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CN-121995865-A - Operation and maintenance emergency process management system and method based on intelligent contract and consensus mechanism

CN121995865ACN 121995865 ACN121995865 ACN 121995865ACN-121995865-A

Abstract

The invention relates to an operation and maintenance emergency process management system and method based on an intelligent contract and a consensus mechanism, wherein the system comprises an emergency management module, an intelligent contract module and a consensus mechanism module; the method comprises the steps of collecting different monitoring data, calling a judging type intelligent contract, carrying out emergency scene judgment on the collected different monitoring data, outputting to obtain a plurality of emergency scene judgment results, carrying out consensus processing on the plurality of emergency scene judgment results to obtain an emergency scene consensus result, calling a disposal type intelligent contract, creating an emergency work order, associating the emergency scene with a corresponding emergency disposal command, disposing related assets, calling a recording type intelligent contract, and recording the disposal result and emergency process information. Compared with the prior art, the invention can effectively solve the problems of decision delay and error in the emergency process caused by individual experience difference.

Inventors

  • CHEN WENJIE
  • LI XIN
  • SUN XIAOCHAO
  • REN ZHONGYUAN
  • LIU SHUO
  • ZHANG JINGGUANG
  • Jiao shuai

Assignees

  • 长三角数链(上海)网络基础设施有限公司

Dates

Publication Date
20260508
Application Date
20241108

Claims (10)

  1. 1. The operation and maintenance emergency process management system based on the intelligent contracts and the consensus mechanism is characterized by comprising an emergency management module, an intelligent contract module and the consensus mechanism module, wherein the emergency management module is used for collecting and storing monitoring data of different scenes and transmitting the monitoring data to the intelligent contract module, converting the monitoring data to obtain an emergency disposal command and creating an emergency work order; the intelligent contract module is used for judging an emergency scene, disposing an emergency disposal command and disposing an emergency work order; And the consensus mechanism module is used for carrying out consensus processing on different emergency scene judgment results.
  2. 2. The operation and maintenance emergency process management system based on intelligent contracts and a consensus mechanism according to claim 1, wherein the emergency management module is respectively connected with a plurality of monitoring system nodes to correspondingly collect monitoring data of different scenes.
  3. 3. An operation and maintenance emergency process management method based on an intelligent contract and a consensus mechanism is applied to an operation and maintenance emergency process management system based on the intelligent contract and the consensus mechanism as claimed in claim 1, and is characterized by comprising the following steps: A1, collecting monitoring data in different monitoring system nodes, wherein the different monitoring data correspond to different scenes; a2, calling a judgment type intelligent contract, judging emergency scenes according to the collected different monitoring data, and outputting to obtain a plurality of emergency scene judgment results; A3, carrying out consensus processing on a plurality of emergency scene judgment results to obtain an emergency scene consensus result; A4, calling a disposal type intelligent contract based on an emergency scene consensus result, creating an emergency work order, associating the emergency scene with a corresponding emergency disposal command, and disposing related assets; And A5, calling a recorded intelligent contract, and recording the treatment result and the emergency process information.
  4. 4. The operation and maintenance emergency procedure management method based on intelligent contracts and consensus mechanism according to claim 3, wherein the monitoring data in the step A1 includes host emergency scene data, network emergency scene data, service emergency scene data, emergency treatment flow data and scene data weights.
  5. 5. The method for managing an operation and maintenance emergency process based on an intelligent contract and consensus mechanism according to claim 4, wherein the host emergency scene data comprises a host disconnection duration, a host deployment service list, a host port monitoring information, a host core file information, and a host syslog log; The network emergency scene data comprise network equipment logs, network equipment packet loss rate, network equipment delay and dial-test logs; The service emergency scene data comprise a service list, service restarting times, service port monitoring data, service link data, service average response time, service average time consumption, service non-200 return code number and service error log number; The emergency treatment data comprises an emergency treatment command step, time consuming execution and a result execution; The emergency treatment flow data comprise a work order name, a state, last step information, next step information, types, dependent items, associated templates, notification strategies and notification personnel; The scene data weight comprises a loss connection weight, a packet loss rate weight, a core file weight, a monitoring loss weight, a delay weight, a dial testing failure weight, a service restarting weight and a response time weight.
  6. 6. An operation and maintenance emergency procedure management method based on intelligent contracts and consensus mechanism according to claim 3, wherein said step A2 comprises the steps of: A21, pre-screening the monitoring data, and recording the scene ID when the monitoring data weight of a certain scene exceeds the preset proportion of the data weights of other scenes; a22, recording a plurality of scene IDs when the difference of the monitoring data weights theta c 1-theta C of the plurality of scenes is within a preset threshold value.
  7. 7. The operation and maintenance emergency process management method based on the intelligent contract and the consensus mechanism according to claim 7, wherein the specific process of the step A3 is that signing is carried out by adopting public keys respectively aiming at different scene IDs; when more than 2N+1 monitoring system nodes all receive the signature of a certain scene ID, the fact that different nodes judge the emergency scene is common is indicated, and the scene ID is broadcasted.
  8. 8. The operation and maintenance emergency procedure management method based on intelligent contracts and consensus mechanism according to claim 7, wherein said step A4 specifically comprises the steps of: A41, calling a disposal type intelligent contract according to the agreed scene ID, creating an emergency work order, and associating the emergency scene with a corresponding emergency disposal command; a42, executing an emergency disposal command to dispose related assets.
  9. 9. The operation and maintenance emergency process management method based on intelligent contracts and consensus mechanism according to any of claims 3-8, wherein the emergency handling command is specifically a computer identifiable command corresponding to an emergency process operation behavior.
  10. 10. An operation and maintenance emergency procedure management method based on intelligent contracts and a consensus mechanism according to claim 3, wherein the emergency procedure information recorded in step A5 includes emergency handling time and emergency monitoring data including pre-emergency, during-emergency and post-emergency related data.

