forms the acting server control unit according to the acting server index; Dispose harvester supervision unit and data storage cell on the acting server, the setting of the harvester supervision unit on the acting server and the monitoring unit of central server adapts; Harvester is provided with collector and data temporary storage location, and the setting of the setting of collector and the harvester of acting server supervision unit adapts; Harvester is connected with acting server, and acting server is connected with central server.

The further scheme of this practical information is: said monitoring unit and acting server control unit, harvester monitoring unit and data storage cell, data temporary storage location are erasable device.

The further scheme of this practical information is: the data storage cell of said harvester is provided with and empties control unit, empties control unit and is connected with the harvester monitoring unit.

The utility model is not limited to aforesaid embodiment.The utility model expands to any new feature or any new combination that discloses in this manual, and the arbitrary new method that discloses or step or any new combination of process.

Claims (3)

1. distributed O&M data acquisition unit; Include following assembly: central server, acting server, harvester; It is characterized in that: central server disposes monitoring unit and acting server control unit; Monitoring unit forms according to watch-dog and monitor control index setting, and setting forms the acting server control unit according to the acting server index; Dispose harvester supervision unit and data storage cell on the acting server, the setting of the harvester supervision unit on the acting server and the monitoring unit of central server adapts; Harvester is provided with collector and data temporary storage location, and the setting of the setting of collector and the harvester of acting server supervision unit adapts; Harvester is connected with acting server, and acting server is connected with central server.

2. distributed according to claim 1 O&M data acquisition unit is characterized in that: said monitoring unit and acting server control unit, harvester monitoring unit and data storage cell, data temporary storage location are erasable device.

3. distributed according to claim 1 O&M data acquisition unit is characterized in that: the data storage cell of harvester is provided with and empties control unit, empties control unit and is connected with the harvester monitoring unit.

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