blob: 1089bfc7f504bcbb244d7094498bb93586491380 [file] [log] [blame]
/*
* Copyright 2012 Dan Kegel
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
*/
#include <errno.h>
#include <stdarg.h>
#include <stdlib.h>
#include <wchar.h>
#include <stdio.h>
#include <windef.h>
#include <winbase.h>
#include "wine/test.h"
#define DEFINE_EXPECT(func) \
static BOOL expect_ ## func = FALSE, called_ ## func = FALSE
#define SET_EXPECT(func) \
expect_ ## func = TRUE
#define CHECK_EXPECT2(func) \
do { \
ok(expect_ ##func, "unexpected call " #func "\n"); \
called_ ## func = TRUE; \
}while(0)
#define CHECK_EXPECT(func) \
do { \
CHECK_EXPECT2(func); \
expect_ ## func = FALSE; \
}while(0)
#define CHECK_CALLED(func) \
do { \
ok(called_ ## func, "expected " #func "\n"); \
expect_ ## func = called_ ## func = FALSE; \
}while(0)
DEFINE_EXPECT(invalid_parameter_handler);
DEFINE_EXPECT(yield_func);
static _invalid_parameter_handler (__cdecl *p_set_invalid_parameter_handler)(_invalid_parameter_handler);
static void __cdecl test_invalid_parameter_handler(const wchar_t *expression,
const wchar_t *function, const wchar_t *file,
unsigned line, uintptr_t arg)
{
CHECK_EXPECT(invalid_parameter_handler);
ok(expression == NULL, "expression is not NULL\n");
ok(function == NULL, "function is not NULL\n");
ok(file == NULL, "file is not NULL\n");
ok(line == 0, "line = %u\n", line);
ok(arg == 0, "arg = %lx\n", (UINT_PTR)arg);
}
#ifdef __i386__
#include "pshpack1.h"
struct thiscall_thunk
{
BYTE pop_eax; /* popl %eax (ret addr) */
BYTE pop_edx; /* popl %edx (func) */
BYTE pop_ecx; /* popl %ecx (this) */
BYTE push_eax; /* pushl %eax */
WORD jmp_edx; /* jmp *%edx */
};
#include "poppack.h"
static ULONG_PTR (WINAPI *call_thiscall_func1)( void *func, void *this );
static ULONG_PTR (WINAPI *call_thiscall_func2)( void *func, void *this, const void *a );
static ULONG_PTR (WINAPI *call_thiscall_func3)( void *func, void *this, const void *a, const void *b );
static void init_thiscall_thunk(void)
{
struct thiscall_thunk *thunk = VirtualAlloc( NULL, sizeof(*thunk),
MEM_COMMIT, PAGE_EXECUTE_READWRITE );
thunk->pop_eax = 0x58; /* popl %eax */
thunk->pop_edx = 0x5a; /* popl %edx */
thunk->pop_ecx = 0x59; /* popl %ecx */
thunk->push_eax = 0x50; /* pushl %eax */
thunk->jmp_edx = 0xe2ff; /* jmp *%edx */
call_thiscall_func1 = (void *)thunk;
call_thiscall_func2 = (void *)thunk;
call_thiscall_func3 = (void *)thunk;
}
#define call_func1(func,_this) call_thiscall_func1(func,_this)
#define call_func2(func,_this,a) call_thiscall_func2(func,_this,(const void*)(a))
#define call_func3(func,_this,a,b) call_thiscall_func3(func,_this,(const void*)(a),(const void*)(b))
#else
#define init_thiscall_thunk()
#define call_func1(func,_this) func(_this)
#define call_func2(func,_this,a) func(_this,a)
#define call_func3(func,_this,a,b) func(_this,a,b)
#endif /* __i386__ */
#undef __thiscall
#ifdef __i386__
#define __thiscall __stdcall
#else
#define __thiscall __cdecl
#endif
typedef unsigned char MSVCRT_bool;
typedef enum
{
SPINWAIT_INIT,
SPINWAIT_SPIN,
SPINWAIT_YIELD,
SPINWAIT_DONE
} SpinWait_state;
typedef void (__cdecl *yield_func)(void);
typedef struct
{
ULONG spin;
ULONG unknown;
SpinWait_state state;
yield_func yield_func;
} SpinWait;
typedef struct {
CRITICAL_SECTION cs;
} _ReentrantBlockingLock;
typedef struct {
char pad[64];
} event;
typedef struct {
void *vtable;
} Context;
typedef struct {
void *policy_container;
} SchedulerPolicy;
struct SchedulerVtbl;
typedef struct {
struct SchedulerVtbl *vtable;
} Scheduler;
struct SchedulerVtbl {
Scheduler* (__thiscall *vector_dor)(Scheduler*);
unsigned int (__thiscall *Id)(Scheduler*);
unsigned int (__thiscall *GetNumberOfVirtualProcessors)(Scheduler*);
SchedulerPolicy* (__thiscall *GetPolicy)(Scheduler*);
unsigned int (__thiscall *Reference)(Scheduler*);
unsigned int (__thiscall *Release)(Scheduler*);
void (__thiscall *RegisterShutdownEvent)(Scheduler*,HANDLE);
void (__thiscall *Attach)(Scheduler*);
/* CreateScheduleGroup */
/* ScheduleTask */
};
static int* (__cdecl *p_errno)(void);
static int (__cdecl *p_wmemcpy_s)(wchar_t *dest, size_t numberOfElements, const wchar_t *src, size_t count);
static int (__cdecl *p_wmemmove_s)(wchar_t *dest, size_t numberOfElements, const wchar_t *src, size_t count);
static FILE* (__cdecl *p_fopen)(const char*,const char*);
static int (__cdecl *p_fclose)(FILE*);
static size_t (__cdecl *p_fread_s)(void*,size_t,size_t,size_t,FILE*);
static void (__cdecl *p_lock_file)(FILE*);
