CN117493119A - Intelligent server management and control method, system and readable storage medium - Google Patents

Abstract

The invention discloses a server intelligent management and control method, a system and a readable storage medium, wherein the method comprises the following steps: identifying a server application request, wherein the application request comprises a rack server request and/or a blade server request; based on the server application request, combining a preset cabinet sequence to perform identification matching to obtain a target cabinet; screening target servers based on the target cabinet to respond to the server application request, and outputting target server list details; and performing state monitoring based on the target server, so that when abnormal information occurs to the target server, switching to a standby server, wherein the switching mode comprises active switching or passive switching. The invention can reasonably distribute according to the demands of different users in a server leasing scene, can monitor and control the server in real time, and ensures normal use of the users while ensuring the safety of the equipment.

Description

Intelligent server management and control method, system and readable storage medium

Technical Field

The invention relates to the technical field of servers, in particular to an intelligent management and control method, an intelligent management and control system and a readable storage medium for a server.

Background

The server provides computing or application services for other clients (such as a PC, a smart phone, an ATM and other terminals and even large-scale equipment of a train system) in a network, and has high-speed CPU operation capability, long-time reliable operation, strong I/O external data throughput capability and better expansibility.

However, the development and operation costs of the server are also very high, so that more and more small micro enterprises adopt rented servers to carry out production and operation, and how to ensure the normal operation of the server and the normal use of the client side during renting the server is a difficult problem to ensure.

Disclosure of Invention

The invention aims to provide a server intelligent management and control method, a system and a readable storage medium, which can reasonably distribute according to the requirements of different users in a server leasing scene, monitor and control the server in real time, ensure the safety of equipment and ensure the normal use of the users.

The first aspect of the invention provides a server intelligent management and control method, which comprises the following steps:

identifying a server application request, wherein the application request comprises a rack server request and/or a blade server request;

Based on the server application request, combining a preset cabinet sequence to perform identification matching to obtain a target cabinet;

screening target servers based on the target cabinet to respond to the server application request, and outputting target server list details;

and performing state monitoring based on the target server, so that when abnormal information occurs to the target server, switching to a standby server, wherein the switching mode comprises active switching or passive switching.

In this solution, the identifying the server application request specifically includes:

obtaining server lease requirement information of a user, wherein the server lease requirement information at least comprises a server request type, a server application type and server specification information;

data extraction is carried out based on the server lease requirement information so as to identify and obtain the rack server request and/or the blade server request;

and combining to obtain the server application request based on the rack server request and/or the blade server request.

In this scheme, the target cabinet is obtained by performing recognition and matching based on the server application request in combination with a preset cabinet sequence, and specifically includes:

Acquiring a cabinet sequence preset by a machine room, wherein the cabinet sequence correspondingly comprises the position sequence of any server;

and judging different server combinations based on the server application requests, so as to obtain the target cabinet based on different server combination matching cabinet sequences, wherein the target cabinet comprises a rack-mounted server cabinet and/or a blade-type server cabinet.

In this solution, the screening the target server based on the target cabinet, in order to respond to the server application request, and output a target server list detail specifically includes:

screening different servers based on the target cabinet and the server application type and the server specification information to obtain the target server;

and extracting information based on the screened target servers to obtain target server list details and outputting the target server list details, wherein the target server list details comprise target server position information, specification information and category information.

In this solution, the state monitoring is performed based on the target server, so that when abnormal information occurs in the target server, the switching is performed to a standby server, which specifically includes:

After the target server is identified, monitoring the state of the target server by using a monitoring module arranged in a machine room, wherein the monitoring content comprises temperature monitoring, humidity monitoring and network security monitoring;

and carrying out abnormal information identification based on a preset temperature range, a preset humidity range and a network security mechanism, wherein when abnormal information is identified, the current target server is switched to be the standby server, and the identified abnormal information comprises temperature abnormality and/or humidity abnormality and/or network security abnormality.

In this scheme, the mode of switching the current target server to the standby server includes active switching or passive switching, wherein if the standby server is preset, active switching is performed, and if the standby server is not preset, passive switching is performed.

