build | ||
checksum | ||
figures | ||
hcpptest | ||
hctest | ||
hjsunit | ||
others/query | ||
repackage | ||
.gitignore | ||
BUILD.gn | ||
build.sh | ||
LICENSE | ||
README_zh.md | ||
README.md | ||
runtest.sh |
X Test Suite
-
Test Case Development Guidelines
- C-based Test Case Development and Compilation (for Mini-System Devices)
- C-based Test Case Execution (for Mini-System Devices)
- C++-based Test Case Development and Compilation (for Small-, Standard-, and Large-System Devices)
- C++-based Test Case Execution (for Small-, Standard-, and Large-System Devices)
Introduction
The X test suite XTS
subsystem contains a set of OpenHarmony certification test suites, including the currently supported application compatibility test suite ACTS
and the device compatibility test suite DCTS
that will be supported in the future.
This subsystem contains the ACTS and tools software package.
- The acts directory stores the source code and configuration files of ACTS test cases. The ACTS helps device vendors detect the software incompatibility as early as possible and ensures that the software is compatible to OpenHarmony during the entire development process.
- The tools software package stores the test case development framework related to acts.
Devices
OpenHarmony supports the following device types:
-
Mini-System Devices (reference memory ≥ 128 KB)
Such devices are equipped with MCU processors such as ARM Cortex-M and 32-bit RISC-V. They provide rich short-distance connection and peripheral bus access capabilities. Typical products include LinkIoT module devices and sensors in the smart home field. The LinkIoT module is usually used for smart Internet of Things
IoT
devices as the hardware module that implements connectivity functions. In the smart home field, the LinkIoT module is integrated into devices by vendors. For example, a LinkIoT module provides WLAN/Bluetooth access and data connection, and it usually communicates with the chip of smart home devices via a universal asynchronous receiver-transmitterUART
or general-purpose input/outputGPIO
interface. -
Small-System Devices (reference memory ≥ 1 MB)
Such devices are equipped with application processors such as ARM Cortex-A. They provide higher security capabilities, standard graphics framework, and multimedia capabilities for video encoding and decoding. Typical products include IP cameras, electronic cat eyes, and routers in the smart home field, as well as event data recorders
EDRs
in the smart travel field. -
Standard-System Devices (reference memory ≥ 128 MB)
Such devices are equipped with application processors such as ARM Cortex-A. They provide a complete application framework supporting enhanced interaction, 3D GPU, hardware composer, diverse components, and rich animations. Typical products include high-end refrigerator displays.
-
Large-System Devices (reference memory ≥ 1 GB)
Such devices are equipped with application processors such as ARM Cortex-A and provide a complete compatible application framework. Typical products include smart TVs and smart watches.
Directory Structure
/test/xts
├── acts # Test code
│ └── subsystem # Source code of subsystem test cases for large-system devices
│ └── subsystem_lite # Source code of subsystems test cases for mini- and small-system devices
│ └── BUILD.gn # Build configuration of test cases for large-system devices
│ └── build_lite # Build configuration of test cases for mini-and small-system devices
│ └── build_lite # Build configuration
└── tools # Test tool code
Constraints
Test cases for mini system devices must be developed based on C, and those for small system devices must be developed based on C++.
Usage Guidelines
Table 1 Test case levels
Table 2 Test case granularities
Table 3 Test types
Test Case Development Guidelines
You should select the appropriate programming language and your target test framework to develop test cases for the devices to test.
Table 4 Test frameworks and test case languages for different devices
C-based Test Case Development and Compilation (for Mini-System Devices)
Developing test cases for mini-system devices
The HCTest framework is used to support test cases developed with the C language. HCTest is enhanced and adapted based on the open-source test framework Unity.
-
Access the test/xts/acts repository where the test cases will be stored.
├── acts │ └──subsystem_lite │ │ └── module_hal │ │ │ └── BUILD.gn │ │ │ └── src │ └──build_lite │ │ └── BUILD.gn
-
Write the test case in the src directory.
1 Import the test framework header file.
#include "hctest.h"
- Use the LITE_TEST_SUIT macro to define names of the subsystem, module, and test suite.
/** * @brief Registers a test suite named IntTestSuite. * @param test Subsystem name * @param example Module name * @param IntTestSuite Test suite name */ LITE_TEST_SUIT(test, example, IntTestSuite);
- Define Setup and TearDown.
Format: Test suite name+Setup, Test suite name+TearDown.
The Setup and TearDown functions must exist, but function bodies can be empty.
- Use the LITE_TEST_CASE macro to write the test case.
Three parameters are involved: test suite name, test case name, and test case properties
including type, granularity, and level
.LITE_TEST_CASE(IntTestSuite, TestCase001, Function | MediumTest | Level1) { // Do something };
- Use the RUN_TEST_SUITE macro to register the test suite.