static void (__cdecl *p_unlock_file)(FILE*);
static void* (__cdecl *p__aligned_offset_malloc)(size_t, size_t, size_t);
static void (__cdecl *p__aligned_free)(void*);
static size_t (__cdecl *p__aligned_msize)(void*, size_t, size_t);
static int (__cdecl *p_atoi)(const char*);
static SpinWait* (__thiscall *pSpinWait_ctor_yield)(SpinWait*, yield_func);
static void (__thiscall *pSpinWait_dtor)(SpinWait*);
static void (__thiscall *pSpinWait__DoYield)(SpinWait*);
static ULONG (__thiscall *pSpinWait__NumberOfSpins)(SpinWait*);
static void (__thiscall *pSpinWait__SetSpinCount)(SpinWait*, unsigned int);
static MSVCRT_bool (__thiscall *pSpinWait__ShouldSpinAgain)(SpinWait*);
static MSVCRT_bool (__thiscall *pSpinWait__SpinOnce)(SpinWait*);
static void* (__thiscall *preader_writer_lock_ctor)(void*);
static void (__thiscall *preader_writer_lock_dtor)(void*);
static void (__thiscall *preader_writer_lock_lock)(void*);
static void (__thiscall *preader_writer_lock_lock_read)(void*);
static void (__thiscall *preader_writer_lock_unlock)(void*);
static MSVCRT_bool (__thiscall *preader_writer_lock_try_lock)(void*);
static MSVCRT_bool (__thiscall *preader_writer_lock_try_lock_read)(void*);
static _ReentrantBlockingLock* (__thiscall *p_ReentrantBlockingLock_ctor)(_ReentrantBlockingLock*);
static void (__thiscall *p_ReentrantBlockingLock_dtor)(_ReentrantBlockingLock*);
static void (__thiscall *p_ReentrantBlockingLock__Acquire)(_ReentrantBlockingLock*);
static void (__thiscall *p_ReentrantBlockingLock__Release)(_ReentrantBlockingLock*);
static MSVCRT_bool (__thiscall *p_ReentrantBlockingLock__TryAcquire)(_ReentrantBlockingLock*);
static _ReentrantBlockingLock* (__thiscall *p_NonReentrantBlockingLock_ctor)(_ReentrantBlockingLock*);
static void (__thiscall *p_NonReentrantBlockingLock_dtor)(_ReentrantBlockingLock*);
static void (__thiscall *p_NonReentrantBlockingLock__Acquire)(_ReentrantBlockingLock*);
static void (__thiscall *p_NonReentrantBlockingLock__Release)(_ReentrantBlockingLock*);
static MSVCRT_bool (__thiscall *p_NonReentrantBlockingLock__TryAcquire)(_ReentrantBlockingLock*);
static event* (__thiscall *p_event_ctor)(event*);
static void (__thiscall *p_event_dtor)(event*);
static void (__thiscall *p_event_reset)(event*);
static void (__thiscall *p_event_set)(event*);
static size_t (__thiscall *p_event_wait)(event*, unsigned int);
static int (__cdecl *p_event_wait_for_multiple)(event**, size_t, MSVCRT_bool, unsigned int);
static Context* (__cdecl *p_Context_CurrentContext)(void);
static unsigned int (__cdecl *p_Context_Id)(void);
static SchedulerPolicy* (__thiscall *p_SchedulerPolicy_ctor)(SchedulerPolicy*);
static void (__thiscall *p_SchedulerPolicy_SetConcurrencyLimits)(SchedulerPolicy*, unsigned int, unsigned int);
static void (__thiscall *p_SchedulerPolicy_dtor)(SchedulerPolicy*);
static Scheduler* (__cdecl *p_Scheduler_Create)(SchedulerPolicy*);
static Scheduler* (__cdecl *p_CurrentScheduler_Get)(void);
static void (__cdecl *p_CurrentScheduler_Detach)(void);
static unsigned int (__cdecl *p_CurrentScheduler_Id)(void);
/* make sure we use the correct errno */
#undef errno
#define errno (*p_errno())
#define SETNOFAIL(x,y) x = (void*)GetProcAddress(hcrt,y)
#define SET(x,y) do { SETNOFAIL(x,y); ok(x != NULL, "Export '%s' not found\n", y); } while(0)
static BOOL init(void)
{
HMODULE hcrt;
SetLastError(0xdeadbeef);
hcrt = LoadLibraryA("msvcr100.dll");
if (!hcrt) {
win_skip("msvcr100.dll not installed (got %d)\n", GetLastError());
return FALSE;
}
SET(p_errno, "_errno");
SET(p_set_invalid_parameter_handler, "_set_invalid_parameter_handler");
SET(p_wmemcpy_s, "wmemcpy_s");
SET(p_wmemmove_s, "wmemmove_s");
SET(p_fopen, "fopen");
SET(p_fclose, "fclose");
SET(p_fread_s, "fread_s");
SET(p_lock_file, "_lock_file");
SET(p_unlock_file, "_unlock_file");
SET(p__aligned_offset_malloc, "_aligned_offset_malloc");
SET(p__aligned_free, "_aligned_free");
SET(p__aligned_msize, "_aligned_msize");
SET(p_atoi, "atoi");
SET(p_Context_Id, "?Id@Context@Concurrency@@SAIXZ");
SET(p_CurrentScheduler_Detach, "?Detach@CurrentScheduler@Concurrency@@SAXXZ");
SET(p_CurrentScheduler_Id, "?Id@CurrentScheduler@Concurrency@@SAIXZ");
if(sizeof(void*) == 8) { /* 64-bit initialization */
SET(pSpinWait_ctor_yield, "??0?$_SpinWait@$00@details@Concurrency@@QEAA@P6AXXZ@Z");
SET(pSpinWait_dtor, "??_F?$_SpinWait@$00@details@Concurrency@@QEAAXXZ");
SET(pSpinWait__DoYield, "?_DoYield@?$_SpinWait@$00@details@Concurrency@@IEAAXXZ");
