CN114710505A

CN114710505A - Method and system for realizing ecological safety supervision of digital RMB (national currency) based on block chain

Info

Publication number: CN114710505A
Application number: CN202210351762.0A
Authority: CN
Inventors: 黄步添; 沈玮; 毛澄宇; 邵辉; 罗春凤; 刘振广
Original assignee: Hangzhou Yunxiang Network Technology Co Ltd
Current assignee: Hangzhou Yunxiang Network Technology Co Ltd
Priority date: 2022-04-02
Filing date: 2022-04-02
Publication date: 2022-07-05

Abstract

The invention discloses a block chain-based method and a block chain-based system for realizing ecological safety supervision of digital RMB, wherein the method comprises the following steps: the block chain comprehensive monitoring module acquires monitoring indexes of monitoring objects transmitted by bottom layer resources, block chain service components, application systems, block chain services, logs and the like, verifies the availability of upper layer services and acquires a verification result; the block chain comprehensive monitoring module sets an early warning level aiming at the monitoring index, sends the early warning level and the verification result to an abnormal warning module, the abnormal warning module analyzes the verification result and the early warning level to form a binding mapping relation, and sends the final verification result to an abnormal warning interface; and obtaining a final verification result by the abnormal alarm interface, returning the final verification result to the block chain comprehensive monitoring module, and sending out a corresponding supervision warning, a safety prompt or a result feedback notice. The method and the system for supervising the ecological safety of the digital RMB can realize the monitoring and the management of all modules in a block chain project.

Description

Method and system for realizing ecological safety supervision of digital RMB (RMB) based on block chain

Technical Field

The invention belongs to the technical field of digital RMB technologies and safety supervision, and particularly relates to a method and a system for realizing ecological safety supervision of digital RMB based on a block chain.

Background

One technique of great importance in digital rmb is monitoring and its related techniques, the purpose of which is to prevent future attacks in the future and after security risk events have occurred. Along with the development of the block chain technology, a service platform is built by considering the block chain technology in many applications, the block chain can provide a plurality of application solutions for the digital RMB by using the specific functions of the block chain, the block chain application ecology needs corresponding monitoring to realize the monitoring of the whole network nodes and the running state, the ecological safety of the digital RMB application can be further ensured, and a monitoring scheme capable of being monitored is provided for ensuring the ecological safety of the digital RMB.

The core advantages of the block chain technology are that centralization, collective maintenance, time sequence data and the like are removed, and the block chain operation and maintenance monitoring platform is built for the main purposes of monitoring the health state of the own node in real time, responding to the node fault in time and guaranteeing the continuous and stable operation of the node so as to reduce the economic loss caused by the node fault.

The existing monitoring operation and maintenance products are loose, partial functions have defects, and an effective comprehensive monitoring system is especially lacked for monitoring and managing all modules in a block chain project. This forces the operation and maintenance personnel to face a number of challenges: the method has the advantages that key indexes cannot be monitored on a uniform interface, abnormity cannot be received on the uniform interface, switching among various tools is forced when faults are processed, and nearly ten sets of monitoring systems need to be used in an additional learning mode.

Therefore, a one-stop solution for monitoring and alarming the underlying resources, the blockchain service components, the application systems, the blockchain services, the logs and the like needs to be designed, so as to provide more efficient and comprehensive monitoring and alarming services.

Disclosure of Invention

Based on the background and the problems in the prior art, the invention provides a method and a system for realizing digital RMB ecological safety supervision based on a block chain, which can realize the monitoring and management of all modules in a block chain project. The client can comprehensively know the use condition of the bottom layer resource, the running states of the block chain service assembly and the application system, and the running conditions and health degree of the block chain service, so that the user can efficiently locate the problem when receiving an abnormal alarm, take effective measures to troubleshoot the problem, and ensure the stable running of the application program.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention. In order to achieve these objects and other advantages of the present invention, on one hand, a method for implementing ecological security supervision of digital rmb based on a block chain is provided, which comprises the following steps:

