harmony(鸿蒙)Test

  • 2022-08-09
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Test

OpenHarmony provides a comprehensive auto-test framework for designing test cases. Detecting defects in the development process can improve code quality.

This document describes how to use the OpenHarmony test framework.

Setting Up the Environment

  • The test framework depends on Python. Before using the test framework, you need to set up the environment.

  • For details about how to obtain the source code, see Obtaining Source Code.

    Environment Configuration

    Basic Test Framework Environment

Environment Version Description
Operating system Ubuntu 18.04 or later Provides the build environment.
Linux extend component libreadline-dev Allows users to edit command lines.
Python 3.7.5 or later Provides the programming language for the test framework.
Python Plug-ins pyserial 3.3 or later
paramiko 2.7.1 or later
setuptools 40.8.0 or later
RSA 4.0 or later
- pyserial: supports serial port communication in Python.
- paramiko: allows SSH in Python.
- setuptools: allows creation and distribution of Python packages.
-RSA: implements RSA encryption in Python.
NFS Server haneWIN NFS Server 1.2.50 or later or NFS v4 or later Allows devices to be connected over a serial port.
HDC 1.1.0 or later Allows devices to be connected by using the OpenHarmony Device Connector (HDC).

Installation Process

  1. Run the following command to install the Linux extended component libreadline: sudo apt-get install libreadline-dev The installation is successful if the following information is displayed: Reading package lists... Done Building dependency tree Reading state information... Done libreadline-dev is already the newest version (7.0-3). 0 upgraded, 0 newly installed, 0 to remove and 11 not upgraded.

  2. Run the following command to install the setuptools plug-in: pip3 install setuptools The installation is successful if the following information is displayed: Requirement already satisfied: setuptools in d:\programs\python37\lib\site-packages (41.2.0)

  3. Run the following command to install the paramiko plug-in: pip3 install paramiko The installation is successful if the following information is displayed: Installing collected packages: pycparser, cffi, pynacl, bcrypt, cryptography, paramiko Successfully installed bcrypt-3.2.0 cffi-1.14.4 cryptography-3.3.1 paramiko-2.7.2 pycparser-2.20 pynacl-1.4.0

  4. Run the following command to install the rsa plug-in: pip3 install rsa The installation is successful if the following information is displayed: Installing collected packages: pyasn1, rsa Successfully installed pyasn1-0.4.8 rsa-4.7

  5. Run the following command to install the pyserial plug-in: pip3 install pyserial The installation is successful if the following information is displayed: Requirement already satisfied: pyserial in d:\programs\python37\lib\site-packages\pyserial-3.4-py3.7.egg (3.4)

  6. Install the NFS server if the device outputs results only through the serial port.

    • For Windows, install, for example, haneWIN NFS Server 1.2.50.
    • For Linux, run the following command to install the NFS server: sudo apt install nfs-kernel-server The installation is successful if the following information is displayed: Reading package lists... Done Building dependency tree Reading state information... Done nfs-kernel-server is already the newest version (1:1.3.4-2.1ubuntu5.3). 0 upgraded, 0 newly installed, 0 to remove and 11 not upgraded.
  7. Install the HDC tool if the device supports HDC connections.

    For details, see https://gitee.com/openharmony/developtools_hdc_standard/blob/master/README.md

Checking the Installation Environment

Check Item Operation Requirements
Check whether Python is installed successfully. Run the python –version command. The Python version is 3.7.5 or later.
Check whether Python plug-ins are successfully installed. Go to the test/developertest directory and run start.bat or start.sh. The >>> prompt is displayed.
Check the NFS server status (for the devices that support only serial port output). Log in to the development board through the serial port and run the mount command to mount the NFS. The file directory can be mounted.
Check whether the HDC is successfully installed. Run the hdc_std -v command. The HDC version is 1.1.0 or later.

