- Add ExSequencedList test and restructure ExSingleList so they can share the test body
svn path=/branches/GSoC_2011/KMTestSuite/; revision=53359
ntos_ex/ExInterlocked.c
ntos_ex/ExPools.c
ntos_ex/ExResource.c
+ ntos_ex/ExSequencedList.c
ntos_ex/ExSingleList.c
ntos_ex/ExTimer.c
ntos_fsrtl/FsRtlExpression.c
<file>ExInterlocked.c</file>
<file>ExPools.c</file>
<file>ExResource.c</file>
+ <file>ExSequencedList.c</file>
<file>ExSingleList.c</file>
<file>ExTimer.c</file>
</directory>
KMT_TESTFUNC Test_ExInterlocked;
KMT_TESTFUNC Test_ExPools;
KMT_TESTFUNC Test_ExResource;
+KMT_TESTFUNC Test_ExSequencedList;
KMT_TESTFUNC Test_ExSingleList;
KMT_TESTFUNC Test_ExTimer;
KMT_TESTFUNC Test_FsRtlExpression;
{ "ExInterlocked", Test_ExInterlocked },
{ "ExPools", Test_ExPools },
{ "ExResource", Test_ExResource },
+ { "ExSequencedList", Test_ExSequencedList },
{ "ExSingleList", Test_ExSingleList },
{ "ExTimer", Test_ExTimer },
{ "Example", Test_Example },
--- /dev/null
+/*
+ * PROJECT: ReactOS kernel-mode tests
+ * LICENSE: GPLv2+ - See COPYING in the top level directory
+ * PURPOSE: Kernel-Mode Test Suite sequenced singly-linked list test
+ * PROGRAMMER: Thomas Faber <thfabba@gmx.de>
+ */
+
+struct _SINGLE_LIST_ENTRY;
+union _SLIST_HEADER;
+struct _SINGLE_LIST_ENTRY *__fastcall ExInterlockedPushEntrySList(union _SLIST_HEADER *, struct _SINGLE_LIST_ENTRY *, unsigned long *);
+struct _SINGLE_LIST_ENTRY *__fastcall ExInterlockedPopEntrySList(union _SLIST_HEADER *, unsigned long *);
+
+#include <kmt_test.h>
+
+/* TODO: SLIST_HEADER is a lot different for x64 */
+
+#define CheckSListHeader(ListHead, ExpectedPointer, ExpectedDepth) do \
+{ \
+ ok_eq_pointer((ListHead)->Next.Next, ExpectedPointer); \
+ /*ok_eq_pointer(FirstEntrySList(ListHead), ExpectedPointer);*/ \
+ ok_eq_uint((ListHead)->Depth, ExpectedDepth); \
+ ok_eq_uint((ListHead)->Sequence, ExpectedSequence); \
+ ok_eq_uint(ExQueryDepthSList(ListHead), ExpectedDepth); \
+ ok_irql(HIGH_LEVEL); \
+ ok_bool_true(KmtAreInterruptsEnabled(), "Interrupts enabled:"); \
+} while (0)
+
+#define PXLIST_HEADER PSLIST_HEADER
+#define PXLIST_ENTRY PSLIST_ENTRY
+#define PushXList ExInterlockedPushEntrySList
+#define PopXList ExInterlockedPopEntrySList
+#define FlushXList ExInterlockedFlushSList
+#define ok_free_xlist ok_eq_pointer
+#define CheckXListHeader CheckSListHeader
+#define TestXListFunctional TestSListFunctional
+#include "ExXList.h"
+
+#undef ExInterlockedPushEntrySList
+#undef ExInterlockedPopEntrySList
+#define TestXListFunctional TestSListFunctionalExports
+#include "ExXList.h"
+
+START_TEST(ExSequencedList)
