CN113467819A - Development operation and maintenance platform and implementation method thereof - Google Patents

Abstract

The invention discloses a development operation platform and an implementation method thereof, belonging to the technical field of development operation platforms, comprising a code management unit, a code management unit and a code management unit, wherein source codes are stored and managed through a Gitlab code warehouse; the development workflow management unit completes the tracking management of the projects including defect tracking, customer service, demand collection, process approval, task tracking, project tracking and agile management projects and workflows by using JIRA; the system comprises a continuous integration management unit, a platform monitoring unit and a development operation and maintenance support unit. The interval between the adjacent screen of manual regulation of accessible, when the polycell needs to be operated, adaptable a plurality of fortune dimension personnel concurrent operation, under single use or user not state, can fold polylith human-computer interaction interface, not only can practice thrift the storage space, can also be convenient for the observer and wholly master the situation of fortune dimension platform.

Description

Development operation and maintenance platform and implementation method thereof

Technical Field

The invention relates to the technical field of development, operation and maintenance platforms, in particular to a development, operation and maintenance platform and an implementation method thereof.

Background

The development operation and maintenance platform is a set of operation and maintenance system which is autonomously developed and deployed on the cloud platform and provides platform support for software system development and operation and maintenance. The system is deployed on Public Cloud (Alice Cloud, AWS and the like) or private Cloud, the system is arranged and managed through Kubernets and Rancher, and various development, operation and maintenance systems are effectively integrated, and the system comprises: gitlab, JIRA, Slack, Jenkins, Nexus and the like can effectively provide development and operation support and service for a system development team, realize efficient, safe and quick flow automatic management from code development to product deployment and online release, and utilize tools such as EFK, Prometosus, Grafana and the like to monitor the running state of the system by 7 x 24, so that the development, operation and maintenance management platform is an advanced development, operation and maintenance management platform in the industry, is provided with a server, a control structure and a display structure, and has the following problems due to integration of the three components:

1. when the operation and maintenance platform needs a plurality of people to carry out operation and maintenance operation simultaneously, the operation structure integrated with the server influences, the accommodating space capable of being operated by a plurality of people simultaneously is not enough, and if the operation panel is directly enlarged, the panel installation space is large.

2. All the units are uniformly arranged on one display part, the information needs to be identified and classified after reaching the display part, the information reaches the corresponding storage part, the interface needs to be switched back and forth when operation and maintenance personnel call the information, the required data processing and operation time is long, and the corresponding operation and maintenance efficiency is low.

The server and the control and display structure are integrated, so that the control and display structure does not need to be installed, the server self-contained structure is adopted, the use and installation range of the server is limited, and the heat dissipation difficulty of the server is increased.

Disclosure of Invention

The invention aims to provide a development operation and maintenance platform and an implementation method thereof, wherein the distance between adjacent screens can be adjusted manually, when multiple units need to be operated, the development operation and maintenance platform can adapt to simultaneous operation of multiple operation and maintenance personnel, and multiple man-machine interaction interfaces can be folded when the development operation and maintenance platform is used or not used by a single person, so that the storage space can be saved, an observer can conveniently and integrally master the condition of the operation and maintenance platform, and the problems in the background art are solved.

In order to achieve the purpose, the invention provides the following technical scheme: a development, operation and maintenance platform comprises

The code management unit is used for storing and managing the source codes through a Gitlab code warehouse;

the development workflow management unit completes the tracking management of the projects including defect tracking, customer service, demand collection, process approval, task tracking, project tracking and agile management projects and workflows by using JIRA;

the continuous integration management unit is used for customizing a script in advance according to the requirements of customers by Jenkins, automatically completing a series of continuous integration operations of code compiling, testing and deploying, and storing and managing the compiled executable file or DockerImage through SonayypeNoxus;

the platform monitoring unit is used for combining Prometous, EFK and Grafana for use, monitoring the overall running state of the platform for 7 x 24h, analyzing log files, finding problems and reporting the problems to the outside;

the development, operation and maintenance support unit is used for establishing an independent group with authority management for each development/operation and maintenance project by using the Slack, combining the Slack with the JIRA, Jenkins, Prometheus, EFK and Grafana, receiving notification information and notifying a project group, customizing a robot script file for each development/operation and maintenance project by the Slack, and automatically executing preset operation at regular time;

and the server accesses and runs each unit on the Kubernetes platform, is provided with a visualization device and an operating system, and is connected with the visualization device and the operating system.

