CN102572871A - Monitoring method and device - Google Patents

Abstract

The invention provides a monitoring method and device, wherein the monitoring method comprises the following steps that: A, a monitoring platform allocates to-be-monitored data information to each to-be-monitored equipment; and B, when monitoring the plurality of to-be-monitored equipment, the monitoring platform reads the allocated data information of the plurality of to-be-monitored equipment respectively, and sends the allocated data information to the plurality of to-be-monitored equipment through parallel communication of tunnels between the monitoring platform and the plurality of to-be-monitored equipment respectively. The monitoring method and device are adopted to realize central end centralized monitoring without adopting a polling mechanism.

Description

A kind of method for supervising and device

Technical field

The present invention relates to the mobile communication technology field, particularly a kind of method for supervising and device.

Background technology

At present, non-agency (agentless) monitor mode mainly comprises: Network Sniffing analysis monitoring mechanism and center-side centralized monitor mechanism.Wherein, Network Sniffing analysis monitoring mechanism mainly is to the network packet analysis in the application such as WEB, but its realization difficulty and limitation are bigger, also in the carrier class monitoring, does not use at present.

As for center-side centralized monitor mechanism, it is to utilize taking turn mechanism that monitored main frame is carried out data acquisition by center-side, through the data analysis of gathering is realized monitoring.This center-side centralized monitor mechanism has the following advantages: dispose than faster, flexibility is very big, can realize that almost any form is very short to the development cost and the cycle of the monitoring of any monitored main frame, monitoring.But; Because the data that center-side centralized monitor mechanism utilizes taking turn mechanism to gather monitored main frame, this can cause the picking rate of a time point very slow under the many situation of monitored host number; And picking rate is linear the attenuating along with the increase of number of devices.Therefore, a kind ofly avoid adopting taking turn mechanism to realize that the method for center-side centralized monitor is the current technical problem that needs to be resolved hurrily.

Summary of the invention

The invention provides a kind of method for supervising and device, to avoid adopting taking turn mechanism to realize the center-side centralized monitor.

Technical scheme provided by the invention comprises:

A kind of method for supervising comprises:

A, monitor supervision platform needs monitored data message to each monitored device configuration;

B; Monitor supervision platform is when monitoring a plurality of monitored devices; Read the data message that these a plurality of monitored devices are configured respectively, respectively and the tunnel between these a plurality of monitored devices is parallel sends its data messages that are configured to these a plurality of monitored devices through said monitor supervision platform.

A kind of monitor supervision platform that is applicable to monitoring comprises:

Configuration module is used for to the monitored data message of each monitored device configuration needs;

The tunnel module is used between said monitor supervision platform and each monitored device, setting up the tunnel;

Sending module; Be used for when a plurality of monitored devices are monitored; Read the data message that these a plurality of monitored devices are configured respectively, through said monitor supervision platform respectively and the tunnel between these a plurality of monitored devices send its data messages that are configured to these a plurality of monitored devices.

Can find out that by above technical scheme among the present invention, monitor supervision platform needs monitored data message to each monitored device configuration; Monitor supervision platform is when monitoring a plurality of monitored devices; Read the data message that these a plurality of monitored devices are configured respectively, respectively and the tunnel between these a plurality of monitored devices is parallel sends its data messages that are configured to these a plurality of monitored devices through said monitor supervision platform.That is to say that the present invention is different from existing center-side and concentrates acquisition monitoring mechanism to adopt taking turn mechanism to monitor, but parallel monitoring avoids adopting taking turn mechanism to realize the center-side centralized monitor;

Further; Need monitored data message owing to the present invention is directed to each monitored device configuration; Can realize through this configuration mode that thousands of monitored devices are hit and monitor to have favorable expandability, dispose characteristics such as quick, realize the carrier class centralized monitor.

