CN117221133A - Data center machine room running state monitoring and analyzing system based on out-of-band technology - Google Patents
Data center machine room running state monitoring and analyzing system based on out-of-band technology Download PDFInfo
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- CN117221133A CN117221133A CN202310962965.8A CN202310962965A CN117221133A CN 117221133 A CN117221133 A CN 117221133A CN 202310962965 A CN202310962965 A CN 202310962965A CN 117221133 A CN117221133 A CN 117221133A
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
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Abstract
The invention discloses a data center machine room running state monitoring and analyzing system based on an out-of-band technology. The method comprises the steps that field implementation personnel establish a unified out-of-band network for equipment to be monitored; carrying out network planning on equipment by an implementation personnel, and determining the topology structure and equipment layout of an out-of-band network; through the position and connection requirement of the equipment, the network architecture is designed and simulated, and the corresponding physical environment is displayed; and connect out-of-band management card, out-of-band management switch; the system sets different levels and priorities for the early warning and the alarm so as to classify and process according to the emergency degree; in this way, the relevant personnel decide what action and treatment mode to take according to the level and priority. The system displays the pre-warning and alarm information of the device on a monitoring console or management interface. The related personnel can acquire a real-time overview of the equipment state by looking at the alarm panel, and take corresponding measures in time.
Description
Technical Field
The invention relates to the technical field of data center machine room safety, in particular to a data center machine room running state monitoring and analyzing system based on an out-of-band technology.
Background
Machine room management is a critical ring in data center operation. With the rapid development of information technology and the advancement of digital transformation, more and more organizations and enterprises rely on data centers to store, process and transfer large amounts of data. The machine room is used as a core part of the data center and carries key IT equipment and infrastructure, and effective management and maintenance are required to ensure stable operation and business continuity of the data center. With the popularity and application of computers, people are beginning to appreciate the importance of effectively managing computer devices. With the advent of data centers, machine room management has become more complex and critical. Machine room management needs to take into account installation and layout of equipment, power supply, temperature and humidity control, network connection, security, etc.
The whole security protection management and control capability of the machine room is insufficient, the equipment fault alarming mode is single, the equipment reliability cannot be controlled, and the like, and unexpected pre-judgment cannot be performed on sudden events, so that the management efficiency and timeliness are insufficient, and the labor timing operation and maintenance workload is heavy and not timely.
The equipment in the current market is various in variety and quick in generation, so that the system acquisition program cannot be completely adapted to various types of equipment.
Disclosure of Invention
(one) solving the technical problems
Aiming at the defects of the prior art, the invention aims to provide a data center machine room running state monitoring and analyzing system based on an out-of-band technology, which solves the problems that the management means of the data center machine room is behind, equipment is not monitored in place, and equipment alarm is single and not in time. Systems based on out-of-band technology are typically equipped with remote management software for enabling remote management and monitoring of devices. The software can communicate with the device through an out-of-band management interface, acquire status information of the device, perform remote operations, configure device parameters, and the like.
(II) technical scheme
The invention provides a technical scheme for realizing the purpose, which is adopted by a data center machine room running state monitoring and analyzing system based on an out-of-band technology and comprises the following steps: the method comprises the steps that field implementation personnel establish a unified out-of-band network for equipment to be monitored; carrying out network planning on equipment by an implementation personnel, and determining the topology structure and equipment layout of an out-of-band network; through the position and connection requirement of the equipment, the network architecture is designed and simulated, and the corresponding physical environment is displayed; and connect out-of-band management card, out-of-band management switch;
step two: the data center machine room running state monitoring analysis system automatically connects the devices through a snmp protocol, an out-of-band ip, a device login name and a device login password; the management system can use SNMP protocol to send request to the equipment to obtain information and state data of the equipment; through the out-of-band IP, the management system establishes network connection with the equipment; the management system uses the login name and the password of the equipment to carry out identity verification so as to acquire access rights;
step three: the data center machine room running state monitoring analysis system distributes the collection nodes to collect the running state information of the equipment according to the number and the type of the equipment;
step four: the data center machine room running state monitoring and analyzing system processes the collected device data by aggregation, wherein the device data comprise CPU, a disk, a memory, a power supply, the temperature, the voltage and the fan rotating speed of the device, the connection state, the speed, the flow, the CPU utilization rate, the memory utilization rate, the utilization rate of the disk or the storage device and the residual space data of a network interface;
step five: the data center machine room running state monitoring analysis system translates and interprets the processed equipment data according to preset equipment parameter tables, and stores the translated equipment data into a database to form equipment acquisition records;
step six: the data center machine room running state monitoring analysis system analyzes the latest equipment record in storage and carries out early warning and warning prompt on the equipment attribute with abnormality.