+{
+ PSLIST_HEADER ListHead;
+ KSPIN_LOCK SpinLock;
+ USHORT ExpectedSequence = 0;
+ PKSPIN_LOCK pSpinLock = &SpinLock;
+ PCHAR Buffer;
+ PSLIST_ENTRY Entries;
+ SIZE_T EntriesSize = 5 * sizeof *Entries;
+ KIRQL Irql;
+
+ KeInitializeSpinLock(&SpinLock);
+#ifdef _M_IX86
+ pSpinLock = NULL;
+#endif
+
+ /* make sure stuff is as un-aligned as possible ;) */
+ Buffer = ExAllocatePoolWithTag(NonPagedPool, sizeof *ListHead + EntriesSize + 1, 'TLqS');
+ ListHead = (PVOID)&Buffer[1];
+ Entries = (PVOID)&ListHead[1];
+ KeRaiseIrql(HIGH_LEVEL, &Irql);
+
+ RtlFillMemory(Entries, EntriesSize, 0x55);
+ RtlFillMemory(ListHead, sizeof *ListHead, 0x55);
+ InitializeSListHead(ListHead);
+ CheckSListHeader(ListHead, NULL, 0);
+ TestSListFunctional(ListHead, Entries, pSpinLock);
+
+ RtlFillMemory(Entries, EntriesSize, 0x55);
+ RtlFillMemory(ListHead, sizeof *ListHead, 0x55);
+ ExInitializeSListHead(ListHead);
+ CheckSListHeader(ListHead, NULL, 0);
+ TestSListFunctionalExports(ListHead, Entries, pSpinLock);
+
+ KeLowerIrql(Irql);
+ ExFreePoolWithTag(Buffer, 'TLqS');
+}
#include <kmt_test.h>
-SINGLE_LIST_ENTRY Entries[5];
-
#define ok_eq_free2(Value, Expected) do \
{ \
if (KmtIsCheckedBuild) \
ok_eq_pointer(Value, Expected); \
} while (0)
-START_TEST(ExSingleList)
+PSINGLE_LIST_ENTRY FlushList(PSINGLE_LIST_ENTRY ListHead)
{
- KSPIN_LOCK SpinLock;
- SINGLE_LIST_ENTRY ListHead;
- PSINGLE_LIST_ENTRY Ret;
-
- KeInitializeSpinLock(&SpinLock);
-
- memset(Entries, 0x55, sizeof Entries);
- ListHead.Next = NULL;
- Ret = ExInterlockedPushEntryList(&ListHead, &Entries[0], &SpinLock);
- ok_eq_pointer(Ret, NULL);
- ok_eq_pointer(ListHead.Next, &Entries[0]);
- ok_eq_pointer(Entries[0].Next, NULL);
- ok_bool_true(KmtAreInterruptsEnabled(), "Interrupts enabled:");
- ok_irql(PASSIVE_LEVEL);
-
- Ret = ExInterlockedPopEntryList(&ListHead, &SpinLock);
- ok_eq_pointer(Ret, &Entries[0]);
- ok_eq_pointer(ListHead.Next, NULL);
- ok_eq_free2(Entries[0].Next, NULL);
- ok_bool_true(KmtAreInterruptsEnabled(), "Interrupts enabled:");
- ok_irql(PASSIVE_LEVEL);
+ PSINGLE_LIST_ENTRY Ret = ListHead->Next;
+ ListHead->Next = NULL;
+ return Ret;
+}
- Ret = ExInterlockedPopEntryList(&ListHead, &SpinLock);
- ok_eq_pointer(Ret, NULL);
- ok_eq_pointer(ListHead.Next, NULL);
- ok_eq_free2(Entries[0].Next, NULL);
- ok_bool_true(KmtAreInterruptsEnabled(), "Interrupts enabled:");
- ok_irql(PASSIVE_LEVEL);
+USHORT QueryDepthList(PSINGLE_LIST_ENTRY ListHead)
+{
+ USHORT Depth = 0;
+ while (ListHead->Next)
+ {
+ ++Depth;
+ ListHead = ListHead->Next;
+ }
+ return Depth;
+}
