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README.md | ||
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setup.py |
XDevice
Introduction
XDevice, a core module of the OpenHarmony test framework, provides services on which test case execution depends.
XDevice consists of the following sub-modules:
- command: enables command-based interactions between users and the test platform. It parses and processes user commands.
- config: sets test framework configurations and provides different configuration options for the serial port connection and USB connection modes.
- driver: functions as a test case executor, which defines main test steps, such as test case distribution, execution, and result collection.
- report: parses test results and generates test reports.
- scheduler: schedules various test case executors in the test framework.
- environment: configures the test framework environment, enabling device discovery and device management.
- testkit: provides test tools to implement JSON parsing, network file mounting, etc.
- resource: provides the device connection configuration file and report template definitions.
- adapter: adapts the test framework to open-source software.
Directory Structure
xdevice
├── config # XDevice configuration
│ ├── user_config.xml # XDevice environment configuration
├── resource # XDevice resources
│ ├── tools # Burning tools
├── src # Source code
│ ├── xdevice
├── extension # XDevice extension
│ ├── src # Source code of the extension
│ └── setup.py # Installation script of the extension
Constraints
The environment requirements for using this module are as follows:
- Python version: 3.7.5 or later
- pySerial version: 3.3 or later
- Paramiko version: 2.7.1 or later
- RSA version: 4.0 or later
Usage
-
Installing XDevice
-
Go to the installation directory of XDevice.
-
Open the console window and run the following command:
python setup.py install
-
-
Installing the extension
-
Go to the installation directory of the XDevice extension.
-
Open the console and run the following command:
python setup.py install
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-
Modifying the user_config.xml file
Configure information about your environment in the user_config.xml file.
1. Configure the environment.
-
For devices that support hdc connection, refer to the following note to configure the environment.
NOTE: ip/port: IP address and port of a remote device. By default, the parameter is left blank, indicating that the local device
IP address: 127.0.0.1; port: the one used for hdc startup
is used as the test device. sn: SN of the test devices specified for command execution. If this parameter is set to SN1, only device SN1 can execute the subsequent run commands. In this case, other devices are set as Ignored and not involved in the command execution. You can run the list devices command and check the value of Allocation to view the sn values. You can set multiple SNs and separate each two of them with a semicolon;
. -
For devices that support serial port connection, refer to the following note to configure the environment.
NOTE: type: device connection mode. The com mode indicates that the device is connected through the serial port. label: device type, for example, wifiiot serial: serial port
- serial/com: serial port for local connection, for example, COM20
- serial/type: serial port type. The value can be cmd
serial port for test case execution
or deployserial port for system upgrade
. For the open-source project, the cmd and deploy serial ports are the same, and their com values are the same too. serial/baud_rate, data_bits, stop_bits and timeout: serial port parameters. You can use the default values.
2. Set the test case directory.
dir: test case directory
3. Mount the NFS.
NOTE: server: NFS mounting configuration. Set the value to NfsServer. server/ip: IP address of the mounting environment server/port: port number of the mounting environment server/username: user name for logging in to the server server/password: password for logging in to the server server/dir: external mount path server/remote: whether the NFS server and the XDevice executor are deployed on different devices. If yes, set this parameter to true. Otherwise, set it to false.
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-
Specify the task type.
-
Start the test framework.
-
Execute test commands.
Test framework commands can be classified into three groups: help, list, and run. Among them, run commands are most commonly used in the instruction sequence.
help
Queries help information about test framework commands.
help: Use help to get information. usage: run: Display a list of supported run commands. list: Display a list of supported devices and task records. Examples: help run help list
NOTE: help run: displays the description of run commands. help list: displays the description of list commands.
list
Displays device information and related task information.
list: Display device list and task records. usage: list list history list <id> Introduction: list: Display the device list. list history: Display historical records of a series of tasks. list <id>: Display historical records of tasks with the specified IDs. Examples: list list history list 6e****90
NOTE: list: displays device information. list history: displays historical task information. list <id>: displays historical information about tasks with specified IDs.
run
Executes test tasks.
run: Execute the selected test cases. The command execution process includes use case compilation, execution, and result collection. usage: run [-l TESTLIST [TESTLIST ...] | -tf TESTFILE [TESTFILE ...]] [-tc TESTCASE] [-c CONFIG] [-sn DEVICE_SN] [-rp REPORT_PATH [REPORT_PATH ...]] [-respath RESOURCE_PATH [RESOURCE_PATH ...]] [-tcpath TESTCASES_PATH [TESTCASES_PATH ...]] [-ta TESTARGS [TESTARGS ...]] [-pt] [-env TEST_ENVIRONMENT [TEST_ENVIRONMENT ...]] [-e EXECTYPE] [-t [TESTTYPE [TESTTYPE ...]]] [-td TESTDRIVER] [-tl TESTLEVEL] [-bv BUILD_VARIANT] [-cov COVERAGE] [--retry RETRY] [--session SESSION] [--dryrun] [--reboot-per-module] [--check-device] [--repeat REPEAT] action task Specify tests to run. positional arguments: action Specify the action to do. task Specify the task name, such as ssts, acts, and hits.
NOTE: The structure of a basic run command is as follows:
run [task name] -l module1;moudle2
task name: task type. This parameter is optional. Generally, the value is ssts, acts, or hits. -l: test cases to execute. Use semicolons
;
to separate each two test cases. module: module to test. Generally, there is a .json file of the module in the testcases directory. In addition, other parameters can be attached to this command as constraints. Common parameters are as follows: -sn: specifies the devices for test case execution. If this parameter is set to SN1, only device SN1 executes the test cases. -c: specifies a new user_config.xml file. -rp: indicates the path where the report is generated. The default directory is xxx/xdevice/reports. Priority of a specified directory is higher than that of the default one. -tcpath: indicates the environment directory, which is xxx/xdevice/testcases by default. Priority of a specified directory is higher than that of the default one. -respath: indicates the test suite directory, which is xxx/xdevice/resource by default. Priority of a specified directory is higher than that of the default one. --reboot-per-module: restarts the device before test case execution. -
View the execution result.
After executing the run commands, the test framework displays the corresponding logs on the console, and generates the execution report in the directory specified by the -rp parameter. If the parameter is not set, the report will be generated in the default directory.
Structure of the report directory (the default or the specified one) ├── result # Test case execution results of the module │ ├── module name.xml │ ├── ... │ ├── log # Running logs of devices and tasks │ ├── device 1.log │ ├── ... │ ├── task.log ├── summary_report.html # Visual report ├── summary_report.html # Statistical report └── ...
Repositories Involved
test_xdevice