CN107465534B

CN107465534B - Multi-dimensional hot-plug method of system module

Info

Publication number: CN107465534B
Application number: CN201710059092.4A
Authority: CN
Inventors: 王明燕
Original assignee: Beijing Si Tech Information Technology Co Ltd
Current assignee: Beijing Si Tech Information Technology Co Ltd
Priority date: 2017-01-23
Filing date: 2017-01-23
Publication date: 2021-04-16
Anticipated expiration: 2037-01-23
Also published as: CN107465534A

Abstract

The invention relates to a multi-dimensional hot plug method of a system module, which comprises the following steps: determining a base configuration of a system module; and according to the function information and the hot-pluggable processing scheme, if the automatic hot-pluggable processing scheme is selected, judging whether any service in the system module is in an abnormal state or not according to the intelligent hot-pluggable strategy of the service, storing the abnormal state result into a service abnormality detection log, and setting the functional hot-pluggable processing scheme according to the relationship between the service abnormality detection log and the functional service. The invention realizes the multi-dimensional intelligent hot plug of the system function and shields the hot plug limit, thereby avoiding the intelligent risk, and when the limit is exceeded, the system automatically recovers to use, thereby improving the efficiency and the stability of the functional hot plug.

Description

Multi-dimensional hot-plug method of system module

Technical Field

The invention relates to the technical field of system module plugging, in particular to a multi-dimensional hot plugging method of a system module.

Background

In the current internet big background, each internet service system facing the final customer has a great amount of complicated services running behind the support system, and any unknown service interruption or blockage can affect the experience of the user, so that the system is required to intelligently detect, process and friendly inform the customer.

Disclosure of Invention

The invention provides a multi-dimensional hot plug method of a system module, which is used for realizing intelligent hot plug of system functions in a multi-dimensional way through automatic monitoring or manual application of system indexes, shielding hot plug time limit, avoiding intelligent risks, automatically recovering the system when the hot plug time limit is exceeded, and improving the efficiency and stability of function plug.

The technical scheme for solving the technical problems is as follows: a multi-dimensional hot plug method of a system module comprises the following steps:

the method comprises the following steps: determining basic configuration of a system module, wherein the basic configuration comprises function information, service information, a function service relation and a service intelligent hot plug strategy;

step two: according to the function information, selecting a hot plug processing scheme for manually setting a function or automatically setting the function; when an automatic setting function hot plug processing scheme is selected, judging whether any service in the system module is in an abnormal state or not according to the service intelligent hot plug strategy, if so, executing a third step, and if not, executing a fourth step;

step three: storing the result of the abnormal state into a service abnormality detection log, and setting a functional hot plug processing scheme according to the service abnormality detection log and the functional service relationship;

step four: and performing hot plug on the service in the non-abnormal state according to the corresponding function hot plug scheme in the intelligent hot plug strategy of the service.

The invention has the beneficial effects that: the method can be used for carrying out hot plug processing on any function in the system module through manual setting on one hand, and can also be used for carrying out hot plug processing on any function in the system module intelligently according to a service intelligent hot plug strategy, a service detection result and multi-parameter automatic analysis of a function service relation on the other hand, so that multi-dimensional function hot plug processing on the system module is realized without starting and stopping the system.

On the basis of the technical scheme, the invention can be further improved as follows.

Further, the second step is specifically realized as follows: when a manual setting function hot plug processing scheme is selected, adding information is manually input according to the function information, and the function hot plug processing scheme corresponding to the adding information is stored in a database of the function hot plug scheme table; when the automatic setting function hot plug processing scheme is selected, the peripheral client system periodically detects the service in the system module, obtains and stores the detection parameter value, compares the detection parameter value with the parameter in the service intelligent hot plug strategy, and judges whether the corresponding service is in an abnormal state, if so, the third step is executed, and if not, the fourth step is executed.

Further, the third step is specifically realized as follows: and storing the result of the abnormal state into a service abnormality detection log, reading the service abnormality detection log, the intelligent hot plug strategy of the service and the functional service relationship, inquiring a functional hot plug scheme corresponding to the service in the intelligent hot plug strategy of the service according to the service abnormality detection log to obtain an actual functional hot plug scheme of the service abnormality, generating a new functional hot plug processing scheme by combining the functional service relationship, and storing the new functional hot plug processing scheme into a database of a functional hot plug scheme table.

Further, the method further comprises a fifth step, and the fifth step is specifically realized as follows: inputting any one of the function information, reading a function hot plug processing scheme in a working state, inputting the next function information if the function hot plug processing scheme corresponding to the input function information does not exist, outputting the corresponding function hot plug processing scheme and inputting the next function information if the function hot plug processing scheme corresponding to the function information exists, and repeating the fifth step until any one of the functions in the function information is read and detected and shows the state of unavailable functions to a client.