the block chain comprehensive monitoring module acquires monitoring indexes of monitoring objects transmitted by one or more of bottom layer resources, block chain service components, application systems, block chain services and logs, verifies the availability of upper layer services and acquires verification results;

the block chain comprehensive monitoring module sets an early warning level aiming at the monitoring index, sends the early warning level and the verification result to an abnormal warning module, the abnormal warning module analyzes the verification result and the early warning level to form a binding mapping relation, and sends the final verification result to an abnormal warning interface;

and obtaining a final verification result by the abnormal alarm interface, returning the final verification result to the block chain comprehensive monitoring module, and sending out a corresponding supervision warning, a safety prompt or a result feedback notice.

Further, the underlying resources include: one or more of a physical machine, a virtual machine, a storage system, a container and a resource management cluster; monitoring the performance of the physical machine, wherein the monitoring comprises one or more of monitoring the execution condition of a user task and an event generated in the running process of the physical machine; the running state of the virtual machine is monitored in real time, and the real-time monitoring of running load and network performance data is supported; the monitoring of the number of the containers which run, stop or pause on the nodes by the containers is realized, and the real-time monitoring of the running state of the containers and the use condition of container resources is realized; the method comprises the steps of monitoring the running state of the resource management cluster and the health condition of each component, monitoring the resource use condition and the running state of a host node of the resource management cluster, monitoring the use condition of various resources in the cluster, and setting the resource management cluster to support persistent storage.

Further, wherein the blockchain service component comprises: a blockchain infrastructure, a blockchain operation and maintenance management platform (BaaS platform), and a blockchain browser; monitoring the block chain infrastructure, including monitoring the running state, network topology and resource use condition of the block chain network nodes, monitoring the block height and transaction quantity in the block chain network, monitoring the block details and transaction details in the block chain network, and monitoring the running state of the intelligent contract; monitoring the block link operation and maintenance management platform, including monitoring the running state and the resource use condition of the block link operation and maintenance management platform; and monitoring the blockchain browser, including monitoring the running state and the resource use condition of the blockchain browser.

Further, the application system comprises one or more of a message middleware, a Web application server, a cache middleware and a database, and also comprises the operation state of the application system. Since the operating state of the application directly affects the operating state of the service program, the performance of many systems is limited, and therefore, the application in the blockchain project needs to be monitored. Because indexes are different, the indexes need to be monitored respectively according to different characteristics and attributes, and then the indexes are gathered to a unified monitoring center. And when the abnormity occurs, the information needs to be displayed on the unified interface and an alarm is given. In the current block chain project, only Redis and Mysql are used as a service cache and a database, and a monitoring system is used for monitoring performance indexes of the service cache and the database respectively.

Further, in the above scheme, the application system includes a log, a unified tracking number is set for the log of the application system, all logs of the same request can be tracked through the tracking number, so as to implement unified monitoring of the whole log for the log, once a log abnormality occurs, an external alarm is given, the log is monitored, including log retrieval and log data statistics, and then a fault alarm is given according to the log retrieval and log data statistics, which is divided into the following two cases:

when the log is abnormal, the monitoring system can give an alarm in time and display the alarm on a uniform interface;

when fault elimination is carried out aiming at the abnormity, all logs (especially abnormal logs) related to the abnormity can be quickly positioned for analysis according to the uniform tracking number, and after the analysis result is obtained, the trigger reason of the service abnormity is focused according to the analysis result, so that the problem can be further positioned.

Furthermore, the statistical data of the block chain service component and the application system are collected through a collection service node (Agent technology is combined with telegraff technology to realize collection and report of indexes and data, and telegraff and Influxdb are used for obtaining and storing monitoring index data of VMware), the abnormal alarm interface is used for pulling the data of the monitoring indexes from the collection service node through a monitoring alarm time sequence combined database, and the data of the collection service node and the monitoring alarm time sequence combined database are obtained through a monitoring analysis alarm visualization component and can be respectively visualized into a chart to be convenient for operation and maintenance personnel to check.