The second aspect of the present invention also provides a server intelligent management and control system, including a memory and a processor, where the memory includes a server intelligent management and control method program, and when the server intelligent management and control method program is executed by the processor, the following steps are implemented:

identifying a server application request, wherein the application request comprises a rack server request and/or a blade server request;

Based on the server application request, combining a preset cabinet sequence to perform identification matching to obtain a target cabinet;

screening target servers based on the target cabinet to respond to the server application request, and outputting target server list details;

and performing state monitoring based on the target server, so that when abnormal information occurs to the target server, switching to a standby server, wherein the switching mode comprises active switching or passive switching.

In this solution, the identifying the server application request specifically includes:

obtaining server lease requirement information of a user, wherein the server lease requirement information at least comprises a server request type, a server application type and server specification information;

data extraction is carried out based on the server lease requirement information so as to identify and obtain the rack server request and/or the blade server request;

and combining to obtain the server application request based on the rack server request and/or the blade server request.

In this scheme, the target cabinet is obtained by performing recognition and matching based on the server application request in combination with a preset cabinet sequence, and specifically includes:

Acquiring a cabinet sequence preset by a machine room, wherein the cabinet sequence correspondingly comprises the position sequence of any server;

and judging different server combinations based on the server application requests, so as to obtain the target cabinet based on different server combination matching cabinet sequences, wherein the target cabinet comprises a rack-mounted server cabinet and/or a blade-type server cabinet.

In this solution, the screening the target server based on the target cabinet, in order to respond to the server application request, and output a target server list detail specifically includes:

screening different servers based on the target cabinet and the server application type and the server specification information to obtain the target server;

and extracting information based on the screened target servers to obtain target server list details and outputting the target server list details, wherein the target server list details comprise target server position information, specification information and category information.

In this solution, the state monitoring is performed based on the target server, so that when abnormal information occurs in the target server, the switching is performed to a standby server, which specifically includes:

After the target server is identified, monitoring the state of the target server by using a monitoring module arranged in a machine room, wherein the monitoring content comprises temperature monitoring, humidity monitoring and network security monitoring;

and carrying out abnormal information identification based on a preset temperature range, a preset humidity range and a network security mechanism, wherein when abnormal information is identified, the current target server is switched to be the standby server, and the identified abnormal information comprises temperature abnormality and/or humidity abnormality and/or network security abnormality.

In this scheme, the mode of switching the current target server to the standby server includes active switching or passive switching, wherein if the standby server is preset, active switching is performed, and if the standby server is not preset, passive switching is performed.

A third aspect of the present invention provides a computer readable storage medium having embodied therein a server intelligent management method program of a machine, which when executed by a processor, implements the steps of a server intelligent management method as described in any of the above.

The intelligent management and control method, the intelligent management and control system and the readable storage medium of the server can reasonably distribute according to the requirements of different users in a server leasing scene, monitor and control the server in real time, ensure the safety of equipment and ensure the normal use of the users.

Drawings

FIG. 1 is a flow chart of a server intelligent management and control method of the present invention;

FIG. 2 shows a block diagram of a server intelligent management and control system of the present invention.

Detailed Description

In order that the above-recited objects, features and advantages of the present invention will be more clearly understood, a more particular description of the invention will be rendered by reference to the appended drawings and appended detailed description. It should be noted that, in the case of no conflict, the embodiments of the present application and the features in the embodiments may be combined with each other.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those described herein, and therefore the scope of the present invention is not limited to the specific embodiments disclosed below.

Fig. 1 shows a flowchart of a server intelligent management and control method.

As shown in fig. 1, the application discloses a server intelligent management and control method, which comprises the following steps:

s102, identifying a server application request, wherein the application request comprises a rack server request and/or a blade server request;

s104, carrying out recognition matching based on the server application request and combining with a preset cabinet sequence to obtain a target cabinet;

s106, screening target servers based on the target cabinet to respond to the server application request, and outputting target server list details;

s108, performing state monitoring based on the target server, so that when abnormal information occurs to the target server, the target server is switched to a standby server, wherein the switching mode comprises active switching or passive switching.