Description of drawings

The basic flow sheet that Fig. 1 provides for the embodiment of the invention;

The schematic flow sheet that Fig. 2 provides for the embodiment of the invention;

The structure drawing of device that Fig. 3 provides for the embodiment of the invention.

Embodiment

In order to make the object of the invention, technical scheme and advantage clearer, describe the present invention below in conjunction with accompanying drawing and specific embodiment.

The present invention is different from existing center-side and concentrates acquisition monitoring mechanism to adopt taking turn mechanism to monitor, but parallel monitoring, specifically can be referring to flow process shown in Figure 1:

Referring to Fig. 1, the basic flow sheet that Fig. 1 provides for the embodiment of the invention.As shown in Figure 1, also flow process can comprise:

Step 101, monitor supervision platform needs monitored data message to each monitored device configuration.

In this step 101, the monitored data message of needs of monitored device configuration can be arranged in the configured list, and this configured list mainly comprises: the sign of monitored device and the monitored data message of these monitored device needs.Wherein, Monitored device needs monitored data message mainly to can be: (this monitored variable is designated as monitor data to monitored variable; Can be the relevant parameter of daily record during its concrete realization), the position at monitored variable place (is in the database such as monitored variable; Then this position is designated as database linkage information), the monitor supervision platform position that obtains this monitored variable of storage after the monitored variable (is stored in monitor supervision platform this locality like this monitored variable; Then this position can be the storage route of this monitored variable; Be also referred to as environmental variance, be stored in database like this monitored variable, then this position is designated as database linkage information), the execution path or the environmental variance of the corresponding monitored device of monitored variable.

So, among the present invention,, can monitor during monitored device in monitoring, specifically see step 102 according to the data message that this monitored device is configured when monitor supervision platform.Need monitored data message through step 101 for each monitored device configuration, can cross the monitor mode of flexible expansion monitor supervision platform.

Step 102; Monitor supervision platform is when monitoring a plurality of monitored devices; Read the data message that these a plurality of monitored devices are configured respectively, respectively and the tunnel between these a plurality of monitored devices is parallel sends its data messages that are configured to these a plurality of monitored devices through said monitor supervision platform.

In this step 102, safe Shell (SSH) agreement is observed in the tunnel between monitor supervision platform and each monitored device, and based on this, the tunnel between monitor supervision platform and each monitored device can be described as the SSH tunnel.SSH tunnel between monitor supervision platform and each monitored device was set up before this monitored device of monitor supervision platform monitoring in advance; Concrete being operating as of setting up: monitor supervision platform sends the foundation of SSH tunnel and asks to monitored device; After monitored device receives the request of setting up of SSH tunnel, set up the SSH tunnel between itself and the monitor supervision platform with monitor supervision platform.

Need to prove; Through the tunnel among the present invention; Can avoid when monitored device is sent data message, all need set up at every turn between monitor supervision platform and this monitored device authentication be connected, significantly reduce the connect hours, increased the reliability and the monitor speed of collection greatly.

So far, accomplish flow process shown in Figure 1.

In flow process shown in Figure 1; In the step 102; Monitor supervision platform through said monitor supervision platform respectively and the tunnel between these a plurality of monitored devices send its data messages that are configured to these a plurality of monitored devices and comprise: monitor supervision platform is to each monitored device; The data message that this monitored device that reads is configured is written in the corresponding parallel remote access PRSH fill order of this monitored device; After the data message that all monitored devices are configured all is written in corresponding PRSH fill order; Monitor supervision platform sends its corresponding PRSH fill orders through the tunnel between said monitor supervision platform and this a plurality of monitored devices is parallel to these a plurality of monitored devices, so that monitored device is according to the corresponding data of PRSH fill order collection that receive, and feeds back to monitor supervision platform and carries out monitoring analysis.Such as; As shown in Figure 2; There are 4 monitored devices in the monitor supervision platform below; Be followed successively by monitored device 1 to monitored device 4, if the data message that these 4 monitored devices are configured is written into respectively in PRSH fill order 1 to the PRSH fill order 4, based on this; But operation below the executed in parallel: send PRSH fill order 1 to monitored device 1 through the tunnel between monitor supervision platform and the monitored device 1; Send PRSH fill order 2 to monitored device 2 through the tunnel between monitor supervision platform 1 and the monitored device 2, send PRSH fill order 3 to monitored device 3, and send PRSH fill order 4 to monitored device 4 through the tunnel between monitor supervision platform and the monitored device 4 through the tunnel between monitor supervision platform and the monitored device 3.

