CN112636966A - Application batch deployment method based on remote debugging protocol - Google Patents

Abstract

The invention discloses an application batch deployment method based on a remote debugging protocol, which comprises the following steps: configuring a remote debugging client, a remote debugging server and a network environment; the remote debugging client is connected with the current remote debugging server; the remote debugging client pushes an application resource packet, encapsulates and issues a client request, receives and analyzes a deployment result, terminates application deployment of a current remote debugging server if application deployment failure is received, and continues pushing of a next application until deployment of all applications at the current remote debugging server is completed if application deployment success is received; and the remote debugging client breaks the connection with the current target remote debugging service end and connects with the next remote debugging service end until all the remote debugging service ends are deployed. The invention realizes unattended batch deployment, saves working time and improves working efficiency.

Description

Application batch deployment method based on remote debugging protocol

Technical Field

The invention relates to a mobile terminal application batch processing technology, in particular to an application batch deployment method based on a remote debugging protocol.

Background

The kylin mobile operating system is a mobile terminal operating system developed by the national defense science and technology university, adopts a Linux kernel and a running environment based on a browser engine, has higher stability and running efficiency, can provide an interface for directly accessing hardware equipment and services based on an HTML/JavaScript technology for a developer, and provides convenient and smooth Web application experience for a user.

At present, applications developed by third-party developers of the kylin mobile operating system can only be deployed through a software development tool (WebIDE) provided by the system, and the mode can provide convenience in the application development and debugging stage. After the development is completed, when the mass application needs to be deployed on the large-scale equipment, the deployment result needs to be deployed, analyzed and recorded one by a large amount of manpower in a WebIDE deployment mode, the workload is large, the efficiency is low, and the operation process consumes time and labor.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: aiming at the technical problems in the prior art, the invention provides an application batch deployment method based on a remote debugging protocol, which saves the working time and improves the working efficiency.

In order to solve the technical problems, the technical scheme provided by the invention is as follows:

an application batch deployment method based on a remote debugging protocol comprises the following steps:

1) the method comprises the steps that a remote debugging client is configured on local equipment, a remote debugging server is configured on remote equipment, and a network environment is configured;

2) the remote debugging client is connected with the current remote debugging server according to the IP and the port number;

3) the remote debugging client packs and compresses the application resource file of the current application into an application resource pack and then pushes the application resource pack to the current remote debugging server;

4) the remote debugging client encapsulates the client request and issues the client request to the current remote debugging server, receives and analyzes the deployment result sent by the current remote debugging server, terminates the application deployment of the current remote debugging server if the application deployment is failed, and returns to the step 2) to continue the pushing of the next application until all the applications are deployed at the current remote debugging server if the application deployment is successfully received;

5) the remote debugging client end is disconnected with the current target remote debugging service end, the step 2) is returned to connect the next remote debugging service end until all the remote debugging service ends are deployed.

Further, the step 1) of configuring the network environment specifically includes: the remote debugging client and the remote debugging server are connected into the same local area network, a TCP/IP protocol is used for connecting the remote debugging server to configure a static IP, the remote debugging client sets an ADB port number in a USB wired mode, the IP and the port number of the remote debugging server are recorded, and the port of the remote debugging client and the port of the remote debugging server are redirected by ADB forward.

Furthermore, the application resource file in the step 3) comprises a home page document file index.

Further, the step 4) of encapsulating the client request and issuing the client request to the current remote debugging server by the remote debugging client specifically includes: the remote debugging client converts the client request into protocol data according to the remote debugging protocol specification, and the protocol data is transmitted in the form of JSON data packets and is serialized into character strings.

Further, terminating the application deployment of the current remote debugging server in step 4) specifically includes: recording the current remote debugging server IP, judging whether the current remote debugging server has an installed application or not, if so, regarding the installed application of the current remote debugging server as a client request, packaging the client request and issuing the client request to the current remote debugging server, and jumping to the step 5), otherwise, jumping to the step 5).

Further, the step 4) of deploying the application by the remote debugging server after the remote debugging client encapsulates the client request and issues the client request to the current remote debugging server includes specifically:

s1) receiving the client request;

s2) responding the client request, analyzing the protocol data, identifying the protocol head and the protocol body of the remote debugging protocol, and extracting the encapsulated service data;

s3) calling a WebAPP processing module to deploy the application, wherein the WebAPP processing module is used for packaging related components of the operation application;

s4) packaging and feeding back the deployment result to the remote debugging client.

