CN103152229B - Monitor control index item Dynamic Configuration - Google Patents

Abstract

The present invention is a kind of monitor control index item Dynamic Configuration, comprises the binding of configuration monitoring item and monitored item; Configuration monitoring item comprises: selection protocol, selects to be suitable for node type, selects operating system, selects attribute, and configuration obtains order, arranges return value type, arranges early warning rule, warning level and test monitoring item; Monitored item binding comprises: arrange node administration IP, and select node type, the selection of operating system, arranges voucher, and monitored item is tested, and DGAS node changes and DGAS service accepts change.Method of the present invention can be operationally that the node of different access agreement and device type adds monitored item, and is tied on specified node, and data acquisition service just can perform current monitor item, so just dynamically can increase monitor control index for network node.Have the configuration of monitored item to solve problem that different node returns results differentiation.Returned results by the configuration format of monitored item.Solve equipment variability issues in complex networks system.

Description

Dynamic configuration method for monitoring index items

Technical Field

The invention relates to a computer network management technology, in particular to monitoring for network equipment such as a switch, a router, a firewall and the like in a network node.

Background

Most of monitoring products in the market at present are network management software, which is called network management software for short, and the network management software mainly aims at monitoring network devices such as switches, routers, firewalls and the like in network nodes, but has relatively weak monitoring on small computers, hosts and storage devices. The monitoring index item is also predefined, and the monitoring index of the monitored node cannot be dynamically increased. Even if the monitoring index needs to be increased, the manufacturer technical personnel are required to perform secondary development and redeployment through testing. The main disadvantages of the prior art are as follows:

a. the monitoring index content of the small-sized machine is less, and the indexes of the host machine cannot be dynamically increased.

b. Even if the monitoring index item is increased, secondary development may be carried out by professional software research and development personnel

c. And monitoring without storage equipment indexes.

d. The method can not be combined with the operation and maintenance management of a user, and the operation and maintenance support can be better provided for the user.

e. There is no intelligent routing inspection function.

f. The support for the IT maintenance service is not enough, and the IT maintenance cost cannot be reduced.

Disclosure of Invention

The invention mainly aims to meet the requirement of dynamically adding monitoring indexes of various types of nodes in a network and configure newly added monitoring index items during operation. The newly-added monitoring index items are applied to specific monitoring nodes through monitoring item binding so as to reduce the labor cost of customer maintenance, manual inspection is replaced by the system, command operation is executed, meanwhile, the inspection frequency is improved, the intelligent inspection frequency is increased, and the hidden danger of customer IT equipment is found in advance.

In order to solve the problems, the following technical scheme is provided:

a dynamic configuration method for monitoring index items comprises the steps of configuring the binding of monitoring items and monitoring items; wherein,

the configuration monitoring item comprises:

selecting a protocol, namely selecting a network protocol which can be accessed by the monitoring equipment;

selecting an applicable node type, and classifying the monitored equipment;

an operating system is selected and the operating system,

selecting attributes defining components of different types of network nodes;

configuring an acquisition command, directly returning a return value of the command to an original value or analyzing the return value through a script, and discovering hidden dangers or fault points in equipment through the return value of the command;

setting a return value type, wherein the return value type comprises a single numerical value, a single character string, an XML text numerical value and an XML text character string, and different return value types influence the fault judgment and the return value analysis mode;

setting early warning rules, including early warning/no early warning of keyword matching success, early warning/no early warning of threshold value meeting conditions, early warning/no early warning of regular expression matching success;

early warning level, when the equipment has hidden danger or failure, defining different actions according to different early warning levels;

testing the monitoring item;

the monitoring item binding includes:

setting a node management IP, and accessing a specific protocol through an IP address;

selecting a node type, and primarily screening out basic monitoring items supported by equipment;

selecting an operating system, and acquiring all monitoring items under the operating system; when no operating system exists or the operating system is unknown, the monitoring item under the node is a monitoring item without the operating system;

setting a certificate, including setting a user name, setting a password and setting a protocol type, and performing next access on the monitored node;

determining applicable monitoring items;

testing the monitoring item, testing whether the monitoring item is really available, normally storing the monitoring item after the testing is successful, and adjusting the monitoring item by modifying the configuration item by an administrator after the testing is failed;

and after the monitoring items are bound successfully, the main program informs the DGAS of finding the node change, and the node change operation is carried out through the DGAS service. After the change is successful, the node can be normally stored and can be normally monitored in the system.