Preferably; Among the present invention; The parallel exectorial quantity of PRSH of sending of may command; So; Above-mentioned monitor supervision platform is through said monitor supervision platform respectively and the tunnel between these a plurality of monitored devices is parallel sends its corresponding PRSH fill orders to these a plurality of monitored devices and can comprise: monitor supervision platform judges whether current treating is less than or equal to the parallel PRSH fill order sending threshold value N that has been provided with to the exectorial sum of PRSH that a plurality of monitored devices are sent, if, then through said monitor supervision platform respectively and the tunnel between these a plurality of monitored devices walk abreast to these a plurality of its corresponding PRSH fill orders of monitored devices transmission; Otherwise; From current PRSH fill order to be sent, choose N PRSH fill order; Confirm the monitored device that this N PRSH fill order is corresponding, utilize said monitor supervision platform and the monitored device that should confirm between the tunnel parallelly send its corresponding PRSH fill order to this monitored device of confirming.Still be example with Fig. 2, then, if the parallel PRSH fill order sending threshold value N that has been provided with is 5; Owing to add up to 4 when the PRSH of 4 monitored devices transmissions of forward direction is exectorial, therefore, can directly carry out above-mentioned parallel work-flow; And when the parallel PRSH fill order sending threshold value N that has been provided with is 3, add up to 4 because current PRSH to be sent is exectorial, based on this; Just need be from current PRSH fill order to be sent 3 of picked at random, such as, choose PRSH fill order 1 to PRSH fill order 3; Remaining sends when sending the PRSH fill order next time, afterwards, confirms the corresponding monitored device of these 3 PRSH fill orders (the in fact also monitored device for arriving); Such as; Confirm PRSH fill order 1 corresponding monitored device 1, PRSH fill order 2 corresponding monitored devices 2, PRSH fill order 3 corresponding monitored devices 3; So; But operation below the executed in parallel: send PRSH fill order 1 to monitored device 1 through the tunnel between monitor supervision platform and the monitored device 1, send PRSH fill order 2 to monitored device 2, send PRSH fill order 3 to monitored device 3 through the tunnel between monitor supervision platform and the monitored device 3 through the tunnel between monitor supervision platform 1 and the monitored device 2.

Preferably, among the present invention, after monitor supervision platform was sending the PRSH fill order, if in setting-up time, do not receive the exectorial feedback to this PRSH, it is invalid that this PRSH fill order then is set, and returns step 102.Wherein, Cause monitor supervision platform in setting-up time, not receive to the exectorial feedback of PRSH and mainly contain following two reasons: one former because monitored device execution PRSH fill order is overtime; Another reason can't arrive monitored device for the PRSH fill order; Such as, monitored device socket port is full, can not receive PRSH fill order etc. again.

Preferably; Among the present invention, monitored device is when collecting the standard output error according to the PRSH fill order that receives, and the data that this monitored device of expression is in worst state feed back to monitor supervision platform and carry out monitoring analysis; So, can make monitor supervision platform detect the mistake of monitored device operation.Through utilizing this characteristics, can some other monitoring functions of extra realization.

More than method that the embodiment of the invention is provided be described, the device that provides in the face of the embodiment of the invention is down described.