Directory Structure

The directory structure of the test framework is as follows:

test # Test subsystem
├── developertest            # Developer test module
│   ├── aw                   # Static library of the test framework
│   ├── config               # Test framework configuration
│   │   │ ...
│   │   └── user_config.xml  # User configuration
│   ├── examples             # Examples of test cases
│   ├── src                  # Source code of the test framework
│   ├── third_party          # Adaptation code for third-party components on which the test framework depends
│   ├── reports              # Test reports
│   ├── BUILD.gn             # Build entry of the test framework
│   ├── start.bat            # Test entry for Windows
│   └── start.sh             # Test entry for Linux
└── xdevice                  # Modules on which the test framework depends

Writing Test Cases

Designing the Test Case Directory

Design the test case directory as follows:

subsystem                               # Subsystem
├── partA                               # Part A
│   ├── moduleA                         # Module A
│   │   ├── include       
│   │   ├── src                         # Service code
│   │   └── test                        # Test directory
│   │       ├── unittest                # Unit test
│   │       │   ├── common              # Common test cases
│   │       │   │   ├── BUILD.gn        # Build file of test cases
│   │       │   │   └── testA_test.cpp  # Source code of unit test cases
│   │       │   ├── phone               # Test cases for mobile phones
│   │       │   ├── ivi                 # Test cases for head units
│   │       │   └── liteos-a            # Test cases for IP cameras using LiteOS
│   │       ├── moduletest              # Module test
│   │       ...
│   │            
│   ├── moduleB                         # Module B  
│   ├── test               
│   │   └── resource                    # Dependency resources   
│   │       ├── moduleA                 # Module A
│   │       │   ├── ohos_test.xml       # Resource configuration file
│   │       ... └── 1.txt               # Resource file  
│   │            
│   ├── ohos_build                      # Build entry configuration 
│   ...
│
...

CAUTION
Test cases are classified into common test cases and device-specific test cases. You are advised to place common test cases in the common directory and device-specific test cases in the directories of the related devices.

Writing Test Cases

This test framework supports test cases written in multiple programming languages and provides different templates for different languages.

C++ Test Case Example

  • Naming rules for source files

    The source file name of test cases must be the same as that of the test suite. The file names must use lowercase letters and in the [Function]_[Sub-function]_test format. More specific sub-functions can be added as required. Example:

    calculator_sub_test.cpp
    
  • Test case example “` /*

    • Copyright © 2022 XXXX Device Co., Ltd.
    • Licensed under the Apache License, Version 2.0 (the “License”);
    • you may not use this file except in compliance with the License.
    • You may obtain a copy of the License at *
    • http://www.apache.org/licenses/LICENSE-2.0 *
    • Unless required by applicable law or agreed to in writing, software
    • distributed under the License is distributed on an “AS IS” BASIS,
    • WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
    • See the License for the specific language governing permissions and
    • limitations under the License. */

    #include “calculator.h” #include

    using namespace testing::ext;

    class CalculatorSubTest : public testing::Test { public: static void SetUpTestCase(void); static void TearDownTestCase(void); void SetUp(); void TearDown(); };

    void CalculatorSubTest::SetUpTestCase(void) { // Set a setup function, which will be called before all test cases. }

    void CalculatorSubTest::TearDownTestCase(void) { // Set a teardown function, which will be called after all test cases. }

    void CalculatorSubTest::SetUp(void) { // Set a setup function, which will be called before each test case. }

    void CalculatorSubTest::TearDown(void) { // Set a teardown function, which will be called after each test case. }

    /** * @tc.name: integer_sub_001 * @tc.desc: Verify the sub function. * @tc.type: FUNC * @tc.require: Issue Number */ HWTEST_F(CalculatorSubTest, integer_sub_001, TestSize.Level1) { // Step 1 Call the function to obtain the result. int actual = Sub(4, 0);

    // Step 2 Use an assertion to compare the obtained result with the expected result.
    EXPECT_EQ(4, actual);
    

