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///////////////////////////////////////////////////////////////////////////////
// Copyright (c) 2000-2019 Ericsson Telecom AB //
// //
// All rights reserved. This program and the accompanying materials //
// are made available under the terms of the Eclipse Public License v2.0 //
// which accompanies this distribution, and is available at //
// https://www.eclipse.org/org/documents/epl-2.0/EPL-2.0.html //
///////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////
///////////////////////////////////////////////////////////
// Module: EPTF_Semaphore_Test_Testcases
//
// Purpose:
// This module contains the testcases of generic EPTF Semaphore feture
//
// Module depends on:
// <EPTF_Variable_Test_Definitions>
// <EPTF_Semaphore_Test_Functions>
// <EPTF_CLL_Semaphore_Functions>
// <EPTF_CLL_Base_Functions>
// <EPTF_CLL_Base_Functions>
//
//
// Current Owner:
// Balazs Barcsik (EBALBAR)
//
// Last Review Date:
// 2007-xx-xx
//
// Detailed Comments:
// -
//
///////////////////////////////////////////////////////////////
module EPTF_Semaphore_Test_Testcases {
//=========================================================================
// Import Part
//=========================================================================
import from EPTF_Semaphore_Test_Definitions all;
import from EPTF_Semaphore_Test_Functions all;
import from EPTF_CLL_Semaphore_Functions all;
import from EPTF_CLL_Base_Functions all;
//=========================================================================
// Testcases
//=========================================================================
///////////////////////////////////////////////////////////
// Testcase: tc_EPTF_Semaphore_Test_init_CT
//
// Purpose:
// to test basic functionality of EPTF_Semaphore
//
// Requirement:
// -
//
// Action:
// - calls f_EPTF_Semaphore_init_CT() function
// - creates two semaphores, one of them will be locked, the other is not.
// - it is checked if f_EPTF_Semaphore_waitForUnlock returns true for the semaphore
// which is never unlocked after the timeout
// - the other semaphore is then unlocked
// - it is checked that the f_EPTF_Semaphore_waitForUnlock returns false for this semaphore
//
// Expected Result:
// testcase runs properly
///////////////////////////////////////////////////////////
testcase tc_Semaphore_basicTest() runs on EPTF_Semaphore_Test_CT {
f_EPTF_Semaphore_init_CT("Semaphore_Test");
v_semaphoreIdx := f_EPTF_Semaphore_new();
v_semaphoreIdx2 := f_EPTF_Semaphore_new();
t_lock.start;
var default v_def := activate(as_Semaphore_test_default());
log("Waiting for unlock......");
if (f_EPTF_Semaphore_waitForUnlock(v_semaphoreIdx)) {
setverdict(fail);
}
setverdict(pass)
log("blocking finished");
f_EPTF_Base_cleanup_CT();
deactivate(v_def);
}
///////////////////////////////////////////////////////////
// Testcase: tc_EPTF_Semaphore_Test_init_CT
//
// Purpose:
// to test f_EPTF_Semaphore_init_CT() function
//
// Requirement:
// -
//
// Action:
// - calls f_EPTF_Semaphore_init_CT() function
// - calls f_EPTF_Semaphore_new() function
// - calls f_EPTF_Semaphore_delete() function
//
// Expected Result:
// testcase runs properly
///////////////////////////////////////////////////////////
testcase tc_EPTF_Semaphore_Test_init_CT() runs on EPTF_Semaphore_Test_CT {
f_EPTF_Semaphore_init_CT("Semaphore_Test");
v_semaphoreIdx := f_EPTF_Semaphore_new();
f_EPTF_Semaphore_delete(v_semaphoreIdx);
setverdict(pass);
f_EPTF_Base_cleanup_CT();
}
///////////////////////////////////////////////////////////
// Testcase: tc_EPTF_Semaphore_Test_new
//
// Purpose:
// to test f_EPTF_Semaphore_new() function
//
// Requirement:
// -
//
// Action:
// - calls f_EPTF_Semaphore_init_CT() function
// - calls f_EPTF_Semaphore_new() function twice
// - matches the returned semaphore indexes
//
// Expected Result:
// indexes not equal
///////////////////////////////////////////////////////////
testcase tc_EPTF_Semaphore_Test_new() runs on EPTF_Semaphore_Test_CT {
f_EPTF_Semaphore_init_CT("Semaphore_Test");
v_semaphoreIdx := f_EPTF_Semaphore_new();
v_semaphoreIdx2 := f_EPTF_Semaphore_new();
if (v_semaphoreIdx2 != v_semaphoreIdx) {
setverdict(pass);
} else {
log("Error: created semaphore indexes are equal: ", v_semaphoreIdx, " - ", v_semaphoreIdx2);
}
f_EPTF_Base_cleanup_CT();
}
///////////////////////////////////////////////////////////
// Testcase: tc_EPTF_Semaphore_Test_delete
//
// Purpose:
// to test f_EPTF_Semaphore_delete() function
//
// Requirement:
// -
//
// Action:
// - calls f_EPTF_Semaphore_init_CT() function
// - calls f_EPTF_Semaphore_new() function
// - calls f_EPTF_Semaphore_unlock() function
// - calls f_EPTF_Semaphore_delete() function
//
// Expected Result:
// testcase runs properly
///////////////////////////////////////////////////////////
testcase tc_EPTF_Semaphore_Test_delete() runs on EPTF_Semaphore_Test_CT {
f_EPTF_Semaphore_init_CT("Semaphore_Test");
v_semaphoreIdx := f_EPTF_Semaphore_new();
f_EPTF_Semaphore_unlock(v_semaphoreIdx);
f_EPTF_Semaphore_delete(v_semaphoreIdx);
// f_EPTF_Semaphore_delete(v_semaphoreIdx + 1);
setverdict(pass);
f_EPTF_Base_cleanup_CT();
}
///////////////////////////////////////////////////////////
// Testcase: tc_EPTF_Semaphore_Test_lock
//
// Purpose:
// to test f_EPTF_Semaphore_lock() function
//
// Requirement:
// -
//
// Action:
// - calls f_EPTF_Semaphore_init_CT() function
// - calls f_EPTF_Semaphore_new() function
// - calls f_EPTF_Semaphore_waitForUnlock() function
// - after f_EPTF_Semaphore_waitForUnlock() function returns, checks the locking time
// - calls f_EPTF_Semaphore_new() function
// - calls f_EPTF_Semaphore_unlock() function
// - calls f_EPTF_Semaphore_lock() function
// - calls f_EPTF_Semaphore_waitForUnlock() function with an expired time
// - checks that f_EPTF_Semaphore_waitForUnlock() function returns with true after expired time