On the other hand, the invention also provides a system for realizing ecological safety supervision of the digital RMB based on the block chain, which comprises the following steps:

the block chain comprehensive monitoring module: acquiring monitoring indexes of monitoring objects transmitted by one or more of a bottom layer resource, a block chain service component, an application system, a block chain service and a log, verifying the availability of an upper layer service, and acquiring a verification result; setting an early warning level aiming at the monitoring index, and sending the early warning level and the verification result to an abnormal warning module;

an abnormal alarm module: the early warning interface is used for analyzing the verification result and the early warning level to form a binding mapping relation and sending the final verification result to the abnormal warning interface;

an abnormal alarm interface: and the system is used for acquiring a final verification result, returning the final verification result to the block chain comprehensive monitoring module, and sending out corresponding supervision warning, safety prompt or result feedback notice.

Further, in the above system of the present invention, the block chain integrated monitoring module further includes: the system comprises a bottom layer resource, a block chain service component, an application system, a block chain service and a log;

the underlying resources include: the system is used for monitoring one or more of a physical machine, a virtual machine, a storage system, a container and a resource management cluster;

the block chain service component comprises: the system comprises a block chain management platform, a block chain operation and maintenance management platform and a block chain browser, wherein the block chain management platform is used for monitoring one or more of the block chain infrastructure, the block chain operation and maintenance management platform and the block chain browser;

the application system comprises: the system is used for monitoring one or more of message middleware, a Web application server, cache middleware and a database, and also monitoring the running state of an application system;

the log is included in the application system: and the unified tracking number is used for setting the unified tracking number for the log of the application system.

Further, in the above system of the present invention, the abnormality warning module further includes: collecting a service node and a monitoring alarm time sequence combination database;

the collection service node: the statistical data used for collecting the blockchain service component and the application system;

the monitoring alarm time sequence combination database comprises: and the data acquisition server is used for pulling the data of the monitoring indexes from the acquisition service node.

Further, in the above system of the present invention, the abnormal alarm interface includes a monitoring analysis alarm visualization component: and the data used for acquiring the collection service node and the monitoring alarm time sequence combined database can be respectively visualized into a chart to be conveniently checked by operation and maintenance personnel.

The invention at least comprises the following beneficial effects: the invention designs a one-stop solution aiming at the ecological safety supervision of the digital RMB, which monitors and alarms aiming at the underlying resources, the block chain service components, the application system, the block chain service and the log, and provides more efficient and comprehensive monitoring and alarm service. The service can be used for collecting monitoring indexes of all monitored objects, detecting the availability of upper-layer services, setting early warning aiming at the indexes, and displaying through a unified abnormal warning interface, so that a client can comprehensively know the use condition of bottom-layer resources, the running states of block chain service components and an application system, and the running conditions and health degree of block chain services, a user can efficiently locate problems when receiving abnormal warning, effective measures are taken to troubleshoot the problems, and the stable running of a digital RMB application program is ensured.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings required to be used in the description of the embodiments are briefly introduced below, it is obvious that the drawings in the following description are only some embodiments of the present application, and for those skilled in the art, other drawings may be obtained according to the drawings without any creative effort, and it is obvious that the concrete implementation flows in the drawings are further specific embodiments of the present invention and fall into the protection scope of the present invention.

FIG. 1 is a flow chart of the implementation of the ecological security supervision of the digital RMB;

fig. 2 is an architecture diagram of the digital rmb ecological security supervision system of the present invention.

Detailed Description

In order to clearly illustrate the present invention and make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention are clearly and completely described below with reference to the drawings in the embodiments of the present invention, so that those skilled in the art can implement the technical solutions in reference to the description text. The technology of the present invention will be described in detail with reference to the accompanying drawings.

