CN115391140A - Abnormal state processing method of server liquid leakage detection device and related components - Google Patents

Abstract

The application discloses an abnormal state processing method, an abnormal state processing device, abnormal state processing equipment and an abnormal state processing medium of a server liquid leakage detection device, and relates to the technical field of computers, wherein the method comprises the following steps: acquiring the current signal state of a current leakage detection line of a preset server leakage detection device by using a preset complex programmable logic device; if the current signal state meets a preset abnormal condition, generating a corresponding preset abnormal state instruction to be processed; and acquiring abnormal state processing corresponding to the preset abnormal state to-be-processed instruction, and then executing the abnormal state processing. Through the scheme, the current signal state of the current leakage detection line of the preset server leakage detection device is obtained by utilizing the preset complex programmable logic device, namely, the state of the leakage detection device can be monitored, if the current signal state meets the preset abnormal condition, a corresponding preset abnormal state to-be-processed instruction is generated, so that the corresponding abnormal state processing is obtained and executed, and the normal operation of the server leakage detection device is ensured.

Description

Abnormal state processing method of server liquid leakage detection device and related components

Technical Field

The invention relates to the technical field of computers, in particular to an abnormal state processing method, device, equipment and medium for a server liquid leakage detection device.

Background

In the development mileage of the server, the heat dissipation technology has a technical bottleneck which is difficult to break through, the integration level of a server chip is improved, the power consumption of matched equipment is increased, the requirement on heat dissipation is higher and higher, the existing popular air cooling heat dissipation has the defects, and the existing server development has certain limitations, so the liquid cooling heat dissipation method is also very important. The cold plate type liquid cooling server uses fluid as a medium for transferring heat, the heat fluid is circularly transferred after being cooled, the liquid cooling plate is connected with a Central Processing Unit (CPU) and a Graphics Processing Unit (GPU) chip device, a liquid cooling pipe is connected with a refrigeration device of a Compact Distribution Unit (CDU), the heat is transferred through the fluid, the temperature of the chip is ensured by circulation after cooling, the server is used as a high-power device, the liquid cooling pipe is matched, the flowing liquid refrigeration has liquid leakage risks, the liquid leakage risks influence the work of the machine, damage the machine, cause the power problem and the like, and therefore, whether the liquid leakage risks exist in a heat dissipation system of the server or not is very important to monitor whether the liquid leakage risks exist or not in real time by using the liquid leakage detection device.

At present, utilize the liquid-cooling pipe and collocation weeping detection line to constitute weeping detection device, weeping detection device mainly is used for detecting whether the machine weepes, can in time make the weeping handle the action correspondingly under the weeping circumstances, and when weeping detection line of weeping detection device is not on the throne or under the abnormal condition, can't detect and handle the weeping unusual, in the weeping detection device use, the machine can't real time monitoring to the change of weeping detection line on the throne state of weeping detection device, weeping detection device can not make timely processing under the abnormal condition on the throne, when the weeping takes place, the server can't make the weeping handle the action, lead to the machine unusual.

In summary, how to monitor the state of the leakage detection device and process the abnormal state to ensure the normal operation of the leakage detection device of the server is a problem to be solved in the field.

Disclosure of Invention

In view of the above, an object of the present invention is to provide an abnormal state processing method, apparatus, device and medium for a server leakage detection apparatus, which can monitor the state of the leakage detection apparatus and process the abnormal state to ensure that the server leakage detection apparatus operates normally. The specific scheme is as follows:

in a first aspect, the present application discloses an abnormal state processing method for a server leakage detection apparatus, which is applied to a preset baseboard management controller, and includes:

acquiring the current signal state of a current leakage detection line of a preset server leakage detection device by using a preset complex programmable logic device;

if the current signal state meets a preset abnormal condition, generating a corresponding preset abnormal state to-be-processed instruction;

and acquiring abnormal state processing corresponding to the preset abnormal state to-be-processed instruction, and then executing the abnormal state processing.

Optionally, after the current signal state of the current leakage detection line of the server leakage detection device is obtained by using the preset complex programmable logic device, the method further includes:

judging whether the current signal state meets a preset abnormal condition or not;

and if not, acquiring the next signal state of the current leakage detection line by using the preset complex programmable logic device based on a preset time interval.

Optionally, before the step of obtaining the next signal state of the preset current leakage detection line by using the preset complex programmable logic device based on the preset time interval, the method further includes:

and acquiring the load state of the current server, and determining the preset time interval based on the load state so that the preset complex programmable logic device can acquire the next signal state of the current leakage detection line.