// Expected Result:
// - f_EPTF_Semaphore_waitForUnlock() function returns after the expected time
///////////////////////////////////////////////////////////
testcase tc_EPTF_Semaphore_Test_lock() runs on EPTF_Semaphore_Test_CT {
timer tl_wait;
var float vl_setUnlockTime := 2.0;
var float vl_getUnlockTime;
var default v_def := activate(as_EPTF_Semaphore_Test_lock());
f_EPTF_Semaphore_init_CT("Semaphore_Test");
v_semaphoreIdx := f_EPTF_Semaphore_new();
tl_wait.start(10.0);
t_lock.start(vl_setUnlockTime);
if (not f_EPTF_Semaphore_waitForUnlock(v_semaphoreIdx)) {
setverdict(pass);
} else {
log("Error: f_EPTF_Semaphore_waitForUnlock() returns with true");
setverdict(fail);
}
vl_getUnlockTime := tl_wait.read;
tl_wait.stop;
if (vl_getUnlockTime >= vl_setUnlockTime and vl_getUnlockTime < vl_setUnlockTime + 0.01) {
setverdict(pass);
} else {
log("Error: wrong locking interval: ", vl_getUnlockTime, ", expected: ", vl_setUnlockTime);
}
vl_setUnlockTime := 1.0;
v_semaphoreIdx := f_EPTF_Semaphore_new();
f_EPTF_Semaphore_unlock(v_semaphoreIdx);
f_EPTF_Semaphore_lock(v_semaphoreIdx);
tl_wait.start(10.0);
if (f_EPTF_Semaphore_waitForUnlock(v_semaphoreIdx, vl_setUnlockTime)) {
setverdict(pass);
} else {
log("Error: f_EPTF_Semaphore_waitForUnlock() returns with true");
setverdict(fail);
}
vl_getUnlockTime := tl_wait.read;
tl_wait.stop;
if (vl_getUnlockTime >= vl_setUnlockTime and vl_getUnlockTime < vl_setUnlockTime + 0.01) {
setverdict(pass);
} else {
log("Error: wrong blocking interval: ", vl_getUnlockTime, ", expected: ", vl_setUnlockTime);
}
//f_EPTF_Semaphore_lock(v_semaphoreIdx + 10);
f_EPTF_Base_cleanup_CT();
deactivate(v_def);
}
///////////////////////////////////////////////////////////
// Testcase: tc_EPTF_Semaphore_Test_unlock
//
// Purpose:
// to test f_EPTF_Semaphore_unlock() function
//
// Requirement:
// -
//
// Action:
// - calls f_EPTF_Semaphore_init_CT() function
// - calls f_EPTF_Semaphore_new() function
// - calls f_EPTF_Semaphore_unlock() function
// - calls f_EPTF_Semaphore_waitForUnlock() function
// - checks the return value of f_EPTF_Semaphore_waitForUnlock function
// Expected Result:
// - f_EPTF_Semaphore_waitForUnlock() function returns false, because semafore allready unlocked
///////////////////////////////////////////////////////////
testcase tc_EPTF_Semaphore_Test_unlock() runs on EPTF_Semaphore_Test_CT {
f_EPTF_Semaphore_init_CT("Semaphore_Test");
v_semaphoreIdx := f_EPTF_Semaphore_new();
f_EPTF_Semaphore_unlock(v_semaphoreIdx);
if (not f_EPTF_Semaphore_waitForUnlock(v_semaphoreIdx)) {
setverdict(pass);
} else {
log("Error: semaphore still locked: ", v_semaphoreIdx);
setverdict(fail);
}
//f_EPTF_Semaphore_unlock(v_semaphoreIdx + 1);
f_EPTF_Base_cleanup_CT();
}
///////////////////////////////////////////////////////////
// Testcase: tc_EPTF_Semaphore_Test_multiLockMultiUnlock
//
// Purpose:
// to test f_EPTF_Semaphore_increaseLock(), f_EPTF_Semaphore_decreaseLock() functions