The noun explains:

a block chaining, maintenance and management platform (BaaS platform): the Blockchain as a Service means that a Blockchain frame is embedded into a cloud computing platform, and by utilizing the deployment and management advantages of cloud Service infrastructure, a convenient and high-performance Blockchain ecological environment and ecological matching Service are provided for developers, and a Blockchain open platform supporting business expansion and operation support of the developers is supported. Generally, a complete BaaS solution includes four main links, namely, device access, access control, service monitoring, and a blockchain platform.

Redis: a Remote Dictionary Server (Remote Dictionary Server) is a log-type and key-value database which supports network, can be based on memory and can be persistent, and provides interfaces of multiple languages.

Mysql: is the most popular relational database management system at present.

Agent: the Agent technology is a computer system and provides an effective way for solving the problem of new distributed application. And a reasonable conceptual model is provided for comprehensively and accurately researching the characteristics of the distributed computing system.

Telegraf: is an agent that collects and reports metrics and data. Is a plug-in driven server agent for collecting and reporting metrics.

Influxdb: (time sequence database) for monitoring data statistics. Recording the use condition of the computer memory every millisecond, and then manufacturing a line graph of the use condition of the memory by using a graphical interface according to the statistical data; recording some data (common monitoring data, buried point statistical data and the like) according to time, and then making a chart for statistics.

VMware: the desktop virtual computer software is powerful in function. The VMware software integrates computing, network and storage virtualization technology and automation and management functions, and supports enterprises to innovate the infrastructure, deliver and manage the automatic IT service, and run new cloud native applications and micro-service-based applications. The data center is provided with the agility and the economy of a cloud service provider and is extended to a flexible hybrid cloud environment.

The Go language: a static strongly typed, compiled language (also known as Golang). Go language syntax is similar to C, but functionally: memory security, garbage collection, structural morphology and concurrent computation.

The Web application server: the website server refers to a program residing on a certain type of computer on the internet, and can process requests of Web clients such as a browser and the like and return corresponding responses, and can also place website files and data files for browsing and downloading all over the world.

The running state of the application system directly affects the running state of the service program, and the performance of many systems is limited by the running state. Therefore, there is a need to monitor the application systems in the blockchain project. Because indexes are different, the indexes need to be monitored respectively according to different characteristics and attributes, and then the indexes are gathered to a unified monitoring center. And when the abnormity occurs, the information needs to be displayed on the unified interface and an alarm is given. In the current block chain project, only Redis and Mysql are used as a service cache and a database, and a monitoring system is used for monitoring performance indexes of the service cache and the database respectively.

As shown in fig. 1, fig. 1 shows an implementation form of the present invention, and shows an implementation flow chart of ecological security supervision of digital rmb, and the implementation flow chart specifically includes the following steps:

step 1: the block chain comprehensive monitoring module acquires monitoring indexes of monitoring objects transmitted by one or more of bottom layer resources, block chain service components, application systems, block chain services and logs, verifies the availability of upper layer services and acquires verification results;

in Step1, the bottom layer resources include: one or more of a physical machine, a virtual machine, a storage system, a container and a resource management cluster; monitoring the performance of the physical machine, wherein the monitoring comprises one or more of monitoring the execution condition of a user task and an event generated in the running process of the physical machine; the running state of the virtual machine is monitored in real time, and the real-time monitoring of running load and network performance data is supported; the monitoring of the number of the containers which run, stop or pause on the nodes by the containers is realized, and the real-time monitoring of the running state of the containers and the use condition of container resources is realized; the method comprises the steps of monitoring the running state of the resource management cluster and the health condition of each component, monitoring the resource use condition and the running state of a host node of the resource management cluster, monitoring the use condition of various resources in the cluster, and setting the resource management cluster to support persistent storage.