Optionally, the obtaining of the abnormal state processing corresponding to the preset abnormal state to-be-processed instruction, and then after the executing of the abnormal state processing, further includes:

determining a next liquid leakage detection line of the preset server liquid leakage detection device based on a preset polling sequence;

and updating the next liquid leakage detection line to the current liquid leakage detection line, and skipping to the step of acquiring the current signal state of the current liquid leakage detection line of the preset server liquid leakage detection device by using the preset complex programmable logic device.

Optionally, if the current signal state meets a preset exception condition, generating a corresponding preset exception state to-be-processed instruction includes:

and if the current signal state is a preset non-in-place state, generating a corresponding preset abnormal state instruction to be processed.

Optionally, if the current signal state meets a preset exception condition, generating a corresponding preset exception state instruction to be processed includes:

if the current signal state is a preset in-place state, judging whether the current liquid leakage detection line is in a preset failure state;

and if the current liquid leakage detection line is judged to be in the preset failure state, generating a corresponding preset abnormal state to-be-processed instruction.

Optionally, before the obtaining of the current signal state of the current liquid leakage detection line of the preset server liquid leakage detection device by using the preset complex programmable logic device, the method further includes:

and setting a corresponding preset state monitoring partition based on a preset server leakage detection device, and adding a state monitoring column corresponding to the preset state monitoring partition to a page corresponding to the preset substrate management controller so as to obtain the current signal state of the current leakage detection line of the preset server leakage detection device returned by the preset complex programmable logic device from the state monitoring column.

In a second aspect, the present application discloses an abnormal state processing apparatus for a server leakage detection apparatus, which is applied to a preset baseboard management controller, and includes:

the signal state acquisition module is used for acquiring the current signal state of the current leakage detection line of the preset server leakage detection device by using a preset complex programmable logic device;

the instruction generating module is used for generating a corresponding instruction to be processed in a preset abnormal state if the current signal state meets a preset abnormal condition;

and the execution module is used for acquiring the abnormal state processing corresponding to the preset abnormal state to-be-processed instruction and then executing the abnormal state processing.

In a third aspect, the present application discloses an electronic device, comprising:

a memory for storing a computer program;

and a processor for executing the computer program to implement the steps of the method for processing the abnormal state of the server leakage detection device disclosed in the foregoing.

In a fourth aspect, the present application discloses a computer readable storage medium for storing a computer program; wherein the computer program, when executed by a processor, implements the steps of the method for handling an abnormal state of a server leakage detection apparatus as disclosed above.

Therefore, the current signal state of the current leakage detection line of the preset server leakage detection device is obtained by using the preset complex programmable logic device; if the current signal state meets a preset abnormal condition, generating a corresponding preset abnormal state to-be-processed instruction; and acquiring abnormal state processing corresponding to the preset abnormal state to-be-processed instruction, and then executing the abnormal state processing. Therefore, the current signal state of the current leakage detection line of the preset server leakage detection device is obtained by using the preset complex programmable logic device, that is, the state of the leakage detection device can be monitored, if the current signal state meets the preset abnormal condition, that is, the state of the leakage detection device is an abnormal state, a corresponding preset abnormal state to-be-processed instruction is generated, so that abnormal state processing corresponding to the preset abnormal state to-be-processed instruction is obtained and executed, and the normal operation of the server leakage detection device is ensured.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the embodiments or the prior art descriptions will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a flowchart of an abnormal state processing method of a server leakage detection apparatus disclosed in the present application;

fig. 2 is a flowchart of an abnormal state processing method of a specific server leakage detection apparatus according to the present disclosure;

FIG. 3 is a flowchart illustrating an abnormal state processing method of a specific server leakage detection apparatus according to the present disclosure;