//
// Requirement:
// -
//
// Action:
// - creates a semaphore and set its lock level to 3
// - activates an altstep which will decrease its lock level by 3
// using the f_EPTF_Semaphore_decreaseLock() function
// - calls f_EPTF_Semaphore_waitForUnlock() function
// - checks the return value of f_EPTF_Semaphore_waitForUnlock function
// - checks the elapsed time until unlock
//
// Expected Result:
// - f_EPTF_Semaphore_waitForUnlock() function returns false, because semaphore will be unlocked
//
///////////////////////////////////////////////////////////
testcase tc_EPTF_Semaphore_Test_multiLockMultiUnlock() runs on EPTF_Semaphore_Test_CT {
f_EPTF_Semaphore_init_CT("Semaphore_Test");
v_semaphoreIdx := f_EPTF_Semaphore_new();
f_EPTF_Semaphore_unlock(v_semaphoreIdx); // set to lock-level 0
f_EPTF_Semaphore_increaseLock(v_semaphoreIdx);
f_EPTF_Semaphore_increaseLock(v_semaphoreIdx);
f_EPTF_Semaphore_increaseLock(v_semaphoreIdx); // lock level is now 3
var float vl_setUnlockTime := 2.0;
var float vl_getUnlockTime;
var default v_def := activate(as_EPTF_Semaphore_Test_multiLock()); // will call f_EPTF_Semaphore_decreaseLock 3 times
timer tl_wait;
tl_wait.start(10.0);
t_lock.start(vl_setUnlockTime);
if (not f_EPTF_Semaphore_waitForUnlock(v_semaphoreIdx,3.0)) {
setverdict(pass);
} else {
setverdict(fail,"Error: semaphore was not unlocked in time: ", v_semaphoreIdx);
f_EPTF_Base_stopAll(none);
}
vl_getUnlockTime := tl_wait.read;
tl_wait.stop;
if (vl_getUnlockTime >= vl_setUnlockTime and vl_getUnlockTime < vl_setUnlockTime + 0.01) {
setverdict(pass);
} else {
setverdict(fail,"Error: wrong blocking interval: ", vl_getUnlockTime, ", expected: ", vl_setUnlockTime);
f_EPTF_Base_stopAll(none);
}
//f_EPTF_Semaphore_unlock(v_semaphoreIdx + 1);
f_EPTF_Base_cleanup_CT();
deactivate(v_def);
}
///////////////////////////////////////////////////////////
// Testcase: tc_EPTF_Semaphore_Test_multiLockUnlock
//
// Purpose:
// to test f_EPTF_Semaphore_increaseLock(), f_EPTF_Semaphore_unlock() functions
//
// Requirement:
// -
//
// Action:
// - creates a semaphore and set its lock level to 3
// - activates an altstep which will decrease its lock level to zero
// using the f_EPTF_Semaphore_unlock() function
// - calls f_EPTF_Semaphore_waitForUnlock() function
// - checks the return value of f_EPTF_Semaphore_waitForUnlock function
// - checks the elapsed time until unlock
//
// Expected Result:
// - f_EPTF_Semaphore_waitForUnlock() function returns false, because semaphore will be unlocked
//
///////////////////////////////////////////////////////////
testcase tc_EPTF_Semaphore_Test_multiLockUnlock() runs on EPTF_Semaphore_Test_CT {
f_EPTF_Semaphore_init_CT("Semaphore_Test");
v_semaphoreIdx := f_EPTF_Semaphore_new();
f_EPTF_Semaphore_increaseLock(v_semaphoreIdx);
f_EPTF_Semaphore_increaseLock(v_semaphoreIdx);
f_EPTF_Semaphore_increaseLock(v_semaphoreIdx); // lock level is now 4!