The device that the embodiment of the invention provides is mainly the monitor supervision platform that is applicable to monitoring, and is as shown in Figure 3, and this monitor supervision platform comprises:

Configuration module 301 is used for to the monitored data message of each monitored device configuration needs;

Tunnel module 302 is used between said monitor supervision platform and each monitored device, setting up the tunnel;

Sending module 303; Be used for when a plurality of monitored devices are monitored; Read the data message that these a plurality of monitored devices are configured respectively, through said monitor supervision platform respectively and the tunnel between these a plurality of monitored devices send its data messages that are configured to these a plurality of monitored devices.

In the present embodiment, the SSH agreement is observed in the tunnel that tunnel module 302 is set up.

In the present embodiment; As shown in Figure 3; Sending module 303 comprises: write submodule 3031; Be used for the arbitrary monitored device to a plurality of monitored devices, the data message that this monitored device that reads is configured is written in the corresponding parallel remote access PRSH fill order of this monitored device;

Send submodule 3032; Be used for respectively and the tunnel between these a plurality of monitored devices is parallel sends its corresponding PRSH fill orders to these a plurality of monitored devices through said monitor supervision platform; So that monitored device is according to the corresponding data of PRSH fill order collection that receive, and feeds back to monitor supervision platform and carry out monitoring analysis.

Wherein, send submodule 3032 and when concrete the realization, can comprise: judging unit 3033 is used to judge whether current treating is less than or equal to the parallel PRSH fill order sending threshold value N that has been provided with to the exectorial sum of PRSH that a plurality of monitored devices are sent; Transmitting element 3034; Be used in the judged result of judging unit 3033 when being; Through said monitor supervision platform respectively and the tunnel between these a plurality of monitored devices is parallel sends its corresponding PRSH fill orders to these a plurality of monitored devices; In the judged result of judging unit 3033 for not the time; From current PRSH fill order to be sent, choose N PRSH fill order, confirm the monitored device that this N PRSH fill order is corresponding, utilize said monitor supervision platform and the monitored device that should confirm between the tunnel parallelly send its corresponding PRSH fill order to this monitored device of confirming.

In the present embodiment, judging unit 3033 can be provided with parallel PRSH fill order sending threshold value N through sliding window is set.

So far, accomplishing apparatus structure shown in Figure 3 describes.

Can find out by above technical scheme, among the present invention,,, unify centralized monitoring method to realize carrier class through the versatility configuration in conjunction with PRSH and SSH tunneling technique.This quick, efficient, lightweight intensive data monitor supervision platform is realized very outstanding real non-agency's method for supervising, reaches excellent function autgmentability and operating flexibility.And make monitor supervision platform more can be applicable to various changeable occasions, promote the convenience and the flexibility of data acquisition monitor supervision platform.

Further; Need monitored data message owing to the present invention is directed to each monitored device configuration; Can realize through this configuration mode that thousands of monitored devices are hit and monitor to have favorable expandability, dispose characteristics such as quick, realize the carrier class centralized monitor.

The above is merely preferred embodiment of the present invention, and is in order to restriction the present invention, not all within spirit of the present invention and principle, any modification of being made, is equal to replacement, improvement etc., all should be included within the scope that the present invention protects.

Claims (10)

1. a method for supervising is characterized in that, this method comprises:

A, monitor supervision platform needs monitored data message to each monitored device configuration;

B; Monitor supervision platform is when monitoring a plurality of monitored devices; Read the data message that these a plurality of monitored devices are configured respectively, respectively and the tunnel between these a plurality of monitored devices is parallel sends its data messages that are configured to these a plurality of monitored devices through said monitor supervision platform.

2. method according to claim 1 is characterized in that, safe shell protocol is observed in the tunnel between said monitor supervision platform and each monitored device.