FIG. 4 is a schematic diagram illustrating abnormal state handling of an exemplary server leakage detection apparatus disclosed herein;

fig. 5 is a schematic structural diagram of an abnormal state processing device of a server leakage detection device disclosed in the present application;

fig. 6 is a block diagram of an electronic device disclosed in the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the development mileage of the server, the heat dissipation technology has a technical bottleneck which is difficult to break through, the integration level of a server chip is improved, the power consumption of matched equipment is increased, the requirement on heat dissipation is higher and higher, the existing popular air cooling heat dissipation has the defects, and the existing server development has certain limitations, so the liquid cooling heat dissipation method is also very important. The cold plate type liquid cooling server utilizes fluid as a medium for transferring heat, the heat is transferred in a circulating mode after the heat fluid is cooled, the liquid cooling plate is connected with a CPU and a GPU chip device, a liquid cooling pipe is connected with a CDU refrigeration device, the heat is transferred through the fluid, the temperature of the chip is guaranteed in a circulating mode after cooling, the server serves as high-power equipment, the liquid cooling pipe is matched, liquid leakage risks exist in flowing liquid refrigeration, the liquid leakage risks influence the work of a machine, damage to the machine, cause power problems and the like, and therefore whether the liquid leakage risks exist in a heat dissipation system of the server is monitored by the liquid leakage detection device in real time is very important.

At present, utilize the liquid-cooling pipe and collocation weeping detection line to constitute weeping detection device, weeping detection device mainly is used for detecting whether the machine weepes, can in time make the weeping handle the action correspondingly under the weeping circumstances, and when weeping detection line of weeping detection device is not on the throne or under the abnormal condition, can't detect and handle the weeping unusual, in the weeping detection device use, the machine can't real time monitoring to the change of weeping detection line on the throne state of weeping detection device, weeping detection device can not make timely processing under the abnormal condition on the throne, when the weeping takes place, the server can't make the weeping handle the action, lead to the machine unusual.

Therefore, the abnormal state processing scheme of the server leakage detection device is correspondingly provided, the state of the leakage detection device can be monitored, the abnormal state is processed, and normal operation of the server leakage detection device is guaranteed.

Referring to fig. 1, an embodiment of the present application discloses an abnormal state processing method for a server leakage detection apparatus, which is applied to a preset substrate management controller, and includes:

step S11: and acquiring the current signal state of the current leakage detection line of the preset server leakage detection device by using a preset complex programmable logic device.

In this embodiment, before the step of obtaining the current signal state of the current liquid leakage detection line of the preset server liquid leakage detection apparatus by using the preset complex programmable logic device, the method further includes: and setting a corresponding preset state monitoring partition based on a preset server leakage detection device, and adding a state monitoring column corresponding to the preset state monitoring partition to a page corresponding to the preset substrate management controller so as to obtain the current signal state of the current leakage detection line of the preset server leakage detection device returned by the preset complex programmable logic device from the state monitoring column. For example, the preset state monitoring partition is a mainboard leakage detection line state monitoring area and a GPU equipment leakage detection line state monitoring area, and then a corresponding mainboard leakage detection line state monitoring column and a corresponding GPU equipment leakage detection line state monitoring column are added to a page corresponding to the preset baseboard management controller. It can be understood that, a signal monitoring sensor may be added at a position corresponding to each liquid leakage detection line of the liquid leakage detection apparatus, the signal monitoring sensor feeds back a current signal state of a detected current liquid leakage detection line to a preset Complex Programmable Logic Device (CPLD), and then the preset Complex Programmable Logic Device sends the current signal state to a preset substrate management Controller, that is, the current signal state of the current liquid leakage detection line is monitored through real-time interaction between the preset Complex Programmable Logic Device and a preset substrate management Controller (BMC).

Step S12: and if the current signal state meets a preset abnormal condition, generating a corresponding preset abnormal state to-be-processed instruction.

In this embodiment, if the current signal state is a preset non-in-place state, a corresponding preset abnormal state to-be-processed instruction is generated; and if the current signal state is a preset in-place state, judging whether the current liquid leakage detection line is in a preset failure state, and if the current liquid leakage detection line is in the preset failure state, generating a corresponding preset abnormal state to-be-processed instruction. The preset abnormal state to-be-processed instruction can be a preset alarm, abnormal information can also be preset, the preset abnormal state to-be-processed instruction is issued in time, and when the preset abnormal state to-be-processed instruction is issued, the current signal state and the related information of the current liquid leakage detection line can be recorded in a preset log, so that corresponding processing can be performed subsequently based on the related record of the preset log.

Step S13: and acquiring abnormal state processing corresponding to the preset abnormal state to-be-processed instruction, and then executing the abnormal state processing.

In this embodiment, when the abnormal state processing corresponding to the preset abnormal state to-be-processed instruction is obtained, the abnormal state processing is executed, for example, when an administrator maintains the current liquid leakage detection line based on the preset abnormal state to-be-processed instruction, that is, the abnormal state of the current liquid leakage detection line is already solved, and the current liquid leakage detection line can be continuously monitored, the preset substrate management controller may release the warning of the current liquid leakage detection line and continue monitoring.