As a preferable scheme, the out-of-band management card and the out-of-band management switch allow an administrator to remotely access and control the equipment through a network, monitor the running state, performance indexes and sensor equipment of the equipment in real time, acquire real-time data of the equipment through an out-of-band management interface, discover equipment faults or abnormal conditions and conduct fault diagnosis.
As a preferred scheme, the SNMP allows a management system to collect status information and performance data of a device through a network and send a control command to the device; the management system (client) communicates with the managed device (server) through the SNMP protocol; the SNMP agent running on the managed device is responsible for collecting the status information and performance data of the device and storing it in a Management Information Base (MIB); the management system obtains the required information from the MIB through the SNMP protocol and sends control commands to the managed devices according to the requirements.
As a preferred scheme, the out-of-band IP establishes a network connection with the device, remotely accesses and manages device data exchange and command transmission; implemented through a dedicated network interface or serial port, separate from the primary data communication path of the device; the out-of-band IP is used for monitoring the state information and performance data of the equipment, sending a control command and performing fault removal and configuration management operations.
Preferably, the device data is translated and interpreted by converting numbers into readable units and converting state codes into text descriptions; according to a preset equipment parameter table, the acquired original data are matched with the parameter table; the parameter table defines information such as parameter range, threshold value and the like of each device; and when the data is successfully matched with the parameter table, the system translates and interprets the data.
As a preferred scheme, after the translation is completed, the data are stored into a database forming device to collect records, and the recorded data are used for ensuring long-term storage and traceability of the data for subsequent data analysis, fault investigation and performance optimization; and classifying and searching according to the equipment, time, parameters and the like to acquire the historical operation trend, fault frequency and performance index of the equipment.
Preferably, the system analysis data includes: the system can inquire the latest equipment record from the database, analyze and detect whether abnormal equipment attributes exist in the inquired equipment record data, and compare the inquired equipment attributes with a preset parameter range; if the equipment attribute exceeds the preset range, the system marks the equipment attribute as abnormal, early warning is carried out, the upper limit or the lower limit of the set threshold value is exceeded, and the system can identify equipment failure or damage and alarm.
Preferably, the early warning and the alarm are used for reminding a potential problem, and the alarm indicates that the equipment has failed or is damaged; after triggering the early warning, the system sends an early warning notice to related personnel in a mode of mail, short message, instant message and the like; these notifications contain information of the device's unusual properties, time stamps, device location, etc.; after triggering the alarm, the system notifies the user of the abnormal attribute of the equipment by telephone and informs the user of the abnormal attribute by voice, automatically adjusts the operation parameters of the equipment to reduce risk, and dispatches related technicians to overhaul.
(III) beneficial effects
Compared with the prior art, the invention provides a data center machine room running state monitoring and analyzing system based on an out-of-band technology, which has the following beneficial effects:
1. the data center machine room running state monitoring and analyzing system generates a detailed report and log record, and records early warning and alarm information of equipment. These reports and logs are used for subsequent analysis and review to better understand the equipment anomalies and processes.
2. The data center machine room running state monitoring analysis system sets different levels and priorities for early warning and alarming so as to classify and process according to the emergency degree; in this way, the relevant personnel decide what action and treatment mode to take according to the level and priority. The system displays the pre-warning and alarm information of the device on a monitoring console or management interface. The related personnel can acquire a real-time overview of the equipment state by looking at the alarm panel, and take corresponding measures in time.
3. Once the data center machine room running state monitoring analysis system detects abnormal activities or potential security threats, the early warning and alarming system can immediately inform related personnel, so that the related personnel can take appropriate security measures to prevent potential security holes or attacks. This facilitates the timely discovery of equipment failures, environmental anomalies, or other potential problems for timely action to repair or adjust.
4. The data center machine room running state monitoring and analyzing system is provided with an efficient alarm system, can monitor equipment states and environment parameters in real time, and immediately sends out alarm notification when abnormal conditions are found; the alarm notification can be performed in various modes, such as short messages, mails, mobile phone application programs and the like, so as to ensure that related personnel can acquire alarm information in time and take corresponding measures; meanwhile, the system sets alarms of different levels according to the importance and the emergency degree of the equipment so as to respond and process quickly.
