C/C++ Samples
These samples are a collection of source code that demonstrate the techniques for creating and executing target-based (native code) tests using the STRIDE Framework. These are samples that implement the test logic using native code that executes on target. This functionality is focused at developers interested in writing tests in C/C++.
Once you have installed the STRIDE Framework on your host machine, you can easily build and run any combination of these samples. In each case, you can include a sample simply by copying its source files to the SDK's sample_src directory and rebuilding the off-target testapp.
Introductory Samples
This is the place to start for on target tests in native code. These samples are meant to serve as a basic overview of many native testing features and techniques. If you are interested in writing tests in C/C++ that run on the device, we recommend building and running these tests, then reviewing the test source code test output.
- Test Intro Sample
- For C-only environments this is the place to start. These samples are meant to serve as a basic overview of many STRIDE testing features and techniques from a C perspective. If you haven't already done so, we recommend building and running these tests, then reviewing the test source code test output. The process of including this sample as well as running it and publishing results is covered in Running and Publishing the TestIntro Sample, which comprised an optional earlier step in the sandbox setup.
- Test Intro Cpp Sample
- For C++ environments this is the place to start. The samples provide a basic overview of many STRIDE testing features and techniques from a C++ perspective.
Test Unit Packaging
Test Unit Packaging refers to how functions or methods implementing test cases are packaged into test units. It's possible for different packaging options to coexist, but for consistency and simplicity, we recommend that you decide early on in your test creation cycle what kind of test unit package you will use for your test units and then stick with that for all of your test units.
If your compiler supports standard C++, the Test Class packaging is preferred as it allows the greatest functionality and flexibility with no added complexity for the simplest use cases.[1] (Note that the Test Class packaging can be used even if the software under test is written in C.)
If you have selected the type of test unit you will be using, we recommend you review and run the corresponding sample. If you are still deciding which type of test unit packaging to use, feel free to peruse all three samples as well as the corresponding documentation.
- Test Class Samples (C++ only)
- Demonstrates features available when test units are created as C++ classes
- Test C Class Samples
- Demonstrates how to create and use test units that are C structures
- Test Function List Samples
- Demonstrates how to create and use test units that are free C functions
Common Testing Features
These samples demonstrate features that are frequently used in common testing scenarios. All developers creating or maintaining tests should be familiar with the techniques shown in these samples.
Pass/Fail Macros
Pass/Fail Macros simplify the task of setting a test case's status to pass or fail. They comprise a set of ASSERTs and EXPECTs that test a condition (e.g. equailty, less than, strings equal, etc.) and set the currently running test to the appropriate pass or fail status. ASSERTs cause the currently executing function to immediately return if fail status is set; EXPECTs do not return.
- Test Macros Samples
- Demonstrates the use of the Test Code Macros. This sample is implemented using Test Classes (C++ only), but these macros also work in C compilation units.
Advanced Testing Features
The features demonstrated in these samples target specific testing problems.
Test Points
Test points are a unique STRIDE feature that greatly simplifies testing of multi-threaded software as well as single-threaded software that employs callbacks.
- Test Point Samples
- Demonstrates techniques and syntax for implementing Test Points. With this technique, STRIDE makes it possible to observe and verify activity occurring another thread (e.g. a state machine).
Test Doubles
Test doubles provide a means to intercept function calls so that alternate implementations can be substituted at runtime under the control of your test code. This enables sophisticated mocking, faking, and stubbing.
- Test Double Samples
- Demonstrates techniques and syntax for implementing Test Doubles. STRIDE's unique implementation makes it possible to dynamically switch in function mocks, stubs, and fakes at runtime. This sample is implemented using Test Classes (C++ only), but the techniques demonstrated work equally well in C compilation units.
File Services
The STRIDE File Services APIs provide a means to perform basic filesystem operations on the host filesystem from test code running on a device.
- File Services Samples
- Demonstrates techniques and syntax for performing basic tasks using the File Transfer Services API.
Notes
- ↑ If your C++ compiler supports exceptions and/or namespaces, STRIDE can take advantage of the added capabilities, but these are not required