Therefore, the current signal state of the current leakage detection line of the preset server leakage detection device is obtained by using the preset complex programmable logic device; if the current signal state meets a preset abnormal condition, generating a corresponding preset abnormal state to-be-processed instruction; and acquiring abnormal state processing corresponding to the preset abnormal state to-be-processed instruction, and then executing the abnormal state processing. Therefore, the current signal state of the current leakage detection line of the preset server leakage detection device is obtained by using the preset complex programmable logic device, that is, the state of the leakage detection device can be monitored, if the current signal state meets the preset abnormal condition, that is, the state of the leakage detection device is an abnormal state, a corresponding preset abnormal state to-be-processed instruction is generated, so that abnormal state processing corresponding to the preset abnormal state to-be-processed instruction is obtained and executed, and the normal operation of the server leakage detection device is ensured.

Referring to fig. 2, an embodiment of the present application discloses a specific abnormal state processing method for a server leakage detection apparatus, which is applied to a preset substrate management controller, and includes:

step S21: and acquiring the current signal state of the current leakage detection line of the preset server leakage detection device by using a preset complex programmable logic device.

For a more specific working process of step S21, reference may be made to corresponding contents disclosed in the foregoing embodiments, and details are not repeated here.

Step S22: and judging whether the current signal state meets a preset abnormal condition or not.

In this embodiment, if the current leakage detection line does not meet the preset reference value, based on a preset time interval, the next signal state of the current leakage detection line is obtained by using the preset complex programmable logic device. It can be understood that, if the current signal state does not satisfy the preset abnormal condition, the current liquid leakage detection line is in an online state, that is, the current liquid leakage detection line is in a normal state, and therefore the current liquid leakage detection line needs to be continuously monitored. That is, the next signal state of the current leakage detection line is obtained.

In this embodiment, before the obtaining, based on the preset time interval, the next signal state of the preset current liquid leakage detection line by using the preset complex programmable logic device, the method further includes: and acquiring the load state of the current server, and determining the preset time interval based on the load state so that the preset complex programmable logic device can acquire the next signal state of the current leakage detection line. For example, the load state of the current server represents that the workload of the current server is large, the heat dissipation system needs to continuously dissipate heat, in order to ensure the normal operation of the heat dissipation system, the liquid leakage detection device needs to operate normally, in order to ensure the normal operation of the liquid leakage detection device, the time interval for monitoring the state of the liquid leakage detection device needs to be shortened, for example, the preset time interval is 1 second, if the current signal state is obtained in the 11 th second, the next signal state is obtained in the 12 th second; if the load state of the current server represents that the workload of the current server is small, even the current server does not work, the heat dissipation system may not work currently, and the monitoring time interval of the state of the leakage detection device may be set to be longer, for example, the preset time interval is 15 seconds.

Step S23: and if the current signal state meets a preset abnormal condition, generating a corresponding preset abnormal state to-be-processed instruction.

For a more specific working process of step S23, reference may be made to corresponding contents disclosed in the foregoing embodiments, and details are not repeated here.

Step S24: and acquiring abnormal state processing corresponding to the preset abnormal state to-be-processed instruction, and then executing the abnormal state processing.

For a more specific working process of step S24, reference may be made to corresponding contents disclosed in the foregoing embodiments, and details are not repeated here.

Therefore, the server leakage detection device is monitored based on the preset time interval, the server leakage detection device is more fit for actual use scenes, is more intelligent, and can timely find the abnormal state of the leakage detection device, so that effective protective measures can be timely made, and the situation that the server is damaged due to abnormal damage of electronic components under the condition of contacting liquid on the server can be avoided.

Referring to fig. 3, an embodiment of the present application discloses a specific abnormal state processing method for a server leakage detection apparatus, which is applied to a preset substrate management controller, and includes:

step S31: and acquiring the current signal state of the current leakage detection line of the preset server leakage detection device by using a preset complex programmable logic device.

In this embodiment, the preset substrate management controller may remotely monitor the current leakage detection line of the server leakage detection apparatus in real time in a web or command manner, and transmit the current signal state of the current leakage detection line of the preset server leakage detection apparatus through the preset complex programmable logic device.

Step S32: and if the current signal state meets a preset abnormal condition, generating a corresponding preset abnormal state to-be-processed instruction.

In this embodiment, if the current signal state satisfies a preset abnormal condition, the generating a corresponding preset abnormal state instruction to be processed specifically includes: and if the current signal state is a preset non-in-place state, generating a corresponding preset abnormal state instruction to be processed.