It should be noted that in this embodiment, the server requirements corresponding to different users are different, for example, there are different application types and different specifications of servers, so that, for example, a server allocation needs to be performed based on a request of a specific user, specifically, a server application request is identified, where the application request includes a rack server request and/or a blade server request, so that, based on the server application request, a target cabinet is obtained by identifying and matching in combination with a preset cabinet sequence, where different cabinets set in a machine room are ordered, so that the cabinet sequence is preset in the machine room, and the servers corresponding to the different cabinet sequences are different, on one hand, and on the other hand, information lookup is facilitated, and, further, after the target cabinet is obtained, a secondary screening needs to be performed based on the servers in the cabinet, so that the user requirements can be actually matched, specifically, a target server is screened based on the target cabinet to respond to the server application request, and a list of the target servers is output in synchronization, that is, each user corresponds to a group of lists, so that a pair of target servers is one-to-one is convenient, and a mode is convenient for switching a specific source is required, and a mode is required to be switched when a target is not switched, and a mode is required to be switched, or a mode is required to be switched.

According to an embodiment of the present invention, the identifying a server application request specifically includes:

obtaining server lease requirement information of a user, wherein the server lease requirement information at least comprises a server request type, a server application type and server specification information;

data extraction is carried out based on the server lease requirement information so as to identify and obtain the rack server request and/or the blade server request;

and combining to obtain the server application request based on the rack server request and/or the blade server request.

It should be noted that, in this embodiment, when a user rents a server, different requirement information is input according to own requirement parameters, specifically, the server renting requirement information at least includes a server request type, a server application type and server specification information, so that the user's server renting requirement information is first acquired, and then data extraction is performed on the server renting requirement information to identify and obtain the rack-mounted server request and/or the blade-mounted server request, where the specific application is servers of different types, so that the specific extraction of data extraction in this embodiment is the server type, and thus the server application request is obtained based on the rack-mounted server request and/or the blade-mounted server request combination.

According to an embodiment of the present invention, the target cabinet is obtained by performing identification matching in combination with a preset cabinet sequence based on the server application request, and the method specifically includes:

acquiring a cabinet sequence preset by a machine room, wherein the cabinet sequence correspondingly comprises the position sequence of any server;

and judging different server combinations based on the server application requests, so as to obtain the target cabinet based on different server combination matching cabinet sequences, wherein the target cabinet comprises a rack-mounted server cabinet and/or a blade-type server cabinet.

It should be noted that in this embodiment, different cabinets are provided in the machine room, and the positions of the servers are ordered according to any different positions, so that a preset cabinet sequence of the machine room is obtained, and position information of any server can be obtained, so that different server combinations are judged based on the server application request, and further the target cabinet is obtained based on the different server combination matching cabinet sequences, wherein the target cabinet includes a rack-mounted server cabinet and/or a blade-type server cabinet.

According to an embodiment of the present invention, the screening the target server based on the target cabinet, in response to the server application request, and outputting a target server list detail specifically includes:

Screening different servers based on the target cabinet and the server application type and the server specification information to obtain the target server;

and extracting information based on the screened target servers to obtain target server list details and outputting the target server list details, wherein the target server list details comprise target server position information, specification information and category information.

It should be noted that, in this embodiment, after different server cabinets are obtained, servers of the same type need to be screened according to server application types and server specification information to obtain a target server, specifically, different servers are screened based on the target cabinet in combination with the server application types and the server specification information to obtain the target server, and further, information extraction can be performed based on each screened target server to obtain a target server list detail, and the target server list detail includes target server position information, specification information and category information.

According to an embodiment of the present invention, the state monitoring is performed based on the target server, so that when abnormal information occurs in the target server, the target server is switched to a standby server, and the method specifically includes:

After the target server is identified, monitoring the state of the target server by using a monitoring module arranged in a machine room, wherein the monitoring content comprises temperature monitoring, humidity monitoring and network security monitoring;

and carrying out abnormal information identification based on a preset temperature range, a preset humidity range and a network security mechanism, wherein when abnormal information is identified, the current target server is switched to be the standby server, and the identified abnormal information comprises temperature abnormality and/or humidity abnormality and/or network security abnormality.

It should be noted that, in this embodiment, after determining the target server required by the current user, state monitoring is performed on the target server based on a monitoring module disposed in a machine room, where specific monitoring content includes temperature monitoring, humidity monitoring, and network security monitoring, so that abnormal information identification can be performed based on a preset temperature range, a preset humidity range, and a network security mechanism, where when abnormal information is identified, the current target server is switched to be the standby server to perform protection, so as to avoid the use of the user from having an abnormality, where the identified abnormal information includes a temperature abnormality, and/or a humidity abnormality, and/or a network security abnormality.

According to the embodiment of the invention, the mode of switching the current target server to the standby server comprises active switching or passive switching, wherein the active switching is performed if the standby server is preset, and the passive switching is performed if the standby server is not preset.

