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Latest revision as of 19:07, 24 October 2011
Contents |
[edit] Integration
After you have created the model using IDE and generated the source, add a "test" directory just below the model's root (as a peer to "app") and make subdirectories below "test" for your major functional blocks.
[edit] Python TAE Interface
The python testcase files should be present in "<model>/src/test" directory. Since you are probably already programming your test cases in Python using our testcase framework, nothing further need be done.
[edit] C TAE Interface
The Python "layer" for an exclusively "C" implementation is simple :
import openclovis.test.testcase as testcase class test(testcase.TestGroup): def test_sg006(self): r""" \testcase BIC-UTL-BIT.TG001 \brief Test group based on SG "tcSg005Bitmap" """ # List of service groups to unlock, Maximum time (in seconds) that the test takes to run self.run_sg_based_test(['tcSg005Bitmap'], 60)
This python file should be present in "<model>/src/test" directory.
You also need to add some test initialization code in clCompAppMain.c of the component. Here is an example of what all you need to initialize/register :
[edit] Stub1
In the global context of the file clCompAppMain.c, you need to add following code with BEGIN/END block :
/* * ---BEGIN_APPLICATION_CODE--- */ int clTestBitmapRun(ClTcParamListT *param_list) { clTestBitmapMain(); return 0; } void* clTcRunThread(void *param) { clTcRun(); return NULL; } /* * ---END_APPLICATION_CODE--- */
- Where, clTestBitmapMain() is the main test function (where all the test cases will start their execution). The example code for this function is present in "Testcase Implementation" section.
[edit] Stub2
In main() function, TC initialize should be done in following way :
/* * Do the application specific initialization here. */ /* * ---BEGIN_APPLICATION_CODE--- */ rc = clTcInitialize("Bitmap Utility", "BIT", clTestBitmapRun); if(CL_OK != rc) { clprintf(CL_LOG_SEV_ERROR, "clTcInitialize() failed, rc : 0x%x", rc); return rc; } /* * ---END_APPLICATION_CODE--- */
[edit] Stub3
Before blocking on AMF file descriptor for callbacks, in main() function a thread should be created to run the test in the thread context. Alternatively, you can block on the AMF file descriptor in another thread and let the test run in main thread.
/* * ---BEGIN_APPLICATION_CODE--- */ rc = clOsalTaskCreateDetached(NULL, CL_OSAL_SCHED_OTHER, CL_OSAL_THREAD_PRI_NOT_APPLICABLE, CL_OSAL_MIN_STACK_SIZE, clTcRunThread, NULL); /* * ---END_APPLICATION_CODE--- */ /* * Block on AMF dispatch file descriptor for callbacks */
[edit] Stub4
In clCompAppTerminate() finalize the TC in following way :
/* * ---BEGIN_APPLICATION_CODE--- */ clTcFinalize(); /* * ---END_APPLICATION_CODE--- */
[edit] Stub5
In clCompAppAMFCSISet(), call TC activate in SA_AMF_HA_ACTIVE context :
switch ( haState ) { case SA_AMF_HA_ACTIVE: { /* * AMF has requested application to take the active HA state * for the CSI. */ /* * ---BEGIN_APPLICATION_CODE--- */ clTcActivate((ClAmsCSIDescriptorT*)&csiDescriptor, haState); /* * ---END_APPLICATION_CODE--- */