reactos/modules/rostests/apitests/kernel32/FLS.c

248 lines
7.6 KiB
C

/*
* PROJECT: ReactOS api tests
* LICENSE: GPL-2.0+ (https://spdx.org/licenses/GPL-2.0+)
* PURPOSE: Tests for FLS implementation details
* COPYRIGHT: Copyright 2018 Mark Jansen (mark.jansen@reactos.org)
*/
#include "precomp.h"
#include <ndk/pstypes.h>
#include <ndk/rtlfuncs.h>
#include <pseh/pseh2.h>
/* XP does not have these functions */
static DWORD (WINAPI *pFlsAlloc)(PFLS_CALLBACK_FUNCTION);
static BOOL (WINAPI *pFlsFree)(DWORD);
static PVOID (WINAPI *pFlsGetValue)(DWORD);
static BOOL (WINAPI *pFlsSetValue)(DWORD,PVOID);
static BOOL (WINAPI *pRtlIsCriticalSectionLockedByThread)(RTL_CRITICAL_SECTION *);
#define NtCurrentPeb() (NtCurrentTeb()->ProcessEnvironmentBlock)
#define WINVER_2003 0x0502
static DWORD g_WinVersion = 0;
PVOID g_FlsData1 = NULL;
LONG g_FlsCalled1 = 0;
PVOID g_FlsData2 = NULL;
LONG g_FlsCalled2 = 0;
PVOID g_FlsData3 = NULL;
LONG g_FlsCalled3 = 0;
BOOL g_FlsExcept3 = FALSE;
VOID WINAPI FlsCallback1(PVOID lpFlsData)
{
ok(lpFlsData == g_FlsData1, "Expected g_FlsData1(%p), got %p\n", g_FlsData1, lpFlsData);
InterlockedIncrement(&g_FlsCalled1);
}
VOID WINAPI FlsCallback2(PVOID lpFlsData)
{
ok(lpFlsData == g_FlsData2, "Expected g_FlsData2(%p), got %p\n", g_FlsData2, lpFlsData);
InterlockedIncrement(&g_FlsCalled2);
}
VOID WINAPI FlsCallback3(PVOID lpFlsData)
{
ok(lpFlsData == g_FlsData3, "Expected g_FlsData3(%p), got %p\n", g_FlsData3, lpFlsData);
if (g_WinVersion <= WINVER_2003)
ok(pRtlIsCriticalSectionLockedByThread(NtCurrentPeb()->FastPebLock), "Expected lock on PEB\n");
InterlockedIncrement(&g_FlsCalled3);
if (g_FlsExcept3)
{
RaiseException(ERROR_INVALID_PARAMETER, EXCEPTION_NONCONTINUABLE, 0, NULL);
}
}
typedef struct _FLS_CALLBACK_INFO
{
PFLS_CALLBACK_FUNCTION lpCallback;
PVOID Unknown;
} FLS_CALLBACK_INFO, *PFLS_CALLBACK_INFO;
void ok_fls_(DWORD dwIndex, PVOID pValue, PFLS_CALLBACK_FUNCTION lpCallback)
{
PFLS_CALLBACK_INFO FlsCallback;
PVOID* FlsData;
PVOID gotValue;
FlsCallback = (PFLS_CALLBACK_INFO)NtCurrentPeb()->FlsCallback;
FlsData = (PVOID*)NtCurrentTeb()->FlsData;
winetest_ok(FlsData != NULL, "Expected FlsData\n");
winetest_ok(FlsCallback != NULL, "Expected FlsCallback\n");
if (FlsData == NULL || FlsCallback == NULL)
{
winetest_skip("Unable to continue test\n");
return;
}
if (g_WinVersion <= WINVER_2003)
{
winetest_ok(NtCurrentPeb()->FlsCallback[dwIndex] == lpCallback,
"Expected NtCurrentPeb()->FlsCallback[%lu] to be %p, was %p\n",
dwIndex,
lpCallback,
NtCurrentPeb()->FlsCallback[dwIndex]);
}
else
{
winetest_ok(FlsCallback[dwIndex].lpCallback == lpCallback,
"Expected FlsCallback[%lu].lpCallback to be %p, was %p\n",
dwIndex,
lpCallback,
FlsCallback[dwIndex].lpCallback);
if (lpCallback != &FlsCallback3 || !g_FlsExcept3)
{
winetest_ok(FlsCallback[dwIndex].Unknown == NULL,
"Expected FlsCallback[%lu].Unknown to be %p, was %p\n",
dwIndex,
NULL,
FlsCallback[dwIndex].Unknown);
}
}
winetest_ok(FlsData[dwIndex + 2] == pValue,
"Expected FlsData[%lu + 2] to be %p, was %p\n",
dwIndex,
pValue,
FlsData[dwIndex + 2]);
gotValue = pFlsGetValue(dwIndex);
winetest_ok(gotValue == pValue, "Expected FlsGetValue(%lu) to be %p, was %p\n", dwIndex, pValue, gotValue);
}
#define ok_fls (winetest_set_location(__FILE__, __LINE__), 0) ? (void)0 : ok_fls_
static VOID init_funcs(void)
{
HMODULE hKernel32 = GetModuleHandleA("kernel32.dll");
HMODULE hNTDLL = GetModuleHandleA("ntdll.dll");