In Step1, the blockchain service component includes: a blockchain infrastructure, a blockchain operation and maintenance management platform (BaaS platform), and a blockchain browser; monitoring the block chain infrastructure, including monitoring the running state, network topology and resource use condition of the block chain network nodes, monitoring the block height and transaction quantity in the block chain network, monitoring the block details and transaction details in the block chain network, and monitoring the running state of the intelligent contract; monitoring the block link operation and maintenance management platform, including monitoring the running state and the resource use condition of the block link operation and maintenance management platform; and monitoring the blockchain browser, including monitoring the running state and the resource use condition of the blockchain browser.

In Step1, the application system monitors one or more of the message middleware, the Web application server, the cache middleware, and the database, and also monitors the running state of the application system. Since the operating state of the application directly affects the operating state of the service program, the performance of many systems is limited, and therefore, the application in the blockchain project needs to be monitored. Because indexes are different, the monitoring needs to be performed respectively according to different characteristics and attributes, and then the monitoring needs to be summarized to a unified monitoring center. And when the abnormity occurs, the information needs to be displayed on the unified interface and an alarm is given. In the current block chain project, only Redis and Mysql are used as a service cache and a database, and a monitoring system is used for monitoring performance indexes of the service cache and the database respectively.

In Step1 and the steps of the above scheme, the application system includes a log, a unified tracking number is set for the log of the application system, all logs of the same request can be tracked through the tracking number, so that the unified monitoring of the whole log is realized for the log, once the log is abnormal, an external alarm is given, the log is monitored, including log retrieval and log data statistics, and then a fault alarm is given according to the log retrieval and log data statistics conditions, which are divided into the following two conditions:

when the operation and maintenance personnel develop and remove the fault aiming at the abnormity, all logs (especially abnormal logs) related to the abnormity can be quickly positioned according to the uniform tracking number for the operation and maintenance personnel to analyze, the result is obtained through analysis, and the analyzed result focuses on the trigger reason of the business abnormity, so that the problem can be further positioned.

Step 2: the block chain comprehensive monitoring module sets an early warning level aiming at the monitoring index, sends the early warning level and the verification result to an abnormal warning module, the abnormal warning module analyzes the verification result and the early warning level to form a binding mapping relation, and sends the final verification result to an abnormal warning interface;

in Step2, acquiring service nodes for collecting and reporting indexes and data by the aid of acquisition service nodes (Agent technology is combined with telegraff technology to achieve acquisition and reporting of indexes and data, telegraff and Influxdb are used for acquiring and storing monitoring index data of VMware, Agent is combined with telegraff to achieve Go writing of an Agent program, the Agent program is an open-source distributed time sequence, event and index database developed by using Go language, is an Agent for collecting and reporting indexes and data, does not need external dependence, is designed with the aim of achieving distributed and horizontal telescopic expansion, and further uses telegraff and Influxdb to acquire and store the monitoring index data of VMware in a monitoring system) to collect statistical data of a blockchain service component and an application system, and an abnormal alarm interface achieves pulling of the data of the monitoring indexes from the acquisition service nodes by the aid of a monitoring alarm time sequence combined database.

Step 3: and obtaining a final verification result by the abnormal alarm interface, returning the final verification result to the block chain comprehensive monitoring module, and sending out a corresponding supervision warning, a safety prompt or a result feedback notice.

In Step3, the data of the collection service node and the monitoring alarm time sequence combined database are obtained through a monitoring analysis alarm visualization component and are respectively visualized into a chart, so that operation and maintenance personnel can conveniently check the chart.

Based on the same inventive concept, in another embodiment, an embodiment of the present invention further provides a system for implementing ecological security supervision of digital rmb based on a block chain, which comprises:

(1) the block chain comprehensive monitoring module: the system comprises a monitoring module, a monitoring module and a verification module, wherein the monitoring module is used for acquiring monitoring indexes of monitoring objects transmitted by one or more of a bottom layer resource, a block chain service component, an application system, a block chain service and a log, verifying the availability of an upper layer service and acquiring a verification result; setting an early warning level aiming at the monitoring index, and sending the early warning level and the verification result to an abnormal warning module; wherein, the block chain integrated monitoring module further comprises: the system comprises a bottom layer resource, a block chain service component, an application system, a block chain service and a log;