    } The procedure is as follows: 1. Add comment information to the test case file header. /* * Copyright © 2022 XXXX Device Co., Ltd. * Licensed under the Apache License, Version 2.0 (the “License”); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an “AS IS” BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ 2. Add the test framework header file and namespace. #include

    using namespace testing::ext;
    ```
    
    1. Add the header file of the test class. #include "calculator.h"

    2. Define the test suite (test class).

      class CalculatorSubTest : public testing::Test {
      public:
          static void SetUpTestCase(void);
          static void TearDownTestCase(void);
          void SetUp();
          void TearDown();
      };
      
      
      void CalculatorSubTest::SetUpTestCase(void)
      {
          // Set a setup function, which will be called before all test cases.
      }
      
      
      void CalculatorSubTest::TearDownTestCase(void)
      {
          // Set a teardown function, which will be called after all test cases.
      }
      
      
      void CalculatorSubTest::SetUp(void)
      {
          // Set a setup function, which will be called before each test case.
      }
      
      
      void CalculatorSubTest::TearDown(void)
      {
          // Set a teardown function, which will be called after each test case.
      }
      

      CAUTION:
      When defining a test suite, ensure that the test suite name is the same as the target to build and uses the upper camel case style.

    3. Add implementation of the test cases, including test case comments and logic. “` /**

      • @tc.name: integer_sub_001

      • @tc.desc: Verify the sub function.

      • @tc.type: FUNC

      • @tc.require: Issue Number */ HWTEST_F(CalculatorSubTest, integer_sub_001, TestSize.Level1) { // Step 1 Call the function to obtain the test result. int actual = Sub(4, 0);

        // Step 2 Use an assertion to compare the obtained result with the expected result. EXPECT_EQ(4, actual); } “` The following test case templates are provided for your reference.

    | Type| Description| |————|————| |HWTEST(A,B,C)|Use this template if the test case execution does not depend on setup or teardown.| |HWTEST_F(A,B,C)|Use this template if the test case execution (excluding parameters) depends on setup and teardown.| |HWTEST_P(A,B,C)|Use this template if the test case execution (including parameters) depends on setup and teardown.|

    In the template names: 
    - *A* indicates the test suite name.
    - *B* indicates the test case name, which is in the *Function*\_*No.* format. The *No.* is a three-digit number starting from **001**.
    - *C* indicates the test case level. There are five test case levels: guard-control level 0 and non-guard-control level 1 to level 4. Of levels 1 to 4, a smaller value indicates a more important function verified by the test case.
    
    
    **CAUTION**<br>
    - The expected result of each test case must have an assertion.
    - The test case level must be specified.
    - It is recommended that the test be implemented step by step according to the template.
    - The comment must contain the test case name, description, type, and requirement number, which are in the @tc.*xxx*: *value* format. The test case type @**tc.type** can be any of the following:
    
    
    |Test Case Type|Code|
    |------------|------------|
    |Function test   |FUNC|
    |Performance Test   |PERF|
    |Reliability test |RELI|
    |Security test   |SECU|
    |Fuzzing   |FUZZ|
    

JavaScript Test Case Example

  • Naming rules for source files

    The source file name of a test case must be in the [Function][Sub-function]Test format, and each part must use the upper camel case style. More specific sub-functions can be added as required. Example:

    AppInfoTest.js
    
  • Test case example “` /*

    • Copyright © 2022 XXXX Device Co., Ltd.
    • Licensed under the Apache License, Version 2.0 (the “License”);
    • you may not use this file except in compliance with the License.
    • You may obtain a copy of the License at *
    • http://www.apache.org/licenses/LICENSE-2.0 *
    • Unless required by applicable law or agreed to in writing, software
    • distributed under the License is distributed on an “AS IS” BASIS,
    • WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
    • See the License for the specific language governing permissions and
    • limitations under the License. */ import app from ‘@system.app’

    import {describe, beforeAll, beforeEach, afterEach, afterAll, it, expect} from ‘deccjsunit/index’

    describe(“AppInfoTest”, function () { beforeAll(function() { // Set a setup function, which will be called before all test cases. console.info(‘beforeAll called’) })

    afterAll(function() {
         // Set a teardown function, which will be called after all test cases.
         console.info('afterAll called')
    })
    
    
    beforeEach(function() {
        // Set a setup function, which will be called before each test case.
         console.info('beforeEach called')
    })
    
    
    afterEach(function() {
        // Set a teardown function, which will be called after each test case.
         console.info('afterEach called')
    })
    