Further, visualization device includes wiring subassembly, bracing piece subassembly and can move the screen subassembly, and wiring subassembly's one end is connected with the server, and wiring subassembly's the other end is connected with the bracing piece subassembly, and the tip fixedly connected with of bracing piece subassembly can move the screen subassembly.

Furthermore, the wiring assembly comprises an interface end, a port wiring board and a wiring main board, the interface end is connected with the wiring port of the server in an inserting mode, the interface end is located at the end portion of the port wiring board, and the port wiring board is connected with the wiring main board.

Further, the bracing piece subassembly includes reversing bar, free telescopic link, installation chassis and universal rotary joint, and the one end of reversing bar has the wiring mainboard through universal rotary joint swing joint, and the other end of reversing bar has free telescopic link through universal rotary joint swing joint, and the tip fixedly connected with installation chassis of free telescopic link, installation chassis pass through bolt fixedly connected with and can move the screen subassembly.

Further, the free telescopic rod comprises a sleeve, a thin rod, an ejector rod, clamping teeth and a clamping plate, the thin rod is arranged at one end of the ejector rod, the clamping plate is arranged at the end of the thin rod and slides forwards and backwards along the inner wall of the sleeve, the clamping teeth are arranged at the port of the sleeve, and the clamping teeth limit the clamping plate to move out of the sleeve.

Further, the diameter of the thin rod is smaller than that of the top rod.

Furthermore, can move screen subassembly includes slide rail, well slide rail, slide rail and human-computer interaction interface down, and equal sliding connection has polylith human-computer interaction interface between last slide rail and the well slide rail, between well slide rail and the slide rail down.

Furthermore, the code management unit, the development workflow management unit, the continuous integrated management unit, the platform monitoring unit and the development operation and maintenance support unit are respectively connected with a human-computer interaction interface in a one-to-one correspondence manner.

Furthermore, the upper slide rail, the middle slide rail and the lower slide rail are respectively provided with a magnetic track, a magnet block is arranged in a back plate of the human-computer interaction interface, and the magnetic tracks and the magnet blocks are respectively connected with a magnetic guide system.

According to another aspect of the present invention, an implementation method for developing an operation and maintenance platform is provided, which includes the following steps:

s101: logging in a Gitlab management system through Login ID and pass, establishing a new Project, or performing corresponding operation by using the existing Project;

s102: utilizing project types, member authorities and workflows required by JIRA development/operation and maintenance to perform BUG management and subject management, executing various types of operations of development/operation and maintenance according to a set workflow sequence, and automatically notifying the members to perform necessary corresponding and approval work;

s103: various continuous integration plug-ins required by projects are installed in advance by utilizing the plug management function of Jenkins, and required continuous integration scripts are customized to manufacture various Pinine script files meeting requirements;

s104: monitoring and developing the overall state data of the operation and maintenance platform, analyzing the data, and prompting operation and maintenance personnel to process if abnormality occurs;

s105: and constructing an internal instant communication working group for developing an operation and maintenance project group by using a Slack tool, interconnecting the working group with JIRA, Jenkins, Prometheus, EFK and Grafana, notifying in time, customizing a script file of the robot, and automatically executing preset operation at regular time.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the development operation and maintenance platform and the implementation method thereof, the distance between the adjacent screens can be adjusted manually, when multiple units need to be operated, the development operation and maintenance platform can adapt to simultaneous operation of multiple operation and maintenance personnel, and when the development operation and maintenance platform is used by a single person or is not used, multiple human-computer interaction interfaces can be folded, so that the storage space can be saved, and an observer can conveniently and integrally master the condition of the operation and maintenance platform.

2. According to the development operation and maintenance platform and the implementation method thereof, a plurality of movable human-computer interaction interfaces are arranged, each human-computer interaction interface corresponds to an independent operation and maintenance unit, the conditions of all the units can be integrally and independently divided, the development operation and maintenance platform has corresponding independence, the data processing time is saved, and the local operation and maintenance of the system are facilitated.

3. According to the development operation and maintenance platform and the implementation method thereof, the slide rail and the wiring main board are used as the installation base points, the characteristic that the traditional visual screen is installed on the server body is changed, the application installation range is expanded, and heat dissipation of the server and a human-computer interaction interface is facilitated.