#define X(f) p##f = (void*)GetProcAddress(hKernel32, #f);
X(FlsAlloc);
X(FlsFree);
X(FlsGetValue);
X(FlsSetValue);
#undef X
pRtlIsCriticalSectionLockedByThread = (void*)GetProcAddress(hNTDLL, "RtlIsCriticalSectionLockedByThread");
}
START_TEST(FLS)
{
RTL_OSVERSIONINFOW rtlinfo = { sizeof(rtlinfo) };
DWORD dwIndex1, dwIndex2, dwIndex3, dwErr;
BOOL bRet;
init_funcs();
if (!pFlsAlloc || !pFlsFree || !pFlsGetValue || !pFlsSetValue)
{
skip("Fls functions not available\n");
return;
}
if (!pRtlIsCriticalSectionLockedByThread)
{
skip("RtlIsCriticalSectionLockedByThread function not available\n");
return;
}
RtlGetVersion(&rtlinfo);
g_WinVersion = (rtlinfo.dwMajorVersion << 8) | rtlinfo.dwMinorVersion;
dwIndex1 = pFlsAlloc(FlsCallback1);
ok(dwIndex1 != FLS_OUT_OF_INDEXES, "Unable to allocate FLS index\n");
dwIndex2 = pFlsAlloc(FlsCallback2);
ok(dwIndex2 != FLS_OUT_OF_INDEXES, "Unable to allocate FLS index\n");
ok(dwIndex1 != dwIndex2, "Expected different indexes, got %lu\n", dwIndex1);
dwIndex3 = pFlsAlloc(FlsCallback3);
ok(dwIndex3 != FLS_OUT_OF_INDEXES, "Unable to allocate FLS index\n");
ok(dwIndex1 != dwIndex3, "Expected different indexes, got %lu\n", dwIndex1);
if (dwIndex1 == FLS_OUT_OF_INDEXES || dwIndex2 == FLS_OUT_OF_INDEXES || dwIndex3 == FLS_OUT_OF_INDEXES)
{
skip("Unable to continue test\n");
return;
}
ok_fls(dwIndex1, g_FlsData1, &FlsCallback1);
ok_fls(dwIndex2, g_FlsData2, &FlsCallback2);
ok_fls(dwIndex3, g_FlsData3, &FlsCallback3);
g_FlsData1 = (PVOID)0x123456;
ok(pFlsSetValue(dwIndex1, g_FlsData1), "FlsSetValue(%lu, %p) failed\n", dwIndex1, g_FlsData1);
ok_fls(dwIndex1, g_FlsData1, &FlsCallback1);
ok_fls(dwIndex2, g_FlsData2, &FlsCallback2);
ok_fls(dwIndex3, g_FlsData3, &FlsCallback3);
ok_int(g_FlsCalled1, 0);
ok_int(g_FlsCalled2, 0);
ok_int(g_FlsCalled3, 0);
g_FlsData2 = (PVOID)0x9876112;
ok(pFlsSetValue(dwIndex2, g_FlsData2), "FlsSetValue(%lu, %p) failed\n", dwIndex2, g_FlsData2);
ok_fls(dwIndex1, g_FlsData1, &FlsCallback1);
ok_fls(dwIndex2, g_FlsData2, &FlsCallback2);
ok_fls(dwIndex3, g_FlsData3, &FlsCallback3);
ok_int(g_FlsCalled1, 0);
ok_int(g_FlsCalled2, 0);
ok_int(g_FlsCalled3, 0);
g_FlsData3 = (PVOID)0x98762;
ok(pFlsSetValue(dwIndex3, g_FlsData3), "FlsSetValue(%lu, %p) failed\n", dwIndex3, g_FlsData3);
ok_fls(dwIndex1, g_FlsData1, &FlsCallback1);
ok_fls(dwIndex2, g_FlsData2, &FlsCallback2);
ok_fls(dwIndex3, g_FlsData3, &FlsCallback3);
ok_int(g_FlsCalled1, 0);
ok_int(g_FlsCalled2, 0);
ok_int(g_FlsCalled3, 0);
ok(pFlsFree(dwIndex1) == TRUE, "FlsFree(%lu) failed\n", dwIndex1);
g_FlsData1 = NULL;
ok_fls(dwIndex1, g_FlsData1, NULL);
ok_fls(dwIndex2, g_FlsData2, &FlsCallback2);
ok_fls(dwIndex3, g_FlsData3, &FlsCallback3);
ok_int(g_FlsCalled1, 1);
ok_int(g_FlsCalled2, 0);
ok_int(g_FlsCalled3, 0);
g_FlsExcept3 = TRUE;
_SEH2_TRY
{
bRet = pFlsFree(dwIndex3);
dwErr = GetLastError();
}
_SEH2_EXCEPT(EXCEPTION_EXECUTE_HANDLER)
{
bRet = 12345;
dwErr = 0xdeaddead;
}
_SEH2_END;
ok(pRtlIsCriticalSectionLockedByThread(NtCurrentPeb()->FastPebLock) == FALSE, "Expected no lock on PEB\n");
ok(bRet == 12345, "FlsFree(%lu) should have failed, got %u\n", dwIndex3, bRet);
ok(dwErr == 0xdeaddead, "Expected GetLastError() to be 0xdeaddead, was %lx\n", dwErr);
ok_fls(dwIndex1, g_FlsData1, NULL);
ok_fls(dwIndex2, g_FlsData2, &FlsCallback2);
ok_fls(dwIndex3, g_FlsData3, &FlsCallback3);
ok_int(g_FlsCalled1, 1);
ok_int(g_FlsCalled2, 0);
ok_int(g_FlsCalled3, 1);
}