In this embodiment, if the current signal state meets a preset abnormal condition, generating a corresponding preset abnormal state to-be-processed instruction specifically includes: if the current signal state is a preset in-place state, judging whether the current liquid leakage detection line is in a preset failure state; and if the current liquid leakage detection line is judged to be in the preset failure state, generating a corresponding preset abnormal state to-be-processed instruction.

Step S33: and acquiring abnormal state processing corresponding to the preset abnormal state to-be-processed instruction, and then executing the abnormal state processing.

For a more specific working process of step S33, reference may be made to corresponding contents disclosed in the foregoing embodiments, and details are not repeated here.

Step S34: and determining the next liquid leakage detection line of the preset server liquid leakage detection device based on a preset polling sequence.

For a more specific working process of step S34, reference may be made to corresponding contents disclosed in the foregoing embodiments, and details are not repeated here.

Step S35: and updating the next liquid leakage detection line to the current liquid leakage detection line, and skipping to the step of acquiring the current signal state of the current liquid leakage detection line of the preset server liquid leakage detection device by using the preset complex programmable logic device.

In this embodiment, it can be understood that, preset server weeping detection device may include a plurality of weeping detection lines, and each weeping detection line all needs real-time monitoring, acquires the current signal state of each weeping detection line promptly, so can set up and preset the polling order, confirms the monitoring order of each weeping detection line, also can monitor a plurality of weeping detection lines in parallel, also can monitor one by one.

Therefore, whether the liquid leakage detection device is in an effective state or not can be found in time, the problem that the liquid leakage detection device cannot be found out in time to be invalid to cause that effective protection measures cannot be made in time when the liquid leakage of the server is actually triggered is avoided, and the server is damaged abnormally when electronic components are contacted with the liquid under the power-on condition of the server, so that the server is damaged.

The following describes the technical solution in the present application by taking a specific schematic diagram of processing an abnormal state of a server leakage detection device shown in fig. 4 as an example. And setting a corresponding preset state monitoring partition based on a preset server leakage detection device, and adding a state monitoring column corresponding to the preset state monitoring partition to a page corresponding to the preset substrate management controller so as to obtain the current signal state of the current leakage detection line of the preset server leakage detection device returned by the preset complex programmable logic device from the state monitoring column.

And judging whether the current signal state meets a preset abnormal condition or not.

And if not, acquiring the next signal state of the current leakage detection line by using the preset complex programmable logic device based on a preset time interval. Before the preset complex programmable logic device is used to obtain the next signal state of the preset current liquid leakage detection line based on the preset time interval, the method further comprises the following steps: and acquiring the load state of the current server, and determining the preset time interval based on the load state so that the preset complex programmable logic device can acquire the next signal state of the current leakage detection line.

If the current signal state meets a preset abnormal condition, generating a corresponding preset abnormal state instruction to be processed; if the current signal state is a preset non-in-place state, generating a corresponding preset abnormal state instruction to be processed; if the current signal state is a preset in-place state, judging whether the current liquid leakage detection line is in a preset failure state; and if the current liquid leakage detection line is judged to be in the preset failure state, generating a corresponding preset abnormal state to-be-processed instruction. It can be understood that the preset abnormal state to-be-processed instruction may be a preset warning, so that a manager may perform relevant processing based on the preset warning, for example, repair the current liquid leakage detection line, and after the current liquid leakage detection line is repaired, the preset warning may be cancelled, that is, abnormal state processing corresponding to the preset abnormal state to-be-processed instruction is obtained, and then the abnormal state processing is performed, and a command that can continue to monitor the current liquid leakage detection line is transmitted to the preset complex programmable logic device, so that real-time interaction between the preset complex programmable logic device and the preset substrate management controller is achieved. Determining a next liquid leakage detection line of the current server based on a preset polling sequence; and updating the next liquid leakage detection line to the current liquid leakage detection line, and skipping to the step of acquiring the current signal state of the current liquid leakage detection line of the preset server liquid leakage detection device by using the preset complex programmable logic device.

Referring to fig. 5, an embodiment of the present application discloses an abnormal state processing apparatus for a server leakage detection apparatus, which is applied to a preset substrate management controller, and includes:

the signal state acquisition module 11 is configured to acquire a current signal state of a current leakage detection line of a preset server leakage detection device by using a preset complex programmable logic device;

the instruction generating module 12 is configured to generate a corresponding instruction to be processed in a preset abnormal state if the current signal state meets a preset abnormal condition;

and the execution module 13 is configured to acquire the abnormal state processing corresponding to the preset abnormal state to-be-processed instruction, and then execute the abnormal state processing.