SET(pSpinWait__NumberOfSpins, "?_NumberOfSpins@?$_SpinWait@$00@details@Concurrency@@IEAAKXZ");
SET(pSpinWait__SetSpinCount, "?_SetSpinCount@?$_SpinWait@$00@details@Concurrency@@QEAAXI@Z");
SET(pSpinWait__ShouldSpinAgain, "?_ShouldSpinAgain@?$_SpinWait@$00@details@Concurrency@@IEAA_NXZ");
SET(pSpinWait__SpinOnce, "?_SpinOnce@?$_SpinWait@$00@details@Concurrency@@QEAA_NXZ");
SET(preader_writer_lock_ctor, "??0reader_writer_lock@Concurrency@@QEAA@XZ");
SET(preader_writer_lock_dtor, "??1reader_writer_lock@Concurrency@@QEAA@XZ");
SET(preader_writer_lock_lock, "?lock@reader_writer_lock@Concurrency@@QEAAXXZ");
SET(preader_writer_lock_lock_read, "?lock_read@reader_writer_lock@Concurrency@@QEAAXXZ");
SET(preader_writer_lock_unlock, "?unlock@reader_writer_lock@Concurrency@@QEAAXXZ");
SET(preader_writer_lock_try_lock, "?try_lock@reader_writer_lock@Concurrency@@QEAA_NXZ");
SET(preader_writer_lock_try_lock_read, "?try_lock_read@reader_writer_lock@Concurrency@@QEAA_NXZ");
SET(p_ReentrantBlockingLock_ctor, "??0_ReentrantBlockingLock@details@Concurrency@@QEAA@XZ");
SET(p_ReentrantBlockingLock_dtor, "??1_ReentrantBlockingLock@details@Concurrency@@QEAA@XZ");
SET(p_ReentrantBlockingLock__Acquire, "?_Acquire@_ReentrantBlockingLock@details@Concurrency@@QEAAXXZ");
SET(p_ReentrantBlockingLock__Release, "?_Release@_ReentrantBlockingLock@details@Concurrency@@QEAAXXZ");
SET(p_ReentrantBlockingLock__TryAcquire, "?_TryAcquire@_ReentrantBlockingLock@details@Concurrency@@QEAA_NXZ");
SET(p_NonReentrantBlockingLock_ctor, "??0_NonReentrantBlockingLock@details@Concurrency@@QEAA@XZ");
SET(p_NonReentrantBlockingLock_dtor, "??1_NonReentrantBlockingLock@details@Concurrency@@QEAA@XZ");
SET(p_NonReentrantBlockingLock__Acquire, "?_Acquire@_NonReentrantBlockingLock@details@Concurrency@@QEAAXXZ");
SET(p_NonReentrantBlockingLock__Release, "?_Release@_NonReentrantBlockingLock@details@Concurrency@@QEAAXXZ");
SET(p_NonReentrantBlockingLock__TryAcquire, "?_TryAcquire@_NonReentrantBlockingLock@details@Concurrency@@QEAA_NXZ");
SET(p_event_ctor, "??0event@Concurrency@@QEAA@XZ");
SET(p_event_dtor, "??1event@Concurrency@@QEAA@XZ");
SET(p_event_reset, "?reset@event@Concurrency@@QEAAXXZ");
SET(p_event_set, "?set@event@Concurrency@@QEAAXXZ");
SET(p_event_wait, "?wait@event@Concurrency@@QEAA_KI@Z");
SET(p_event_wait_for_multiple, "?wait_for_multiple@event@Concurrency@@SA_KPEAPEAV12@_K_NI@Z");
SET(p_Context_CurrentContext, "?CurrentContext@Context@Concurrency@@SAPEAV12@XZ");
SET(p_SchedulerPolicy_ctor, "??0SchedulerPolicy@Concurrency@@QEAA@XZ");
SET(p_SchedulerPolicy_SetConcurrencyLimits, "?SetConcurrencyLimits@SchedulerPolicy@Concurrency@@QEAAXII@Z");
SET(p_SchedulerPolicy_dtor, "??1SchedulerPolicy@Concurrency@@QEAA@XZ");
SET(p_Scheduler_Create, "?Create@Scheduler@Concurrency@@SAPEAV12@AEBVSchedulerPolicy@2@@Z");
SET(p_CurrentScheduler_Get, "?Get@CurrentScheduler@Concurrency@@SAPEAVScheduler@2@XZ");
} else {
SET(pSpinWait_ctor_yield, "??0?$_SpinWait@$00@details@Concurrency@@QAE@P6AXXZ@Z");
SET(pSpinWait_dtor, "??_F?$_SpinWait@$00@details@Concurrency@@QAEXXZ");
SET(pSpinWait__DoYield, "?_DoYield@?$_SpinWait@$00@details@Concurrency@@IAEXXZ");
SET(pSpinWait__NumberOfSpins, "?_NumberOfSpins@?$_SpinWait@$00@details@Concurrency@@IAEKXZ");
SET(pSpinWait__SetSpinCount, "?_SetSpinCount@?$_SpinWait@$00@details@Concurrency@@QAEXI@Z");
SET(pSpinWait__ShouldSpinAgain, "?_ShouldSpinAgain@?$_SpinWait@$00@details@Concurrency@@IAE_NXZ");
SET(pSpinWait__SpinOnce, "?_SpinOnce@?$_SpinWait@$00@details@Concurrency@@QAE_NXZ");
SET(preader_writer_lock_ctor, "??0reader_writer_lock@Concurrency@@QAE@XZ");
SET(preader_writer_lock_dtor, "??1reader_writer_lock@Concurrency@@QAE@XZ");
SET(preader_writer_lock_lock, "?lock@reader_writer_lock@Concurrency@@QAEXXZ");
SET(preader_writer_lock_lock_read, "?lock_read@reader_writer_lock@Concurrency@@QAEXXZ");
SET(preader_writer_lock_unlock, "?unlock@reader_writer_lock@Concurrency@@QAEXXZ");
SET(preader_writer_lock_try_lock, "?try_lock@reader_writer_lock@Concurrency@@QAE_NXZ");
SET(preader_writer_lock_try_lock_read, "?try_lock_read@reader_writer_lock@Concurrency@@QAE_NXZ");
SET(p_ReentrantBlockingLock_ctor, "??0_ReentrantBlockingLock@details@Concurrency@@QAE@XZ");
SET(p_ReentrantBlockingLock_dtor, "??1_ReentrantBlockingLock@details@Concurrency@@QAE@XZ");
SET(p_ReentrantBlockingLock__Acquire, "?_Acquire@_ReentrantBlockingLock@details@Concurrency@@QAEXXZ");
SET(p_ReentrantBlockingLock__Release, "?_Release@_ReentrantBlockingLock@details@Concurrency@@QAEXXZ");