It should be noted that in this embodiment, the switching manner includes active and passive, where the active switching is performed automatically and actively, the switching is performed based on the preset standby server, and the passive switching is performed by waiting for the user command to perform the subsequent switching operation, where different switching manners and switching levels can be set according to different users, for example, in a scenario where the standby server is preset, the switching level of the corresponding user is higher than that of other users not provided with the standby server, and the active/passive switching can also be performed according to different abnormal levels of the abnormal information.

It is worth mentioning that the identifying of the abnormal information based on the preset temperature range specifically includes:

acquiring temperature data of a target server based on a temperature sensor in a monitoring module, wherein the temperature data at least comprises an operating temperature and an environmental temperature;

Comparing, based on the temperature data, in combination with a preset temperature range, wherein the comparing comprises comparing an operating temperature with a preset operating first temperature range; comparing the ambient temperature with a second temperature range of the preset environment;

extracting the operating temperature exceeding the operating first temperature range, and extracting the ambient temperature exceeding the ambient second temperature range as the temperature abnormality information.

It should be noted that, in this embodiment, the abnormality information includes temperature abnormality, specifically, the temperature sensor monitors corresponding temperature data, specifically including an operation temperature and an ambient temperature, where temperature ranges corresponding to different temperature data are different, so that comparison needs to be performed based on the temperature data in combination with corresponding preset temperature ranges, including comparing the operation temperature with the preset first temperature range; comparing the ambient temperature with a second temperature range of the preset environment; thereby extracting the operating temperature exceeding the operating first temperature range, and extracting the ambient temperature exceeding the ambient second temperature range as the temperature abnormality information.

It is worth mentioning that the identifying of the abnormal information based on the preset humidity range specifically includes:

Acquiring an air humidity value of the environment where the target server is located based on a humidity sensor in the monitoring module;

and comparing the air humidity value with a corresponding humidity range, wherein the air humidity value exceeding the humidity range is set as the humidity abnormality.

It should be noted that in this embodiment, the relationship between the network server and the electric power is very tight, the electric power is an energy source supporting base for ensuring the normal operation of the network server, the electric power equipment is usually strict for the temperature and humidity requirements of the operating environment, the overall temperature of the network server and the electric power supply of the electric power equipment can be continuously increased under the condition of higher temperature, if the temperature tolerance critical value is exceeded, the equipment can be damaged to different degrees, and even fire disasters can be caused by serious people, in this embodiment, if the humidity in the environment is too high, a large amount of water vapor can be accumulated in the network server, electric leakage accidents are easily caused, and the personal safety of users is seriously threatened, so that besides the temperature is monitored, the humidity is also required to be synchronously monitored.

It should be noted that, the identifying of the abnormal information based on the network security mechanism specifically includes:

based on the network security monitoring unit arranged in the monitoring module, the transmission data monitoring and the firewall vulnerability monitoring are carried out;

And identifying abnormal information in the monitoring result based on the network security monitoring unit to obtain the network security abnormality.

In this embodiment, since the server is leased to different users and the network itself has the feature of being interconnected and open, network security needs to be monitored, specifically, the network security monitoring unit disposed in the monitoring module monitors the transmission data of the real-time running server and the firewall loopholes, so as to identify the corresponding network security abnormality in the monitoring result, thereby performing security protection.

It should be noted that the active/passive switching is performed according to different anomaly levels of the anomaly information, which specifically includes:

comparing the temperature abnormality change rate corresponding to the temperature abnormality, if the temperature abnormality change rate is larger than the target temperature ratio, performing active switching to be a standby server, otherwise, performing passive switching;

comparing the abnormal humidity change rate corresponding to the abnormal temperature, and if the abnormal humidity change rate is larger than the target humidity rate, performing active switching to be a standby server, otherwise, performing passive switching;

and extracting an abnormal type in the network security abnormality, and if the abnormal type is a target type, performing active switching to a standby server, otherwise, performing passive switching.