Further, step S3) is preceded by a step of querying the WebAPP processing module, which specifically includes: judging whether a WebAPP processing module exists, if the WebAPP processing module exists, entering the step S3), and if the WebAPP processing module does not exist, generating a deployment result of application deployment failure and skipping to the step S4).

The invention also provides an application batch deployment system based on the remote debugging protocol, which comprises a remote debugging client and a remote debugging server, wherein the remote debugging client comprises:

the application resource file processing module is used for packaging and compressing the application resource files into application resource packages and then pushing the application resource packages to the current remote debugging server;

the communication protocol front-end processing module is used for packaging the client request and issuing the client request to the remote debugging server, and receiving and analyzing a deployment result sent by the remote debugging server;

the remote debugging server comprises:

and the communication protocol back-end processing module is used for responding to the client request, analyzing protocol data, identifying a protocol head and a protocol body of the remote debugging protocol, extracting encapsulated service data, calling the WebAPP processing module to deploy application, and encapsulating and feeding back a deployment result to the remote debugging client.

The invention also provides an application batch deployment system based on the remote debugging protocol, which comprises computer equipment, wherein the computer equipment is programmed or configured to execute the application batch deployment method based on the remote debugging protocol.

The invention also provides a computer readable storage medium, which stores the computer program of the application batch deployment method based on the remote debugging protocol.

Compared with the prior art, the invention has the advantages that:

1. in the invention, the remote debugging client traverses the remote debugging server to carry out connection and application deployment, and the current remote debugging server is disconnected and connected with the next remote debugging server after the application deployment is finished, so that batch deployment is realized, and the working efficiency is greatly improved compared with manual one-by-one deployment.

2. In the invention, the remote debugging client and the remote debugging server respectively execute the deployment process asynchronously, and the remote debugging client simultaneously receives and analyzes the deployment result of the remote debugging server in the process of deploying the application to the remote debugging server, so that the application deployment can be stopped in time aiming at the remote debugging server with failed deployment.

3. In the invention, the remote debugging server performs application deployment through the WebAPP processing module aiming at the client request, the WebAPP processing module can call the browser engine in the kylin operating system equipment to decompress the application resource package and analyze and run the functional components packaged by HTML/JavaScript/CSS source codes, and related functional components can be flexibly called to execute application deployment operation according to the type of the deployment request.

Drawings

Fig. 1 is a schematic diagram illustrating a step of remotely debugging a client in the method according to the embodiment of the present invention.

Fig. 2 is a specific flowchart of terminating application deployment of the current remote debugging server by the remote debugging client in the method according to the embodiment of the present invention.

Fig. 3 is a flowchart illustrating a specific operation of the remote debugging server in the method according to the embodiment of the present invention.

Fig. 4 is a schematic structural diagram of a system according to an embodiment of the present invention.

Detailed Description

The invention is further described below with reference to the drawings and specific preferred embodiments of the description, without thereby limiting the scope of protection of the invention.

As shown in fig. 1, the application batch deployment method based on the remote debugging protocol of the present invention includes the following steps:

1) the method comprises the steps that a remote debugging client is configured on local equipment, a remote debugging server is configured on remote equipment, and a network environment is configured;

2) the remote debugging client is connected with the current remote debugging server according to the IP and the port number;

3) the remote debugging client packs and compresses the application resource file of the current application into an application resource pack and then pushes the application resource pack to the current remote debugging server;

4) the remote debugging client encapsulates the client request and issues the client request to the current remote debugging server, receives and analyzes the deployment result sent by the current remote debugging server, terminates the application deployment of the current remote debugging server if the application deployment is failed, and returns to the step 2) to continue the pushing of the next application until all the applications are deployed at the current remote debugging server if the application deployment is successfully received;

5) the remote debugging client end is disconnected with the current target remote debugging service end, the step 2) is returned to connect the next remote debugging service end until all the remote debugging service ends are deployed.