var float vl_setUnlockTime := 2.0;
var float vl_getUnlockTime;
var default v_def := activate(as_EPTF_Semaphore_Test_lock()); // will call f_EPTF_Semaphore_unlock
timer tl_wait;
tl_wait.start(10.0);
t_lock.start(vl_setUnlockTime);
if (not f_EPTF_Semaphore_waitForUnlock(v_semaphoreIdx,3.0)) {
setverdict(pass);
} else {
setverdict(fail,"Error: semaphore was not unlocked in time: ", v_semaphoreIdx);
f_EPTF_Base_stopAll(none);
}
vl_getUnlockTime := tl_wait.read;
tl_wait.stop;
if (vl_getUnlockTime >= vl_setUnlockTime and vl_getUnlockTime < vl_setUnlockTime + 0.01) {
setverdict(pass);
} else {
setverdict(fail,"Error: wrong blocking interval: ", vl_getUnlockTime, ", expected: ", vl_setUnlockTime);
f_EPTF_Base_stopAll(none);
}
//f_EPTF_Semaphore_unlock(v_semaphoreIdx + 1);
f_EPTF_Base_cleanup_CT();
deactivate(v_def);
}
///////////////////////////////////////////////////////////
// Testcase: tc_EPTF_Semaphore_Test_waitForUnlockNoDelete
//
// Purpose:
// to test if semaphore can be reused after f_EPTF_Semaphore_waitForUnlock()
//
// Requirement:
// -
//
// Action:
// - creates a semaphore and set its lock level to 3
// - activates an altstep which will decrease its lock level to zero
// using the f_EPTF_Semaphore_unlock() function
// - calls f_EPTF_Semaphore_waitForUnlock() function with auto-delete disabled
// - checks the return value of f_EPTF_Semaphore_waitForUnlock function
// - checks the elapsed time until unlock
// - repeates the above steps for the same semaphore (it is not deleted)
// - deletes the semaphore
//
// Expected Result:
// - f_EPTF_Semaphore_waitForUnlock() function returns false, because semaphore will be unlocked
//
///////////////////////////////////////////////////////////
testcase tc_EPTF_Semaphore_Test_waitForUnlockNoDelete() runs on EPTF_Semaphore_Test_CT {
f_EPTF_Semaphore_init_CT("Semaphore_Test");
v_semaphoreIdx := f_EPTF_Semaphore_new();
f_EPTF_Semaphore_increaseLock(v_semaphoreIdx);
f_EPTF_Semaphore_increaseLock(v_semaphoreIdx);
f_EPTF_Semaphore_increaseLock(v_semaphoreIdx); // lock level is now 4!
var float vl_setUnlockTime := 2.0;
var float vl_getUnlockTime;
var default v_def := activate(as_EPTF_Semaphore_Test_lock()); // will call f_EPTF_Semaphore_unlock
timer tl_wait;
tl_wait.start(10.0);
t_lock.start(vl_setUnlockTime);
if (not f_EPTF_Semaphore_waitForUnlock(v_semaphoreIdx,3.0,false)) {
setverdict(pass);
} else {
setverdict(fail,"Error: semaphore was not unlocked in time: ", v_semaphoreIdx);
f_EPTF_Base_stopAll(none);
}
vl_getUnlockTime := tl_wait.read;
tl_wait.stop;
if (vl_getUnlockTime >= vl_setUnlockTime and vl_getUnlockTime < vl_setUnlockTime + 0.01) {
setverdict(pass);
} else {
setverdict(fail,"Error: wrong blocking interval: ", vl_getUnlockTime, ", expected: ", vl_setUnlockTime);
f_EPTF_Base_stopAll(none);
}
// now reuse the same semaphore:
f_EPTF_Semaphore_increaseLock(v_semaphoreIdx);
f_EPTF_Semaphore_increaseLock(v_semaphoreIdx);
f_EPTF_Semaphore_increaseLock(v_semaphoreIdx); // lock level is now 4!
tl_wait.start(10.0);
t_lock.start(vl_setUnlockTime);
if (not f_EPTF_Semaphore_waitForUnlock(v_semaphoreIdx,3.0,false)) {
setverdict(pass);
} else {
setverdict(fail,"Error: reused semaphore was not unlocked in time: ", v_semaphoreIdx);
f_EPTF_Base_stopAll(none);
}
vl_getUnlockTime := tl_wait.read;
tl_wait.stop;
if (vl_getUnlockTime >= vl_setUnlockTime and vl_getUnlockTime < vl_setUnlockTime + 0.01) {
setverdict(pass);
} else {
setverdict(fail,"Error: wrong blocking interval after reuse: ", vl_getUnlockTime, ", expected: ", vl_setUnlockTime);
f_EPTF_Base_stopAll(none);
}
f_EPTF_Semaphore_delete(v_semaphoreIdx);
f_EPTF_Base_cleanup_CT();
deactivate(v_def);
}
///////////////////////////////////////////////////////////
// Testcase: tc_EPTF_Semaphore_NEG_Test_waitForUnlockNoDelete
//
// Purpose:
// to test if semaphore cannot be used after f_EPTF_Semaphore_delete
//
// Requirement:
// EPTF_DEBUG should be defined
//
// Action:
// This is a negative test!