Description

Operation and maintenance emergency process management system and method based on intelligent contract and consensus mechanism Technical Field The invention relates to an operation and maintenance emergency process management system and method based on intelligent contracts and a consensus mechanism. Background Emergency management is measure deployment and management of emergency abnormal operation conditions occurring in the operation and maintenance process of a data center, the operation of a data center infrastructure can meet the emergency conditions, the emergency conditions are the greatest challenges of the reliability and service continuity of the data center infrastructure, and the identification and treatment of the emergency conditions are important indexes for measuring the operation and maintenance capability. The emergency management aims to timely and correctly process sudden emergency conditions, achieve the expected processing effect, reduce or eliminate the influence, restore the usability of the data center infrastructure system and ensure that the scope of emergency management comprises all emergency conditions generated in the operation and maintenance process of the infrastructure. Conventional operation and maintenance emergency process management is often an emergency response after an operation and maintenance failure or an emergency occurs. This stage is mainly focused on emergency measures and post-disaster reconstruction, and is characterized by temporary, passive and local properties. Under the framework of the mode, the method covers the corresponding links of prevention and emergency preparation, monitoring and early warning, emergency treatment, post recovery and reconstruction and the like of emergency events, the effective management of each link is a development process of the whole operation and maintenance emergency management process from the initial manual processing to the subsequent informatization processing, but in the whole process, the connection of each link is completely judged and treated manually, for example, the prevention and preparation of the emergency events are all based on an intuitive judgment of past experience, whether emergency is carried out or not, and the treatment mode after the emergency is also selected manually, and the difference of the treatment judgment is easy to cause due to the difference of individuals, and also has artificial negligence hidden danger, so that the problems of decision delay, error and the like occur in the emergency process. Disclosure of Invention The invention aims to overcome the defects of the prior art, and provides an operation and maintenance emergency process management system and method based on an intelligent contract and consensus mechanism, which solve the problems of decision delay and error in an emergency process caused by individual experience differences. The operation and maintenance emergency process management system based on the intelligent contract and the consensus mechanism comprises an emergency management module, an intelligent contract module and a consensus mechanism module, wherein the emergency management module is used for collecting and storing monitoring data of different scenes and transmitting the monitoring data to the intelligent contract module, converting the monitoring data to obtain an emergency disposal command and creating an emergency work order; the intelligent contract module is used for judging an emergency scene, disposing an emergency disposal command and disposing an emergency work order; And the consensus mechanism module is used for carrying out consensus processing on different emergency scene judgment results. Further, the emergency management module is respectively connected with a plurality of monitoring system nodes so as to correspondingly collect monitoring data of different scenes. An operation and maintenance emergency process management method based on intelligent contracts and a consensus mechanism comprises the following steps: A1, collecting monitoring data in different monitoring system nodes, wherein the different monitoring data correspond to different scenes; a2, calling a judgment type intelligent contract, judging emergency scenes according to the collected different monitoring data, and outputting to obtain a plurality of emergency scene judgment results; A3, carrying out consensus processing on a plurality of emergency scene judgment results to obtain an emergency scene consensus result; A4, calling a disposal type intelligent contract based on an emergency scene consensus result, creating an emergency work order, associating the emergency scene with a corresponding emergency disposal command, and disposing related assets; And A5, calling a recorded intelligent contract, and recording the treatment result and the emergency process information. Further, the monitoring data in the step A1 includes host emergency scene data, network emergency sce