In this embodiment, the local device is a PC, the remote device is a device loaded with an kylin operating system, and the configuring of the network environment in step 1) specifically includes:

the remote debugging client and the remote debugging server are connected into the same local area network, a TCP/IP protocol is used for connecting the remote debugging server to configure a static IP, the remote debugging client sets an ADB port number in a USB wired mode, the IP and the port number of the remote debugging server are recorded, and the remote debugging client can be used according to the IP after a USB wire is disconnected: port number debugging remote debugging service end, utilizing adb forward to carry out remote debugging client end port and remote debugging service end port reorientation simultaneously, prepare the remote communication socket who is used for remote debugging client end and remote debugging service end to connect, formulate the remote debugging protocol standard, can transmit the file after making remote debugging client end and remote debugging service end connect, remote debugging client end adopts socket to be connected to the remote debugging service end, establish the receiving and dispatching passageway of remote debugging protocol.

In step 2) of this embodiment, since the IP and the port number of the remote debugging service have been recorded when the network environment is configured, the remote debugging client traverses the remote debugging service according to the recorded IP and the recorded port number to perform connection.

In this embodiment, the application resource file in step 3) is an HTML/JavaScript/CSS source code file, and the parsing of the source code is implemented by an internal browser engine of the device serving as a remote debugging server, so that the remote debugging client only needs to pack and compress the application resource file into an application resource packet and then push the application resource packet to a target server, where the application resource file at least includes a first page document file index

In step 4) of this embodiment, the client request refers to a service that the client needs to execute, and the service type includes installation, uninstallation, update, start-up, and close of an application;

the step 4) of encapsulating the client request and issuing the client request to the current remote debugging server by the remote debugging client specifically comprises the following steps: the remote debugging client converts the client request into protocol data according to the remote debugging protocol specification, and the protocol data is transmitted in the form of JSON data packets and is serialized into character strings. The protocol data comprises a protocol head and a protocol body, the protocol body stores service data, the service data comprises a service destination, a service type, an application ID and an application type, the service destination can be a client or a server, the service type is a client request and comprises installation, uninstallation, updating, starting and closing of the application, the application ID is an application resource package name named by UUID, and the application type is a WebAPP type for deploying the application and can be common WebAPP or privileged WebAPP;

in step 4), the client request is encapsulated and is issued to the current remote debugging server, the deployment result sent by the current remote debugging server is received and analyzed to be multithreading concurrent operation in an asynchronous form, the remote debugging client does not need to wait for the completion of the sending of the client request and then receive the deployment result, and the operations of issuing the client request and receiving the deployment result are performed simultaneously, so that the deployment time is saved, and the working efficiency is improved.

As shown in fig. 2, the terminating the application deployment of the current remote debugging server in the step of this embodiment specifically includes: recording the current remote debugging server IP, judging whether the current remote debugging server has an installed application, if so, taking an unloading request as a client request aiming at the installed application of the current remote debugging server, packaging and issuing the client request to the current remote debugging server, and jumping to the step 5), otherwise, jumping to the step 5), and judging whether the remote debugging server has the installed application by matching a deployment result of the service type for installation because the remote debugging server and the remote debugging client receive and send data through a remote debugging protocol in a remote debugging environment, and the protocol body of a protocol data packet stores service data which comprises the service type. The IP of the recording device facilitates the developer to track the problem device, and compared with the manual analysis and the recording of the deployment result, the accuracy and the working efficiency are improved.

As shown in fig. 3, the step 4) of deploying the application by the remote debugging service after the remote debugging client encapsulates the client request and issues the client request to the current remote debugging service further includes:

s1) receiving the client request;

s2) responding the client request, analyzing the protocol data, identifying the protocol head and the protocol body of the remote debugging protocol, and extracting the encapsulated service data;

s3) calling a WebAPP processing module to deploy the application, wherein the WebAPP processing module packages related components of the operation application, is embedded into a browser engine of an kylin mobile operation system and has higher execution authority, UUIDs are stored in application IDs in service data, and packet names of application resource packets are distinguished by the UUIDs, so that corresponding application resource packets can be obtained through matching of the application IDs, aiming at the selected application resource packets, the WebAPP processing module calls a functional component packaged by an internal browser engine of equipment for decompressing the application resource packets and analyzing and operating HTML/JavaScript/CSS source codes, decompresses the current application resource packets according to specific service data, and executes application deployment;

s4) packaging and feeding back the deployment result to the remote debugging client.

In this embodiment, step S3) is preceded by a step of querying the WebAPP processing module, which specifically includes: judging whether a WebAPP processing module exists, if the WebAPP processing module exists, entering the step S3), and if the WebAPP processing module does not exist, generating a deployment result of application deployment failure and skipping to the step S4).

