CN107562488A - Automatically dispose device and dispositions method based on simulation test platform - Google Patents

Abstract

The present invention discloses a kind of automatically dispose device and dispositions method based on simulation test platform, can realize the rapid deployment of simulated environment, improves the brush engine efficiency of VOBC, ZC equipment.Described device includes：SVN servers, simulation test platform, emulation platform safeguard machine, automatic brush machine equipment and continuous integrating, deployment and distribution platform；Simulation test platform includes an at least simulation work station, the independent networking of simulation test platform, forms emulation platform net；Emulation platform safeguards machine, is equipment under test brush machine, power-on and power-off for dividing WLAN, and configuration of IP for emulation platform net, and by the automatic brush machine equipment；Continuous integrating, deployment and distribution platform, for the IP in configuration item, by accessing the emulation platform net, by simulation test platform software from SVN server dispositions to an at least simulation work station；Emulation platform safeguards machine, is additionally operable to start corresponding simulation test platform software according to test condition, to test the equipment under test.

Description

Automatic deployment device and method based on simulation test platform

Technical Field

The invention relates to the field of rail transit, in particular to an automatic deployment device and a deployment method based on a simulation test platform.

Background

At present, with the increase of engineering lines, the workload of engineering tests is also increased, but the deployment work of the test platform simulation software is still completely executed manually, so that the problems of long deployment time and large workload exist. In addition, during the test execution, the work of restoring, refreshing and the like of the tested system (such as ZC and VOBC) needs to be finished by repeated manual operation, which is time-consuming and labor-consuming.

With the requirements on timeliness and automation degree of engineering test becoming higher and higher, an automatic test platform automatic deployment scheme needs to be designed to reduce cost, save time and improve efficiency of platform construction and engineering test.

Disclosure of Invention

Aiming at the defects and shortcomings of the prior art, the invention provides an automatic deployment device and a deployment method based on a simulation test platform.

In one aspect, an embodiment of the present invention provides an automated deployment apparatus based on a simulation test platform, including:

the system comprises an SVN server, a simulation test platform, a simulation platform maintenance machine, an automatic flashing device and a continuous integration, deployment and release platform; wherein,

the simulation test platform comprises at least one simulation workstation, the simulation test platforms are independently networked to form a simulation platform network, and the simulation platform network is accessed to an ATC redundant network;

the simulation test platform comprises at least one simulation workstation, the simulation test platforms are independently networked to form a simulation platform network, and the simulation platform network is accessed to the redundant network of the automatic train control system; the simulation platform maintenance machine is used for dividing a wireless local area network for the simulation platform network, configuring an IP (Internet protocol), and refreshing the tested equipment and powering on and off through the automatic refreshing equipment, the simulation platform maintenance machine is accessed to the simulation platform network, and the tested equipment is accessed to the redundant network of the automatic train control system;

the continuous integration, deployment and release platform is used for deploying simulation test platform software from the SVN server to at least one simulation workstation by accessing the simulation platform network according to the IP in the configuration item;

the simulation platform maintenance machine is also used for starting corresponding simulation test platform software according to the test conditions so as to test the tested equipment.

On the other hand, an embodiment of the present invention provides a deployment method based on the foregoing apparatus, including:

the simulation platform maintenance machine divides a WLAN for the simulation platform network and configures an IP;

the continuous integration, deployment and release platform deploys simulation test platform software from the SVN server to at least one simulation workstation by accessing the simulation platform network according to the IP in the configuration item;

and the simulation platform maintenance machine starts corresponding simulation test platform software according to test conditions so as to test the tested equipment, wherein the simulation platform maintenance machine refreshes the tested equipment and powers on and off the tested equipment through the automatic refreshing equipment in the test execution process.

According to the automatic deployment device and the deployment method based on the simulation test platform, the simulation test platform maintenance machine is used for automatically dividing the WLAN for the simulation test platform, the IP is set, the continuous integration, deployment and release platform is used for realizing the automatic deployment of simulation test platform software from the SVN server to the simulation workstation, and the simulation test platform maintenance machine is used for starting the simulation test platform software and conducting the machine refreshing, power up and power down on the tested equipment; compared with the prior art of manual deployment and manual machine brushing, the scheme can realize the rapid deployment of the simulation environment, save manpower, reduce cost and improve the machine brushing efficiency of the tested equipment.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of an automated deployment apparatus based on a simulation test platform according to the present invention;

fig. 2 is a schematic flow chart of an embodiment of an automated deployment method based on a simulation test platform according to the present invention.

