CN110798660B - Integrated operation and maintenance system based on cloud federal audio and video fusion platform - Google Patents

Abstract

The invention provides an integrated operation and maintenance system based on a cloud federal audio and video fusion platform, which comprises a collection unit, an analysis unit and a unified portal unit, wherein the collection unit is connected with the cloud federal audio and video fusion platform outside the system, the collection unit is connected with the analysis unit, and the analysis unit is connected with the unified portal unit; the acquisition unit is used for carrying out whole-network integrated monitoring acquisition on various system operation data, and the system operation data comprises host information, network information, equipment information, service information, database information and service information; the analysis unit is used for carrying out statistical classification and analysis on various system operation data, including service analysis, resource level analysis, service availability analysis, node network resource analysis and database operation analysis; the unified portal unit is used for carrying out unified authority management, unified portal and unified alarm; the unified portal unit also provides functions of the integrated operation and maintenance system based on the cloud federal audio and video fusion platform and an entrance of data authority management.

Description

Integrated operation and maintenance system based on cloud federal audio and video fusion platform

Technical Field

The invention relates to the field of audio and video communication, in particular to an integrated operation and maintenance system based on a cloud federal audio and video fusion platform.

Background

With cloud computing and distributed landing and fighting, more and more servers are turned to the cloud, landing of a micro-service architecture also makes the existing IT system architecture more and more complex, and the scale of services and applications is larger and larger. The audio and video fusion platform based on the cloud federation is characterized in that single independent audio and video cloud service nodes are connected with each other and communicate with each other for service, so that the service and application scale of the established multi-cloud combined audio and video fusion platform based on the cloud federation is larger, the service links are more complex, how to ensure the system operation of the huge system product, how to monitor the software and hardware operation condition of the system, how to quickly and efficiently diagnose the problems and the positioning problems, high human meat release efficiency offset error rate and the like, and the requirement needs a stronger operation and maintenance management and control system to support behind.

Disclosure of Invention

The invention aims to solve the technical problem that an integrated operation and maintenance system based on a cloud federal audio and video fusion platform is provided to solve the technical defects in the prior art that an efficient operation and maintenance management system aiming at the cloud federal audio and video fusion platform is lacked.

The integrated operation and maintenance system based on the cloud federal audio and video fusion platform is characterized by comprising a collection unit, an analysis unit and a unified portal unit, wherein the collection unit is connected with the cloud federal audio and video fusion platform outside the system, the collection unit is connected with the analysis unit, and the analysis unit is connected with the unified portal unit;

the acquisition unit is used for carrying out whole-network integrated monitoring and acquisition on various system operation data of service nodes distributed in various regions in the cloud federal audio and video fusion platform, wherein the various system operation data comprise host information, network information, equipment information, service information, database information and service information; the analysis unit is used for carrying out statistical classification and analysis on various system operation data acquired by the acquisition unit, and the analysis content comprises service analysis, resource level analysis, service availability analysis, node network resource analysis and database operation analysis; the unified portal unit is used for carrying out unified authority management, unified portal and unified alarm on various analyzed system operation data; the unified portal unit also provides functions of the integrated operation and maintenance system based on the cloud federal audio and video fusion platform and an entrance of data authority management.

Further, the acquiring unit specifically acquires the operating data of various systems, including:

collecting state information of a host in each cloud node, wherein the state information comprises a host name, an IP (Internet protocol), a state, a CPU (Central processing Unit) utilization rate, a memory utilization rate and a disk utilization rate;

collecting network information between adjacent cloud nodes and network information between servers and equipment in the cloud nodes, wherein the network information comprises network connection state and network quality;

collecting the running state of coding and decoding equipment in each cloud node, the performance index of the equipment and the connection state between the coding and decoding equipment and the service;

acquiring the running state, the calling relationship, the service calling process information, the response time and the calling result of each service in each cloud node;

collecting the running state and performance indexes of a database in each cloud node;

various service information of ordering, calling, meeting and commanding initiated in each cloud node is collected, wherein the service information comprises service item ID, initiator IP, receiver IP, service initiating time, ordering type, calling time and service state.

