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windows-server-2003/com/oleutest/oletest/task.cpp

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//+-------------------------------------------------------------------------
//
// Microsoft Windows
// Copyright (C) Microsoft Corporation, 1992 - 1993.
//
// File: task.cpp
//
// Contents: The global task list and helper function implementations
//
// Classes:
//
// Functions: HandleTestEnd
// RunAllTests
// RunApp
// RunTestOnThread
//
// History: dd-mmm-yy Author Comment
// 06-Jan-95 t-scotth added apartment thread test and RunTestOnThread
// 06-Feb-94 alexgo author
//
// Notes:
// Folks adding new tests will need to insert their test
// into the global array.
//
//--------------------------------------------------------------------------
#include "oletest.h"
#include "cotest.h"
#include "letest.h"
#include "attest.h"
// global, zero'ed task item
TaskItem vzTaskItem;
// the global task list array.
// Multi-test entries go first, followed by individual tests.
#ifdef WIN32
const TaskItem vrgTaskList[] =
{
// the constant should be the index at which individual tests
// begin. RunAllTests will run every test in this list after
// that index.
{ "Run All Tests", RunAllTests, (void *)2},
// the constant below should be the index at which individual
// upper layer unit tests exist. All tests at that index and
// beyond will be run
{ "Run All Upper Layer Tests", RunAllTests, (void *)5 },
{ "OleBind", RunApp, (void *)"olebind.exe"},
{ "Threads", RunApi, (void *) ThreadUnitTest },
{ "Storage DRT", RunApp, (void *)"stgdrt.exe"},
{ "LE: Insert Object Test 1", LETest1, &letiInsertObjectTest1 },
{ "LE: Clipboard Test 1", RunApi, (void *)LEClipTest1},
{ "LE: Clipboard Test 2 (clipboard data object)", RunApi,
(void *)LEClipTest2 },
{ "LE: Inplace Test 1", LETest1, &letiInplaceTest1 },
{ "LE: Data Advise Holder Test", RunApi,
(void *) LEDataAdviseHolderTest},
{ "LE: OLE Advise Holder Test", RunApi, (void *) LEOleAdviseHolderTest},
{ "LE: OLE1 Clipboard Test 1", RunApi, (void *)LEOle1ClipTest1},
{ "LE: Insert Object Test 2", LETest1, &letiInsertObjectTest2 },
{ "LE: OLE1 Clipboard Test 2", LEOle1ClipTest2, NULL },
{ "LE: OleQueryCreateFromData Test 1", RunApi,
(void *)TestOleQueryCreateFromDataMFCHack },
{ "LE: Apartment Thread Test", RunTestOnThread, (void *)ATTest },
{ 0, 0, 0 }
};
#else
// Win16 tests
const TaskItem vrgTaskList[] =
{
// the constant should be the index at which individual tests
// begin. RunAllTests will run every test in this list after
// that index.
{ "Run All Tests", RunAllTests, (void *)1},
{ "LE: Clipboard Test 1", RunApi, (void *)LEClipTest1},
{ "LE: Clipboard Test 2 (clipboard data object)", RunApi,
(void *)LEClipTest2 },
{ "LE: OLE1 Clipboard Test 1", RunApi, (void *)LEOle1ClipTest1},
{ 0, 0, 0 }
};
#endif
//+-------------------------------------------------------------------------
//
// Function: HandleTestEnd
//
// Synopsis: Handles processing for the WM_TESTEND message.
//
// Effects:
//
// Arguments: void
//
// Requires:
//
// Returns: void
//
// Signals:
//
// Modifies:
//
// Algorithm: execute the next task in the task stack or sends
// a TESTSCOMPLETED message back the message queue
//
// History: dd-mmm-yy Author Comment
// 06-Feb-94 alexgo author
// 13-Dec-94 MikeW Allow testing to continue after failures
//
// Notes: vApp must be initialized correctly for this function to
// work properly.
//
// BUGBUG::Need to add output routines in here.
//
//--------------------------------------------------------------------------
void HandleTestEnd( void )
{
assert(vApp.m_message == WM_TESTEND);
switch( vApp.m_wparam )
{
case TEST_UNKNOWN:
//we usually get this message from a test run
//by RunApp (i.e. one that does not communicate
//with us via windows messages). We'll check
//the exit code and decide what to do.
if( vApp.m_lparam != 0 )
{
//presumably an error
OutputString("Test End, Status Unknown "
"( %lx )\r\n\r\n", vApp.m_lparam);
vApp.m_fGotErrors = TRUE;
break;
}
// otherwise we fall through to the success case.
case TEST_SUCCESS:
OutputString("Test Success ( %lx )!\r\n\r\n",
vApp.m_lparam);
break;
case TEST_FAILURE:
OutputString("Test FAILED! ( %lx )\r\n\r\n", vApp.m_lparam);
vApp.m_fGotErrors = TRUE;
break;
default:
assert(0); //we should never get here
break;
}
vApp.Reset();
//
// Now check to see if there are any more tests
//
while (!vApp.m_TaskStack.IsEmpty())
{
TaskItem ti;
vApp.m_TaskStack.Pop(&ti);
if (ti.szName != (LPSTR) 0)
{
vApp.m_TaskStack.Push(&ti);
break;
}
}
if (vApp.m_TaskStack.IsEmpty())
{
PostMessage(vApp.m_hwndMain,
WM_TESTSCOMPLETED,
vApp.m_wparam, vApp.m_lparam);
}
else
{
//if the stack is not empty, run
//the next task
PostMessage(vApp.m_hwndMain,
WM_TESTSTART,
0, 0);
}
return;
}
//+-------------------------------------------------------------------------
//
// Function: HandleTestsCompleted
//
// Synopsis: Handles processing for the WM_TESTSCOMPLETED message.