Detailed Description

In order to 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 will be clearly described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some embodiments, but not all embodiments, of the present invention. 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, the present embodiment discloses an automated deployment apparatus based on a simulation test platform, including:

an SVN (version control system, which is called subversion entirely) server 1, a simulation test platform 2, a simulation platform maintenance machine 3, an automatic machine-refreshing device 4 and a continuous integration, deployment and release platform 5; wherein,

the simulation test platform 2 comprises at least one simulation workstation, the simulation test platform 2 is independently networked to form a simulation platform network, and the simulation platform network is accessed to an Automatic Train Control (ATC) redundant network; the simulation platform maintenance machine 3 is used for dividing a WLAN (wireless local area network) for the simulation platform network, configuring an IP (Internet protocol), and refreshing and powering up and down for tested equipment (comprising a vehicle-mounted equipment controller VOBC and a zone controller ZC) through the automatic refreshing equipment 4, the simulation platform maintenance machine 3 is accessed to the simulation platform network, and the tested equipment is accessed to the redundant network of the automatic train control system;

the continuous integration, deployment and release platform 5 is used for deploying simulation test platform software from the SVN server 1 to at least one simulation workstation by accessing the simulation platform network according to the IP in the configuration item;

the simulation platform maintenance machine 3 is further configured to start corresponding simulation test platform software according to the test conditions, so as to test the device under test. In this embodiment, the simulation platform maintenance machine 3 may be written in C + + language, developed in a VS2010 environment, and adopt a C/S architecture. It will be appreciated that in conducting the test, the simulation platform maintenance machine 3 remotely starts the simulation workstation first, and then remotely starts the simulation test platform software. And after the test is finished, the simulation platform maintenance machine 3 remotely closes the simulation test platform software and remotely closes the simulation workstation. Namely, the simulation platform maintenance machine 3 can be used for turning on and off the simulation workstation by one key, and the simulation test platform software can be turned on and off by one key, so that the one-key turning-off of the idle simulation workstation can be realized, the quick switching of the engineering line test environment and the parallel development of the engineering product test can be realized, the manual starting time is saved, and the electric energy is saved. In addition to the aforementioned functions, the simulation platform maintenance machine 3 also records a running log.

According to the automatic deployment device based on the simulation test platform, the simulation platform maintenance machine is used for automatically dividing the WLAN for the simulation test platform, the IP is set, the continuous integration, deployment and release platform is used for realizing the automatic deployment of simulation test platform software from the SVN server to the simulation workstation, and the simulation test platform maintenance machine is used for starting the simulation test platform software and refreshing the tested device for power-on and power-off; compared with the prior art of manual deployment and manual flashing, the scheme can realize rapid deployment of the simulation environment and improve flashing efficiency of the tested equipment.

On the basis of the foregoing device embodiment, the persistent integration, deployment and release platform may include:

a Jenkins tool module, a compiling module, an automatic deployment module and a mail notification module; wherein,

the Jenkins tool module is used for monitoring the source codes in the version control system server, and when the source codes are monitored to be changed, a simulation test platform script is constructed according to the changed source codes;

the compiling module is used for compiling the simulation test platform script to obtain the simulation test platform software;

the automatic deployment module is used for deploying the simulation test platform software to the at least one simulation workstation;

and the mail notification module is used for notifying a mail after the simulation test platform software is deployed.

In this embodiment, when a tester wants to test a device to be tested, a test code may be submitted to the SVN server, which may cause a source code in the SVN server to change, and the Jenkins tool module performs simulation test platform script construction after monitoring the change in real time. And after the simulation test platform script is successfully constructed, the compiling module compiles the simulation test platform script to obtain simulation test platform software. And then the automatic deployment module deploys the simulation test platform script to the corresponding simulation workstation according to the IP in the input configuration item and the deployment instruction input by the tester, namely one-key deployment of the simulation test platform software on the simulation workstation is realized.

In addition, it should be noted that the persistent integration, deployment, and release platform is developed by using development environments such as jdk7.x, VC + +6.0, and VS 2010. In addition to the above modules, the persistent integration, deployment and release platform may further include a product migration module for migrating the test code from one SUV server to another SUV server, and a release module for updating the test code on the SUV server with the test code on the persistent integration, deployment and release platform.

On the basis of the foregoing device embodiment, the simulation test platform may include:

VOBC simulation workstation, trackside simulation workstation, LEU (line side electronic equipment) simulation workstation, DSU (database storage unit) simulation workstation, CI simulation workstation, ATS (automatic train monitoring system) simulation workstation, relay IO simulation workstation, driver's cabin simulation workstation and dynamics model simulation workstation; wherein,

the VOBC simulation workstation is used for simulating the operation of a real VOBC and completing a train tracking function by matching the real VOBC in the test process;

the trackside simulation workstation is used for simulating the position and state information of trackside equipment and displaying the running track of the train on a human-computer interface;

the LEU simulation workstation is used for simulating an LEU, receiving interlocked equipment state information, screening messages and sending MA messages to the trackside simulation workstation;

the DSU simulation workstation is used for simulating a real DSU, canceling a power-on mark for the ZC and storing temporary speed limit information;

the CI simulation workstation is used for simulating real interlocking and transacting an access for the chain;

the ATS simulation workstation is used for simulating the ATS to set temporary speed limit information;

the relay IO simulation workstation is used for driving and collecting the real interlocked relay and transmitting the real interlocked relay to the trackside simulation workstation for displaying;

the driving platform simulation workstation is used for simulating a real train driving platform and carrying out operation control on the running of the train;

the dynamic model simulation workstation is used for simulating a train speed calculation formula and calculating speed and position for the train.