// - creates a semaphore and set its lock level to 3
// - activates an altstep which will decrease its lock level to zero
// using the f_EPTF_Semaphore_unlock() function
// - calls f_EPTF_Semaphore_waitForUnlock() function with auto-delete enabled
// - checks the return value of f_EPTF_Semaphore_waitForUnlock function
// - checks the elapsed time until unlock
// - tries to use the deleted semaphore
// - deletes the semaphore by f_EPTF_Semaphore_delete
//
// Expected Result:
// - f_EPTF_Semaphore_waitForUnlock() function returns false, because semaphore will be unlocked
//
///////////////////////////////////////////////////////////
testcase tc_EPTF_Semaphore_NEG_Test_waitForUnlockNoDelete() runs on EPTF_Semaphore_Test_CT {
f_EPTF_Semaphore_init_CT("Semaphore_Test");
v_semaphoreIdx := f_EPTF_Semaphore_new();
f_EPTF_Base_setExpectedAssertMsg("*f_EPTF_Semaphore_increaseLock: Semaphore is invalid*");
f_EPTF_Semaphore_increaseLock(v_semaphoreIdx);
f_EPTF_Semaphore_increaseLock(v_semaphoreIdx);
f_EPTF_Semaphore_increaseLock(v_semaphoreIdx); // lock level is now 4!
var float vl_setUnlockTime := 2.0;
var float vl_getUnlockTime;
var default v_def := activate(as_EPTF_Semaphore_Test_lock()); // will call f_EPTF_Semaphore_unlock
timer tl_wait;
tl_wait.start(10.0);
t_lock.start(vl_setUnlockTime);
if (not f_EPTF_Semaphore_waitForUnlock(v_semaphoreIdx,3.0, true)) {
setverdict(pass);
} else {
setverdict(fail,"Error: semaphore was not unlocked in time: ", v_semaphoreIdx);
f_EPTF_Base_stopAll(none);
}
vl_getUnlockTime := tl_wait.read;
tl_wait.stop;
if (vl_getUnlockTime >= vl_setUnlockTime and vl_getUnlockTime < vl_setUnlockTime + 0.01) {
setverdict(pass);
} else {
setverdict(fail,"Error: wrong blocking interval: ", vl_getUnlockTime, ", expected: ", vl_setUnlockTime);
f_EPTF_Base_stopAll(none);
}
// the semaphore was deleted by f_EPTF_Semaphore_waitForUnlock
// now try to use the deleted semaphore:
f_EPTF_Semaphore_increaseLock(v_semaphoreIdx);
f_EPTF_Base_cleanup_CT();
deactivate(v_def);
}
///////////////////////////////////////////////////////////
// Testcase: tc_EPTF_Semaphore_NEG_Test_useInvalidSemaphoreInWaitForUnlock
//
// Purpose:
// to test if assert message comes up if invalied semaphore is used in f_EPTF_Semaphore_waitForUnlock
//
// Requirement:
// EPTF_DEBUG should be defined
//
// Action:
// This is a negative test!
// - creates a semaphore
// - calls f_EPTF_Semaphore_waitForUnlock for an invalid semaphore
// - deletes the semaphore by f_EPTF_Semaphore_delete
//
// Expected Result:
// - f_EPTF_Semaphore_waitForUnlock() function returns false, because semaphore will be unlocked
//
///////////////////////////////////////////////////////////
testcase tc_EPTF_Semaphore_NEG_Test_useInvalidSemaphoreInWaitForUnlock() runs on EPTF_Semaphore_Test_CT {
f_EPTF_Semaphore_init_CT("Semaphore_Test");
f_EPTF_Base_setExpectedAssertMsg("*Semaphore is invalid*");
v_semaphoreIdx := f_EPTF_Semaphore_new();
// uses an invalid index:
f_EPTF_Semaphore_waitForUnlock(v_semaphoreIdx+1,3.0, true);
f_EPTF_Base_cleanup_CT();
}
///////////////////////////////////////////////////////////
// Testcase: tc_EPTF_Semaphore_NEG_Test_useInvalidSemaphoreInUnlock
//
// Purpose:
// to test if assert message comes up if invalied semaphore is used in f_EPTF_Semaphore_unlock
//
// Requirement:
// EPTF_DEBUG should be defined
//
// Action:
// This is a negative test!