RUN_TEST_SUITE(IntTestSuite);
-
Create the configuration file
**BUILD.gn**
of the test module.Create a BUILD.gn
example
compilation file in each test module directory. Specify the name of the compiled static library and its dependent header file and library in the compilation file. The format is as follows:import("//test/xts/tools/lite/build/suite_lite.gni") hctest_suite("ActsDemoTest") { suite_name = "acts" sources = [ "src/test_demo.c", ] include_dirs = [ ] cflags = [ "-Wno-error" ] }
-
Add compilation options to the BUILD.gn file in the acts directory.
You need to add the test module to the test/xts/acts/build_lite/BUILD.gn script in the acts directory.
lite_component("acts") { ... if(board_name == "liteos_m") { features += [ ... "//xts/acts/subsystem_lite/module_hal:ActsDemoTest" ] } }
-
Run compilation commands.
Test suites are compiled along with version compilation. The ACTS is compiled together with the debug version.
NOTE: The ACTS compiles middleware as a static library, which will be linked to the image.
C-based Test Case Execution (for Mini-System Devices)
Executing test cases for mini-system devices
Burn the image into the development board.
Executing the test
- Use a serial port tool to log in to the development board and save information about the serial port.
- Restart the device and view serial port logs.
Analyzing the test result
View the serial port logs, whose format is as follows:
The log for each test suite starts with Start to run test suite: and ends with xx Tests xx Failures xx Ignored.
C++-based Test Case Development and Compilation (for Small-, Standard-, and Large-System Devices)
Developing test cases for small-system devices
The HCPPTest framework is enhanced and adapted based on the open-source framework Googletest.
-
Access the test/xts/acts repository where the test cases will be stored.
├── acts │ └──subsystem_lite │ │ └── module_posix │ │ │ └── BUILD.gn │ │ │ └── src │ └──build_lite │ │ └── BUILD.gn
-
Write the test case in the src directory.
- Import the test framework header file.
The following statement includes gtest.h.
#include "gtest/gtest.h"
- Define Setup and TearDown.
using namespace std; using namespace testing::ext; class TestSuite: public testing::Test { protected: // Preset action of the test suite, which is executed before the first test case static void SetUpTestCase(void){ } // Test suite cleanup action, which is executed after the last test case static void TearDownTestCase(void){ } // Preset action of the test case virtual void SetUp() { } // Cleanup action of the test case virtual void TearDown() { } };
- Use the HWTEST or HWTEST_F macro to write the test case.
HWTEST: definition of common test cases, including the test suite name, test case name, and case annotation.
HWTEST_F: definition of SetUp and TearDown test cases, including the test suite name, test case name, and case annotation.
Three parameters are involved: test suite name, test case name, and test case properties
including type, granularity, and level
.HWTEST_F(TestSuite, TestCase_0001, Function | MediumTest | Level1) { // Do something }
-
Create a configuration file
**BUILD.gn**
of the test module.Create a BUILD.gn compilation file in each test module directory. Specify the name of the compiled static library and its dependent header file and library in the compilation file. Each test module is independently compiled into a .bin executable file, which can be directly mounted to the development board for testing.
Example:
import("//test/xts/tools/lite/build/suite_lite.gni") hcpptest_suite("ActsDemoTest") { suite_name = "acts" sources = [ "src/TestDemo.cpp" ] include_dirs = [ "src", ... ] deps = [ ... ] cflags = [ "-Wno-error" ] }
-
Add compilation options to the BUILD.gn file in the acts directory.
Add the test module to the test/xts/acts/build_lite/BUILD.gn script in the acts directory.
lite_component("acts") { ... else if(board_name == "liteos_a") { features += [ ... "//xts/acts/subsystem_lite/module_posix:ActsDemoTest" ] } }
-
Run compilation commands.
Test suites are compiled along with the version compilation. The ACTS is compiled together with the debug version.
NOTE: The ACTS for a small system device is independently compiled to an executable file
.bin
and archived in the suites\acts directory of the compilation result.
C++-based Test Case Execution (for Small-, Standard-, and Large-System Devices)
Executing test cases for small-system devices
Currently, test cases are shared by the NFS and mounted to the development board for execution.
Setting up the environment
-
Use a network cable or wireless network to connect the development board to your PC.
-
Configure the IP address, subnet mask, and gateway for the development board. Ensure that the development board and the PC are in the same network segment.
-
Install and register the NFS server on the PC and start the NFS service.
-
Run the mount command for the development board to ensure that the development board can access NFS shared files on the PC.
Format: mount NFS server IP address:/NFS shared directory /development board directory nfs
Example:
mount 192.168.1.10:/nfs /nfs nfs
Executing test cases
Execute ActsDemoTest.bin to trigger test case execution, and analyze serial port logs generated after the execution is complete.
Repositories Involved
xts_tools