Further, the content of the analysis of the various system operation data by the analysis unit specifically includes:

analyzing the execution conditions of several services such as an on-demand service, a call service, a conference service, a command service and a video playback service;

counting most of corresponding resource consumption levels by a 95th percentile counting method, wherein the resource consumption levels comprise host performance level analysis, encoder performance level and decoder performance level;

counting the trend of the service availability rate in a period of continuous time aiming at each service;

counting the trend condition of the service node network inflow/outflow rate in a continuous period of time aiming at the service nodes;

and counting and analyzing the trend of the connection number utilization rate, the disk IOPS, the CPU occupancy rate and the memory occupancy rate of the database in a period of time aiming at each database instance record.

Further, the specific content of the service analysis includes:

respectively counting the availability ratios of the several types of services within a period of time, and displaying the variation trend within a period of time;

respectively counting the average response time of the plurality of types of services within a period of time, wherein the response time refers to the time consumed from the time of initiating the services to the time of receiving the service response;

counting service concurrency conditions in service nodes, wherein the service concurrency conditions comprise the number of on-demand concurrent links, the number of storage concurrent links, the number of circulation concurrent links, the number of conference concurrent groups, the number of management resources and the number of user concurrent links;

restoring a service calling process from a service perspective specifically comprises the following steps: initiating a service from a user terminal, restoring the whole service flow information in a topological graph mode in the flow process of audio and video communication data between different service nodes and the processing process of the audio and video communication data of boundary coding and decoding equipment, and integrating related process information including link details, media flow information, link states, service states and on-line states of a coder and a decoder between two adjacent links;

and integrating and analyzing the service calling process in the service node, restoring the distributed calling process of the internal service in the form of a topological graph, and integrating and displaying relevant calling process information, including a calling party service identifier, a called party service identifier, a calling result and response duration.

Further, the functions that the unified portal unit can realize specifically include:

managing the authority of each level of operation and maintenance personnel in a unified manner, and respectively allocating resource management authorities to the operation and maintenance personnel according to the actual management authorities of different operation and maintenance personnel, namely the operation and maintenance personnel can only manage cloud node resources within the authority range; in addition, the system is also used for managing the function authority of different operation and maintenance personnel on the platform;

according to different use scenes of different users, different views are displayed: the management view faces to a manager, and shows various monitoring data summary and statistics and shows the global operation situation of the cloud federal audio and video fusion platform; the business view faces to the operation and maintenance support user and displays various operation and maintenance analysis data in the analysis unit; the professional view shows the running and calling processes in the program for the tracking and positioning of the problems;

alarm rules of the whole network under the cloud federation are uniformly configured and managed, alarm rules are configured aiming at the different types of monitoring items, the names of the alarm rules, the names of index types, operational characters, target values, alarm check periods, the times of reaching alarm threshold values, the periods of ignoring the same alarm information and the alarm information, and if an event conforming to the alarm rules is monitored, an alarm message is issued to correspond to an alarm receiver;

furthermore, the unified portal unit also provides a whole-network integrated remote intervention entrance to support operation and maintenance personnel to remotely start and stop the service, remotely start and stop the media equipment and remotely intervene the operation of the audio and video service in the authority range of the whole network.

Further, the unified portlet also provides one-touch deployment and upgrade: and providing a deployment and upgrade installation entrance in the unified portal unit, automatically pulling a service image file from an image warehouse based on a container image technology, constructing a service, completing a deployment and upgrade process, and achieving one-construction deployment and upgrade installation.

Drawings

The invention will be further described with reference to the accompanying drawings and examples, in which:

fig. 1 is a structural schematic diagram of an integrated operation and maintenance system based on a cloud federal audio and video fusion platform;

fig. 2 is a schematic diagram of an audio and video fusion platform based on cloud federation.

Detailed Description

For a more clear understanding of the technical features, objects and effects of the present invention, embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

An integrated operation and maintenance system based on a cloud federal audio and video fusion platform is shown in fig. 1 and comprises a collection unit, an analysis unit and a unified portal unit, wherein the collection unit is connected with the cloud federal audio and video fusion platform outside the system, the collection unit is connected with the analysis unit, and the analysis unit is connected with the unified portal unit.

The acquisition unit is used for carrying out whole-network integrated monitoring and acquisition on various system operation data of service nodes distributed in various regions in the cloud federal audio and video fusion platform; the analysis unit is used for carrying out statistical classification and analysis on various system operation data acquired by the acquisition unit; the unified portal unit is used for displaying various analyzed system operation data, performing alarm on related abnormal events according to related rules and supporting the execution of intervention operation on part of the abnormal events. The unified portal unit also provides functions of the integrated operation and maintenance system based on the cloud federal audio and video fusion platform and an entrance of data authority management.