3. method according to claim 1 and 2 is characterized in that, among the step B, through said monitor supervision platform respectively and the tunnel between these a plurality of monitored devices send its data messages that are configured to these a plurality of monitored devices and comprise:

B1; Monitor supervision platform is to each monitored device; The data message that this monitored device that reads is configured is written in the corresponding parallel remote access PRSH fill order of this monitored device; After the data message that all monitored devices are configured all is written in corresponding PRSH fill order, execution in step B2;

B2; Monitor supervision platform sends its corresponding PRSH fill order through the tunnel between said monitor supervision platform and this a plurality of monitored devices is parallel to these a plurality of monitored devices; So that monitored device is according to the corresponding data of PRSH fill order collection that receive, and feeds back to monitor supervision platform and carry out monitoring analysis.

4. method according to claim 3 is characterized in that, this method further comprises:

Monitor supervision platform is after sending the PRSH fill order, if in setting-up time, do not receive the exectorial feedback to this PRSH, it is invalid that this PRSH fill order then is set, and returns step B.

5. method according to claim 3 is characterized in that, the transmission of step B2 comprises:

Monitor supervision platform judges whether current treating is less than or equal to the parallel PRSH fill order sending threshold value N that has been provided with to the exectorial sum of PRSH that a plurality of monitored devices are sent; If, then respectively and the tunnel between these a plurality of monitored devices is parallel sends its corresponding PRSH fill orders to these a plurality of monitored devices through said monitor supervision platform; Otherwise; From current PRSH fill order to be sent, choose N PRSH fill order; Confirm the monitored device that this N PRSH fill order is corresponding, utilize said monitor supervision platform and the monitored device that should confirm between the tunnel parallelly send its corresponding PRSH fill order to this monitored device of confirming.

6. method according to claim 3 is characterized in that, monitored device is according to the corresponding data of PRSH fill order collection that receive, and feeds back to monitor supervision platform and carry out monitoring analysis and comprise:

Monitored device is when collecting the standard output error according to the PRSH fill order that receives, and the data that this monitored device of expression is in worst state feed back to monitor supervision platform and carry out monitoring analysis.

7. a monitor supervision platform that is applicable to monitoring is characterized in that, this monitor supervision platform comprises:

Configuration module is used for to the monitored data message of each monitored device configuration needs;

The tunnel module is used between said monitor supervision platform and each monitored device, setting up the tunnel;

Sending module; Be used for when a plurality of monitored devices are monitored; Read the data message that these a plurality of monitored devices are configured respectively, through said monitor supervision platform respectively and the tunnel between these a plurality of monitored devices send its data messages that are configured to these a plurality of monitored devices.

8. monitor supervision platform according to claim 7 is characterized in that, safe shell protocol is observed in the tunnel that said tunnel module is set up.

9. according to claim 7 or 8 described monitor supervision platforms, it is characterized in that said sending module comprises:

Write submodule, be used for the arbitrary monitored device to a plurality of monitored devices, the data message that this monitored device that reads is configured is written in the corresponding parallel remote access PRSH fill order of this monitored device;

Send submodule; Be used for respectively and the tunnel between these a plurality of monitored devices is parallel sends its corresponding PRSH fill orders to these a plurality of monitored devices through said monitor supervision platform; So that monitored device is according to the corresponding data of PRSH fill order collection that receive, and feeds back to monitor supervision platform and carry out monitoring analysis.

10. monitor supervision platform according to claim 9 is characterized in that, sends submodule and comprises:

Judging unit is used to judge whether current treating is less than or equal to the parallel PRSH fill order sending threshold value N that has been provided with to the exectorial sum of PRSH that a plurality of monitored devices are sent;

Transmitting element; Be used in the judged result of said judging unit when being; Through said monitor supervision platform respectively and the tunnel between these a plurality of monitored devices is parallel sends its corresponding PRSH fill orders to these a plurality of monitored devices; In the judged result of said judging unit for not the time; From current PRSH fill order to be sent, choose N PRSH fill order, confirm the monitored device that this N PRSH fill order is corresponding, utilize said monitor supervision platform and the monitored device that should confirm between the tunnel parallelly send its corresponding PRSH fill order to this monitored device of confirming.

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