Drawings
FIG. 1 is a schematic diagram of a system flow structure according to the present invention;
Detailed Description
The invention is further illustrated and described below in conjunction with the specific embodiments and the accompanying drawings:
referring to fig. 1, the present invention: step one: the method comprises the steps that field implementation personnel establish a unified out-of-band network for equipment to be monitored; carrying out network planning on equipment by an implementation personnel, and determining the topology structure and equipment layout of an out-of-band network; through the position and connection requirement of the equipment, the network architecture is designed and simulated, and the corresponding physical environment is displayed; and connect out-of-band management card, out-of-band management switch;
step two: the data center machine room running state monitoring analysis system automatically connects the devices through a snmp protocol, an out-of-band ip, a device login name and a device login password; the management system can use SNMP protocol to send request to the equipment to obtain information and state data of the equipment; the management system establishes network connection with the equipment through out-of-band IP; the management system uses the login name and the password of the equipment to carry out identity verification so as to acquire access rights;
step three: the data center machine room running state monitoring analysis system distributes the collection nodes to collect the running state information of the equipment according to the number and the type of the equipment;
step four: the data center machine room running state monitoring and analyzing system processes the collected device data by aggregation, wherein the device data comprise CPU, a disk, a memory, a power supply, the temperature, the voltage and the fan rotating speed of the device, the connection state, the speed, the flow, the CPU utilization rate, the memory utilization rate, the utilization rate of the disk or the storage device and the residual space data of a network interface;
step five: the data center machine room running state monitoring analysis system translates and interprets the processed equipment data according to preset equipment parameter tables, and stores the translated equipment data into a database to form equipment acquisition records;
step six: the data center machine room running state monitoring analysis system analyzes the latest equipment record in storage and carries out early warning and warning prompt on the equipment attribute with abnormality.
The out-of-band management card and the out-of-band management switch allow an administrator to remotely access and control the equipment through a network, monitor the running state, performance indexes and sensor equipment of the equipment in real time, acquire real-time data of the equipment through an out-of-band management interface, discover equipment faults or abnormal conditions and conduct fault diagnosis.
SNMP allows the management system to collect the state information and performance data of the device through the network and send control commands to the device; the management system (client) communicates with the managed device (server) through the SNMP protocol; the SNMP agent running on the managed device is responsible for collecting the status information and performance data of the device and storing it in a Management Information Base (MIB); the management system obtains the required information from the MIB through the SNMP protocol and sends control commands to the managed devices according to the requirements.
Further explanation is needed: SNMP is a network management protocol used to monitor and manage network devices and systems. It allows the management system to collect status information and performance data of the devices over the network and send control commands to the devices.
Out-of-band IP establishes network connection with the device, and remotely accesses and manages device data exchange and command transmission; implemented through a dedicated network interface or serial port, separate from the primary data communication path of the device; the out-of-band IP is used for monitoring the state information and performance data of the equipment, sending control commands and performing fault removal and configuration management operations.
Further explanation is needed: the login process realizes access control to the machine room, and the login process verifies the identity of the user and ensures that the user is legal to access control to the machine room. Only the personnel after authentication and authorization can obtain the login credentials and enter the machine room to work. Unauthorized persons are prohibited from entering the machine room.
The translation and interpretation of the device data are that the numbers are converted into readable units, and the state codes are converted into text descriptions; according to a preset equipment parameter table, the acquired original data are matched with the parameter table; the parameter table defines the parameter range, threshold value and other information of each device; and when the data is successfully matched with the parameter table, the system translates and interprets the data.
After translation is completed, the data are stored into database forming equipment to collect records, and the recorded data are used for guaranteeing long-term storage and traceability of the data for subsequent data analysis, fault investigation and performance optimization; and classifying and searching according to the equipment, time, parameters and the like to acquire the historical operation trend, fault frequency and performance index of the equipment.
The system analysis data includes: the system can inquire the latest equipment record from the database, analyze and detect whether abnormal equipment attributes exist in the inquired equipment record data, and compare the inquired equipment attributes with a preset parameter range; if the equipment attribute exceeds the preset range, the system marks the equipment attribute as abnormal, early warning is carried out, the upper limit or the lower limit of the set threshold value is exceeded, and the system can identify equipment failure or damage and alarm.
Early warning and warning, the early warning is the warning to the potential problem, and the warning indicates that the equipment has failed or damaged; after triggering the early warning, the system sends an early warning notice to related personnel in a mode of mail, short message, instant message and the like; these notifications contain information of the device's unusual properties, time stamps, device location, etc.; after triggering the alarm, the system notifies the user of the abnormal attribute of the equipment by telephone and informs the user of the abnormal attribute by voice, automatically adjusts the operation parameters of the equipment to reduce risk, and dispatches related technicians to overhaul.
Further explanation is needed: the early warning and alarming system monitors the states of equipment and environment in the machine room in real time, and related personnel quickly receive alarming notification to know the abnormal situation in the machine room. This allows them to take action quickly to reduce downtime and business disruption.
Finally, it should be noted that the above embodiments are only for illustrating the technical solution of the present invention, and not for limiting the scope of the present invention, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made to the technical solution of the present invention without departing from the spirit and scope of the technical solution of the present invention.