On the basis of the embodiment of the foregoing apparatus, the automatic flashing device may be specifically configured to receive a flashing instruction sent by the simulation platform maintenance machine, issue a command to a corresponding device to be tested according to the flashing instruction, so that the corresponding device to be tested performs flashing according to the command, and performs power up and power down after flashing is completed, where the automatic flashing device communicates with the simulation platform maintenance machine through a UDP communication protocol, and the automatic flashing device is connected to a communication controller of the device to be tested through a network.

In this embodiment, the automatic flashing device may be written in C + + language and developed in a VS2010 environment. The device sends commands to the ZC or VOBC equipment to burn programs by receiving control commands of the simulation platform maintenance machine, and the ZC or VOBC equipment is powered on and powered off after the programs are burnt.

Referring to fig. 2, the present embodiment discloses a device deployment method based on any of the foregoing embodiments, including:

s1, the simulation platform maintenance machine divides a WLAN for the simulation platform network and configures an IP;

s2, the continuous integration, deployment and release platform deploys simulation test platform software from the SVN server to at least one simulation workstation by accessing the simulation platform network according to the IP in the configuration item;

in this embodiment, the deploying, by the persistent integration, deployment and release platform, the simulation test platform software from the version control system server to the at least one simulation workstation by accessing the simulation platform network according to the IP in the configuration item may include:

the Jenkins tool module monitors source codes in the version control system server, and when the source codes are monitored to be changed, a simulation test platform script is constructed according to the changed source codes;

the compiling module compiles the simulation test platform script to obtain simulation test platform software;

the automatic deployment module deploys the simulation test platform software to at least one simulation workstation by accessing the simulation platform network according to the IP in the configuration item;

and the mail notification module performs mail notification after the simulation test platform software is deployed.

And S3, starting corresponding simulation test platform software by the simulation platform maintenance machine according to test conditions to test the tested device, wherein the simulation platform maintenance machine refreshes the tested device and powers on and off through the automatic refreshing device in the test execution process.

In this embodiment, the step of refreshing the tested device, powering up and powering down by the automatic refreshing device during the test execution of the simulation platform maintenance machine may include:

the simulation platform maintenance machine sends a machine refreshing instruction to the automatic machine refreshing equipment;

the automatic flashing device receives the flashing instruction and issues a command to the corresponding device to be tested according to the flashing instruction;

and the corresponding equipment to be tested performs machine refreshing according to the command, and performs power up and down after the machine refreshing is completed.

According to the deployment method provided by the embodiment of the invention, the simulation test platform maintenance machine is used for automatically dividing the WLAN for the simulation test platform, the IP is set, the continuous integration, deployment and release platform is used for realizing the automatic deployment of the simulation test platform software from the SVN server to the simulation workstation, and the simulation test platform maintenance machine is used for starting the simulation test platform software and conducting the power on and off of the tested equipment; compared with the prior art of manual deployment and manual flashing, the scheme can realize rapid deployment of the simulation environment and improve flashing efficiency of the tested equipment.

Although the embodiments of the present invention have been described in conjunction with the accompanying drawings, those skilled in the art may make various modifications and variations without departing from the spirit and scope of the invention, and such modifications and variations fall within the scope defined by the appended claims.

Claims (8)

1. An automated deployment apparatus based on a simulation test platform, comprising:

the system comprises a version control system server, a simulation test platform, a simulation platform maintenance machine, an automatic flashing device and a continuous integration, deployment and release platform; wherein,

the simulation test platform comprises at least one simulation workstation, the simulation test platforms are independently networked to form a simulation platform network, and the simulation platform network is accessed to the redundant network of the automatic train control system; the simulation platform maintenance machine is used for dividing a wireless local area network for the simulation platform network, configuring an IP (Internet protocol), and refreshing the tested equipment and powering on and off through the automatic refreshing equipment, the simulation platform maintenance machine is accessed to the simulation platform network, and the tested equipment is accessed to the redundant network of the automatic train control system;

the continuous integration, deployment and release platform is used for deploying simulation test platform software from the version control system server to at least one simulation workstation by accessing the simulation platform network according to the IP in the configuration item;

the simulation platform maintenance machine is also used for starting corresponding simulation test platform software according to the test conditions so as to test the tested equipment.