Further, the method further comprises a sixth step, and the sixth step is specifically realized as follows: reading out a functional hot plug processing scheme meeting the actual requirements of a client according to the actual requirements of the client, and automatically modifying the functional hot plug processing scheme when the functional hot plug processing scheme is selected to be closed.

The invention has the further beneficial effects that: on one hand, the peripheral client system obtains the available condition of the current function through the function availability detection service, if the current function is unavailable, the function hot plug processing scheme can be manually set or modified, and the hot plug efficiency and stability are improved; on the other hand, the operator can visually check the hot plug operation scheme and the service detection log of any function in the system module so as to know the running condition of the system module, and after the problem is solved in time and before the system does not automatically complete the function on-line, the operator can manually intervene to manually set the function of automatic off-line for on-line, so that the quality of the user experience system process is improved.

The invention also provides a multi-dimensional hot-plug system of the system module, which comprises the following steps: the system comprises a function hot plug scheme management module, a service detection result storage service module and a function hot plug processing module;

the function hot plug scheme management module is used for manually adding a function hot plug processing scheme;

the service detection result storage service module is used for detecting and storing a service abnormity detection result;

and the function hot plug processing module is used for generating a function hot plug processing scheme according to the service abnormity detection result, the service hot plug strategy and the function service relationship.

The invention has the beneficial effects that: the system can realize manual setting in the function hot plug scheme management module on one hand, carry out hot plug processing on any function in the system module, on the other hand, the service module can be stored through the service detection result, the function hot plug processing module can carry out hot plug processing on any function in the system module automatically and intelligently according to the service intelligent hot plug strategy, the service detection result, the function service relation and other multi-parameters, and multi-dimensional function hot plug can be realized on the system module under the condition that the system is not started or stopped.

Further, the function hot plug scheme management module is specifically configured to receive manually input addition information when selecting to manually set a function hot plug processing scheme, and store the function hot plug processing scheme corresponding to the addition information in a database of the function hot plug scheme table;

the service detection result storage service module is specifically configured to, when an automatic setup function hot plug processing scheme is selected, compare a detection parameter value input by the peripheral client system with a parameter in the service intelligent hot plug policy and determine whether a corresponding service is in an abnormal state, and store an abnormal detection result corresponding to the service in a database of a service abnormal detection log, where the service detection result storage service module includes a service abnormal detection log table.

Further, the functional hot plug processing module is specifically configured to read the service abnormality detection log, the intelligent hot plug policy for services, and the functional service relationship, and query a functional hot plug scheme corresponding to the service in the intelligent hot plug policy for services according to the service abnormality detection log to obtain an actual functional hot plug scheme for the service abnormality, and generate a new functional hot plug processing scheme in combination with the functional service relationship, and store the new functional hot plug processing scheme in a database of a functional hot plug scheme table.

Further, the multi-dimensional hot plug system further includes a function availability detection service module, where the function availability detection service module is specifically configured to input any one of the function information, read a function hot plug processing scheme in a working state, input next function information if there is no function hot plug processing scheme corresponding to the input function information, output a corresponding function hot plug processing scheme if there is a function hot plug processing scheme corresponding to the function information, input next function information, and repeat the fifth step until any one of the function information is read and detected and shows a state of an unavailable function to a client.

Furthermore, the hot plug operation management module also comprises a service detection result query module, wherein the service detection result query module is used for querying a functional hot plug processing scheme according to the actual requirements of customers; the functional hot plug scheme management module is further specifically configured to read out a functional hot plug processing scheme meeting actual requirements of the customer from a database of the functional hot plug scheme table according to the actual requirements of the customer, and automatically modify the functional hot plug processing scheme when the functional hot plug processing scheme is selected to be closed, wherein the functional hot plug scheme management module includes a functional hot plug scheme table.

The invention has the further beneficial effects that: on one hand, the peripheral client system obtains the available condition of the current function through the function availability detection service module, if the current function is unavailable, the function hot plug processing scheme can be manually set or modified through the function hot plug scheme management module, and the hot plug efficiency and stability are improved; on the other hand, an operator can visually check the hot plug operation scheme and the service detection log of any function in the system module through the service detection result query module and the function availability detection service module to know the running condition of the system module, and after the problem is solved in time and before the system does not automatically complete the function on-line, the operator can manually intervene and manually set the function of automatic off-line through the function hot plug scheme management module to be on-line, so that the quality of the user experience system process is improved.

Drawings

FIG. 1 is a schematic flow chart of a multidimensional hot plug method for a system module according to an embodiment of the present invention;

FIG. 2 is a schematic flow chart illustrating the flow of information in a multi-dimensional hot plug method for the system module shown in FIG. 1;

fig. 3 is a block diagram illustrating a multi-dimensional hot plug system of system modules according to an embodiment of the present invention.

