# For testing. # # Concept: This module allows to trigger abnormal situations, to test the reaction of the software ("fault insertion testing"). # In the place in the software, where the fault shall be injected, add a condition like # if (testsuite_faultinjection_is_triggered(TC_MY_TESTCASE_FOR_SOMETHING)): # DoSomethingStrange() # In normal software run, this condition is never fulfilled and does not disturb. If the related test case is activated, # by setting testsuite_testcase_number = TC_MY_TESTCASE_FOR_SOMETHING below, the condition will fire and the fault is injected. # A number of delay cycles can be configured with testsuite_delayCycles below. # The list of test cases. Each must have a unique test case ID. TC_NOTHING_TO_TEST = 0 TC_EVSE_Shutdown_during_PreCharge = 1000 TC_EVSE_Shutdown_during_CurrentDemand = 2000 TC_EVSE_Malfunction_during_CurrentDemand = 2001 # Here we configure, which test case should fire, and after which number of calls: testsuite_testcase_number = TC_EVSE_Malfunction_during_CurrentDemand testsuite_delayCycles = 200 # Counter variable for delaying the trigger testsuite_counter = 0 def testsuite_faultinjection_is_triggered(context): global testsuite_counter, testsuite_testcase_number, testsuite_delayCycles isTestcaseFired = False if (context==testsuite_testcase_number): # if the call context is matching the intended test case testsuite_counter += 1 # count the number of matching calls isTestcaseFired = testsuite_counter>=testsuite_delayCycles # and fire the test case if the intended number is reached if (isTestcaseFired): print("[TESTSUITE] Fired test case " + str(context) + " TTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTT") return isTestcaseFired if __name__ == "__main__": print("Testing the mytestsuite") print("nothing to do")