1. The various system operation data that the acquisition unit gathered include:

collecting host information: the method comprises the steps of collecting state information of a host (a physical machine or a virtual machine) in each cloud node (all cloud federal whole network service units independent based on a cloud platform), wherein the state information comprises a host name, an IP (Internet protocol), a state (running/not started), a CPU utilization rate, a memory utilization rate and a disk utilization rate.

Collecting network information: network information between adjacent cloud nodes and network information between servers and devices (coding and decoding devices and the like) in the cloud nodes are collected, wherein the network information comprises network connection state and network quality (packet loss, delay and jitter).

Collecting equipment information: and collecting the running state of the coding and decoding equipment in each cloud node, the performance indexes (CPU utilization rate and memory utilization rate) of the equipment and the connection state between services.

Acquiring service information: and acquiring the running state, the calling relationship, the service calling process information, the response time and the calling result (success/failure) of each service in each cloud node.

Collecting database information: and collecting the running state and performance indexes (starting duration, connection number, disk IOPS, CPU occupancy rate and memory occupancy rate) of the database in each cloud node.

Sixthly, collecting service information: various service information of on-demand, calling, meeting and commanding initiated in each cloud node is collected, wherein the service information comprises service item ID, Initiator (IP), receiver (IP), service initiating time, on-demand type (audio/video), calling duration and service state (normal/abnormal/failure).

2. The analysis of the various system operation data by the analysis unit specifically comprises:

business analysis: analyzing the execution conditions of several services such as an on-demand service, a call service, a conference service, a command service and a video playback service, wherein the specific content of the service analysis comprises the following contents:

respectively counting the availability ratios (normal service times/total service initiating times 100% in every 1 hour) of the services in a period of time, and showing the change trend in the period of time;

secondly, respectively counting the average response time of the several types of services within a period of time, wherein the response time is the time consumed from the time of initiating the service to the time of receiving the service response.

In addition, the service concurrency conditions in the service nodes are counted, wherein the service concurrency conditions comprise the number of on-demand concurrent paths, the number of storage concurrent paths, the number of circulation concurrent paths, the number of conference concurrent groups, the number of management resources and the number of user concurrent paths.

Also, the business call process is restored from a business perspective to quickly track and locate faults and problems to the business process. The method comprises the steps of initiating a service from a user terminal, carrying out a process of transferring audio and video communication data between different service nodes and carrying out a process of processing the audio and video communication data of boundary coding and decoding equipment, restoring the whole service transfer information in the form of a topological graph, and integrating related process information, wherein the process information comprises link details (network quality: packet loss rate, delay, jitter and port state) between two adjacent links, media transfer information (a transmitting end IP + port, a receiving end IP + port, a forwarding type: unidirectional/multidirectional), link states (normal/abnormal/interrupted), service states (normal/abnormal/interrupted) and codec online states. In addition, integration analysis is carried out on the service calling process in the service node, the distributed calling process of the internal service is restored in the form of a topological graph, and relevant calling process information including the calling party service identifier, the called party service identifier, the calling result (success/failure) and the response duration is integrated and displayed.

Analyzing the water level of resources: and counting most of corresponding resource consumption levels by a 95th percentile statistical method. The method comprises the steps of host performance water level analysis (CPU utilization water level, memory utilization water level, magnetic disk utilization water level), encoder performance water level (CPU utilization water level, memory utilization water level) and decoder performance water level (CPU utilization water level, memory utilization water level).

95th percentile, 95th percentile being the 95th percentile. For example, the CPU utilization 95th percentile is 34%, which means that in all instances, the CPU utilization of 95% of the instances is lower than 34%. By looking at the 95th percentile statistics of each service resource, the resource consumption level of most cloud services can be known.

Analysis of service availability: for each service, a trend of service availability (number of available services/total number of services x 100%) over a continuous period of time is counted.

Analyzing the network resources of the nodes: and counting the trend situation of the inflow/outflow rate of the service node network in a continuous period of time aiming at the service nodes.

Database operation analysis: and counting and analyzing the trend of the connection number utilization rate, the disk IOPS, the CPU occupancy rate and the memory occupancy rate of the database in a period of time aiming at each database instance record.