Drawings

Fig. 1 is an overall structural diagram of a development operation and maintenance platform according to a first embodiment of the present invention;

fig. 2 is an assembly diagram of a visualization device of a development operation and maintenance platform according to a first embodiment of the present invention;

fig. 3 is an exploded view of a visualization device of a development operation and maintenance platform according to a first embodiment of the present invention;

fig. 4 is a diagram of a wiring assembly structure of the development, operation and maintenance platform according to the first embodiment of the present invention;

FIG. 5 is a structural diagram of a supporting rod assembly of the development, operation and maintenance platform according to a first embodiment of the present invention;

fig. 6 is a structure diagram of a free telescopic rod of the development, operation and maintenance platform according to the first embodiment of the present invention;

FIG. 7 is a diagram illustrating a structure of a screen-removable component of a development operation platform according to an embodiment of the present invention;

fig. 8 is a structure diagram of a middle slide rail of the development, operation and maintenance platform according to the first embodiment of the present invention;

fig. 9 is a flowchart of an implementation method of developing an operation and maintenance platform according to a first embodiment of the present invention.

In the figure: 1. a code management unit; 2. developing a workflow management unit; 3. a continuous integration management unit; 4. a platform monitoring unit; 5. developing an operation and maintenance support unit; 6. a server; 7. a visualization device; 71. a wiring assembly; 711. an interface end; 712. port wiring; 713. a wiring main board; 72. a support rod assembly; 721. a reversing lever; 722. a free telescopic rod; 723. installing a chassis; 724. a universal swivel joint; 725. a sleeve; 726. a thin rod; 727. a top rod; 728. clamping teeth; 729. clamping a plate; 73. a removable screen assembly; 731. an upper slide rail; 732. a middle slide rail; 733. a lower slide rail; 734. a human-computer interaction interface; 8. and (4) operating the system.

Detailed Description

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

Referring to fig. 1, a development, operation and maintenance platform includes

A code management unit 1 for storing and managing source codes through a Gitlab code repository;

the development workflow management unit 2 is used for completing the tracking management of the projects including defect tracking, customer service, requirement collection, process approval, task tracking, project tracking and agile management and the workflow by using JIRA;

the continuous integration management unit 3 is used for customizing a script in advance according to the requirements of customers by Jenkins, automatically completing a series of continuous integration operations of code compiling, testing and deploying, and storing and managing the compiled executable file or DockerImage through SonayypeExus;

the platform monitoring unit 4 is used for combining Prometous, EFK and Grafana, monitoring the overall running state of the platform for 7 x 24h, analyzing log files, finding problems and reporting the problems to the outside;

the development, operation and maintenance supporting unit 5 is used for establishing an independent group with authority management for each development/operation and maintenance project by using the Slack, combining the independent group with JIRA, Jenkins, Prometheus, EFK and Grafana, receiving notification information and notifying a project group, customizing a robot script file for each development/operation and maintenance project by the Slack, and automatically executing preset operation at regular time;

and the server 6 is used for connecting and operating each unit on a Kubernetes platform, and is provided with a visualization device 7 and an operating system 8, wherein the visualization device 7 is connected with the operating system 8.

Referring to fig. 2 and 3, the visualization device 7 includes a wiring assembly 71, a support rod assembly 72, and a movable screen assembly 73, one end of the wiring assembly 71 is connected with the server 6, the other end of the wiring assembly 71 is connected with the support rod assembly 72, and an end of the support rod assembly 72 is fixedly connected with the movable screen assembly 73.

Referring to fig. 4, the connection module 71 includes an interface port 711, a port connection 712, and a connection motherboard 713, the interface port 711 is plugged into a connection port of the server 6, the interface port 711 is located at an end of the port connection 712, and the port connection 712 is connected to the connection motherboard 713.

Referring to fig. 5, the supporting rod assembly 72 includes a reversing rod 721, a free telescopic rod 722, an installation chassis 723 and a universal swivel 724, one end of the reversing rod 721 is movably connected with a wiring main board 713 through the universal swivel 724, the other end of the reversing rod 721 is movably connected with the free telescopic rod 722 through the universal swivel 724, an end of the free telescopic rod 722 is fixedly connected with the installation chassis 723, and the installation chassis 723 is fixedly connected with the movable screen assembly 73 through a bolt.