- Ret = ExInterlockedPushEntryList(&ListHead, &Entries[0], &SpinLock);
- ok_eq_pointer(Ret, NULL);
- ok_eq_pointer(ListHead.Next, &Entries[0]);
- ok_eq_pointer(Entries[0].Next, NULL);
- ok_bool_true(KmtAreInterruptsEnabled(), "Interrupts enabled:");
- ok_irql(PASSIVE_LEVEL);
+PSINGLE_LIST_ENTRY PushEntryListWrapper(PSINGLE_LIST_ENTRY ListHead, PSINGLE_LIST_ENTRY Entry, PKSPIN_LOCK Lock)
+{
+ PSINGLE_LIST_ENTRY Ret;
+ UNREFERENCED_PARAMETER(Lock);
+ Ret = ListHead->Next;
+ PushEntryList(ListHead, Entry);
+ return Ret;
+}
- Ret = ExInterlockedPushEntryList(&ListHead, &Entries[1], &SpinLock);
- ok_eq_pointer(Ret, &Entries[0]);
- ok_eq_pointer(ListHead.Next, &Entries[1]);
- ok_eq_pointer(Entries[1].Next, &Entries[0]);
- ok_eq_pointer(Entries[0].Next, NULL);
- ok_bool_true(KmtAreInterruptsEnabled(), "Interrupts enabled:");
- ok_irql(PASSIVE_LEVEL);
+#define CheckListHeader(ListHead, ExpectedPointer, ExpectedDepth) do \
+{ \
+ ok_eq_pointer((ListHead)->Next, ExpectedPointer); \
+ ok_eq_uint(QueryDepthList(ListHead), ExpectedDepth); \
+ ok_irql(HIGH_LEVEL); \
+ ok_bool_true(KmtAreInterruptsEnabled(), "Interrupts enabled:"); \
+} while (0)
- Ret = ExInterlockedPopEntryList(&ListHead, &SpinLock);
- ok_eq_pointer(Ret, &Entries[1]);
- ok_eq_pointer(ListHead.Next, &Entries[0]);
- ok_eq_free2(Entries[1].Next, &Entries[0]);
- ok_eq_pointer(Entries[0].Next, NULL);
- ok_bool_true(KmtAreInterruptsEnabled(), "Interrupts enabled:");
- ok_irql(PASSIVE_LEVEL);
+#define PXLIST_HEADER PSINGLE_LIST_ENTRY
+#define PXLIST_ENTRY PSINGLE_LIST_ENTRY
+#define PushXList ExInterlockedPushEntryList
+#define PopXList ExInterlockedPopEntryList
+#define FlushXList FlushList
+#define ok_free_xlist ok_eq_free2
+#define CheckXListHeader CheckListHeader
+#define TestXListFunctional TestListFunctional
+#include "ExXList.h"
#undef ExInterlockedPushEntryList
#undef ExInterlockedPopEntryList
- memset(Entries, 0x55, sizeof Entries);
- ListHead.Next = NULL;
- Ret = ExInterlockedPushEntryList(&ListHead, &Entries[0], &SpinLock);
- ok_eq_pointer(Ret, NULL);
- ok_eq_pointer(ListHead.Next, &Entries[0]);
- ok_eq_pointer(Entries[0].Next, NULL);
- ok_bool_true(KmtAreInterruptsEnabled(), "Interrupts enabled:");
- ok_irql(PASSIVE_LEVEL);
-
- Ret = ExInterlockedPopEntryList(&ListHead, &SpinLock);
- ok_eq_pointer(Ret, &Entries[0]);
- ok_eq_pointer(ListHead.Next, NULL);
- ok_eq_free2(Entries[0].Next, NULL);
- ok_bool_true(KmtAreInterruptsEnabled(), "Interrupts enabled:");
- ok_irql(PASSIVE_LEVEL);
-
- Ret = ExInterlockedPopEntryList(&ListHead, &SpinLock);
- ok_eq_pointer(Ret, NULL);
- ok_eq_pointer(ListHead.Next, NULL);