In the above embodiment, it is described how to distinguish between active and passive modes, and in this embodiment, it is specifically described how to distinguish between active and passive modes, where, for temperature, humidity or network security, a time difference or type difference exists, so that a fully automatic operation can be set on the basis of manual control, for example, when the temperature exceeds a range, as abnormal information, but at this time, the amount of temperature exceeded is small, the rate of change is also small, so that, in actual application, the current server can continue to operate, and after the user receives the temperature abnormal information, the user performs operations such as temperature reduction, etc., can not actively switch to the server, and is subject to manual passive switching, and for the temperature, for example, the temperature is suddenly increased, the standby is not required to be suddenly controlled, and the standby is not required to be suddenly changed, so that the standby is required to be suddenly changed, and the standby condition is not required to be suddenly changed, because of a sudden change of temperature is required.

FIG. 2 shows a block diagram of a server intelligent management and control system of the present invention.

As shown in fig. 2, the invention discloses a server intelligent management and control system, which comprises a memory and a processor, wherein the memory comprises a server intelligent management and control method program, and the server intelligent management and control method program realizes the following steps when being executed by the processor:

identifying a server application request, wherein the application request comprises a rack server request and/or a blade server request;

based on the server application request, combining a preset cabinet sequence to perform identification matching to obtain a target cabinet;

screening target servers based on the target cabinet to respond to the server application request, and outputting target server list details;

and performing state monitoring based on the target server, so that when abnormal information occurs to the target server, switching to a standby server, wherein the switching mode comprises active switching or passive switching.

It should be noted that in this embodiment, the server requirements corresponding to different users are different, for example, there are different application types and different specifications of servers, so that, for example, a server allocation needs to be performed based on a request of a specific user, specifically, a server application request is identified, where the application request includes a rack server request and/or a blade server request, so that, based on the server application request, a target cabinet is obtained by identifying and matching in combination with a preset cabinet sequence, where different cabinets set in a machine room are ordered, so that the cabinet sequence is preset in the machine room, and the servers corresponding to the different cabinet sequences are different, on one hand, and on the other hand, information lookup is facilitated, and, further, after the target cabinet is obtained, a secondary screening needs to be performed based on the servers in the cabinet, so that the user requirements can be actually matched, specifically, a target server is screened based on the target cabinet to respond to the server application request, and a list of the target servers is output in synchronization, that is, each user corresponds to a group of lists, so that a pair of target servers is one-to-one is convenient, and a mode is convenient for switching a specific source is required, and a mode is required to be switched when a target is not switched, and a mode is required to be switched, or a mode is required to be switched.

According to an embodiment of the present invention, the identifying a server application request specifically includes:

obtaining server lease requirement information of a user, wherein the server lease requirement information at least comprises a server request type, a server application type and server specification information;

data extraction is carried out based on the server lease requirement information so as to identify and obtain the rack server request and/or the blade server request;

and combining to obtain the server application request based on the rack server request and/or the blade server request.

It should be noted that, in this embodiment, when a user rents a server, different requirement information is input according to own requirement parameters, specifically, the server renting requirement information at least includes a server request type, a server application type and server specification information, so that the user's server renting requirement information is first acquired, and then data extraction is performed on the server renting requirement information to identify and obtain the rack-mounted server request and/or the blade-mounted server request, where the specific application is servers of different types, so that the specific extraction of data extraction in this embodiment is the server type, and thus the server application request is obtained based on the rack-mounted server request and/or the blade-mounted server request combination.

According to an embodiment of the present invention, the target cabinet is obtained by performing identification matching in combination with a preset cabinet sequence based on the server application request, and the method specifically includes:

acquiring a cabinet sequence preset by a machine room, wherein the cabinet sequence correspondingly comprises the position sequence of any server;

and judging different server combinations based on the server application requests, so as to obtain the target cabinet based on different server combination matching cabinet sequences, wherein the target cabinet comprises a rack-mounted server cabinet and/or a blade-type server cabinet.

It should be noted that in this embodiment, different cabinets are provided in the machine room, and the positions of the servers are ordered according to any different positions, so that a preset cabinet sequence of the machine room is obtained, and position information of any server can be obtained, so that different server combinations are judged based on the server application request, and further the target cabinet is obtained based on the different server combination matching cabinet sequences, wherein the target cabinet includes a rack-mounted server cabinet and/or a blade-type server cabinet.

According to an embodiment of the present invention, the screening the target server based on the target cabinet, in response to the server application request, and outputting a target server list detail specifically includes:

Screening different servers based on the target cabinet and the server application type and the server specification information to obtain the target server;

and extracting information based on the screened target servers to obtain target server list details and outputting the target server list details, wherein the target server list details comprise target server position information, specification information and category information.