    
    /*
     * @tc.name:appInfoTest001
     * @tc.desc:verify app info is not null
     * @tc.type: FUNC
     * @tc.require: Issue Number
     */
    it("appInfoTest001", 0, function () {
        // Step 1 Call the function to obtain the test result.
        var info = app.getInfo()
    
    
        // Step 2 Use an assertion to compare the obtained result with the expected result.
        expect(info != null).assertEqual(true)
    })
    

    }) The procedure is as follows: 1. Add comment information to the test case file header. /* * Copyright © 2022 XXXX Device Co., Ltd. * Licensed under the Apache License, Version 2.0 (the “License”); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an “AS IS” BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ 2. Import the APIs and JSUnit test library to test. import app from ‘@system.app’

    import {describe, beforeAll, beforeEach, afterEach, afterAll, it, expect} from 'deccjsunit/index'
    ```
    
    1. Define the test suite (test class).

      describe("AppInfoTest", function () {
          beforeAll(function() {
              // Set a setup function, which will be called before all test cases.
               console.info('beforeAll called')
          })
      
      
          afterAll(function() {
               // Set a teardown function, which will be called after all test cases.
               console.info('afterAll called')
          })
      
      
          beforeEach(function() {
              // Set a setup function, which will be called before each test case.
               console.info('beforeEach called')
          })
      
      
          afterEach(function() {
              // Set a teardown function, which will be called after each test case.
               console.info('afterEach called')
          })
      
    2. Add implementation of the test cases. “` /*

      • @tc.name:appInfoTest001

      • @tc.desc:verify app info is not null

      • @tc.type: FUNC

      • @tc.require: Issue Number */ it(“appInfoTest001”, 0, function () { // Step 1 Call the function to obtain the test result. var info = app.getInfo()

        // Step 2 Use an assertion to compare the obtained result with the expected result. expect(info != null).assertEqual(true) }) “`

Writing the Build File for Test Cases

When a test case is executed, the test framework searches for the build file of the test case in the test case directory and builds the test case located. The following describes how to write build files (GN files) in different programming languages.

Writing Build Files for Test Cases

The following provides templates for different languages for your reference.

  • Test case build file example (C++)

    # Copyright (c) 2022 XXXX Device Co., Ltd.
    
    
    import("//build/test.gni")
    
    
    module_output_path = "subsystem_examples/calculator"
    
    
    config("module_private_config") {
      visibility = [ ":*" ]
    
    
      include_dirs = [ "../../../include" ]
    }
    
    
    ohos_unittest("CalculatorSubTest") {
      module_out_path = module_output_path
    
    
      sources = [
        "../../../include/calculator.h",
        "../../../src/calculator.cpp",
      ]
    
    
      sources += [ "calculator_sub_test.cpp" ]
    
    
      configs = [ ":module_private_config" ]
    
    
      deps = [ "//third_party/googletest:gtest_main" ]
    }
    
    
    group("unittest") {
      testonly = true
      deps = [":CalculatorSubTest"]
    }
    

    The procedure is as follows:

    1. Add comment information for the file header.

      # Copyright (c) 2022 XXXX Device Co., Ltd.
      
    2. Import the build template.

      import("//build/test.gni")
      
    3. Specify the file output path.

      module_output_path = "subsystem_examples/calculator"
      

      NOTE
      The output path is *Part_name*/*Module_name*.

    4. Configure the directories for dependencies.

      config("module_private_config") {
        visibility = [ ":*" ]
      
      
        include_dirs = [ "../../../include" ]
      }
      

      NOTE
      Generally, the dependency directories are configured here and directly referenced in the build script of the test case.