The selecting the operating system comprises the following steps: when the monitoring item is suitable for working under the operating system, the suitable operating system can be bound; when the monitoring items are bound, the monitoring items supported by the node can be filtered by different operating systems; when no operating system exists or the operating system is difficult to determine, the judgment on the operating system is ignored, and the next operation is directly carried out.

The analysis mode of the return value of the command comprises the following steps:

script analysis, namely returning information aiming at the complex command, and capturing required information in a mode of compiling an analysis script;

writing a regular expression, and finding out required information by matching the regular expression in the face of complex information;

and writing a keyword expression.

The dynamic configuration method for the monitoring index item further comprises the following steps of:

loading nodes, loading nodes to be monitored;

starting a node thread;

loading a cache node;

creating a monitoring item engine according to the node certificate;

executing the monitoring item;

and the early warning analysis service stores the analyzed result and sends the result to the early warning analysis service for analysis.

Wherein the executing the monitoring item comprises:

firstly, loading a monitoring item of a node;

sending a required command to the monitored equipment;

and matching the script, the regular expression and the keywords with the command return value to obtain the required information.

And 5.4, whether the early warning rule is met can be judged through the verification of the early warning rule. And the early warning rule can be successfully stored after being judged.

And 5.5, repeatedly executing the flow for multiple times, wherein the flow corresponds to multiple monitoring items under each monitored device.

The network nodes are classified as follows:

classifying according to the functions of the equipment, including a small computer, a PC Server, a switch, a router, a firewall and storage;

classifying according to device protocols, including SNMP, Telnet, SSH, WMI and CMD;

classifying according to an operating system, including a Linux system, a Window system and a Unix system, and not;

according to different node attributes of different types of network nodes, the composition structure of the monitoring item comprises the following contents:

a support node type;

a support node access protocol type;

a support node operating system type;

an attribute of the node type;

a method of acquiring a command for data use;

analyzing a returned result command;

returning the formatting type after the value analysis;

setting a return value early warning rule, and judging whether the return result has early warning information or not;

setting an early warning level;

and (5) monitoring type division of the items, and performing type division according to the property of the command return result.

The analysis mode of the returned result command comprises regular expression analysis, script analysis and keyword analysis; the formatting type after the return value analysis comprises a single numerical value, a character string, a set numerical value and a set character string; the types of the monitoring items comprise configuration, performance, capacity and state.

The invention has the following effects:

the system can add monitoring items for nodes with different access protocols and equipment types during operation, and bind the monitoring items to the designated nodes, so that the data acquisition service can execute the current monitoring items, and thus, monitoring indexes can be dynamically increased for the network nodes. The configuration with the monitoring items solves the problem of differentiation of returned results of different nodes. The returned results are formatted by the configuration of the monitoring item. The problem of device difference in a complex network system is solved.

Drawings

FIG. 1 is a monitoring item establishment flow;

FIG. 2 is a monitoring item binding flow;

FIG. 3 is a data collection service process flow;

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail below with reference to the accompanying drawings and specific embodiments.

The system is designed by adopting the monitoring index item to be configured independently.

The monitoring item comprises a method for acquiring data and an analysis mode. The monitoring items are bound to specific network nodes, a new monitoring index is added to the bound nodes, and in addition, the system can execute the specified monitoring items and generate the inspection report according to the inspection plan configuration of the user so as to cooperate with the daily maintenance work of an IT operation and maintenance department.