// - creates a semaphore
// - calls f_EPTF_Semaphore_unlock for an invalid semaphore
// - deletes the semaphore by f_EPTF_Semaphore_delete
//
// Expected Result:
// - f_EPTF_Semaphore_waitForUnlock() function returns false, because semaphore will be unlocked
//
///////////////////////////////////////////////////////////
testcase tc_EPTF_Semaphore_NEG_Test_useInvalidSemaphoreInUnlock() runs on EPTF_Semaphore_Test_CT {
f_EPTF_Semaphore_init_CT("Semaphore_Test");
f_EPTF_Base_setExpectedAssertMsg("*Semaphore is invalid*");
v_semaphoreIdx := f_EPTF_Semaphore_new();
// uses an invalid index:
f_EPTF_Semaphore_unlock(v_semaphoreIdx+1);
f_EPTF_Base_cleanup_CT();
}
///////////////////////////////////////////////////////////
// Testcase: tc_EPTF_Semaphore_NEG_Test_useInvalidSemaphoreInWaitForIncreaseLock
//
// Purpose:
// to test if assert message comes up if invalied semaphore is used in f_EPTF_Semaphore_increaseLock
//
// Requirement:
// EPTF_DEBUG should be defined
//
// Action:
// This is a negative test!
// - creates a semaphore
// - calls f_EPTF_Semaphore_increaseLock for an invalid semaphore
// - deletes the semaphore by f_EPTF_Semaphore_delete
//
// Expected Result:
// - f_EPTF_Semaphore_waitForUnlock() function returns false, because semaphore will be unlocked
//
///////////////////////////////////////////////////////////
testcase tc_EPTF_Semaphore_NEG_Test_useInvalidSemaphoreInWaitForIncreaseLock() runs on EPTF_Semaphore_Test_CT {
f_EPTF_Semaphore_init_CT("Semaphore_Test");
f_EPTF_Base_setExpectedAssertMsg("*Semaphore is invalid*");
v_semaphoreIdx := f_EPTF_Semaphore_new();
// uses an invalid index:
f_EPTF_Semaphore_increaseLock(v_semaphoreIdx+1);
f_EPTF_Base_cleanup_CT();
}
control {
execute(tc_Semaphore_basicTest());
execute(tc_EPTF_Semaphore_Test_init_CT());
execute(tc_EPTF_Semaphore_Test_new());
execute(tc_EPTF_Semaphore_Test_delete());
execute(tc_EPTF_Semaphore_Test_lock());
execute(tc_EPTF_Semaphore_Test_unlock());
execute(tc_EPTF_Semaphore_Test_multiLockMultiUnlock());
execute(tc_EPTF_Semaphore_Test_multiLockUnlock());
execute(tc_EPTF_Semaphore_Test_waitForUnlockNoDelete());
execute(tc_EPTF_Semaphore_NEG_Test_waitForUnlockNoDelete());
execute(tc_EPTF_Semaphore_NEG_Test_useInvalidSemaphoreInWaitForUnlock());
execute(tc_EPTF_Semaphore_NEG_Test_useInvalidSemaphoreInUnlock());
execute(tc_EPTF_Semaphore_NEG_Test_useInvalidSemaphoreInWaitForIncreaseLock());
}
} // end of module