Wherein, the abnormal state processing device of the server leakage detection device is further specifically used for: the method comprises the steps of setting a corresponding preset state monitoring partition based on a preset server leakage detection device, and adding a state monitoring column corresponding to the preset state monitoring partition into a page corresponding to a preset substrate management controller, so as to obtain the current signal state of the current leakage detection line of the preset server leakage detection device returned by a preset complex programmable logic device from the state monitoring column.

The abnormal state processing device of the server leakage detection device is further specifically configured to: determining a next liquid leakage detection line of the current server based on a preset polling sequence; and updating the next liquid leakage detection line to the current liquid leakage detection line, and skipping to the step of acquiring the current signal state of the current liquid leakage detection line of the preset server liquid leakage detection device by using the preset complex programmable logic device.

The instruction generation module 12 is further specifically configured to: and if the current signal state is a preset non-in-place state, generating a corresponding preset abnormal state instruction to be processed.

The instruction generation module 12 is further specifically configured to: if the current signal state is a preset in-place state, judging whether the current liquid leakage detection line is in a preset failure state; and if the current liquid leakage detection line is judged to be in the preset failure state, generating a corresponding preset abnormal state to-be-processed instruction.

Therefore, the current signal state of the current leakage detection line of the preset server leakage detection device is obtained by using the preset complex programmable logic device; if the current signal state meets a preset abnormal condition, generating a corresponding preset abnormal state instruction to be processed; and acquiring abnormal state processing corresponding to the preset abnormal state to-be-processed instruction, and then executing the abnormal state processing. Therefore, the current signal state of the current leakage detection line of the preset server leakage detection device is obtained by using the preset complex programmable logic device, that is, the state of the leakage detection device can be monitored, if the current signal state meets the preset abnormal condition, that is, the state of the leakage detection device is an abnormal state, a corresponding preset abnormal state to-be-processed instruction is generated, so that the abnormal state processing corresponding to the preset abnormal state to-be-processed instruction is obtained and executed, and the normal operation of the server leakage detection device is ensured.

In some embodiments, the abnormal state processing device of the server liquid leakage detection device includes:

the next signal state acquisition unit is used for judging whether the current signal state meets a preset abnormal condition or not; and if not, acquiring the next signal state of the current leakage detection line by using the preset complex programmable logic device based on a preset time interval.

In some embodiments, the abnormal state processing device of the server liquid leakage detection device includes:

and the time interval setting unit is used for acquiring the load state of the current server and determining the preset time interval based on the load state so that the preset complex programmable logic device can acquire the next signal state of the current leakage detection line.

In some embodiments, the abnormal state processing device of the server liquid leakage detection device includes:

the polling unit is used for determining a next liquid leakage detection line of the preset server liquid leakage detection device based on a preset polling sequence; and updating the next liquid leakage detection line to the current liquid leakage detection line, and skipping to the step of acquiring the current signal state of the current liquid leakage detection line of the preset server liquid leakage detection device by using the preset complex programmable logic device.

In some specific embodiments, the instruction generating module 12 includes:

and the first instruction generating unit is used for generating a corresponding preset abnormal state to-be-processed instruction if the current signal state is a preset non-in-place state.

In some specific embodiments, the instruction generating module 12 includes:

the second instruction generation unit is used for judging whether the current liquid leakage detection line is in a preset failure state or not if the current signal state is in a preset in-place state; and if the current liquid leakage detection line is judged to be in the preset failure state, generating a corresponding preset abnormal state to-be-processed instruction.

In some embodiments, the abnormal state processing device of the server liquid leakage detection device includes:

and the state monitoring column adding unit is used for setting a corresponding preset state monitoring partition based on the preset server leakage detection device, and adding the state monitoring column corresponding to the preset state monitoring partition to a page corresponding to the preset substrate management controller so as to obtain the current signal state of the current leakage detection line of the preset server leakage detection device returned by the preset complex programmable logic device from the state monitoring column.