3. The functions that the unified portal unit can realize include:

unified rights management: unified management of authority of operation and maintenance personnel at all levels, wherein cloud nodes at all levels are equivalent to managed data resources for the operation and maintenance personnel, and resource management authorities are respectively allocated to the operation and maintenance personnel according to actual management authorities of different operation and maintenance personnel, namely the operation and maintenance personnel can only manage cloud node resources within the authority range; in addition, the functional authority of different operation and maintenance personnel on the platform can be managed.

Secondly, unifying the portals: the method comprises the following steps of displaying a multi-user view, and displaying different views according to different use scenes of different users: the management view faces to managers, and mainly shows various monitoring data summarization statistics and the global operation situation of the cloud federal audio and video fusion platform; the business view faces to the operation and maintenance support user and displays various operation and maintenance analysis data in the analysis unit; the professional view mainly shows the running and calling processes in the program for problem tracking and positioning.

Thirdly, unified warning: alarm rules of the whole network under the cloud federation are uniformly configured and managed, and alarm rules, alarm rule names, index type names, operational characters, target values, alarm check periods, times of reaching alarm threshold values, periods of ignoring the same alarm information, alarm information and the like are configured aiming at the different types of monitoring items. And when the platform monitors the event which accords with the alarm rule, the platform issues an alarm message corresponding to an alarm receiver.

In addition, aiming at abnormal events, a whole-network integrated remote intervention inlet is provided, and intervention operations of operation and maintenance personnel on remote start-stop of services, remote start-stop of media equipment, remote intervention (interruption of services) of audio and video services and the like in a whole-network authority range are supported.

Fourthly, one-key deployment and upgrading:

and providing a deployment and upgrade installation entrance in the unified portal unit, automatically pulling a service image file from an image warehouse based on a container image technology, constructing a service, completing a deployment and upgrade process, and achieving one-construction deployment and upgrade installation.

A container is a running instance created by the mirror. The container is similar to a virtual machine and can be executed, including starting, stopping, deleting, etc. The containers are isolated from each other. The container can be seen as a simple version of the linux environment and the applications running therein. Mirroring a separate file system, including the data needed to run the container, can be used to create a new container.

As shown in fig. 2, the audio/video fusion platform based on the cloud federation is an audio/video fusion platform with multi-cloud combination, which is constructed by mutually connecting and intercommunicating single independent audio/video cloud service nodes, and has a larger application scale and more complicated service links. The method can perform integrated monitoring, alarming and operation and maintenance analysis based on the audio and video fusion platform of the cloud federation so as to ensure normal and stable operation of the whole network audio and video fusion platform and improve the working efficiency of operation and maintenance personnel to the maximum extent.

While the present invention has been described with reference to the embodiments shown in the drawings, the present invention is not limited to the embodiments, which are illustrative and not restrictive, and it will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (5)

1. The integrated operation and maintenance system based on the cloud federal audio and video fusion platform is characterized by comprising a collection unit, an analysis unit and a unified portal unit, wherein the collection unit is connected with the cloud federal audio and video fusion platform outside the system, the collection unit is connected with the analysis unit, and the analysis unit is connected with the unified portal unit;

the acquisition unit is used for carrying out whole-network integrated monitoring and acquisition on various system operation data of service nodes distributed in various regions in the cloud federal audio and video fusion platform, wherein the various system operation data comprise host information, network information, equipment information, service information, database information and service information; the analysis unit is used for carrying out statistical classification and analysis on various system operation data acquired by the acquisition unit, and the analysis content comprises service analysis, resource level analysis, service availability analysis, node network resource analysis and database operation analysis; the unified portal unit is used for carrying out unified authority management, unified portal and unified alarm on various analyzed system operation data; the unified portal unit also provides a function of the integrated operation and maintenance system based on the cloud federal audio and video fusion platform and an entrance of data authority management;

the acquisition unit is used for acquiring various system operation data and specifically comprises the following steps:

collecting state information of a host in each cloud node, wherein the state information comprises a host name, an IP (Internet protocol), a state, a CPU (Central processing Unit) utilization rate, a memory utilization rate and a disk utilization rate;

collecting network information between adjacent cloud nodes and network information between servers and equipment in the cloud nodes, wherein the network information comprises network connection state and network quality;

collecting the running state of coding and decoding equipment in each cloud node, the performance index of the equipment and the connection state between the coding and decoding equipment and the service;