Due to differences in functions, network protocols, and operating systems of network nodes, the nodes are classified in the following list:

1) classifying according to the functions of the equipment: the system comprises a small computer, a PC Server, a switch, a router, a firewall and a memory;

2) classifying according to equipment protocols: SNMP, Telnet, SSH, WMI, CMD;

3) classified by operating system: a Linux system, a Window system and a Unix system, none;

the monitoring items are classified according to the table, so that the monitoring items can be accurately bound to specific network nodes. The bound monitoring items may be executed by a data collection service.

Since the attributes of different types of network nodes are different. For example, a small machine has a hard disk, a controller, a motherboard, a fan, etc. The design of the monitoring items is divided according to the node attributes, and the monitoring items have the following composition structure:

1) a support node type;

2) the type of the access protocol of the support node can only be selected;

3) a support node operating system type;

4) the attributes of the node type (hard disk, CPU, memory, fan, etc.);

5) a method of acquiring a command for data use;

6) analyzing a returned result command (regular, script and keyword);

7) the format type (single value, character string, set value, set character string) after the return value analysis, the set value or set character string adopts XML format, namely: < Item sub-attribute name =, "'description =,"' total value =, "/>;

8) setting a return value early warning rule, namely judging whether the return result has early warning information or not;

9) setting an early warning level;

10) types of monitoring items, including: configuration, performance, capacity, status, mainly based on the nature of the command return result.

The above is the basic constituent structure of the monitoring item. The configuration and binding operation of the monitoring items is realized by providing a user interface by the Orca operation and maintenance platform and manually completing the operation by a user.

The operation flow of the user interface of the Orca operation and maintenance platform is as follows:

firstly, monitoring item configuration flow:

the Orca system has a monitoring item concept, and the monitoring item can greatly accelerate the dynamic addition and modification of the monitoring index.

Certain rules and procedures are required for the establishment of the monitoring items.

1. Selection protocol

And establishing a protocol selected by the monitoring item and relating to the protocol which can be monitored by the monitored equipment. And the selection of the protocol can perform the filtering function when the monitoring item is bound.

2. Selecting a node type for trial

The monitored equipment can be classified by selecting the node type, and when the monitoring items are bound, the monitoring items supported by the type can be directly searched through the node type.

3. Selecting an operating system

There may be an aspect decision where the operating system is selected. When the monitoring item is suitable for working under a certain operating system, the suitable operating system can be bound. When a monitoring item is bound, the monitoring items supported under this node can be filtered out differently by the operating system. When there is no operating system or the operating system is difficult to determine, the next operation can be performed.

4. Selecting attributes

There are many components and terms in IT device, and we define each component and term, when the monitored node supports this attribute, the corresponding monitoring item under this attribute will be loaded for ITs monitoring.

5. Configuration acquisition commands

The acquisition command is configured as a core part of the monitoring item, and hidden dangers or fault points in the equipment are discovered through special commands. But the return values through the commands tend to be the same, so we normalize the command return values in three ways.

(1) Script parsing

The information returned by the complex command can capture the information required by us in a script analysis mode.

(2) Regular expression matching

The information that we need can be found by matching regular expressions in the face of complex information.

(3) Key word

For the return information we can also match by keyword.

Therefore, aiming at the complex information returned by the command, the data needed by the user can be analyzed by a plurality of means.

6. Type of return value

Often the return value types of the commands are different, such as: a single numeric value, a single string, an XML text numeric value, an XML text string, and the like. Different return value types affect the failure determination and return value analysis.

7. Setting early warning rules

The pre-warning rules can be embodied in various aspects, such as: the keyword matching is successfully early-warned/not early-warned, the threshold value meets the condition early-warned/not early-warned, and the regular expression matching is successfully early-warned/not early-warned.

8. Early warning level

When hidden danger or failure occurs to the equipment, the system can define different actions according to different early warning levels. Such as: the general early warning only sends mails, the important early warning sends mails and short messages, the serious early warning carries out short message and mail reminding in twenty-four days, and the like.

9. Test monitoring item

After the monitoring item is written, the monitoring item can be tested to test whether the monitoring item is written correctly. When the test is successful, the monitoring item can be normally used. When the test fails, the system automatically jumps to an editing page and modifies the error information until the test is successful.