Fig. 6 is a schematic structural diagram of an electronic device according to an embodiment of the present application. The method specifically comprises the following steps: at least one processor 21, at least one memory 22, a power supply 23, a communication interface 24, an input output interface 25, and a communication bus 26. Wherein the memory 22 is adapted to store a computer program, which is loaded and executed by the processor 21, to implement the steps of:

acquiring the current signal state of a current leakage detection line of a preset server leakage detection device by using a preset complex programmable logic device;

if the current signal state meets a preset abnormal condition, generating a corresponding preset abnormal state instruction to be processed;

and acquiring abnormal state processing corresponding to the preset abnormal state to-be-processed instruction, and then executing the abnormal state processing.

In some embodiments, the processor, by executing the computer program stored in the memory, may specifically implement the following steps:

judging whether the current signal state meets a preset abnormal condition or not;

and if not, acquiring the next signal state of the current leakage detection line by using the preset complex programmable logic device based on a preset time interval.

In some embodiments, the processor may specifically implement the following steps by executing the computer program stored in the memory:

and acquiring the load state of the current server, and determining the preset time interval based on the load state so that the preset complex programmable logic device can acquire the next signal state of the current leakage detection line.

In some embodiments, the processor, by executing the computer program stored in the memory, may specifically implement the following steps:

determining a next liquid leakage detection line of the preset server liquid leakage detection device based on a preset polling sequence;

and updating the next liquid leakage detection line to the current liquid leakage detection line, and skipping to the step of acquiring the current signal state of the current liquid leakage detection line of the preset server liquid leakage detection device by using the preset complex programmable logic device.

In some embodiments, the processor, by executing the computer program stored in the memory, may specifically implement the following steps:

and if the current signal state is a preset non-in-place state, generating a corresponding preset abnormal state to-be-processed instruction.

In some embodiments, the processor, by executing the computer program stored in the memory, may specifically implement the following steps:

if the current signal state is a preset in-place state, judging whether the current liquid leakage detection line is in a preset failure state;

and if the current liquid leakage detection line is judged to be in the preset failure state, generating a corresponding preset abnormal state to-be-processed instruction.

In some embodiments, the processor, by executing the computer program stored in the memory, may further include the steps of:

and setting a corresponding preset state monitoring partition based on a preset server leakage detection device, and adding a state monitoring column corresponding to the preset state monitoring partition to a page corresponding to the preset substrate management controller so as to obtain the current signal state of the current leakage detection line of the preset server leakage detection device returned by the preset complex programmable logic device from the state monitoring column.

In this embodiment, the power supply 23 is configured to provide a working voltage for each hardware device on the electronic device; the communication interface 24 can create a data transmission channel between the electronic device and an external device, and a communication protocol followed by the communication interface is any communication protocol applicable to the technical solution of the present application, and is not specifically limited herein; the input/output interface 25 is configured to obtain external input data or output data to the outside, and a specific interface type thereof may be selected according to specific application requirements, which is not specifically limited herein.

The processor 21 may include one or more processing cores, such as a 4-core processor, an 8-core processor, and the like. The processor 21 may be implemented in at least one hardware form of a DSP (Digital Signal Processing), an FPGA (Field-Programmable Gate Array), and a PLA (Programmable Logic Array). The processor 21 may also include a main processor and a coprocessor, where the main processor is a processor for Processing data in an awake state, and is also called a Central Processing Unit (CPU); a coprocessor is a low power processor for processing data in a standby state. In some embodiments, the processor 21 may be integrated with a GPU (Graphics Processing Unit), which is responsible for rendering and drawing the content required to be displayed on the display screen. In some embodiments, the processor 21 may further include an AI (Artificial Intelligence) processor for processing a calculation operation related to machine learning.

In addition, the storage 22 is used as a carrier for storing resources, and may be a read-only memory, a random access memory, a magnetic disk or an optical disk, etc., the resources stored thereon include an operating system 221, a computer program 222, data 223, etc., and the storage may be a transient storage or a permanent storage.

The operating system 221 is used for managing and controlling hardware devices and computer programs 222 on the electronic device, so as to implement operations and processing of the mass data 223 in the memory 22 by the processor 21, and may be Windows, unix, linux, or the like. The computer program 222 may further include a computer program that can be used to perform other specific tasks in addition to the computer program that can be used to perform the abnormal state processing method of the server leakage detection apparatus executed by the electronic device disclosed in any of the foregoing embodiments. The data 223 may include data received by the electronic device and transmitted from an external device, or may include data collected by the input/output interface 25 itself.

Further, an embodiment of the present application further discloses a computer-readable storage medium, where a computer program is stored in the storage medium, and when the computer program is loaded and executed by a processor, the method steps executed in the processing process of the abnormal state of the server leakage detection apparatus disclosed in any of the foregoing embodiments are implemented.