Claims (8)
1. A data center computer lab running state monitoring analysis system based on out-of-band technique, includes, its characterized in that:
step one: the method comprises the steps that field implementation personnel establish a unified out-of-band network for equipment to be monitored; carrying out network planning on equipment by an implementation personnel, and determining the topology structure and equipment layout of an out-of-band network; through the position and connection requirement of the equipment, the network architecture is designed and simulated, and the corresponding physical environment is displayed; and connect out-of-band management card, out-of-band management switch;
step two: the data center machine room running state monitoring analysis system automatically connects the devices through a snmp protocol, an out-of-band ip, a device login name and a device login password; the management system can use SNMP protocol to send request to the equipment to obtain information and state data of the equipment; through the out-of-band IP, the management system establishes network connection with the equipment; the management system uses the login name and the password of the equipment to carry out identity verification so as to acquire access rights;
step three: the data center machine room running state monitoring analysis system distributes the collection nodes to collect the running state information of the equipment according to the number and the type of the equipment;
step four: the data center machine room running state monitoring and analyzing system processes the collected device data by aggregation, wherein the device data comprise CPU, a disk, a memory, a power supply, the temperature, the voltage and the fan rotating speed of the device, the connection state, the speed, the flow, the CPU utilization rate, the memory utilization rate, the utilization rate of the disk or the storage device and the residual space data of a network interface;
step five: the data center machine room running state monitoring analysis system translates and interprets the processed equipment data according to preset equipment parameter tables, and stores the translated equipment data into a database to form equipment acquisition records;
step six: the data center machine room running state monitoring analysis system analyzes the latest equipment record in storage and carries out early warning and warning prompt on the equipment attribute with abnormality.
2. The out-of-band technology-based data center room operation state monitoring and analyzing system as set forth in claim 1, wherein: the out-of-band management card and the out-of-band management switch allow an administrator to remotely access and control the equipment through a network, monitor the running state, performance indexes and sensor equipment of the equipment in real time, acquire real-time data of the equipment through an out-of-band management interface, discover equipment faults or abnormal conditions and conduct fault diagnosis.
3. The out-of-band technology-based data center room operation state monitoring and analyzing system as set forth in claim 1, wherein: the SNMP allows the management system to collect state information and performance data of the equipment through a network and send control commands to the equipment; the management system communicates with the managed equipment through an SNMP protocol; the SNMP agent running on the managed device is responsible for collecting the state information and performance data of the device and storing the state information and performance data in a management database; the management system obtains the required information from the MIB through the SNMP protocol and sends control commands to the managed devices according to the requirements.
4. The out-of-band technology-based data center room operation state monitoring and analyzing system as set forth in claim 1, wherein: the out-of-band IP establishes network connection with the equipment, and remotely accesses and manages equipment data exchange and command transmission; implemented through a dedicated network interface or serial port, separate from the primary data communication path of the device; the out-of-band IP is used for monitoring the state information and performance data of the equipment, sending a control command and performing fault removal and configuration management operations.
5. The out-of-band technology-based data center room operation state monitoring and analyzing system as set forth in claim 1, wherein: the translation and interpretation of the device data are that the numbers are converted into readable units, and the state codes are converted into text descriptions; according to a preset equipment parameter table, the acquired original data are matched with the parameter table; the parameter table defines information such as parameter range, threshold value and the like of each device; and when the data is successfully matched with the parameter table, the system translates and interprets the data.
6. The out-of-band technology-based data center room operation state monitoring and analyzing system as set forth in claim 1, wherein: after the translation is completed, the data are stored into database forming equipment to collect records, and the recorded data are used for guaranteeing long-term storage and traceability of the data for subsequent data analysis, fault investigation and performance optimization; and classifying and searching according to the equipment, time, parameters and the like to acquire the historical operation trend, fault frequency and performance index of the equipment.
7. The out-of-band technology-based data center room operation state monitoring and analyzing system as set forth in claim 1, wherein: the system analysis data includes: the system can inquire the latest equipment record from the database, analyze and detect whether abnormal equipment attributes exist in the inquired equipment record data, and compare the inquired equipment attributes with a preset parameter range; if the equipment attribute exceeds the preset range, the system marks the equipment attribute as abnormal, early warning is carried out, the upper limit or the lower limit of the set threshold value is exceeded, and the system can identify equipment failure or damage and alarm.
8. The out-of-band technology-based data center room operation state monitoring and analyzing system as set forth in claim 1, wherein: the early warning and the alarm are used for reminding potential problems, and the alarm indicates that the equipment has faults or damages; after triggering the early warning, the system sends an early warning notice to related personnel in a mode of mail, short message, instant message and the like; these notifications contain information of the device's unusual properties, time stamps, device location, etc.; after triggering the alarm, the system notifies the user of the abnormal attribute of the equipment by telephone and informs the user of the abnormal attribute by voice, automatically adjusts the operation parameters of the equipment to reduce risk, and dispatches related technicians to overhaul.
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