acquiring the running state, the calling relationship, the service calling process information, the response time and the calling result of each service in each cloud node;

collecting the running state and performance indexes of a database in each cloud node;

collecting various service information of on-demand, calling, meeting and commanding initiated in each cloud node, wherein the service information comprises a service item ID, an initiator IP, a receiver IP, service initiating time, an on-demand type, calling time and a service state;

the specific content of the business analysis comprises:

respectively counting the availability ratios of the on-demand service, the call service, the conference service, the command service and the video playback service within a period of time, and displaying the variation trend within a period of time;

respectively counting average response time of the on-demand service, the call service, the conference service, the command service and the video playback service within a period of time, wherein the response time refers to the time consumed from the time of initiating the service to the time of receiving the service response;

counting service concurrency conditions in service nodes, wherein the service concurrency conditions comprise the number of on-demand concurrent links, the number of storage concurrent links, the number of circulation concurrent links, the number of conference concurrent groups, the number of management resources and the number of user concurrent links;

restoring a service calling process from a service perspective specifically comprises the following steps: initiating a service from a user terminal, restoring the whole service flow information in a topological graph mode in the flow process of audio and video communication data between different service nodes and the processing process of the audio and video communication data of boundary coding and decoding equipment, and integrating related process information including link details, media flow information, link states, service states and on-line states of a coder and a decoder between two adjacent links;

and integrating and analyzing the service calling process in the service node, restoring the distributed calling process of the internal service in the form of a topological graph, and integrating and displaying relevant calling process information, including a calling party service identifier, a called party service identifier, a calling result and response duration.

2. The integrated operation and maintenance system based on the cloud federal audio/video fusion platform as claimed in claim 1, wherein the analysis content of the analysis unit on the operation data of various systems specifically comprises:

analyzing the execution conditions of several services such as an on-demand service, a call service, a conference service, a command service and a video playback service;

counting most of corresponding resource consumption levels by a 95th percentile counting method, wherein the resource consumption levels comprise host performance level analysis, encoder performance level and decoder performance level;

counting the trend of the service availability rate in a period of continuous time aiming at each service;

counting the trend condition of the service node network inflow/outflow rate in a continuous period of time aiming at the service nodes;

and counting and analyzing the trend of the connection number utilization rate, the disk IOPS, the CPU occupancy rate and the memory occupancy rate of the database in a period of time aiming at each database instance record.

3. The integrated operation and maintenance system based on the cloud federal audio/video fusion platform as claimed in claim 1, wherein the functions that the unified portal unit can realize specifically include:

managing the authority of each level of operation and maintenance personnel in a unified manner, and respectively allocating resource management authorities to the operation and maintenance personnel according to the actual management authorities of different operation and maintenance personnel, namely the operation and maintenance personnel can only manage cloud node resources within the authority range; in addition, the system is also used for managing the function authority of different operation and maintenance personnel on the platform;

according to different use scenes of different users, different views are displayed: the management view faces to a manager, and shows various monitoring data summary and statistics and shows the global operation situation of the cloud federal audio and video fusion platform; the business view faces to the operation and maintenance support user and displays various operation and maintenance analysis data in the analysis unit; the professional view shows the running and calling processes in the program for the tracking and positioning of the problems;

and uniformly configuring and managing alarm rules of the whole network under the cloud federation, configuring alarm rules aiming at the different types of monitoring items, namely alarm rule names, index type names, operational characters, target values, alarm check periods, times of reaching alarm threshold values, periods of ignoring the same alarm information and alarm information, and issuing alarm information corresponding to an alarm receiver if an event conforming to the alarm rules is monitored.

4. The integrated operation and maintenance system based on the cloud federal audio/video fusion platform as claimed in claim 1, wherein the unified portal unit provides a whole-network integrated remote intervention entrance to support operation and maintenance personnel to remotely start and stop services, remotely start and stop media devices and remotely intervene and operate audio/video services within a whole-network authority range.

5. The integrated operation and maintenance system based on the cloud federal audio/video fusion platform as claimed in claim 1, wherein the unified portal unit provides one-key deployment and upgrade: and providing a deployment and upgrade installation entrance in the unified portal unit, automatically pulling a service image file from an image warehouse based on a container image technology, constructing a service, completing a deployment and upgrade process, and achieving one-construction deployment and upgrade installation.

Images