SET(p_ReentrantBlockingLock__TryAcquire, "?_TryAcquire@_ReentrantBlockingLock@details@Concurrency@@QAE_NXZ");
SET(p_NonReentrantBlockingLock_ctor, "??0_NonReentrantBlockingLock@details@Concurrency@@QAE@XZ");
SET(p_NonReentrantBlockingLock_dtor, "??1_NonReentrantBlockingLock@details@Concurrency@@QAE@XZ");
SET(p_NonReentrantBlockingLock__Acquire, "?_Acquire@_NonReentrantBlockingLock@details@Concurrency@@QAEXXZ");
SET(p_NonReentrantBlockingLock__Release, "?_Release@_NonReentrantBlockingLock@details@Concurrency@@QAEXXZ");
SET(p_NonReentrantBlockingLock__TryAcquire, "?_TryAcquire@_NonReentrantBlockingLock@details@Concurrency@@QAE_NXZ");
SET(p_event_ctor, "??0event@Concurrency@@QAE@XZ");
SET(p_event_dtor, "??1event@Concurrency@@QAE@XZ");
SET(p_event_reset, "?reset@event@Concurrency@@QAEXXZ");
SET(p_event_set, "?set@event@Concurrency@@QAEXXZ");
SET(p_event_wait, "?wait@event@Concurrency@@QAEII@Z");
SET(p_event_wait_for_multiple, "?wait_for_multiple@event@Concurrency@@SAIPAPAV12@I_NI@Z");
SET(p_Context_CurrentContext, "?CurrentContext@Context@Concurrency@@SAPAV12@XZ");
SET(p_SchedulerPolicy_ctor, "??0SchedulerPolicy@Concurrency@@QAE@XZ");
SET(p_SchedulerPolicy_SetConcurrencyLimits, "?SetConcurrencyLimits@SchedulerPolicy@Concurrency@@QAEXII@Z");
SET(p_SchedulerPolicy_dtor, "??1SchedulerPolicy@Concurrency@@QAE@XZ");
SET(p_Scheduler_Create, "?Create@Scheduler@Concurrency@@SAPAV12@ABVSchedulerPolicy@2@@Z");
SET(p_CurrentScheduler_Get, "?Get@CurrentScheduler@Concurrency@@SAPAVScheduler@2@XZ");
}
init_thiscall_thunk();
return TRUE;
}
#define NUMELMS(array) (sizeof(array)/sizeof((array)[0]))
#define okwchars(dst, b0, b1, b2, b3, b4, b5, b6, b7) \
ok(dst[0] == b0 && dst[1] == b1 && dst[2] == b2 && dst[3] == b3 && \
dst[4] == b4 && dst[5] == b5 && dst[6] == b6 && dst[7] == b7, \
"Bad result: 0x%04x 0x%04x 0x%04x 0x%04x 0x%04x 0x%04x 0x%04x 0x%04x\n",\
dst[0], dst[1], dst[2], dst[3], dst[4], dst[5], dst[6], dst[7])
static void test_wmemcpy_s(void)
{
static wchar_t dest[8];
static const wchar_t tiny[] = {'T',0,'I','N','Y',0};
static const wchar_t big[] = {'a','t','o','o','l','o','n','g','s','t','r','i','n','g',0};
const wchar_t XX = 0x5858; /* two 'X' bytes */
int ret;
ok(p_set_invalid_parameter_handler(test_invalid_parameter_handler) == NULL,
"Invalid parameter handler was already set\n");
/* Normal */
memset(dest, 'X', sizeof(dest));
ret = p_wmemcpy_s(dest, NUMELMS(dest), tiny, NUMELMS(tiny));
ok(ret == 0, "Copying a buffer into a big enough destination returned %d, expected 0\n", ret);
okwchars(dest, tiny[0], tiny[1], tiny[2], tiny[3], tiny[4], tiny[5], XX, XX);
/* Vary source size */
errno = 0xdeadbeef;
SET_EXPECT(invalid_parameter_handler);
memset(dest, 'X', sizeof(dest));
ret = p_wmemcpy_s(dest, NUMELMS(dest), big, NUMELMS(big));
ok(errno == ERANGE, "Copying a big buffer to a small destination errno %d, expected ERANGE\n", errno);
ok(ret == ERANGE, "Copying a big buffer to a small destination returned %d, expected ERANGE\n", ret);
okwchars(dest, 0, 0, 0, 0, 0, 0, 0, 0);
CHECK_CALLED(invalid_parameter_handler);
/* Replace source with NULL */
errno = 0xdeadbeef;
SET_EXPECT(invalid_parameter_handler);
memset(dest, 'X', sizeof(dest));
ret = p_wmemcpy_s(dest, NUMELMS(dest), NULL, NUMELMS(tiny));
ok(errno == EINVAL, "Copying a NULL source buffer errno %d, expected EINVAL\n", errno);
ok(ret == EINVAL, "Copying a NULL source buffer returned %d, expected EINVAL\n", ret);
okwchars(dest, 0, 0, 0, 0, 0, 0, 0, 0);
CHECK_CALLED(invalid_parameter_handler);
/* Vary dest size */
errno = 0xdeadbeef;
SET_EXPECT(invalid_parameter_handler);
memset(dest, 'X', sizeof(dest));
ret = p_wmemcpy_s(dest, 0, tiny, NUMELMS(tiny));
ok(errno == ERANGE, "Copying into a destination of size 0 errno %d, expected ERANGE\n", errno);
ok(ret == ERANGE, "Copying into a destination of size 0 returned %d, expected ERANGE\n", ret);
okwchars(dest, XX, XX, XX, XX, XX, XX, XX, XX);
CHECK_CALLED(invalid_parameter_handler);
/* Replace dest with NULL */
errno = 0xdeadbeef;
SET_EXPECT(invalid_parameter_handler);
ret = p_wmemcpy_s(NULL, NUMELMS(dest), tiny, NUMELMS(tiny));
ok(errno == EINVAL, "Copying a tiny buffer to a big NULL destination errno %d, expected EINVAL\n", errno);
ok(ret == EINVAL, "Copying a tiny buffer to a big NULL destination returned %d, expected EINVAL\n", ret);
CHECK_CALLED(invalid_parameter_handler);
/* Combinations */
errno = 0xdeadbeef;
SET_EXPECT(invalid_parameter_handler);
memset(dest, 'X', sizeof(dest));