Detailed Description

The principles and features of this invention are described below in conjunction with the following drawings, which are set forth by way of illustration only and are not intended to limit the scope of the invention.

As shown in fig. 1, a method for multi-dimensional hot plug of a system module includes:

determining the basic configuration of a system module, wherein the basic configuration comprises function information, service information, a function service relation and a service intelligent hot plug strategy;

200, selecting a hot plug processing scheme for manually setting functions or automatically setting the functions according to the function information; when the automatic setting function hot plug processing scheme is selected, judging whether any service in the system module is in an abnormal state according to the service intelligent hot plug strategy, if so, executing the step 300, and if not, executing the step 400;

300, storing the result of the abnormal state into a service abnormality detection log, and setting a functional hot plug processing scheme according to the service abnormality detection log and the functional service relationship;

and 400, performing hot plug on the service in the non-abnormal state according to the corresponding function hot plug scheme in the intelligent hot plug strategy of the service.

Specifically, in this embodiment, the service intelligent hot plug policy in step 100 may be: for example, if the success rate of a certain functional service is 50%, the service is suspended for 20 minutes, and if the success rate is 60%, the service is suspended for 10 minutes.

The specific implementation of step 200 is: when the manual setting of the function hot plug processing scheme is selected, adding information is manually input according to the function information, and the function hot plug processing scheme corresponding to the adding information is stored in a database of a function hot plug scheme table; when the automatic setting function hot plug processing scheme is selected, the peripheral client system periodically detects the service in the system module, obtains and stores the detection parameter value, compares the detection parameter value with the parameter in the service intelligent hot plug strategy, and judges whether the corresponding service is in an abnormal state, if so, the step 300 is executed, and if not, the step 400 is executed.

The specific implementation of step 300 is: and storing the result of the abnormal state into a service abnormality detection log, reading the service abnormality detection log, the service intelligent hot plug strategy and the function service relationship through a packaged JDBC method, inquiring a function hot plug scheme corresponding to the service in the service intelligent hot plug strategy according to the service abnormality detection log to obtain an actual function hot plug scheme with the abnormal service, generating a new function hot plug processing scheme by combining the function service relationship, and storing the new function hot plug processing scheme into a database of a function hot plug scheme table through the packaged JDBC method.

It should be noted that the multidimensional hot plug method may further include step 500, and the specific implementation of step 500 is: inputting any function information, reading a function hot plug processing scheme in a working state through a packaged JDBC method, inputting next function information if the function hot plug processing scheme corresponding to the input function information does not exist, outputting the corresponding function hot plug processing scheme if the function hot plug processing scheme corresponding to the function information exists, inputting next function information, and repeating the step 500 until any function in the function information is read and detected and shows the state of unavailable functions to a client.

It should be noted that the multidimensional hot plug method may further include step 600, and the specific implementation of step 600 is: in the functional hot-plug scheme management module, when a query condition is input, the query condition is transmitted to a background java class through a JSP page, a functional hot-plug scheme meeting the query condition is read out from a database of a functional hot-plug scheme table through an encapsulated JDBC method, when the functional hot-plug scheme is selected to be closed, the closing request and corresponding parameters are transmitted to the background java class through the JSP page, and the functional hot-plug scheme is automatically modified through the encapsulated JDBC method.

It should be noted that, the method is based on the B/S structure of J2EE, and the corresponding basic configuration information includes: function information, service information, function service relationship and service intelligent hot plug strategy. By combining the service anomaly detection log and the functional hot plug scheme table, the information flow direction corresponding to the method is as shown in fig. 2, and the functional service relationship is further determined according to the determined functional information and the service information; according to the function information, a function hot plug processing scheme can be manually set, and a service intelligent hot plug strategy can be set according to the function service relationship, so that an abnormal record in a service abnormal detection log can be obtained through intelligent detection; and automatically and intelligently setting a function hot plug processing scheme according to the service abnormity detection log, the function service relation and the service intelligent hot plug strategy to obtain a function hot plug scheme table.

The system module is plugged and pulled in a limited time mode in multiple modes such as intelligent discovery and manual setting of abnormal service. On one hand, operators can visually check the hot plug operation scheme and the service detection log of the system function to know the running condition of the system, and in addition, after the problem is solved in time, the operators can manually intervene to manually set the automatic off-line function before the system does not automatically complete the function on-line; on the other hand, the peripheral client system acquires the availability of the current function through the function availability detection service, and if the current function is unavailable, the unavailable reason returned by the service is displayed to the interface through escape. According to the scheme, flexible and convenient hot plug processing such as automatic intelligent detection and manual hot plug setting is carried out on the system module under the condition that the system is not started or stopped, and multi-dimensional functional hot plug is realized.