1.1 the underlying resources include: the system is used for monitoring one or more of a physical machine, a virtual machine, a storage system, a container and a resource management cluster;

1.2 the blockchain service component comprises: the system comprises a block chain management platform, a block chain operation and maintenance management platform and a block chain browser, wherein the block chain management platform is used for monitoring one or more of the block chain infrastructure, the block chain operation and maintenance management platform and the block chain browser;

1.3 the application system comprises: the system is used for monitoring one or more of message middleware, a Web application server, cache middleware and a database, and also monitoring the running state of an application system;

1.4 the log is included in the application system: and the unified tracking number is used for setting the unified tracking number for the log of the application system.

(2) An abnormal alarm module: the early warning interface is used for analyzing the verification result and the early warning level to form a binding mapping relation and sending the final verification result to the abnormal warning interface; wherein, the abnormal alarm module further comprises: collecting a service node and a monitoring alarm time sequence combination database;

2.1, the collection service node: the statistical data used for collecting the blockchain service component and the application system;

2.2 the monitoring alarm time sequence combination database: and the data acquisition server is used for pulling the data of the monitoring indexes from the acquisition service node.

(3) An abnormal alarm interface: and the system is used for acquiring a final verification result, returning the final verification result to the block chain comprehensive monitoring module, and sending out corresponding supervision warning, safety prompt or result feedback notice. Wherein, the abnormal alarm interface comprises a monitoring analysis alarm visual component: and the data used for acquiring the collection service node and the monitoring alarm time sequence combined database can be respectively visualized into a chart, so that operation and maintenance personnel can conveniently check the chart.

The number of modules and the processing scale described herein are intended to simplify the description of the invention. Applications, modifications and variations of the present invention to a predictive machine-based blockchain asset and contract processing system will be apparent to those skilled in the art.

For the system embodiment, since it is basically similar to the method embodiment, the description is simple, and for the relevant points, refer to the partial description of the method embodiment.

The embodiments in the present specification are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

As will be appreciated by one skilled in the art, embodiments of the present invention may be provided as a method, apparatus, or computer program product. Accordingly, the present invention may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present invention may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present invention has been described with reference to flowchart illustrations and/or block diagrams of methods, terminal devices (systems), and computer program products according to the invention. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing terminal to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing terminal, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing terminal to cause a series of operational steps to be performed on the computer or other programmable terminal to produce a computer implemented process such that the instructions which execute on the computer or other programmable terminal provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

The embodiments described above are presented to enable a person having ordinary skill in the art to make and use the invention. It will be readily apparent to those skilled in the art that various modifications to the above-described embodiments may be made, and the generic principles defined herein may be applied to other embodiments without the use of inventive faculty. Therefore, the present invention is not limited to the above embodiments, and those skilled in the art should make improvements and modifications to the present invention based on the disclosure of the present invention within the protection scope of the present invention.

Claims

1. A method for realizing digital RMB ecological safety supervision based on a block chain is characterized by comprising the following concrete implementation steps:

the block chain comprehensive monitoring module sets an early warning level aiming at the monitoring index, sends the early warning level and the verification result to an abnormal warning module, the abnormal warning module analyzes the verification result and the early warning level to form a binding mapping relation, and sends the final value of the verification result to an abnormal warning interface;

2. The method of claim 1, wherein the underlying resources comprise: one or more of a physical machine, a virtual machine, a storage system, a container and a resource management cluster; monitoring the performance of the physical machine, wherein the monitoring comprises one or more of monitoring the execution condition of a user task and an event generated in the running process of the physical machine; the running state of the virtual machine is monitored in real time, and the real-time monitoring of running load and network performance data is supported; the monitoring of the number of the containers which run, stop or pause on the nodes by the containers is realized, and the real-time monitoring of the running state of the containers and the use condition of container resources is realized; the method comprises the steps of monitoring the running state of the resource management cluster and the health condition of each component, monitoring the resource use condition and the running state of a host node of the resource management cluster, monitoring the use condition of various resources in the cluster, and setting the resource management cluster to support persistent storage.