ret = p_wmemcpy_s(dest, 0, NULL, NUMELMS(tiny));
ok(errno == EINVAL, "Copying a NULL buffer into a destination of size 0 errno %d, expected EINVAL\n", errno);
ok(ret == EINVAL, "Copying a NULL buffer into a destination of size 0 returned %d, expected EINVAL\n", ret);
okwchars(dest, XX, XX, XX, XX, XX, XX, XX, XX);
CHECK_CALLED(invalid_parameter_handler);
ok(p_set_invalid_parameter_handler(NULL) == test_invalid_parameter_handler,
"Cannot reset invalid parameter handler\n");
}
static void test_wmemmove_s(void)
{
static wchar_t dest[8];
static const wchar_t tiny[] = {'T',0,'I','N','Y',0};
static const wchar_t big[] = {'a','t','o','o','l','o','n','g','s','t','r','i','n','g',0};
const wchar_t XX = 0x5858; /* two 'X' bytes */
int ret;
ok(p_set_invalid_parameter_handler(test_invalid_parameter_handler) == NULL,
"Invalid parameter handler was already set\n");
/* Normal */
memset(dest, 'X', sizeof(dest));
ret = p_wmemmove_s(dest, NUMELMS(dest), tiny, NUMELMS(tiny));
ok(ret == 0, "Moving a buffer into a big enough destination returned %d, expected 0\n", ret);
okwchars(dest, tiny[0], tiny[1], tiny[2], tiny[3], tiny[4], tiny[5], XX, XX);
/* Overlapping */
memcpy(dest, big, sizeof(dest));
ret = p_wmemmove_s(dest+1, NUMELMS(dest)-1, dest, NUMELMS(dest)-1);
ok(ret == 0, "Moving a buffer up one char returned %d, expected 0\n", ret);
okwchars(dest, big[0], big[0], big[1], big[2], big[3], big[4], big[5], big[6]);
/* Vary source size */
errno = 0xdeadbeef;
SET_EXPECT(invalid_parameter_handler);
memset(dest, 'X', sizeof(dest));
ret = p_wmemmove_s(dest, NUMELMS(dest), big, NUMELMS(big));
ok(errno == ERANGE, "Moving a big buffer to a small destination errno %d, expected ERANGE\n", errno);
ok(ret == ERANGE, "Moving a big buffer to a small destination returned %d, expected ERANGE\n", ret);
okwchars(dest, XX, XX, XX, XX, XX, XX, XX, XX);
CHECK_CALLED(invalid_parameter_handler);
/* Replace source with NULL */
errno = 0xdeadbeef;
SET_EXPECT(invalid_parameter_handler);
memset(dest, 'X', sizeof(dest));
ret = p_wmemmove_s(dest, NUMELMS(dest), NULL, NUMELMS(tiny));
ok(errno == EINVAL, "Moving a NULL source buffer errno %d, expected EINVAL\n", errno);
ok(ret == EINVAL, "Moving a NULL source buffer returned %d, expected EINVAL\n", ret);
okwchars(dest, XX, XX, XX, XX, XX, XX, XX, XX);
CHECK_CALLED(invalid_parameter_handler);
/* Vary dest size */
errno = 0xdeadbeef;
SET_EXPECT(invalid_parameter_handler);
memset(dest, 'X', sizeof(dest));
ret = p_wmemmove_s(dest, 0, tiny, NUMELMS(tiny));
ok(errno == ERANGE, "Moving into a destination of size 0 errno %d, expected ERANGE\n", errno);
ok(ret == ERANGE, "Moving into a destination of size 0 returned %d, expected ERANGE\n", ret);
okwchars(dest, XX, XX, XX, XX, XX, XX, XX, XX);
CHECK_CALLED(invalid_parameter_handler);
/* Replace dest with NULL */
errno = 0xdeadbeef;
SET_EXPECT(invalid_parameter_handler);
ret = p_wmemmove_s(NULL, NUMELMS(dest), tiny, NUMELMS(tiny));
ok(errno == EINVAL, "Moving a tiny buffer to a big NULL destination errno %d, expected EINVAL\n", errno);
ok(ret == EINVAL, "Moving a tiny buffer to a big NULL destination returned %d, expected EINVAL\n", ret);
CHECK_CALLED(invalid_parameter_handler);
/* Combinations */
errno = 0xdeadbeef;
SET_EXPECT(invalid_parameter_handler);
memset(dest, 'X', sizeof(dest));
ret = p_wmemmove_s(dest, 0, NULL, NUMELMS(tiny));
ok(errno == EINVAL, "Moving a NULL buffer into a destination of size 0 errno %d, expected EINVAL\n", errno);
ok(ret == EINVAL, "Moving a NULL buffer into a destination of size 0 returned %d, expected EINVAL\n", ret);
okwchars(dest, XX, XX, XX, XX, XX, XX, XX, XX);
CHECK_CALLED(invalid_parameter_handler);
ok(p_set_invalid_parameter_handler(NULL) == test_invalid_parameter_handler,
"Cannot reset invalid parameter handler\n");
}
struct block_file_arg
{
FILE *test_file;
HANDLE init;
HANDLE finish;
};
static DWORD WINAPI block_file(void *arg)
{
struct block_file_arg *files = arg;
p_lock_file(files->test_file);
SetEvent(files->init);
WaitForSingleObject(files->finish, INFINITE);
p_unlock_file(files->test_file);
return 0;
}
static void test_fread_s(void)
{
static const char test_file[] = "fread_s.tst";
int ret;
char buf[10];
HANDLE thread;
struct block_file_arg arg;
FILE *f = fopen(test_file, "w");
if(!f) {
skip("Error creating test file\n");
return;
}
fwrite("test", 1, 4, f);
fclose(f);
ok(p_set_invalid_parameter_handler(test_invalid_parameter_handler) == NULL,
"Invalid parameter handler was already set\n");