As shown in fig. 4, the present invention further provides an application batch deployment system based on a remote debugging protocol, including a remote debugging client and a remote debugging server, where the remote debugging client includes:

the application resource file processing module is used for packaging and compressing the application resource files into application resource packages and then pushing the application resource packages to the current remote debugging server;

the communication protocol front-end processing module is used for packaging the client request and issuing the client request to the remote debugging server, and receiving and analyzing a deployment result sent by the remote debugging server;

the remote debugging server comprises:

the communication protocol back-end processing module is used for responding to the client request, analyzing protocol data, identifying a protocol head and a protocol body of a remote debugging protocol, extracting encapsulated service data, calling the WebAPP processing module to deploy application, and encapsulating and feeding back a deployment result to the remote debugging client;

and the WebAPP processing module is used for calling and operating the application related components and executing application deployment.

The following describes the workflow of the application batch deployment method based on the remote debugging protocol by taking fig. 4 as an example:

for a remote debugging client:

firstly, the application resource file processing module packs and compresses the application resource file into an application resource package, and pushes the application resource package to the remote debugging service terminal. The application resource packet is pushed to a data partition of a remote debugging server by ADB, and packet names are distinguished by UUIDs. Html and JSON data format manifest.

Then, the communication protocol front-end processing module encapsulates and sends the client request, specifically: and converting the client request into a protocol data packet according to the remote debugging protocol specification, and sending the protocol data packet to a remote debugging server, wherein the protocol data packet is transmitted in a JSON data packet form and is serialized into a character string. The inside of the communication protocol front-end processing module is multithreaded concurrent operation in an asynchronous mode. After a communication protocol front-end processing module sends a client request and receives a correct receipt, a new thread is adopted to receive and analyze a deployment result sent by a communication protocol back-end processing module, the communication protocol front-end processing module and the communication protocol back-end processing module are connected through a remote communication socket, the communication protocol front-end processing module analyzes after receiving the deployment result, when the deployment result is that application deployment fails, a remote debugging client terminates application deployment of a remote debugging service terminal, and when the deployment result is that application deployment succeeds, the communication protocol front-end processing module continues to receive and analyze the deployment result sent by the communication protocol back-end processing module until all applications are deployed successfully.

In the process of terminating application deployment, the communication protocol front-end processing module converts the unloading request into a protocol data packet according to the remote debugging protocol specification aiming at the installed application, and sends the protocol data packet to the remote debugging server.

For the remote debugging server:

first, the communication protocol back-end processing module responds to the client request, analyzes the protocol data packet, identifies the protocol head and protocol body of the remote debugging protocol, and extracts the encapsulated service data.

Then, the communication protocol back-end processing module calls a WebAPP processing module to deploy application, the WebAPP processing module calls a functional component packaged by an internal browser engine of the equipment for decompressing an application resource package and analyzing and operating HTML/JavaScript/CSS source codes, the application resource package is decompressed according to specific service data, the request content of a client side is executed, and the application can be deployed in a remote debugging service side by utilizing the function of the component.

After the application is deployed, the deployment result is packaged according to the remote debugging protocol specification through the communication protocol back-end processing module and then fed back to the client.

For the operation steps of the remote debugging server and the remote debugging client in the application batch deployment method based on the remote debugging protocol provided in the embodiment, Shell and BAT batch processing scripts can be respectively constructed according to linux and windows systems, so as to realize unattended operation of batch deployment.

The invention also provides an application batch deployment system based on the remote debugging protocol, which comprises computer equipment, wherein the computer equipment is programmed or configured to execute the application batch deployment method based on the remote debugging protocol.

The invention also provides a computer readable storage medium, which stores the computer program of the application batch deployment method based on the remote debugging protocol.

The foregoing is considered as illustrative of the preferred embodiments of the invention and is not to be construed as limiting the invention in any way. Although the present invention has been described with reference to the preferred embodiments, it is not intended to be limited thereto. Therefore, any simple modification, equivalent change and modification made to the above embodiments according to the technical spirit of the present invention should fall within the protection scope of the technical scheme of the present invention, unless the technical spirit of the present invention departs from the content of the technical scheme of the present invention.