It should be noted that, in this embodiment, after different server cabinets are obtained, servers of the same type need to be screened according to server application types and server specification information to obtain a target server, specifically, different servers are screened based on the target cabinet in combination with the server application types and the server specification information to obtain the target server, and further, information extraction can be performed based on each screened target server to obtain a target server list detail, and the target server list detail includes target server position information, specification information and category information.

According to an embodiment of the present invention, the state monitoring is performed based on the target server, so that when abnormal information occurs in the target server, the target server is switched to a standby server, and the method specifically includes:

After the target server is identified, monitoring the state of the target server by using a monitoring module arranged in a machine room, wherein the monitoring content comprises temperature monitoring, humidity monitoring and network security monitoring;

and carrying out abnormal information identification based on a preset temperature range, a preset humidity range and a network security mechanism, wherein when abnormal information is identified, the current target server is switched to be the standby server, and the identified abnormal information comprises temperature abnormality and/or humidity abnormality and/or network security abnormality.

It should be noted that, in this embodiment, after determining the target server required by the current user, state monitoring is performed on the target server based on a monitoring module disposed in a machine room, where specific monitoring content includes temperature monitoring, humidity monitoring, and network security monitoring, so that abnormal information identification can be performed based on a preset temperature range, a preset humidity range, and a network security mechanism, where when abnormal information is identified, the current target server is switched to be the standby server to perform protection, so as to avoid the use of the user from having an abnormality, where the identified abnormal information includes a temperature abnormality, and/or a humidity abnormality, and/or a network security abnormality.

According to the embodiment of the invention, the mode of switching the current target server to the standby server comprises active switching or passive switching, wherein the active switching is performed if the standby server is preset, and the passive switching is performed if the standby server is not preset.

It should be noted that in this embodiment, the switching manner includes active and passive, where the active switching is performed automatically and actively, the switching is performed based on the preset standby server, and the passive switching is performed by waiting for the user command to perform the subsequent switching operation, where different switching manners and switching levels can be set according to different users, for example, in a scenario where the standby server is preset, the switching level of the corresponding user is higher than that of other users not provided with the standby server, and the active/passive switching can also be performed according to different abnormal levels of the abnormal information.

It is worth mentioning that the identifying of the abnormal information based on the preset temperature range specifically includes:

acquiring temperature data of a target server based on a temperature sensor in a monitoring module, wherein the temperature data at least comprises an operating temperature and an environmental temperature;

Comparing, based on the temperature data, in combination with a preset temperature range, wherein the comparing comprises comparing an operating temperature with a preset operating first temperature range; comparing the ambient temperature with a second temperature range of the preset environment;

extracting the operating temperature exceeding the operating first temperature range, and extracting the ambient temperature exceeding the ambient second temperature range as the temperature abnormality information.

It should be noted that, in this embodiment, the abnormality information includes temperature abnormality, specifically, the temperature sensor monitors corresponding temperature data, specifically including an operation temperature and an ambient temperature, where temperature ranges corresponding to different temperature data are different, so that comparison needs to be performed based on the temperature data in combination with corresponding preset temperature ranges, including comparing the operation temperature with the preset first temperature range; comparing the ambient temperature with a second temperature range of the preset environment; thereby extracting the operating temperature exceeding the operating first temperature range, and extracting the ambient temperature exceeding the ambient second temperature range as the temperature abnormality information.

It is worth mentioning that the identifying of the abnormal information based on the preset humidity range specifically includes:

Acquiring an air humidity value of the environment where the target server is located based on a humidity sensor in the monitoring module;

and comparing the air humidity value with a corresponding humidity range, wherein the air humidity value exceeding the humidity range is set as the humidity abnormality.

It should be noted that in this embodiment, the relationship between the network server and the electric power is very tight, the electric power is an energy source supporting base for ensuring the normal operation of the network server, the electric power equipment is usually strict for the temperature and humidity requirements of the operating environment, the overall temperature of the network server and the electric power supply of the electric power equipment can be continuously increased under the condition of higher temperature, if the temperature tolerance critical value is exceeded, the equipment can be damaged to different degrees, and even fire disasters can be caused by serious people, in this embodiment, if the humidity in the environment is too high, a large amount of water vapor can be accumulated in the network server, electric leakage accidents are easily caused, and the personal safety of users is seriously threatened, so that besides the temperature is monitored, the humidity is also required to be synchronously monitored.