SET_EXPECT(invalid_parameter_handler);
errno = 0xdeadbeef;
ret = p_fread_s(buf, sizeof(buf), 1, 1, NULL);
ok(ret == 0, "fread_s returned %d, expected 0\n", ret);
ok(errno == EINVAL, "errno = %d, expected EINVAL\n", errno);
CHECK_CALLED(invalid_parameter_handler);
f = p_fopen(test_file, "r");
arg.test_file = f;
arg.init = CreateEventW(NULL, FALSE, FALSE, NULL);
arg.finish = CreateEventW(NULL, FALSE, FALSE, NULL);
thread = CreateThread(NULL, 0, block_file, (void*)&arg, 0, NULL);
WaitForSingleObject(arg.init, INFINITE);
errno = 0xdeadbeef;
ret = p_fread_s(NULL, sizeof(buf), 0, 1, f);
ok(ret == 0, "fread_s returned %d, expected 0\n", ret);
ok(errno == 0xdeadbeef, "errno = %d, expected 0xdeadbeef\n", errno);
ret = p_fread_s(NULL, sizeof(buf), 1, 0, f);
ok(ret == 0, "fread_s returned %d, expected 0\n", ret);
ok(errno == 0xdeadbeef, "errno = %d, expected 0xdeadbeef\n", errno);
SetEvent(arg.finish);
WaitForSingleObject(thread, INFINITE);
SET_EXPECT(invalid_parameter_handler);
errno = 0xdeadbeef;
ret = p_fread_s(NULL, sizeof(buf), 1, 1, f);
ok(ret == 0, "fread_s returned %d, expected 0\n", ret);
ok(errno == EINVAL, "errno = %d, expected EINVAL\n", errno);
CHECK_CALLED(invalid_parameter_handler);
SET_EXPECT(invalid_parameter_handler);
errno = 0xdeadbeef;
buf[1] = 'a';
ret = p_fread_s(buf, 3, 1, 10, f);
ok(ret == 0, "fread_s returned %d, expected 0\n", ret);
ok(buf[0] == 0, "buf[0] = '%c', expected 0\n", buf[0]);
ok(buf[1] == 0, "buf[1] = '%c', expected 0\n", buf[1]);
ok(errno == ERANGE, "errno = %d, expected ERANGE\n", errno);
CHECK_CALLED(invalid_parameter_handler);
SET_EXPECT(invalid_parameter_handler);
errno = 0xdeadbeef;
ret = p_fread_s(buf, 2, 1, 10, f);
ok(ret == 0, "fread_s returned %d, expected 0\n", ret);
ok(buf[0] == 0, "buf[0] = '%c', expected 0\n", buf[0]);
ok(errno == ERANGE, "errno = %d, expected ERANGE\n", errno);
CHECK_CALLED(invalid_parameter_handler);
memset(buf, 'a', sizeof(buf));
ret = p_fread_s(buf, sizeof(buf), 3, 10, f);
ok(ret==1, "fread_s returned %d, expected 1\n", ret);
ok(buf[0] == 'e', "buf[0] = '%c', expected 'e'\n", buf[0]);
ok(buf[1] == 's', "buf[1] = '%c', expected 's'\n", buf[1]);
ok(buf[2] == 't', "buf[2] = '%c', expected 't'\n", buf[2]);
ok(buf[3] == 'a', "buf[3] = '%c', expected 'a'\n", buf[3]);
p_fclose(f);
ok(p_set_invalid_parameter_handler(NULL) == test_invalid_parameter_handler,
"Cannot reset invalid parameter handler\n");
CloseHandle(arg.init);
CloseHandle(arg.finish);
CloseHandle(thread);
unlink(test_file);
}
static void test__aligned_msize(void)
{
void *mem;
int ret;
mem = p__aligned_offset_malloc(23, 16, 7);
ret = p__aligned_msize(mem, 16, 7);
ok(ret == 23, "_aligned_msize returned %d\n", ret);
ret = p__aligned_msize(mem, 15, 7);
ok(ret == 24, "_aligned_msize returned %d\n", ret);
ret = p__aligned_msize(mem, 11, 7);
ok(ret == 28, "_aligned_msize returned %d\n", ret);
ret = p__aligned_msize(mem, 1, 7);
ok(ret == 39-sizeof(void*), "_aligned_msize returned %d\n", ret);
ret = p__aligned_msize(mem, 8, 0);
todo_wine ok(ret == 32, "_aligned_msize returned %d\n", ret);
p__aligned_free(mem);
mem = p__aligned_offset_malloc(3, 16, 0);
ret = p__aligned_msize(mem, 16, 0);
ok(ret == 3, "_aligned_msize returned %d\n", ret);
ret = p__aligned_msize(mem, 11, 0);
ok(ret == 8, "_aligned_msize returned %d\n", ret);
p__aligned_free(mem);
}
static void test_atoi(void)
{
int r;
r = p_atoi("0");
ok(r == 0, "atoi(0) = %d\n", r);
r = p_atoi("-1");
ok(r == -1, "atoi(-1) = %d\n", r);
r = p_atoi("1");
ok(r == 1, "atoi(1) = %d\n", r);
r = p_atoi("4294967296");
ok(r == 2147483647, "atoi(4294967296) = %d\n", r);
}
static void __cdecl test_yield_func(void)
{
CHECK_EXPECT(yield_func);
}
static void test__SpinWait(void)
{
SpinWait sp;
ULONG ul;
MSVCRT_bool b;
call_func2(pSpinWait_ctor_yield, &sp, test_yield_func);
SET_EXPECT(yield_func);
call_func1(pSpinWait__DoYield, &sp);
CHECK_CALLED(yield_func);
ul = call_func1(pSpinWait__NumberOfSpins, &sp);
ok(ul == 1, "_SpinWait::_NumberOfSpins returned %u\n", ul);
sp.spin = 2;
b = call_func1(pSpinWait__ShouldSpinAgain, &sp);
ok(b, "_SpinWait::_ShouldSpinAgain returned %x\n", b);
ok(sp.spin == 1, "sp.spin = %u\n", sp.spin);
b = call_func1(pSpinWait__ShouldSpinAgain, &sp);
ok(!b, "_SpinWait::_ShouldSpinAgain returned %x\n", b);
ok(sp.spin == 0, "sp.spin = %u\n", sp.spin);
b = call_func1(pSpinWait__ShouldSpinAgain, &sp);
ok(b, "_SpinWait::_ShouldSpinAgain returned %x\n", b);
ok(sp.spin == -1, "sp.spin = %u\n", sp.spin);
call_func2(pSpinWait__SetSpinCount, &sp, 2);