//
// Effects:
//
// Arguments: void
//
// Requires:
//
// Returns: void
//
// Signals:
//
// Modifies:
//
// Algorithm:
//
// History: dd-mmm-yy Author Comment
// 06-Feb-94 alexgo author
//
// Notes: vApp must be initialized correctly for this function to
// work properly.
//
// BUGBUG::Need to add more output routines in here.
//
//--------------------------------------------------------------------------
void HandleTestsCompleted( void )
{
char szBuf[128];
assert(vApp.m_message == WM_TESTSCOMPLETED);
//temporary output
switch(vApp.m_fGotErrors)
{
case FALSE:
OutputString("Tests PASSED!!\n");
break;
case TRUE:
sprintf(szBuf, "Tests FAILED, code %lx",
vApp.m_lparam);
MessageBox(vApp.m_hwndMain, szBuf, "Ole Test Driver",
MB_ICONEXCLAMATION | MB_OK);
break;
default:
assert(0);
}
//
// Reset the got error status
//
vApp.m_fGotErrors = FALSE;
return;
}
//+-------------------------------------------------------------------------
//
// Function: RunAllTests
//
// Synopsis: Runs all the individual tests in the global list
//
// Effects:
//
// Arguments: pvArg -- the index at which individual tests
// start in the global list.
//
// Requires:
//
// Returns: void
//
// Signals:
//
// Modifies:
//
// Algorithm:
//
// History: dd-mmm-yy Author Comment
// 06-Feb-94 alexgo author
//
// Notes:
// Tests will be run in the order they appear in the global
// list.
//
//--------------------------------------------------------------------------
void RunAllTests( void *pvArg )
{
ULONG index = (ULONG)pvArg;
ULONG i;
//find the number of tasks in the list (so we can push
//them in reverse order).
for (i = 0; vrgTaskList[i].szName != 0; i++ )
{
;
}
assert( i > 1 );
//now push the tasks onto the stack in reverse order.
for (i--; i >= index; i-- )
{
vApp.m_TaskStack.Push(vrgTaskList + i);
}
//start the first one.
vApp.m_TaskStack.PopAndExecute(NULL);
return;
}
//+-------------------------------------------------------------------------
//
// Function: RunApi
//
// Synopsis: Runs the specified Api
//
// Effects:
//
// Arguments: [pvArg] -- the api to run
//
// Requires:
//
// Returns: void
//
// Signals:
//
// Modifies:
//
// Algorithm:
//
// History: dd-mmm-yy Author Comment
// 23-Mar-94 alexgo author
//
// Notes:
//
//--------------------------------------------------------------------------
void RunApi( void *pvArg )
{
HRESULT hresult;
hresult = (*((HRESULT (*)(void))pvArg))();
vApp.Reset();
vApp.m_wparam = (hresult == NOERROR) ? TEST_SUCCESS : TEST_FAILURE;
vApp.m_lparam = (LPARAM)hresult;
vApp.m_message = WM_TESTEND;
HandleTestEnd();
}
//+-------------------------------------------------------------------------
//
// Function: RunApp
//
// Synopsis: Runs the app specified in the argument
//
// Effects:
//
// Arguments: pvArg -- a string with the app to execute
//
// Requires:
//
// Returns: void
//
// Signals:
//
// Modifies:
//
// Algorithm: Create the process and wait for it to finish. The exit
// status is then returned.
//
// History: dd-mmm-yy Author Comment
// 06-Feb-94 alexgo author
//
// Notes:
//
//--------------------------------------------------------------------------
void RunApp( void *pvArg )
{
WPARAM wparam = 0;
DWORD error = 0;
#ifdef WIN32
PROCESS_INFORMATION procinfo;
static STARTUPINFO startinfo; //to make it all zero
assert(pvArg); //should be a valid ANSI string.
startinfo.cb = sizeof(startinfo);
if( CreateProcess(NULL, (LPTSTR)pvArg, NULL, NULL, NULL, NULL, NULL,
NULL, &startinfo, &procinfo) )
{
//the process started, now wait for it to finish.
WaitForSingleObject(procinfo.hProcess, INFINITE);
//now get the return code of the process.
GetExitCodeProcess(procinfo.hProcess, &error);
wparam = TEST_UNKNOWN;
}
else
{
wparam = TEST_FAILURE;
error = GetLastError();
}
#endif // WIN32
// since there will be no WM_TESTEND message, we must do the
// test end processing ourselves.
vApp.Reset();
vApp.m_wparam = wparam;
vApp.m_lparam = error;
vApp.m_message = WM_TESTEND;
HandleTestEnd();
return;
}
//+-------------------------------------------------------------------------
//
// Function: RunTestOnThread
//
// Synopsis: creates a thread to run a test function
//
// Effects: creates a new thread
//
// Arguments: [pvArg] -- a function pointer to the test function
//
// Requires:
//
// Returns: void
//
// Signals:
//
// Modifies:
//
// Algorithm:
//
// History: dd-mmm-yy Author Comment
// 04-Jan-95 t-ScottH author
//
// Notes:
//
//--------------------------------------------------------------------------
void RunTestOnThread(void *pvArg)
{
HANDLE hMainTestThread;
DWORD dwThreadId = 0;
hMainTestThread = CreateThread(
NULL, // security attributes
0, // stack size (default)
(LPTHREAD_START_ROUTINE)pvArg, // address of thread function
NULL, // arguments of thread function
0, // creation flags
&dwThreadId ); // address of new thread ID
assert(hMainTestThread);
CloseHandle(hMainTestThread);
return;
}