Referring to fig. 6, the free telescopic rod 722 comprises a sleeve 725, a thin rod 726, a top rod 727, a latch 728 and a catch plate 729, wherein the thin rod 726 is arranged at one end of the top rod 727, the catch plate 729 is arranged at the end of the thin rod 726, the catch plate 729 slides back and forth along the inner wall of the sleeve 725, the latch 728 is arranged at the port of the sleeve 725, and the latch 728 limits the catch plate 729 to move out of the sleeve 725; the diameter of the pin 726 is smaller than the diameter of the stem 727.

Referring to fig. 7 and 8, the movable screen assembly 73 includes an upper slide rail 731, a middle slide rail 732, a lower slide rail 733, and a human-machine interface 734, where a plurality of human-machine interface 734 are slidably connected between the upper slide rail 731 and the middle slide rail 732, and between the middle slide rail 732 and the lower slide rail 733.

Code management unit 1, development workflow management unit 2, last integrated management unit 3, platform monitoring unit 4 and development fortune dimension support unit 5 are connected with a man-machine interface 734 respectively one-to-one, can be simultaneously with the data situation of each unit, can wait to overhaul the project, wait to set for the project show one by one, the interval between the adjacent screen is adjusted wantonly to the accessible is manual, when the polycell needs to be operated, adaptable a plurality of fortune dimension personnel operate, under single use or not user state, can fold polylith man-machine interface 734, not only can practice thrift and accomodate the space, can also be convenient for the observer to grasp the situation of fortune dimension platform wholly.

Referring to fig. 9, in order to better show the flow of the implementation method for developing the operation and maintenance platform, the embodiment provides an implementation method for developing the operation and maintenance platform, which includes the following steps:

s101: logging in a Gitlab management system through Login ID and pass, establishing a new Project, or performing corresponding operation by using the existing Project;

specifically, entering a Project to which the Login user belongs; new projects may be established or already existing projects may be used; the code/file originals of all directories under the rights Project can be viewed. Including file directory, file name, file attribute, all update histories, updaters, update reasons, etc.; the finished codes or files can be uploaded, and the update histories can be submitted and stored in a Gitlab warehouse at the same time when the codes or files are submitted; the code/file with the permission Project can be modified, edited, updated, deleted and the like, and corresponding histories are left; the code and the file with the permission Project can be merged under the condition of multi-person modification, the Gitlab can automatically judge and merge the modified part of the plurality of persons, and the manual operation can be reminded when the conflict occurs; completely new complete codes/files can be downloaded at any time;

s102: defining project types, member authorities and workflows required by project development/operation and maintenance by using JIRA software, performing BUG management and project management, executing various types of jobs of development/operation and maintenance according to a set workflow sequence, and automatically notifying the members to perform necessary corresponding and approval work;

the method specifically relates to user management, and the Admin user can manage users of various projects, including establishing a project user group, creating a user, and setting project group member permission or setting permission for an existing user; project management, namely project models meeting various requirements can be created through JIRA, including waterfall type development, agile development and the like; defining a project member group according to requirements, and giving corresponding authority and functions to the member group; defining members of the project according to the roles, establishing corresponding member groups for the members, and defining personal information such as mails of the project members; defining various workflows of the project, including BUG management/topic management flows and the like; defining the whole target, Task and sub-Task of the project, establishing corresponding responsibility and corresponding personnel, combining the operation content and the operation members, detailing the completion standard of each operation, and establishing corresponding approval process; managing various types of development efforts, such as code, documentation, etc.; and managing the task by the JIRA through a preset workflow. Realizing a whole set of process management including making, corresponding, reviewing, ending and the like of a project; the progress and the complete condition of each topic, the progress states of a responsible person and a corresponding person can be tracked and checked; in the management of the problem, a description and a corresponding comment may be added. The modification state of the document or the code associated with the topic can be checked, and the modification state is linked with Gitlab;

s103: various continuous integration plug-ins required by projects are installed in advance by utilizing the plug management function of Jenkins, preparation is made for subsequent continuous integration management, continuous integration scripts required by Jenkins are customized to be made into various required Pinine script files, and processes such as code compiling, automatic testing, automatic publishing and the like are automatically executed. The script program can be used as a part of the finished products of the project development operation and maintenance to be put into the Gitlab for version management;