b = call_func1(pSpinWait__SpinOnce, &sp);
ok(b, "_SpinWait::_SpinOnce returned %x\n", b);
ok(sp.spin == 1, "sp.spin = %u\n", sp.spin);
b = call_func1(pSpinWait__SpinOnce, &sp);
ok(b, "_SpinWait::_SpinOnce returned %x\n", b);
ok(sp.spin == 0, "sp.spin = %u\n", sp.spin);
SET_EXPECT(yield_func);
b = call_func1(pSpinWait__SpinOnce, &sp);
ok(b, "_SpinWait::_SpinOnce returned %x\n", b);
ok(sp.spin == 0, "sp.spin = %u\n", sp.spin);
CHECK_CALLED(yield_func);
b = call_func1(pSpinWait__SpinOnce, &sp);
ok(!b, "_SpinWait::_SpinOnce returned %x\n", b);
ok(sp.spin==0 || sp.spin==4000, "sp.spin = %u\n", sp.spin);
call_func1(pSpinWait_dtor, &sp);
}
static DWORD WINAPI lock_read_thread(void *rw_lock)
{
return (MSVCRT_bool)call_func1(preader_writer_lock_try_lock_read, rw_lock);
}
static void test_reader_writer_lock(void)
{
/* define reader_writer_lock data big enough to hold every version of structure */
char rw_lock[100];
MSVCRT_bool ret;
HANDLE thread;
DWORD d;
call_func1(preader_writer_lock_ctor, rw_lock);
ret = call_func1(preader_writer_lock_try_lock, rw_lock);
ok(ret, "reader_writer_lock:try_lock returned %x\n", ret);
ret = call_func1(preader_writer_lock_try_lock, rw_lock);
ok(!ret, "reader_writer_lock:try_lock returned %x\n", ret);
ret = call_func1(preader_writer_lock_try_lock_read, rw_lock);
ok(!ret, "reader_writer_lock:try_lock_read returned %x\n", ret);
call_func1(preader_writer_lock_unlock, rw_lock);
/* test lock for read on already locked section */
ret = call_func1(preader_writer_lock_try_lock_read, rw_lock);
ok(ret, "reader_writer_lock:try_lock_read returned %x\n", ret);
ret = call_func1(preader_writer_lock_try_lock_read, rw_lock);
ok(ret, "reader_writer_lock:try_lock_read returned %x\n", ret);
ret = call_func1(preader_writer_lock_try_lock, rw_lock);
ok(!ret, "reader_writer_lock:try_lock returned %x\n", ret);
call_func1(preader_writer_lock_unlock, rw_lock);
ret = call_func1(preader_writer_lock_try_lock, rw_lock);
ok(!ret, "reader_writer_lock:try_lock returned %x\n", ret);
call_func1(preader_writer_lock_unlock, rw_lock);
ret = call_func1(preader_writer_lock_try_lock, rw_lock);
ok(ret, "reader_writer_lock:try_lock returned %x\n", ret);
call_func1(preader_writer_lock_unlock, rw_lock);
call_func1(preader_writer_lock_lock, rw_lock);
thread = CreateThread(NULL, 0, lock_read_thread, rw_lock, 0, NULL);
ok(thread != NULL, "CreateThread failed: %d\n", GetLastError());
WaitForSingleObject(thread, INFINITE);
ok(GetExitCodeThread(thread, &d), "GetExitCodeThread failed\n");
ok(!d, "reader_writer_lock::try_lock_read succeeded on already locked object\n");
CloseHandle(thread);
call_func1(preader_writer_lock_unlock, rw_lock);
call_func1(preader_writer_lock_lock_read, rw_lock);
thread = CreateThread(NULL, 0, lock_read_thread, rw_lock, 0, NULL);
ok(thread != NULL, "CreateThread failed: %d\n", GetLastError());
WaitForSingleObject(thread, INFINITE);
ok(GetExitCodeThread(thread, &d), "GetExitCodeThread failed\n");
ok(d, "reader_writer_lock::try_lock_read failed on object locked for reading\n");
CloseHandle(thread);
call_func1(preader_writer_lock_unlock, rw_lock);
call_func1(preader_writer_lock_dtor, rw_lock);
}
static void test__ReentrantBlockingLock(void)
{
_ReentrantBlockingLock rbl;
MSVCRT_bool ret;
call_func1(p_ReentrantBlockingLock_ctor, &rbl);
ret = call_func1(p_ReentrantBlockingLock__TryAcquire, &rbl);
ok(ret, "_ReentrantBlockingLock__TryAcquire failed\n");
call_func1(p_ReentrantBlockingLock__Acquire, &rbl);
ret = call_func1(p_ReentrantBlockingLock__TryAcquire, &rbl);
ok(ret, "_ReentrantBlockingLock__TryAcquire failed\n");
call_func1(p_ReentrantBlockingLock__Release, &rbl);
call_func1(p_ReentrantBlockingLock__Release, &rbl);
call_func1(p_ReentrantBlockingLock__Release, &rbl);
call_func1(p_ReentrantBlockingLock_dtor, &rbl);
call_func1(p_NonReentrantBlockingLock_ctor, &rbl);
ret = call_func1(p_NonReentrantBlockingLock__TryAcquire, &rbl);
ok(ret, "_NonReentrantBlockingLock__TryAcquire failed\n");
call_func1(p_NonReentrantBlockingLock__Acquire, &rbl);
ret = call_func1(p_NonReentrantBlockingLock__TryAcquire, &rbl);
ok(ret, "_NonReentrantBlockingLock__TryAcquire failed\n");
call_func1(p_NonReentrantBlockingLock__Release, &rbl);
call_func1(p_NonReentrantBlockingLock__Release, &rbl);
call_func1(p_NonReentrantBlockingLock__Release, &rbl);
call_func1(p_NonReentrantBlockingLock_dtor, &rbl);
}
static DWORD WINAPI test_event_thread(void *arg)
{
event *evt = arg;
call_func1(p_event_set, evt);
return 0;
}