Secondly, monitoring item binding flow:

1. setting node management IP

If monitoring of IT devices is to be achieved, the IP addresses of the devices must be provided, and specific protocol access can be performed through the IP addresses.

2. Selecting node types

By selecting the node type of the equipment, basic monitoring items supported by the equipment can be screened out preliminarily. Such as: minicomputers, PC-SERVER, network appliances, storage, etc. Since the settings of different types of equipment infrastructure monitoring items are also different.

3. Operating system selection

When the node selects the operating system, the node can acquire all monitoring items under the operating system.

When no operating system or the operating system is unknown, the monitoring item under the node is the monitoring item without the operating system.

4. Setting up a voucher

The certificate part comprises a user name setting, a password setting and a protocol type setting, and the monitored node can be accessed in the next step through the correct certificate.

5. Monitoring item

Due to the previous series of operations, the monitoring items suitable for this equipment have been determined. The currently available monitoring items can be viewed at this point by obtaining the monitoring item button.

6. Monitoring item testing

Although the monitoring items suitable for the equipment are determined through a series of operations, the equipment needs to be tested whether the monitoring items are really available or not because the model number of the equipment and the configuration of an operating system are different.

(1) When the test is successful, the product can be stored normally

(2) When the test fails, the administrator can adjust by modifying the configuration items.

7. DGAS node change and DGAS service acceptance change

And when the monitoring items are bound successfully, the main program informs the DGAS of finding node change, and the node change operation is carried out through DGAS service. After the change is successful, the nodes can be normally stored and can be normally monitored in the system.

The data acquisition service executes each monitoring item in the node, returns the result to the Orca operation and maintenance platform, and is processed by the early warning analysis service of the Orca operation and maintenance platform.

Thirdly, a data acquisition service processing flow:

1. loading node

The data collection service first loads the nodes that need to be monitored.

2. Starting a node thread

The problem of overhigh memory occupation caused by multithreading is solved by using only one thread for each node.

3. Load cache node

When the DGAS service accesses again after the threads required by all the nodes are distributed, the data in the cache is called to directly access, and the purpose of accelerating the access speed is achieved.

4. Creating a monitoring item engine from a node credential

The DGAS service can customize the access time interval, and the device load can be relieved by the access of different interval times.

5. Executing monitored items

(1) The monitoring item of the node needs to be loaded first.

(2) And sending the required command to the monitored equipment.

(3) And matching the script, the regular expression and the keywords with the command return value. The required information is obtained.

(4) Whether the early warning rule is met can be judged through the early warning rule verification. And the early warning rule can be successfully stored after being judged.

(5) The above series of processes are operations performed on one monitoring item, and there are often many monitoring items under each monitored device, so the above processes need to be repeatedly performed many times.

6. Early warning analysis service

And after all the monitoring items are executed, the analyzed result can be stored, and the result is sent to the early warning analysis service for analysis.

The above-mentioned embodiments are intended to illustrate the objects, aspects and advantages of the present invention, and it should be understood that the above-mentioned embodiments are only exemplary embodiments of the present invention, and are not intended to limit the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (8)

1. A dynamic configuration method for monitoring index items is characterized in that the dynamic configuration method comprises the steps of configuring the binding of monitoring items and monitoring items; wherein,

the configuration monitoring item comprises:

selecting a supporting protocol, and selecting a network protocol which can be accessed by the monitoring equipment;

selecting an applicable node type, and classifying the monitored equipment;

selecting an operating system;

selecting attributes defining components of different types of network nodes;

configuring an acquisition command, directly returning a return value of the command to an original value or analyzing the return value through a script, and discovering hidden dangers or fault points in equipment through the return value of the command;

setting a return value type, wherein the return value type comprises a single numerical value, a single character string, an XML text numerical value and an XML text character string, and different return value types influence the fault judgment and the return value analysis mode;