3. The method of claim 1, wherein the blockchain-based implementation of digital renminbi ecological security supervision comprises: the system comprises a block chain infrastructure, a block chain operation and maintenance management platform and a block chain browser; monitoring the block chain infrastructure, including monitoring the running state, network topology and resource use condition of the block chain network nodes, monitoring the block height and transaction quantity in the block chain network, monitoring the block details and transaction details in the block chain network, and monitoring the running state of the intelligent contract; monitoring the block link operation and maintenance management platform, including monitoring the running state and the resource use condition of the block link operation and maintenance management platform; and monitoring the blockchain browser, including monitoring the running state and the resource use condition of the blockchain browser.

4. The method for realizing ecological security supervision of digital renminbi based on block chain according to claim 1, wherein the application system comprises monitoring one or more of message middleware, Web application server, cache middleware and database, and further comprises monitoring the running state of the application system.

5. The method for realizing ecological safety supervision of digital RMB based on the block chain as claimed in claim 1 or 4, wherein the application system comprises logs, a unified tracking number is set for the logs of the application system, all logs of the same request are tracked through the tracking number, so that unified monitoring of the logs is realized, once log abnormality occurs, an external alarm is given, the monitoring of the logs comprises log retrieval and log data statistics, and then fault alarm is given according to the log retrieval and log data statistics, which comprises the following two cases:

when the log is abnormal, the monitoring system gives an alarm in real time and displays the alarm on a unified abnormal alarm interface;

when fault elimination is carried out aiming at the abnormity, a unified tracking number is obtained to quickly locate all logs related to the abnormity for analysis results, and the trigger reason of the business abnormity is focused according to the analysis results, so that the problem is further located.

6. The method for realizing ecological security supervision of digital renminbi based on block chains as claimed in claim 1, wherein statistical data of the block chain service components and the application system are collected by collection service nodes, the abnormal alarm interface pulls data of monitoring indexes from the collection service nodes through a monitoring alarm time sequence combined database, and the data of the collection service nodes and the monitoring alarm time sequence combined database obtained through a monitoring analysis alarm visualization component are respectively visualized into charts.

7. The utility model provides an ecological safety supervisory systems of digital RMB based on block chain realization which characterized in that includes:

the block chain comprehensive monitoring module: the system comprises a monitoring object acquisition module, a monitoring object verification module and a monitoring object verification module, wherein the monitoring object acquisition module is used for acquiring monitoring indexes of a monitoring object transmitted by one or more of a bottom layer resource, a block chain service component, an application system, a block chain service and a log, verifying the availability of an upper layer service and acquiring a verification result; setting an early warning level aiming at the monitoring index, and sending the early warning level and the verification result to an abnormal warning module;

8. The system of claim 7, wherein the block chain integrated monitoring module further comprises: the system comprises a bottom layer resource, a block chain service component, an application system, a block chain service and a log;

the underlying resources include: monitoring one or more of a physical machine, a virtual machine, a storage system, a container and a resource management cluster;

the blockchain service component comprises: the system comprises a block chain management platform, a block chain operation and maintenance management platform and a block chain browser, wherein the block chain management platform is used for monitoring one or more of the block chain infrastructure, the block chain operation and maintenance management platform and the block chain browser;

the log is set in the application system: and the unified tracking number is used for setting the unified tracking number for the log of the application system.

9. The system of claim 7, wherein the anomaly alarm module further comprises: collecting a service node and a monitoring alarm time sequence combined database;

10. The system of claim 9, wherein the anomaly alert interface comprises a monitoring analysis alert visualization component: and the data used for acquiring the collection service node and the monitoring alarm time sequence combined database can be respectively visualized into charts.