- ok_eq_free2(Entries[0].Next, NULL);
- ok_bool_true(KmtAreInterruptsEnabled(), "Interrupts enabled:");
- ok_irql(PASSIVE_LEVEL);
+#define TestXListFunctional TestListFunctionalExports
+#include "ExXList.h"
+
+#undef PushXList
+#define PushXList PushEntryListWrapper
+#undef PopXList
+#define PopXList(h, s) PopEntryList(h)
+#undef ok_free_xlist
+#define ok_free_xlist ok_eq_pointer
+#define TestXListFunctional TestListFunctionalNoInterlocked
+#include "ExXList.h"
- Ret = ExInterlockedPushEntryList(&ListHead, &Entries[0], &SpinLock);
- ok_eq_pointer(Ret, NULL);
- ok_eq_pointer(ListHead.Next, &Entries[0]);
- ok_eq_pointer(Entries[0].Next, NULL);
- ok_bool_true(KmtAreInterruptsEnabled(), "Interrupts enabled:");
- ok_irql(PASSIVE_LEVEL);
-
- Ret = ExInterlockedPushEntryList(&ListHead, &Entries[1], &SpinLock);
- ok_eq_pointer(Ret, &Entries[0]);
- ok_eq_pointer(ListHead.Next, &Entries[1]);
- ok_eq_pointer(Entries[1].Next, &Entries[0]);
- ok_eq_pointer(Entries[0].Next, NULL);
- ok_bool_true(KmtAreInterruptsEnabled(), "Interrupts enabled:");
- ok_irql(PASSIVE_LEVEL);
+START_TEST(ExSingleList)
+{
+ KSPIN_LOCK SpinLock;
+ PSINGLE_LIST_ENTRY ListHead;
+ PSINGLE_LIST_ENTRY Entries;
+ SIZE_T EntriesSize = 5 * sizeof *Entries;
+ PCHAR Buffer;
+ KIRQL Irql;
- Ret = ExInterlockedPopEntryList(&ListHead, &SpinLock);
- ok_eq_pointer(Ret, &Entries[1]);
- ok_eq_pointer(ListHead.Next, &Entries[0]);
- ok_eq_free2(Entries[1].Next, &Entries[0]);
- ok_eq_pointer(Entries[0].Next, NULL);
- ok_bool_true(KmtAreInterruptsEnabled(), "Interrupts enabled:");
- ok_irql(PASSIVE_LEVEL);
+ KeInitializeSpinLock(&SpinLock);
- KmtSetIrql(PASSIVE_LEVEL);
+ /* make sure stuff is as un-aligned as possible ;) */
+ Buffer = ExAllocatePoolWithTag(NonPagedPool, sizeof *ListHead + EntriesSize + 1, 'TLiS');
+ ListHead = (PVOID)&Buffer[1];
+ Entries = (PVOID)&ListHead[1];
+ KeRaiseIrql(HIGH_LEVEL, &Irql);
+
+ RtlFillMemory(Entries, sizeof Entries, 0x55);
+ ListHead->Next = NULL;
+ TestListFunctional(ListHead, Entries, &SpinLock);
+
+ RtlFillMemory(Entries, sizeof Entries, 0x55);
+ ListHead->Next = NULL;
+ TestListFunctionalExports(ListHead, Entries, &SpinLock);
+
+ RtlFillMemory(Entries, sizeof Entries, 0x55);
+ ListHead->Next = NULL;
+ TestListFunctionalNoInterlocked(ListHead, Entries, &SpinLock);
+
+ KeLowerIrql(Irql);
+ ExFreePoolWithTag(Buffer, 'TLiS');
}
--- /dev/null
+/* used by ExSingleList and ExSequencedList tests */
+static
+VOID
+TestXListFunctional(
+ IN PXLIST_HEADER ListHead,
+ IN PXLIST_ENTRY Entries,
+ IN PKSPIN_LOCK pSpinLock)
+{
+ USHORT ExpectedSequence = 0;
+ PXLIST_ENTRY Ret;
+
