Closed Source Approach
If the source code and development system for the program you want to test are not available, let's start with some assumptions:
- You have a closed source binary program for an embedded platform.
- You have access to that platform, either by an emulator or directly.
- You can introduce new programs into that platform.
This is very similar to the situation faced by people who want to hack/crack software for various purposes, though yours is the noble goal of testing rather than something nefarious. Some common approaches:
Write a program to run the program in question with various inputs
and capture its output. This is your test automation framework. If it
is a command line program in question, this is fairly
straightforward. GUI programs are more challenging, but it is still
possible to capture their output. If the program sends control
signals at the hardware level, capturing output might be harder.
Run the program through a disassembler and analyze its code. This is
tedious, but very comprehensive. You might even be able to modify and
reassemble the program with extra testing instrumentation added.
Run the program in a debugger. Though you might not have the original source code, some symbols may remain in the code and you can still step through the disassembly and let the debugger catch crashes for you. The debugger might even be scriptable, which could help a great deal with automation.
Open Source Approach
If the source code for your program and a development system are available, things get a lot easier.
At the lowest level, you can pepper your code with assertions to check that assumptions it relies on are always valid. These you be enabled in debug builds and stripped away (usually automatically) in release builds.
At a higher level, you can write unit tests to exercise particular groups of functions. There are many frameworks to facilitate this.
At the highest level, you can simulate actual usage of the program in an automated, regular fashion. Take a look at Selenium. While it is designed for web applications, it should give you an idea of what is possible.
Ultimately the goal is to create a rich set of tests that cover all imaginable scenarios and run the program in each. Each scenario manifests itself as a set of initial and subsequent conditions, and expected program behavior/output at every step. You just need a way to programmatically set up and adjust those conditions and programmatically observe the program's output. Easier said than done, I know, but incredibly valuable when done well. Good luck.