    5. Set the output build file for the test cases.

      ohos_unittest("CalculatorSubTest") {
      }
      
    6. Write the build script (add the source file, configuration, and dependencies) for the test cases.

      ohos_unittest("CalculatorSubTest") {
        module_out_path = module_output_path
        sources = [
          "../../../include/calculator.h",
          "../../../src/calculator.cpp",
          "../../../test/calculator_sub_test.cpp"
        ]
        sources += [ "calculator_sub_test.cpp" ]
        configs = [ ":module_private_config" ]
        deps = [ "//third_party/googletest:gtest_main" ]
      }
      

      NOTE
      Set the test type based on actual requirements. The following test types are available: - ohos_unittest: unit test - ohos_moduletest: module test - ohos_systemtest: system test - ohos_performancetest: performance test - ohos_securitytest: security test - ohos_reliabilitytest: reliability test - ohos_distributedtest: distributed test

    7. Group the test case files by test type.

      group("unittest") {
        testonly = true
        deps = [":CalculatorSubTest"]
      }
      

      NOTE
      Grouping test cases by test type allows you to execute a specific type of test cases when required.

  • Test case build file example (JavaScript)

    # Copyright (C) 2022 XXXX Device Co., Ltd.
    
    
    import("//build/test.gni")
    
    
    module_output_path = "subsystem_examples/app_info"
    
    
    ohos_js_unittest("GetAppInfoJsTest") {
      module_out_path = module_output_path
    
    
      hap_profile = "./config.json"
      certificate_profile = "//test/developertest/signature/openharmony_sx.p7b"
    }
    
    
    group("unittest") {
      testonly = true
      deps = [ ":GetAppInfoJsTest" ]
    }
    

    The procedure is as follows:

    1. Add comment information for the file header.

      # Copyright (C) 2022 XXXX Device Co., Ltd.
      
    2. Import the build template.

      import("//build/test.gni")
      
    3. Specify the file output path.

      module_output_path = "subsystem_examples/app_info"
      

      NOTE
      The output path is *Part_name*/*Module_name*.

    4. Set the output build file for the test cases.

      ohos_js_unittest("GetAppInfoJsTest") {
      }
      

      NOTE
      - Use the ohos_js_unittest template to define the JavaScript test suite. Pay attention to the difference between JavaScript and C++. - The file generated for the JavaScript test suite must be in .hap format and named after the test suite name defined here. The test suite name must end with JsTest.

    5. Configure the config.json file and signature file, which are mandatory.

      ohos_js_unittest("GetAppInfoJsTest") {
        module_out_path = module_output_path
      
      
        hap_profile = "./config.json"
        certificate_profile = "//test/developertest/signature/openharmony_sx.p7b"
      }
      

      config.json is the configuration file required for HAP build. You need to set target based on the tested SDK version. Default values can be retained for other items. The following is an example:

      {
        "app": {
          "bundleName": "com.example.myapplication",
          "vendor": "example",
          "version": {
            "code": 1,
            "name": "1.0"
          },
          "apiVersion": {
                 "compatible": 4,
               "target": 5 // Set it based on the tested SDK version. In this example, SDK5 is used.
          }
        },
        "deviceConfig": {},
        "module": {
          "package": "com.example.myapplication",
          "name": ".MyApplication",
          "deviceType": [
            "phone"
          ],
          "distro": {
            "deliveryWithInstall": true,
            "moduleName": "entry",
            "moduleType": "entry"
          },
          "abilities": [
            {
            "skills": [
                {
                  "entities": [
                    "entity.system.home"
                  ],
                  "actions": [
                    "action.system.home"
                  ]
                }
              ],
              "name": "com.example.myapplication.MainAbility",
              "icon": "$media:icon",
              "description": "$string:mainability_description",
              "label": "MyApplication",
              "type": "page",
              "launchType": "standard"
            }
          ],
          "js": [
            {
              "pages": [
                "pages/index/index"
              ],
              "name": "default",
                "window": {
                   "designWidth": 720,
                   "autoDesignWidth": false
                }
              }
            ]
          }
        }
      
    6. Group the test case files by test type.

      group("unittest") {
        testonly = true
        deps = [ ":GetAppInfoJsTest" ]
      }
      

      NOTE
      Grouping test cases by test type allows you to execute a specific type of test cases when required.