setting early warning rules, including early warning/no early warning of keyword matching success, early warning/no early warning of threshold value meeting conditions, early warning/no early warning of regular expression matching success;

setting an early warning level, and defining different actions according to different early warning levels when hidden dangers or faults occur to the equipment;

testing the monitoring item;

the monitoring item binding includes:

setting a node management IP, and accessing a specific protocol through an IP address;

selecting a node type, and primarily screening out basic monitoring items supported by equipment;

selecting an operating system, and acquiring all monitoring items under the operating system; when no operating system exists or the operating system is unknown, the monitoring item under the node is a monitoring item without the operating system;

setting a certificate, including setting a user name, setting a password and setting a protocol type, and performing next access on the monitored node;

binding applicable monitoring items;

testing the monitoring item, testing whether the monitoring item is really available, normally storing the monitoring item after the testing is successful, and adjusting the monitoring item by modifying the configuration item by an administrator after the testing is failed;

the method comprises the steps that a data acquisition and analysis system DGAS node changes and a data acquisition and analysis system DGAS service receives changes, when monitoring items are bound successfully, a main program informs the data acquisition and analysis system DGAS of finding the node changes, and node change operation is carried out through the data acquisition and analysis system DGAS service; after the change is successful, the nodes are normally stored and normally monitored in the system.

2. The dynamic configuration method for monitoring index items according to claim 1, wherein the selecting an operating system comprises judging: when the monitoring item is suitable for working under the operating system, the suitable operating system can be bound; when the monitoring items are bound, the monitoring items supported by the node can be filtered by different operating systems; when no operating system exists or the operating system is difficult to determine, the judgment on the operating system is ignored, and the next operation is directly carried out.

3. The dynamic configuration method for monitoring index items according to claim 1, wherein the analysis mode of the returned value of the command comprises:

script analysis, namely returning information aiming at the complex command, and capturing required information in a mode of compiling an analysis script;

writing a regular expression, and finding out required information by matching the regular expression in the face of complex information;

and writing a keyword expression.

4. A method for dynamically configuring a monitoring index according to any one of claims 1-3, wherein the method further comprises executing the monitoring term by:

loading nodes, loading nodes to be monitored;

starting a node thread;

loading a cache node;

creating a monitoring item engine according to the node certificate;

executing the monitoring item;

and the early warning analysis service stores the analyzed result and sends the result to the early warning analysis service for analysis.

5. The dynamic configuration method for monitoring index items according to claim 4, wherein the executing the monitoring items comprises:

firstly, loading a monitoring item of a node;

sending a required command to the monitored equipment;

matching the script, the regular expression and the keywords with the command return value to obtain required information;

whether the early warning rule is met or not can be judged through early warning rule verification, and the early warning rule can be successfully stored after being judged;

and repeatedly executing the processes for multiple times, wherein the processes correspond to multiple monitoring items under each monitored device.

6. The method for dynamically configuring monitoring index items according to claim 5, wherein the network nodes are classified as follows:

classifying according to the functions of the equipment, including a small computer, a PC Server, a switch, a router, a firewall and storage;

classifying according to device protocols, including SNMP, Telnet, SSH, WMI and CMD;

the system is classified according to operating systems, including a Linux system, a Window system and a Unix system.

7. The method according to claim 6, wherein the composition structure of the monitoring item includes the following contents according to different node attributes of different types of network nodes:

a support node type;

a support node access protocol type;

a support node operating system type;

an attribute of the node type;

a method of acquiring a command for data use;

analyzing a returned result command;

returning the formatting type after the value analysis;

setting a return value early warning rule, and judging whether the return result has early warning information or not;

setting an early warning level;

and (5) monitoring type division of the items, and performing type division according to the property of the command return result.

8. The dynamic configuration method for monitoring index items according to claim 7, wherein the analysis mode for the returned result command comprises regular expression analysis, script analysis and keyword analysis; the formatting type after the return value analysis comprises a single numerical value, a character string, a set numerical value and a set character string; the types of the monitoring items comprise configuration, performance, capacity and state.