reactos/rostests/regtests_by_casper/shared/regtests.c
Aleksey Bragin 33c6673cfb Move and reshuffle reactos/regtetsts into rostests. 1/2
svn path=/trunk/; revision=26014
2007-03-06 11:59:18 +00:00

235 lines
5.1 KiB
C

/*
* PROJECT: ReactOS kernel
* FILE: regtests/shared/regtests.c
* PURPOSE: Regression testing framework
* PROGRAMMER: Casper S. Hornstrup (chorns@users.sourceforge.net)
* UPDATE HISTORY:
* 06-07-2003 CSH Created
*/
#define WIN32_NO_STATUS
#include <windows.h>
#define NTOS_MODE_USER
#include <ndk/ntndk.h>
#include <pseh/pseh.h>
#include "regtests.h"
#define NDEBUG
#include <debug.h>
typedef struct _PERFORM_TEST_ARGS
{
TestOutputRoutine OutputRoutine;
_PTEST Test;
LPSTR TestName;
DWORD Result;
char Buffer[5000];
DWORD Time;
} PERFORM_TEST_ARGS;
int _Result;
char *_Buffer;
static LIST_ENTRY AllTests;
VOID
InitializeTests()
{
InitializeListHead(&AllTests);
}
char*
FormatExecutionTime(char *buffer, ULONG milliseconds)
{
sprintf(buffer,
"%ldms",
milliseconds);
return buffer;
}
DWORD WINAPI
PerformTest(PVOID _arg)
{
PERFORM_TEST_ARGS *Args = (PERFORM_TEST_ARGS *)_arg;
_PTEST Test = Args->Test;
_SetThreadPriority(_GetCurrentThread(), THREAD_PRIORITY_IDLE);
memset(Args->Buffer, 0, sizeof(Args->Buffer));
_SEH_TRY {
_Result = TS_OK;
_Buffer = Args->Buffer;
(Test->Routine)(TESTCMD_RUN);
Args->Result = _Result;
} _SEH_HANDLE {
Args->Result = TS_FAILED;
sprintf(Args->Buffer, "due to exception 0x%lx", _SEH_GetExceptionCode());
} _SEH_END;
return 1;
}
VOID
ControlNormalTest(HANDLE hThread,
PERFORM_TEST_ARGS *Args,
DWORD TimeOut)
{
_FILETIME time;
_FILETIME executionTime;
DWORD status;
status = _WaitForSingleObject(hThread, TimeOut);
if (status == WAIT_TIMEOUT)
{
_TerminateThread(hThread, 0);
Args->Result = TS_TIMEDOUT;
}
status = _GetThreadTimes(hThread,
&time,
&time,
&time,
&executionTime);
Args->Time = executionTime.dwLowDateTime / 10000;
}
VOID
DisplayResult(PERFORM_TEST_ARGS* Args,
LPSTR OutputBuffer)
{
char Format[100];
if (Args->Result == TS_OK)
{
sprintf(OutputBuffer,
"[%s] Success [%s]\n",
Args->TestName,
FormatExecutionTime(Format,
Args->Time));
}
else if (Args->Result == TS_TIMEDOUT)
{
sprintf(OutputBuffer,
"[%s] Timed out [%s]\n",
Args->TestName,
FormatExecutionTime(Format,
Args->Time));
}
else
sprintf(OutputBuffer, "[%s] Failed (%s)\n", Args->TestName, Args->Buffer);
if (Args->OutputRoutine != NULL)
(*Args->OutputRoutine)(OutputBuffer);
else
DbgPrint(OutputBuffer);
}
VOID
ControlTest(HANDLE hThread,
PERFORM_TEST_ARGS *Args,
DWORD TestType,
DWORD TimeOut)
{
switch (TestType)
{
case TT_NORMAL:
ControlNormalTest(hThread, Args, TimeOut);
break;
default:
printf("Unknown test type %ld\n", TestType);
break;
}
}
VOID
PerformTests(TestOutputRoutine OutputRoutine, LPSTR TestName)
{
PLIST_ENTRY CurrentEntry;
PLIST_ENTRY NextEntry;
_PTEST Current;
PERFORM_TEST_ARGS Args;
HANDLE hThread;
char OutputBuffer[1024];
char Name[200];
DWORD TestType;
DWORD TimeOut;
Args.OutputRoutine = OutputRoutine;
Args.TestName = Name;
Args.Time = 0;
CurrentEntry = AllTests.Flink;
for (; CurrentEntry != &AllTests; CurrentEntry = NextEntry)
{
NextEntry = CurrentEntry->Flink;
Current = CONTAINING_RECORD(CurrentEntry, _TEST, ListEntry);
Args.Test = Current;
/* Get name of test */
memset(Name, 0, sizeof(Name));
_Result = TS_OK;
_Buffer = Name;
(Current->Routine)(TESTCMD_TESTNAME);
if (_Result != TS_OK)
{
if (TestName != NULL)
continue;
strcpy(Name, "Unnamed");
}
if ((TestName != NULL) && (_stricmp(Name, TestName) != 0))
continue;
TestType = TT_NORMAL;
_Result = TS_OK;
_Buffer = (char *)&TestType;
(Current->Routine)(TESTCMD_TESTTYPE);
if (_Result != TS_OK)
TestType = TT_NORMAL;
/* Get timeout for test */
TimeOut = 0;
_Result = TS_OK;
_Buffer = (char *)&TimeOut;
(Current->Routine)(TESTCMD_TIMEOUT);
if (_Result != TS_OK || TimeOut == INFINITE)
TimeOut = 5000;
/* Run test in a separate thread */
hThread = _CreateThread(NULL, 0, PerformTest, (PVOID)&Args, 0, NULL);
if (hThread == NULL)
{
printf("[%s] Failed (CreateThread() failed: %ld)\n",
Name,
_GetLastError());
Args.Result = TS_FAILED;
}
else
ControlTest(hThread, &Args, TestType, TimeOut);
DisplayResult(&Args, OutputBuffer);
}
}
VOID
AddTest(TestRoutine Routine)
{
_PTEST Test;
Test = (_PTEST) malloc(sizeof(_TEST));
if (Test == NULL)
{
DbgPrint("Out of memory");
return;
}
Test->Routine = Routine;
InsertTailList(&AllTests, &Test->ListEntry);
}
PVOID STDCALL
FrameworkGetHook(ULONG index)
{
return FrameworkGetHookInternal(index);
}