The multi-dimensional hot plug method is successfully applied to the Hockey network hall system. Particularly, the method is successfully implemented in a personal center business part of a mobile headquarters, has good effect, and flexibly, quickly and stably solves the hot plug problem of services and functions with 31-province and millions of click rates every day.

As shown in fig. 3, a multi-dimensional hot-plug system of system modules includes: the hot plug operation management module and the hot plug back-end service module. Wherein the content of the first and second substances,

the hot plug operation management module comprises a function hot plug scheme management module and a service detection result query module, wherein the function hot plug scheme management module is used for querying a function hot plug scheme, closing a working function hot plug scheme and adding the function hot plug scheme, and the service detection result query module is used for querying a service abnormity detection result log. The hot plug back-end service module comprises a function availability detection service module, a service detection result storage service module and a function hot plug processing module, wherein the function availability detection service module is used for judging whether functions are available and providing display for peripheral client systems, the service detection result storage service module is used for storing service abnormity detection results, and the function hot plug processing module is used for generating a function hot plug scheme according to the service abnormity detection results, a service hot plug strategy and a function service relationship.

Specifically, in this embodiment, the functional hot plug and unplug scheme management module is configured to, when a query condition is input, read out a functional hot plug scheme meeting the query condition from a database of the functional hot plug scheme table, and automatically modify the functional hot plug scheme when the functional hot plug scheme is selected to be closed; and when the adding information is input on the interface, storing the function hot plug scheme corresponding to the adding information into a database of the function hot plug scheme table, wherein the function hot plug scheme management module comprises the function hot plug scheme table. And the service detection result query module is used for querying the abnormal state record in the service detection result storage service module according to the input query condition. And the service detection result storage service module is used for comparing a detection parameter value input by the peripheral client system with the parameter configuration in the intelligent hot plug strategy of the service, judging whether the corresponding service is in an abnormal state, and storing the detection result of the service into a database of a service abnormality detection log, wherein the service detection result storage service module comprises a service abnormality detection log table. The functional hot plug processing module is specifically used for reading the service abnormality detection log, the service intelligent hot plug strategy and the functional service relationship, inquiring the intelligent hot plug strategy of the corresponding service in the service intelligent hot plug strategy according to the service abnormality detection log, deducing a hot plug scheme with abnormal service, generating a new functional hot plug processing scheme by combining the functional service relationship, and storing the new functional hot plug processing scheme into a database of a functional hot plug scheme table.

It should be noted that the system basic configuration corresponding to the present system includes: the system comprises a function information table for recording function information, a service information table for recording service information, a function service relation table for recording function service relation information, a detection critical value for recording whether the service is abnormal and a service intelligent hot plug strategy table of a corresponding suspension strategy.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. A multi-dimensional hot plug method of a system module is characterized by comprising the following steps:

2. The method for multi-dimensional hot plug of a system module according to claim 1, wherein the second step is implemented as: when a manual setting function hot plug processing scheme is selected, manually inputting adding information according to the function information, and storing the function hot plug processing scheme corresponding to the adding information into a database of a function hot plug scheme table; when the automatic setting function hot plug processing scheme is selected, the peripheral client system periodically detects the service in the system module, obtains and stores the detection parameter value, compares the detection parameter value with the parameter in the service intelligent hot plug strategy, and judges whether the corresponding service is in an abnormal state, if so, the third step is executed, and if not, the fourth step is executed.

3. The method for multi-dimensional hot plug of a system module according to claim 2, wherein the third step is implemented as: and storing the result of the abnormal state into a service abnormality detection log, reading the service abnormality detection log, the intelligent hot plug strategy of the service and the functional service relationship, inquiring a functional hot plug scheme corresponding to the service in the intelligent hot plug strategy of the service according to the service abnormality detection log to obtain an actual functional hot plug scheme of the service abnormality, generating a new functional hot plug processing scheme by combining the functional service relationship, and storing the new functional hot plug processing scheme into a database of a functional hot plug scheme table.

4. The method for multi-dimensional hot plug of a system module according to any one of claims 1 to 3, further comprising a fifth step, wherein the fifth step is implemented as: inputting any one of the function information, reading a function hot plug processing scheme in a working state, inputting the next function information if the function hot plug processing scheme corresponding to the input function information does not exist, outputting the corresponding function hot plug processing scheme and inputting the next function information if the function hot plug processing scheme corresponding to the function information exists, and repeating the fifth step until any one of the functions in the function information is read and detected and shows the state of unavailable functions to a client.

5. The method for multi-dimensional hot plug of a system module according to claim 4, further comprising a sixth step, wherein the sixth step is implemented as: reading out a functional hot plug processing scheme meeting the actual requirements of a client according to the actual requirements of the client, and automatically modifying the functional hot plug processing scheme when the functional hot plug processing scheme is selected to be closed.