s104: 7 ☓ 24h, monitoring the whole state data of the development operation and maintenance platform, including implementation data such as a CPU, an internal memory, a log file and the like, analyzing the data, if the data exceeds a preset peak value, namely the platform state is abnormal, immediately displaying abnormal data on a monitoring picture of the development operation and maintenance platform, and prompting operation and maintenance personnel to process immediately; acquiring state information of the development operation and maintenance platform by utilizing Grafana; the method adopts the forms of charts and the like to be displayed on the foreground picture in real time, is simple and easy to understand, and can check the implementation states of various running data of the platform at any time. Alarming immediately when an abnormality is found, and prompting platform maintenance personnel to perform inspection processing; various log files of the platform are collected immediately by using the EFK. Classifying the log files, analyzing and processing, and if abnormal information is found, alarming immediately to prompt a platform maintenance worker to check and process;

s105: constructing an internal instant communication working group for developing an operation and maintenance project group by using a Slack tool, interconnecting the working group with JIRA, Jenkins, Prometheus, EFK and Grafana, notifying in time, customizing a script file of the robot, and automatically executing preset operation at regular time;

specifically, an internal instant communication working group of the development operation and maintenance project group is constructed by utilizing a Slack tool. The members in the working group can realize authority management and can communicate instantly, and all communication sessions can keep the history and can be checked at any time; the conversation in the working group supports various scenes such as online modification, directional transmission, topic branch management and the like, and the internal communication of the development, operation and maintenance working group is completely met; the Slack can be interconnected with tools including Gitlab, JIRA, Jenkins, Prometheus and the like, and when the internal states of the Gitlab, JIRA, Jenkins and Prometheus change, the Slack can be automatically notified to a formulated work group of the Slack to notify the whole staff; various automatic execution script files can be customized by using the sleep's Robot function. And sending commands to tools such as Gitlab, JIRA, Jenkins, Prometheus and the like at regular time, automatically executing preset operations, and realizing the automatic management of development, operation and maintenance.

Example two

The difference between this embodiment and the first embodiment is only that in this embodiment, a magnetic rail and a magnet block are additionally provided, the upper rail 731, the middle rail 732, and the lower rail 733 are all provided with a magnetic rail, the magnet block is provided in the back plate of the human-computer interaction interface 734, and the magnetic rail and the magnet block are all connected with a magnetic guidance system, compared with the first embodiment in which each human-computer interaction interface 734 is manually adjusted, the present embodiment can also control the movement of the human-computer interaction interface 734 through the magnetic guidance system.

In summary, the following steps: according to the development operation and maintenance platform and the implementation method thereof, the distance between adjacent screens can be adjusted manually, when multiple units need to be operated, the development operation and maintenance platform can adapt to simultaneous operation of multiple operation and maintenance personnel, and under the condition of single use or non-use, a plurality of human-computer interaction interfaces 734 can be folded, so that the storage space can be saved, and an observer can conveniently and integrally master the condition of the operation and maintenance platform; a plurality of movable human-computer interaction interfaces 734 are arranged, each human-computer interaction interface 734 corresponds to an independent operation and maintenance unit, the conditions of each unit can be integrally and independently divided, and the system has corresponding independence, saves data processing time and is convenient for local operation and maintenance of the system; the sliding rail and the wiring main board 713 are used as mounting base points, the characteristic that the traditional visual screen is mounted on the server 6 body is changed, the application and mounting range is expanded, and heat dissipation of the server 6 and the human-computer interaction interface 734 is facilitated.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims (7)

1. A development, operation and maintenance platform is characterized by comprising

A code management unit (1) that saves and manages source codes by a Gitlab code repository;

a development workflow management unit (2) for performing tracking management including defect tracking, customer service, demand collection, process approval, task tracking, project tracking, agile management project and workflow by using JIRA;

the continuous integration management unit (3) uses Jenkins to customize scripts in advance according to customer requirements, automatically finishes a series of continuous integration operations of code compiling, testing and deployment, and stores and manages compiled executable files or DockerImages through SonayypeExus;

the platform monitoring unit (4) is used for combining Prometous, EFK and Grafana, monitoring the overall running state of the platform for 7-24 h, analyzing log files, finding problems and reporting the problems to the outside;

the development, operation and maintenance supporting unit (5) is used for establishing an independent group with authority management for each development/operation and maintenance project by using the Slack, combining the Slack with the JIRA, Jenkins, Prometheus, EFK and Grafana, receiving notification information and notifying a project group, customizing a robot script file for each development/operation and maintenance project by the Slack, and automatically executing preset operation at regular time;

and the server (6) is used for connecting and operating each unit on the Kubernets platform, and is provided with a visualization device (7) and an operating system (8), wherein the visualization device (7) is connected with the operating system (8).