2. The apparatus of claim 1, wherein the persistent integration, deployment, and publication platform comprises:

a Jenkins tool module, a compiling module, an automatic deployment module and a mail notification module; wherein,

the Jenkins tool module is used for monitoring the source codes in the version control system server, and when the source codes are monitored to be changed, a simulation test platform script is constructed according to the changed source codes;

the compiling module is used for compiling the simulation test platform script to obtain the simulation test platform software;

the automatic deployment module is used for deploying the simulation test platform software to at least one simulation workstation;

and the mail notification module is used for notifying a mail after the simulation test platform software is deployed.

3. The apparatus of claim 2, wherein the persistent integration, deployment, and release platform further comprises a product migration module for migrating test code from one SUV server to another SUV server and a release module for updating test code on a SUV server with test code on the persistent integration, deployment, and release platform.

4. The apparatus of claim 2, wherein the simulation test platform comprises:

the system comprises a vehicle-mounted equipment controller simulation workstation, a trackside simulation workstation, a line side electronic equipment simulation workstation, a database storage unit simulation workstation, a CI simulation workstation, an automatic train monitoring system simulation workstation, a relay IO simulation workstation, a driving platform simulation workstation and a dynamic model simulation workstation; wherein,

the simulation workstation of the vehicle-mounted equipment controller is used for simulating the operation of a real vehicle-mounted equipment controller and completing a train tracking function by matching with the real vehicle-mounted equipment controller in the test process;

the trackside simulation workstation is used for simulating the position and state information of trackside equipment and displaying the running track of the train on a human-computer interface;

the line side electronic equipment simulation workstation is used for simulating line side electronic equipment, receiving interlocked equipment state information, screening messages and sending MA messages to the trackside simulation workstation;

the database storage unit simulation workstation is used for simulating a real database storage unit, canceling a power-on mark for the area controller and storing temporary speed limit information;

the CI simulation workstation is used for simulating real interlocking and transacting an access for the chain;

the automatic train monitoring system simulation workstation is used for simulating the setting of temporary speed limit information by the automatic train monitoring system;

the relay IO simulation workstation is used for driving and collecting the real interlocked relay and transmitting the real interlocked relay to the trackside simulation workstation for displaying;

the driving platform simulation workstation is used for simulating a real train driving platform and carrying out operation control on the running of the train;

and the dynamic model simulation workstation is used for simulating the calculation of the speed and the position of the train according to a train speed calculation formula.

5. The apparatus of claim 1,

the automatic flashing device is specifically configured to receive a flashing instruction sent by the simulation platform maintenance machine, issue a command to a corresponding device to be tested according to the flashing instruction, so that the corresponding device to be tested performs flashing according to the command, and performs power on and off after flashing is completed, wherein the automatic flashing device communicates with the simulation platform maintenance machine through a UDP communication protocol, and the automatic flashing device is connected with a communication controller of the device to be tested through a network.

6. A deployment method based on the device of any one of claims 1 to 5, comprising:

the simulation platform maintenance machine divides a wireless local area network for the simulation platform network and configures IP;

the continuous integration, deployment and release platform deploys simulation test platform software from the version control system server to at least one simulation workstation by accessing the simulation platform network according to the IP in the configuration item;

and the simulation platform maintenance machine starts corresponding simulation test platform software according to test conditions so as to test the tested equipment, wherein the simulation platform maintenance machine refreshes the tested equipment and powers on and off the tested equipment through the automatic refreshing equipment in the test execution process.

7. The method of claim 6, wherein said persistent integration, deployment and release platform deploying simulation test platform software from said version control system server to said at least one simulation workstation by accessing said simulation platform network according to IP in configuration items, comprises:

the Jenkins tool module monitors source codes in the version control system server, and when the source codes are monitored to be changed, a simulation test platform script is constructed according to the changed source codes;

the compiling module compiles the simulation test platform script to obtain simulation test platform software;

the automatic deployment module deploys the simulation test platform software to at least one simulation workstation by accessing the simulation platform network according to the IP in the configuration item;

and the mail notification module performs mail notification after the simulation test platform software is deployed.

8. The method of claim 6, wherein the simulation platform maintenance machine refreshes the device under test up and down by the automatic refresher device during test execution, comprising:

the simulation platform maintenance machine sends a machine refreshing instruction to the automatic machine refreshing equipment;

the automatic flashing device receives the flashing instruction and issues a command to the corresponding device to be tested according to the flashing instruction;

and the corresponding equipment to be tested performs machine refreshing according to the command, and performs power up and down after the machine refreshing is completed.