It should be noted that, the identifying of the abnormal information based on the network security mechanism specifically includes:

based on the network security monitoring unit arranged in the monitoring module, the transmission data monitoring and the firewall vulnerability monitoring are carried out;

And identifying abnormal information in the monitoring result based on the network security monitoring unit to obtain the network security abnormality.

In this embodiment, since the server is leased to different users and the network itself has the feature of being interconnected and open, network security needs to be monitored, specifically, the network security monitoring unit disposed in the monitoring module monitors the transmission data of the real-time running server and the firewall loopholes, so as to identify the corresponding network security abnormality in the monitoring result, thereby performing security protection.

It should be noted that the active/passive switching is performed according to different anomaly levels of the anomaly information, which specifically includes:

comparing the temperature abnormality change rate corresponding to the temperature abnormality, if the temperature abnormality change rate is larger than the target temperature ratio, performing active switching to be a standby server, otherwise, performing passive switching;

comparing the abnormal humidity change rate corresponding to the abnormal temperature, and if the abnormal humidity change rate is larger than the target humidity rate, performing active switching to be a standby server, otherwise, performing passive switching;

and extracting an abnormal type in the network security abnormality, and if the abnormal type is a target type, performing active switching to a standby server, otherwise, performing passive switching.

In the above embodiment, it is described how to distinguish between active and passive modes, and in this embodiment, it is specifically described how to distinguish between active and passive modes, where, for temperature, humidity or network security, a time difference or type difference exists, so that a fully automatic operation can be set on the basis of manual control, for example, when the temperature exceeds a range, as abnormal information, but at this time, the amount of temperature exceeded is small, the rate of change is also small, so that, in actual application, the current server can continue to operate, and after the user receives the temperature abnormal information, the user performs operations such as temperature reduction, etc., can not actively switch to the server, and is subject to manual passive switching, and for the temperature, for example, the temperature is suddenly increased, the standby is not required to be suddenly controlled, and the standby is not required to be suddenly changed, so that the standby is required to be suddenly changed, and the standby condition is not required to be suddenly changed, because of a sudden change of temperature is required.

A third aspect of the present invention provides a computer readable storage medium having embodied therein a server intelligent management and control method program which, when executed by a processor, implements the steps of a server intelligent management and control method as described in any one of the preceding claims.

The intelligent management and control method, the intelligent management and control system and the readable storage medium of the server can reasonably distribute according to the requirements of different users in a server leasing scene, monitor and control the server in real time, ensure the safety of equipment and ensure the normal use of the users.

In the several embodiments provided in this application, it should be understood that the disclosed apparatus and method may be implemented in other ways. The above described device embodiments are only illustrative, e.g. the division of the units is only one logical function division, and there may be other divisions in practice, such as: multiple units or components may be combined or may be integrated into another system, or some features may be omitted, or not performed. In addition, the various components shown or discussed may be coupled or directly coupled or communicatively coupled to each other via some interface, whether indirectly coupled or communicatively coupled to devices or units, whether electrically, mechanically, or otherwise.

The units described above as separate components may or may not be physically separate, and components shown as units may or may not be physical units; can be located in one place or distributed to a plurality of network units; some or all of the units may be selected according to actual needs to achieve the purpose of the solution of this embodiment.

In addition, each functional unit in each embodiment of the present invention may be integrated in one processing unit, or each unit may be separately used as one unit, or two or more units may be integrated in one unit; the integrated units may be implemented in hardware or in hardware plus software functional units.

Those of ordinary skill in the art will appreciate that: all or part of the steps for implementing the above method embodiments may be implemented by hardware related to program instructions, and the foregoing program may be stored in a computer readable storage medium, where the program, when executed, performs steps including the above method embodiments; and the aforementioned storage medium includes: a mobile storage device, a Read-only Memory (ROM), a random access Memory (RAM, random Access Memory), a magnetic disk or an optical disk, or the like, which can store program codes.

Alternatively, the above-described integrated units of the present invention may be stored in a computer-readable storage medium if implemented in the form of software functional modules and sold or used as separate products. Based on such understanding, the technical solutions of the embodiments of the present invention may be embodied in essence or a part contributing to the prior art in the form of a software product stored in a storage medium, including several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute all or part of the methods described in the embodiments of the present invention. And the aforementioned storage medium includes: a removable storage device, ROM, RAM, magnetic or optical disk, or other medium capable of storing program code.