2. A development, operation and maintenance platform according to claim 1, characterized in that the visualization device (7) comprises a wiring assembly (71), a support rod assembly (72) and a movable screen assembly (73), one end of the wiring assembly (71) is connected with the server (6), the other end of the wiring assembly (71) is connected with the support rod assembly (72), and the end of the support rod assembly (72) is fixedly connected with the movable screen assembly (73).

3. The development, operation and maintenance platform according to claim 2, wherein the connection component (71) includes an interface end (711), a port connection (712) and a connection main board (713), the interface end (711) is plugged into the connection port of the server (6), the interface end (711) is located at the end of the port connection (712), the port connection (712) is connected with the connection main board (713), the support rod component (72) includes a reversing rod (721), a free expansion rod (722), a mounting chassis (723) and a universal swivel joint (724), one end of the reversing rod (721) is movably connected with the connection main board (713) through the universal swivel joint (724), the other end of the reversing rod (721) is movably connected with the free expansion rod (722) through the universal swivel joint (724), the end of the free expansion rod (722) is fixedly connected with the mounting chassis (723), the movable screen component (73) is fixedly connected to the mounting base plate (723) through bolts, the free telescopic rod (722) comprises a sleeve (725), a thin rod (726), a push rod (727), a latch (728) and a clamping plate (729), the thin rod (726) is arranged at one end of the push rod (727), the clamping plate (729) is arranged at the end of the thin rod (726), the clamping plate (729) slides forwards and backwards along the inner wall of the sleeve (725), the clamping teeth (728) are arranged at the port of the sleeve (725), the clamping teeth (728) limit the clamping plate (729) to move out of the sleeve (725), the movable screen component (73) comprises an upper sliding rail (731), a middle sliding rail (732), a lower sliding rail (733) and a man-machine interaction interface (734), and a plurality of man-machine interaction interfaces (734) are connected between the upper sliding rail (731) and the middle sliding rail (732) and between the middle sliding rail (733) in a sliding manner.

4. A development and maintenance platform according to claim 1, characterized in that the diameter of the thin rods (726) is smaller than the diameter of the push rods (727).

5. The development, operation and maintenance platform according to claim 3, wherein the upper sliding rail (731), the middle sliding rail (732) and the lower sliding rail (733) are all provided with magnetic rails, the back plate of the human-computer interaction interface (734) is provided with magnet blocks, and the magnetic rails and the magnet blocks are all connected with a magnetic guiding system.

6. The development, operation and maintenance platform as claimed in claim 3, wherein the code management unit (1), the development workflow management unit (2), the continuous integration management unit (3), the platform monitoring unit (4) and the development, operation and maintenance support unit (5) are respectively connected with a human-computer interaction interface (734) in a one-to-one correspondence manner.

7. An implementation method for developing an operation and maintenance platform according to any one of claims 1 to 6, comprising the following steps:

s101: logging in a Gitlab management system through Login ID and pass, establishing a new Project, or performing corresponding operation by using the existing Project;

s102: utilizing project types, member authorities and workflows required by JIRA development/operation and maintenance to perform BUG management and subject management, executing various types of operations of development/operation and maintenance according to a set workflow sequence, and automatically notifying the members to perform necessary corresponding and approval work;

s103: various continuous integration plug-ins required by projects are installed in advance by utilizing the plug management function of Jenkins, and required continuous integration scripts are customized to manufacture various Pinine script files meeting requirements;

s104: monitoring and developing the overall state data of the operation and maintenance platform, analyzing the data, and prompting operation and maintenance personnel to process if abnormality occurs;

s105: and constructing an internal instant communication working group for developing an operation and maintenance project group by using a Slack tool, interconnecting the working group with JIRA, Jenkins, Prometheus, EFK and Grafana, notifying in time, customizing a script file of the robot, and automatically executing preset operation at regular time.

Images