Finally, it should also be noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising a … …" does not exclude the presence of another identical element in a process, method, article, or apparatus that comprises the element.

The foregoing describes in detail a method, an apparatus, a device, and a medium for processing an abnormal state of a server leakage detection apparatus provided by the present invention, and a specific example is applied in the present document to explain the principle and the implementation of the present invention, and the description of the foregoing embodiment is only used to help understanding the method and the core idea of the present invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present invention.

Claims (10)

1. An abnormal state processing method of a server liquid leakage detection device is applied to a preset substrate management controller, and comprises the following steps:

acquiring the current signal state of a current leakage detection line of a preset server leakage detection device by using a preset complex programmable logic device;

if the current signal state meets a preset abnormal condition, generating a corresponding preset abnormal state to-be-processed instruction;

and acquiring abnormal state processing corresponding to the preset abnormal state to-be-processed instruction, and then executing the abnormal state processing.

2. The method for processing the abnormal state of the server leakage detection device according to claim 1, wherein after the obtaining the current signal state of the current leakage detection line of the server leakage detection device by using the preset complex programmable logic device, the method further comprises:

judging whether the current signal state meets a preset abnormal condition or not;

and if not, acquiring the next signal state of the current leakage detection line by using the preset complex programmable logic device based on a preset time interval.

3. The abnormal state processing method of the server leakage detection device according to claim 2, wherein before the step of obtaining the next signal state of the preset current leakage detection line by using the preset complex programmable logic device based on the preset time interval, the method further comprises:

and acquiring the load state of the current server, and determining the preset time interval based on the load state so that the preset complex programmable logic device can acquire the next signal state of the current leakage detection line.

4. The abnormal state processing method of the server leakage detection device according to claim 3, wherein after the obtaining of the abnormal state processing corresponding to the preset abnormal state instruction to be processed and then the executing of the abnormal state processing, the method further comprises:

determining a next liquid leakage detection line of the preset server liquid leakage detection device based on a preset polling sequence;

and updating the next liquid leakage detection line to the current liquid leakage detection line, and skipping to the step of acquiring the current signal state of the current liquid leakage detection line of the preset server liquid leakage detection device by using the preset complex programmable logic device.

5. The abnormal state processing method of the server leakage detection device according to claim 1, wherein if the current signal state satisfies a preset abnormal condition, generating a corresponding preset abnormal state to-be-processed instruction includes:

and if the current signal state is a preset non-in-place state, generating a corresponding preset abnormal state instruction to be processed.

6. The abnormal state processing method of the server leakage detection device according to claim 1, wherein if the current signal state satisfies a preset abnormal condition, generating a corresponding preset abnormal state to-be-processed instruction includes:

if the current signal state is a preset in-place state, judging whether the current liquid leakage detection line is in a preset failure state;

and if the current liquid leakage detection line is judged to be in the preset failure state, generating a corresponding preset abnormal state to-be-processed instruction.

7. The method for processing the abnormal state of the server leakage detection device according to any one of claims 1 to 6, wherein before the obtaining of the current signal state of the current leakage detection line of the server leakage detection device by using the preset complex programmable logic device, the method further comprises:

and setting a corresponding preset state monitoring partition based on a preset server leakage detection device, and adding a state monitoring column corresponding to the preset state monitoring partition to a page corresponding to the preset substrate management controller so as to obtain the current signal state of the current leakage detection line of the preset server leakage detection device returned by the preset complex programmable logic device from the state monitoring column.

8. The abnormal state processing device of the server leakage detection device is characterized by being applied to a preset substrate management controller and comprising the following steps of:

the signal state acquisition module is used for acquiring the current signal state of the current leakage detection line of the preset server leakage detection device by using a preset complex programmable logic device;

the instruction generating module is used for generating a corresponding instruction to be processed in a preset abnormal state if the current signal state meets a preset abnormal condition;

and the execution module is used for acquiring the abnormal state processing corresponding to the preset abnormal state to-be-processed instruction and then executing the abnormal state processing.

9. An electronic device, comprising:

a memory for storing a computer program;

a processor for executing the computer program to realize the steps of the abnormal state processing method of the server leakage detecting device according to any one of claims 1 to 7.

10. A computer-readable storage medium for storing a computer program; wherein the computer program when executed by a processor implements the steps of the abnormal state processing method of the server leakage detecting device according to any one of claims 1 to 7.

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