+ Ret = FlushXList(ListHead);
+ ok_eq_pointer(Ret, NULL);
+ CheckXListHeader(ListHead, NULL, 0);
+
+ Ret = PopXList(ListHead, pSpinLock);
+ ok_eq_pointer(Ret, NULL);
+ CheckXListHeader(ListHead, NULL, 0);
+
+ Ret = PushXList(ListHead, &Entries[0], pSpinLock);
+ ++ExpectedSequence;
+ ok_eq_pointer(Ret, NULL);
+ ok_eq_pointer(Entries[0].Next, NULL);
+ CheckXListHeader(ListHead, &Entries[0], 1);
+
+ Ret = PushXList(ListHead, &Entries[1], pSpinLock);
+ ++ExpectedSequence;
+ ok_eq_pointer(Ret, &Entries[0]);
+ ok_eq_pointer(Entries[0].Next, NULL);
+ ok_eq_pointer(Entries[1].Next, &Entries[0]);
+ CheckXListHeader(ListHead, &Entries[1], 2);
+
+ Ret = PopXList(ListHead, pSpinLock);
+ ok_eq_pointer(Ret, &Entries[1]);
+ ok_eq_pointer(Entries[0].Next, NULL);
+ ok_free_xlist(Entries[1].Next, &Entries[0]);
+ CheckXListHeader(ListHead, &Entries[0], 1);
+
+ Ret = PopXList(ListHead, pSpinLock);
+ ok_eq_pointer(Ret, &Entries[0]);
+ ok_free_xlist(Entries[0].Next, NULL);
+ ok_free_xlist(Entries[1].Next, &Entries[0]);
+ CheckXListHeader(ListHead, NULL, 0);
+
+ Ret = PopXList(ListHead, pSpinLock);
+ ok_eq_pointer(Ret, NULL);
+ ok_free_xlist(Entries[0].Next, NULL);
+ ok_free_xlist(Entries[1].Next, &Entries[0]);
+ CheckXListHeader(ListHead, NULL, 0);
+
+ /* add entries again */
+ Ret = PushXList(ListHead, &Entries[0], pSpinLock);
+ ++ExpectedSequence;
+ ok_eq_pointer(Ret, NULL);
+ ok_eq_pointer(Entries[0].Next, NULL);
+ CheckXListHeader(ListHead, &Entries[0], 1);
+
+ Ret = PushXList(ListHead, &Entries[1], pSpinLock);
+ ++ExpectedSequence;
+ ok_eq_pointer(Ret, &Entries[0]);
+ ok_eq_pointer(Entries[0].Next, NULL);
+ ok_eq_pointer(Entries[1].Next, &Entries[0]);
+ CheckXListHeader(ListHead, &Entries[1], 2);
+
+ Ret = PopXList(ListHead, pSpinLock);
+ ok_eq_pointer(Ret, &Entries[1]);
+ ok_eq_pointer(Entries[0].Next, NULL);
+ ok_free_xlist(Entries[1].Next, &Entries[0]);
+ CheckXListHeader(ListHead, &Entries[0], 1);
+
+ Ret = PushXList(ListHead, &Entries[1], pSpinLock);
+ ++ExpectedSequence;
+ ok_eq_pointer(Ret, &Entries[0]);
+ ok_eq_pointer(Entries[0].Next, NULL);
+ ok_eq_pointer(Entries[1].Next, &Entries[0]);
+ CheckXListHeader(ListHead, &Entries[1], 2);
+
+ Ret = PushXList(ListHead, &Entries[2], pSpinLock);
+ ++ExpectedSequence;
+ ok_eq_pointer(Ret, &Entries[1]);
+ ok_eq_pointer(Entries[0].Next, NULL);
+ ok_eq_pointer(Entries[1].Next, &Entries[0]);
+ ok_eq_pointer(Entries[2].Next, &Entries[1]);
+ CheckXListHeader(ListHead, &Entries[2], 3);
+
+ Ret = FlushXList(ListHead);
+ ok_eq_pointer(Ret, &Entries[2]);
+ CheckXListHeader(ListHead, NULL, 0);
+}
+
+#undef TestXListFunctional