Claims (10)

1. A remote debugging protocol-based application batch deployment method is characterized by comprising the following steps:

1) the method comprises the steps that a remote debugging client is configured on local equipment, a remote debugging server is configured on remote equipment, and a network environment is configured;

2) the remote debugging client is connected with the current remote debugging server according to the IP and the port number;

3) the remote debugging client packs and compresses the application resource file of the current application into an application resource pack and then pushes the application resource pack to the current remote debugging server;

4) the remote debugging client encapsulates the client request and issues the client request to the current remote debugging server, receives and analyzes the deployment result sent by the current remote debugging server, terminates the application deployment of the current remote debugging server if the application deployment is failed, and returns to the step 3) to continue the pushing of the next application until all the applications are deployed at the current remote debugging server if the application deployment is successfully received;

5) the remote debugging client end is disconnected with the current target remote debugging service end, the step 2) is returned to connect the next remote debugging service end until all the remote debugging service ends are deployed.

2. The batch application deployment method based on the remote debugging protocol according to claim 1, wherein the configuring of the network environment in step 1) specifically comprises: the remote debugging client and the remote debugging server are connected into the same local area network, a TCP/IP protocol is used for connecting the remote debugging server to configure a static IP, the remote debugging client sets an ADB port number in a USB wired mode, the IP and the port number of the remote debugging server are recorded, and the port of the remote debugging client and the port of the remote debugging server are redirected by ADB forward.

3. The batch application deployment method based on the remote debugging protocol of claim 1, wherein the application resource files in step 3) include index.html of a home page document file and manifest.webapp of a JSON data format, the application resource package is pushed to a current data partition of the remote debugging server by ADB, and the package names of the application resource packages are distinguished by UUIDs.

4. The batch application deployment method based on the remote debugging protocol according to claim 1, wherein the step 4) of encapsulating the client request by the remote debugging client and issuing the client request to the current remote debugging server specifically comprises: the remote debugging client converts the client request into protocol data according to the remote debugging protocol specification, and the protocol data is transmitted in the form of JSON data packets and is serialized into character strings.

5. The batch application deployment method based on the remote debugging protocol according to claim 1, wherein terminating the application deployment of the current remote debugging server in step 4) specifically comprises: recording the current remote debugging server IP, judging whether the current remote debugging server has an installed application or not, if so, regarding the installed application of the current remote debugging server as a client request, packaging the client request and issuing the client request to the current remote debugging server, and jumping to the step 5), otherwise, jumping to the step 5).

6. The batch application deployment method based on the remote debugging protocol according to claim 1, wherein the step of deploying the application by the remote debugging server is further included after the remote debugging client encapsulates the client request and issues the client request to the current remote debugging server in step 4), and specifically includes:

s1) receiving the client request;

s2) responding the client request, analyzing the protocol data, identifying the protocol head and the protocol body of the remote debugging protocol, and extracting the encapsulated service data;

s3) calling a WebAPP processing module to deploy the application, wherein the WebAPP processing module is used for packaging related components of the operation application;

s4) packaging and feeding back the deployment result to the remote debugging client.

7. The batch application deployment method based on the remote debugging protocol as claimed in claim 6, wherein step S3) is preceded by a step of querying a WebAPP processing module, which specifically includes: judging whether a WebAPP processing module exists, if the WebAPP processing module exists, entering the step S3), and if the WebAPP processing module does not exist, generating a deployment result of application deployment failure and skipping to the step S4).

8. The application batch deployment system based on the remote debugging protocol is characterized by comprising a remote debugging client and a remote debugging server, wherein the remote debugging client comprises:

the application resource file processing module is used for packaging and compressing the application resource files into application resource packages and then pushing the application resource packages to the current remote debugging server;

the communication protocol front-end processing module is used for packaging the client request and issuing the client request to the remote debugging server, and receiving and analyzing a deployment result sent by the remote debugging server;

the remote debugging server comprises:

and the communication protocol back-end processing module is used for responding to the client request, analyzing protocol data, identifying a protocol head and a protocol body of the remote debugging protocol, extracting encapsulated service data, calling the WebAPP processing module to deploy application, and encapsulating and feeding back a deployment result to the remote debugging client.

9. A remote debugging protocol-based application batch deployment system is characterized by comprising computer equipment, wherein the computer equipment is programmed or configured to execute the remote debugging protocol-based application batch deployment method of any one of claims 1 to 7.

10. A computer-readable storage medium, wherein the computer-readable storage medium stores a computer program for executing the method for deploying a batch of applications based on a remote debugging protocol according to any one of claims 1 to 7.

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