Configuring ohos.build

Configure the part build file to associate with specific test cases.

"partA": {
    "module_list": [
          
    ],
    "inner_list": [
          
    ],
    "system_kits": [
          
    ],
    "test_list": [
      "//system/subsystem/partA/calculator/test:unittest"  // Configure test under calculator.
    ]
 }

NOTE
test_list contains the test cases of the corresponding module.

Configuring Test Case Resources

Test case resources include external file resources, such as image files, video files, and third-party libraries, required for test case execution.

Perform the following steps: 1. Create the resource directory in the test directory of the part, and create a directory for the module in the resource directory to store resource files of the module.

  1. In the module directory under resource, create the ohos_test.xml file in the following format: <?xml version="1.0" encoding="UTF-8"?> <configuration ver="2.0"> <target name="CalculatorSubTest"> <preparer> <option name="push" value="test.jpg -> /data/test/resource" src="res"/> <option name="push" value="libc++.z.so -> /data/test/resource" src="out"/> </preparer> </target> </configuration>
  2. In the build file of the test cases, configure resource_config_file to point to the resource file ohos_test.xml. ohos_unittest("CalculatorSubTest") { resource_config_file = "//system/subsystem/partA/test/resource/calculator/ohos_test.xml" } >NOTE >- target_name indicates the test suite name defined in the BUILD.gn file in the test directory. >- preparer indicates the action to perform before the test suite is executed. >- src=“res” indicates that the test resources are in the resource directory under the test directory. >- src=“out” indicates that the test resources are in the out/release/$(part) directory.

Executing Test Cases

Before executing test cases, you need to modify the configuration based on the device used.

Modifying user_config.xml

<user_config>
  <build>
    <!-- Whether to build a demo case. The default value is false. If a demo case is required, change the value to true. -->
    <example>false</example>
    <!-- Whether to build the version. The default value is false. -->
    <version>false</version>
    <!-- Whether to build the test cases. The default value is true. If the build is already complete, change the value to false before executing the test cases.-->
    <testcase>true</testcase>
  </build>
  <environment>
    <!-- Configure the IP address and port number of the remote server to support connection to the device through the HDC.-->
    <device type="usb-hdc">
      <ip></ip>
      <port></port>
      <sn></sn>
    </device>
    <!-- Configure the serial port information of the device to enable connection through the serial port.-->
    <device type="com" label="ipcamera">
      <serial>
        <com></com>
        <type>cmd</type>
        <baud_rate>115200</baud_rate>
        <data_bits>8</data_bits>
        <stop_bits>1</stop_bits>
        <timeout>1</timeout>
      </serial>
    </device>
  </environment>
  <!-- Configure the test case path. If the test cases have not been built (<testcase> is true), leave this parameter blank. If the build is complete, enter the path of the test cases.-->
  <test_cases>
    <dir></dir>
  </test_cases>
  <!-- Configure the coverage output path.-->
  <coverage>
    <outpath></outpath>
  </coverage>
  <!-- Configure the NFS mount information when the tested device supports only the serial port connection. Specify the NFS mapping path. host_dir indicates the NFS directory on the PC, and board_dir indicates the directory created on the board. -->
  <NFS>
    <host_dir></host_dir>
    <mnt_cmd></mnt_cmd>
    <board_dir></board_dir>
  </NFS>
</user_config>

NOTE
If HDC is connected to the device before the test cases are executed, you only need to configure the device IP address and port number, and retain the default settings for other parameters.

Executing Test Cases on Windows

Building Test Cases

Test cases cannot be built on Windows. You need to run the following command to build test cases on Linux:

./build.sh --product-name hispark_taurus_standard --build-target make_test

NOTE

  • product-name: specifies the name of the product to build, for example, hispark_taurus_standard.
  • build-target: specifies the test case to build. make_test indicates all test cases. You can specify the test cases based on requirements.