Claims (10)

1. The intelligent server control method is characterized by comprising the following steps of:

identifying a server application request, wherein the application request comprises a rack server request and/or a blade server request;

based on the server application request, combining a preset cabinet sequence to perform identification matching to obtain a target cabinet;

screening target servers based on the target cabinet to respond to the server application request, and outputting target server list details;

And performing state monitoring based on the target server, so that when abnormal information occurs to the target server, switching to a standby server, wherein the switching mode comprises active switching or passive switching.

2. The intelligent server control method according to claim 1, wherein the identifying the server application request specifically includes:

obtaining server lease requirement information of a user, wherein the server lease requirement information at least comprises a server request type, a server application type and server specification information;

data extraction is carried out based on the server lease requirement information so as to identify and obtain the rack server request and/or the blade server request;

and combining to obtain the server application request based on the rack server request and/or the blade server request.

3. The intelligent server management and control method according to claim 2, wherein the target cabinet is obtained by performing identification matching in combination with a preset cabinet sequence based on the server application request, specifically comprising:

acquiring a cabinet sequence preset by a machine room, wherein the cabinet sequence correspondingly comprises the position sequence of any server;

And judging different server combinations based on the server application requests, so as to obtain the target cabinet based on different server combination matching cabinet sequences, wherein the target cabinet comprises a rack-mounted server cabinet and/or a blade-type server cabinet.

4. A method for intelligently controlling a server according to claim 3, wherein the screening the target server based on the target cabinet responds to the server application request and outputs a target server list detail specifically includes:

screening different servers based on the target cabinet and the server application type and the server specification information to obtain the target server;

and extracting information based on the screened target servers to obtain target server list details and outputting the target server list details, wherein the target server list details comprise target server position information, specification information and category information.

5. The intelligent server control method according to claim 4, wherein the state monitoring is performed based on the target server, so that when abnormal information occurs in the target server, the method is switched to a standby server, and specifically includes:

After the target server is identified, monitoring the state of the target server by using a monitoring module arranged in a machine room, wherein the monitoring content comprises temperature monitoring, humidity monitoring and network security monitoring;

and carrying out abnormal information identification based on a preset temperature range, a preset humidity range and a network security mechanism, wherein when abnormal information is identified, the current target server is switched to be the standby server, and the identified abnormal information comprises temperature abnormality and/or humidity abnormality and/or network security abnormality.

6. The intelligent server control method according to claim 5, wherein the manner of switching the current target server to the standby server includes active switching or passive switching, wherein if the standby server is preset, active switching is performed, and if the standby server is not preset, passive switching is performed.

7. The intelligent server control system is characterized by comprising a memory and a processor, wherein the memory comprises a server intelligent control method program, and the server intelligent control method program realizes the following steps when being executed by the processor:

Identifying a server application request, wherein the application request comprises a rack server request and/or a blade server request;

based on the server application request, combining a preset cabinet sequence to perform identification matching to obtain a target cabinet;

screening target servers based on the target cabinet to respond to the server application request, and outputting target server list details;

and performing state monitoring based on the target server, so that when abnormal information occurs to the target server, switching to a standby server, wherein the switching mode comprises active switching or passive switching.

8. The intelligent server management and control system according to claim 7, wherein the identifying the server application request specifically includes:

obtaining server lease requirement information of a user, wherein the server lease requirement information at least comprises a server request type, a server application type and server specification information;

data extraction is carried out based on the server lease requirement information so as to identify and obtain the rack server request and/or the blade server request;

and combining to obtain the server application request based on the rack server request and/or the blade server request.

9. The intelligent server management and control system according to claim 8, wherein the target cabinet is obtained by performing identification matching in combination with a preset cabinet sequence based on the server application request, and the method specifically comprises:

acquiring a cabinet sequence preset by a machine room, wherein the cabinet sequence correspondingly comprises the position sequence of any server;

and judging different server combinations based on the server application requests, so as to obtain the target cabinet based on different server combination matching cabinet sequences, wherein the target cabinet comprises a rack-mounted server cabinet and/or a blade-type server cabinet.

10. A computer readable storage medium, characterized in that it comprises a server intelligent management and control method program, which, when executed by a processor, implements the steps of a server intelligent management and control method according to any one of claims 1 to 6.