When the build is complete, the test cases are automatically saved in out/hispark_taurus/packages/phone/tests.

Setting Up the Execution Environment

  1. On Windows, create the Test directory in the test framework and then create the testcase directory in the Test directory.

  2. Copy developertest and xdevice from the Linux environment to the Test directory on Windows, and copy the test cases to the testcase directory.

    NOTE
    Port the test framework and test cases from the Linux environment to the Windows environment for subsequent execution.

  3. Modify the user_config.xml file.

    <build>
      <!-- Because the test cases have been built, change the value to false. -->
      <testcase>false</testcase>
    </build>
    <test_cases>
      <!-- The test cases are copied to the Windows environment. Change the test case output path to the path of the test cases in the Windows environment.-->
      <dir>D:\Test\testcase\tests</dir>
    </test_cases>
    

    NOTE
    indicates whether to build test cases.

    indicates the path for searching for test cases.

Executing Test Cases

  1. Start the test framework. start.bat

  2. Select the product.

    After the test framework starts, you are asked to select a product. Select the development board to test, for example, Hi3516DV300.

  3. Execute test cases.

    Run the following command to execute test cases:

    run -t UT -ts CalculatorSubTest -tc integer_sub_00l
    

    In the command:

    -t [TESTTYPE]: specifies the test case type, which can be UT, MST, ST, or PERF. This parameter is mandatory.
    -tp [TESTPART]: specifies the part to test. This parameter can be used independently.
    -tm [TESTMODULE]: specifies the module to test. This parameter must be specified together with -tp.
    -ts [TESTSUITE]: specifies the test suite. This parameter can be used independently.
    -tc [TESTCASE]: specifies the test case. This parameter must be specified together with -ts.
    You can run h to display help information.
    

    Executing Test Cases on Linux

    Mapping the Remote Port

    To enable test cases to be executed on a remote Linux server or a Linux VM, map the port to enable communication between the device and the remote server or VM. Configure port mapping as follows:

  4. On the HDC server, run the following commands:

    hdc_std kill
    hdc_std -m -s 0.0.0.0:8710
    

    NOTE
    The IP address and port number are default values.

  5. On the HDC client, run the following command:

    hdc_std -s xx.xx.xx.xx:8710 list targets
    

    NOTE
    Enter the IP address of the device to test.

Executing Test Cases

  1. Start the test framework. ./start.sh

  2. Select the product.

    After the test framework starts, you are asked to select a product. Select the development board to test, for example, Hi3516DV300.

  3. Execute test cases.

    The test framework locates the test cases based on the command, and automatically builds and executes the test cases.

    run -t UT -ts CalculatorSubTest -tc integer_sub_00l
    

    In the command:

    -t [TESTTYPE]: specifies the test case type, which can be UT, MST, ST, or PERF. This parameter is mandatory.
    -tp [TESTPART]: specifies the part to test. This parameter can be used independently.
    -tm [TESTMODULE]: specifies the module to test. This parameter must be specified together with -tp.
    -ts [TESTSUITE]: specifies the test suite. This parameter can be used independently.
    -tc [TESTCASE]: specifies the test case. This parameter must be specified together with -ts.
    You can run h to display help information.
    

Viewing the Test Report

After the test cases are executed, the test result will be automatically generated. You can view the detailed test result in the related directory.

Test Result

You can obtain the test result in the following directory:

test/developertest/reports/xxxx_xx_xx_xx_xx_xx

NOTE
The folder for test reports is automatically generated.

The folder contains the following files: |Type|Description| |————|————| |result/|Test cases in standard format.| |log/plan_log_xxxx_xx_xx_xx_xx_xx.log|Test case logs.| |summary_report.html|Test report summary.| |details_report.html|Detailed test report.|

Test Framework Logs

reports/platform_log_xxxx_xx_xx_xx_xx_xx.log

Latest Test Report

reports/latest

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