static DWORD WINAPI multiple_events_thread(void *arg)
{
event **events = arg;
Sleep(50);
call_func1(p_event_set, events[0]);
call_func1(p_event_reset, events[0]);
call_func1(p_event_set, events[1]);
call_func1(p_event_reset, events[1]);
return 0;
}
static void test_event(void)
{
int i;
int ret;
event evt;
event *evts[70];
HANDLE thread;
HANDLE threads[NUMELMS(evts)];
call_func1(p_event_ctor, &evt);
ret = call_func2(p_event_wait, &evt, 100);
ok(ret == -1, "expected -1, got %d\n", ret);
call_func1(p_event_set, &evt);
ret = call_func2(p_event_wait, &evt, 100);
ok(!ret, "expected 0, got %d\n", ret);
ret = call_func2(p_event_wait, &evt, 100);
ok(!ret, "expected 0, got %d\n", ret);
call_func1(p_event_reset, &evt);
ret = call_func2(p_event_wait, &evt, 100);
ok(ret == -1, "expected -1, got %d\n", ret);
thread = CreateThread(NULL, 0, test_event_thread, (void*)&evt, 0, NULL);
ret = call_func2(p_event_wait, &evt, 5000);
ok(!ret, "expected 0, got %d\n", ret);
WaitForSingleObject(thread, INFINITE);
CloseHandle(thread);
if (0) /* crashes on Windows */
p_event_wait_for_multiple(NULL, 10, TRUE, 0);
for (i = 0; i < NUMELMS(evts); i++) {
evts[i] = malloc(sizeof(evt));
call_func1(p_event_ctor, evts[i]);
}
ret = p_event_wait_for_multiple(evts, 0, TRUE, 100);
ok(!ret, "expected 0, got %d\n", ret);
ret = p_event_wait_for_multiple(evts, NUMELMS(evts), TRUE, 100);
ok(ret == -1, "expected -1, got %d\n", ret);
/* reset and test wait for multiple with all */
for (i = 0; i < NUMELMS(evts); i++)
threads[i] = CreateThread(NULL, 0, test_event_thread, (void*)evts[i], 0, NULL);
ret = p_event_wait_for_multiple(evts, NUMELMS(evts), TRUE, 5000);
ok(ret != -1, "didn't expect -1\n");
for (i = 0; i < NUMELMS(evts); i++) {
WaitForSingleObject(threads[i], INFINITE);
CloseHandle(threads[i]);
}
/* reset and test wait for multiple with any */
call_func1(p_event_reset, evts[0]);
thread = CreateThread(NULL, 0, test_event_thread, (void*)evts[0], 0, NULL);
ret = p_event_wait_for_multiple(evts, 1, FALSE, 5000);
ok(!ret, "expected 0, got %d\n", ret);
WaitForSingleObject(thread, INFINITE);
CloseHandle(thread);
call_func1(p_event_reset, evts[0]);
call_func1(p_event_reset, evts[1]);
thread = CreateThread(NULL, 0, multiple_events_thread, (void*)evts, 0, NULL);
ret = p_event_wait_for_multiple(evts, 2, TRUE, 500);
ok(ret == -1, "expected -1, got %d\n", ret);
WaitForSingleObject(thread, INFINITE);
CloseHandle(thread);
call_func1(p_event_reset, evts[0]);
call_func1(p_event_set, evts[1]);
ret = p_event_wait_for_multiple(evts, 2, FALSE, 0);
ok(ret == 1, "expected 1, got %d\n", ret);
for (i = 0; i < NUMELMS(evts); i++) {
call_func1(p_event_dtor, evts[i]);
free(evts[i]);
}
call_func1(p_event_dtor, &evt);
}
static DWORD WINAPI external_context_thread(void *arg)
{
unsigned int id;
Context *ctx;
id = p_Context_Id();
ok(id == -1, "Context::Id() = %u\n", id);
ctx = p_Context_CurrentContext();
ok(ctx != NULL, "Context::CurrentContext() = NULL\n");
id = p_Context_Id();
ok(id == 1, "Context::Id() = %u\n", id);
return 0;
}
static void test_ExternalContextBase(void)
{
unsigned int id;
Context *ctx;
HANDLE thread;
id = p_Context_Id();
ok(id == -1, "Context::Id() = %u\n", id);
ctx = p_Context_CurrentContext();
ok(ctx != NULL, "Context::CurrentContext() = NULL\n");
id = p_Context_Id();
ok(id == 0, "Context::Id() = %u\n", id);
ctx = p_Context_CurrentContext();
ok(ctx != NULL, "Context::CurrentContext() = NULL\n");
id = p_Context_Id();
ok(id == 0, "Context::Id() = %u\n", id);
thread = CreateThread(NULL, 0, external_context_thread, NULL, 0, NULL);
ok(thread != NULL, "CreateThread failed: %d\n", GetLastError());
WaitForSingleObject(thread, INFINITE);
}
static void test_Scheduler(void)
{
Scheduler *scheduler, *current_scheduler;
SchedulerPolicy policy;
unsigned int i;
call_func1(p_SchedulerPolicy_ctor, &policy);
scheduler = p_Scheduler_Create(&policy);
ok(scheduler != NULL, "Scheduler::Create() = NULL\n");
call_func1(scheduler->vtable->Attach, scheduler);
current_scheduler = p_CurrentScheduler_Get();
ok(current_scheduler == scheduler, "CurrentScheduler::Get() = %p, expected %p\n",
current_scheduler, scheduler);
p_CurrentScheduler_Detach();
current_scheduler = p_CurrentScheduler_Get();
ok(current_scheduler != scheduler, "scheduler has not changed after detach\n");
call_func1(scheduler->vtable->Release, scheduler);
i = p_CurrentScheduler_Id();
ok(!i, "CurrentScheduler::Id() = %u\n", i);
call_func3(p_SchedulerPolicy_SetConcurrencyLimits, &policy, 1, 1);
scheduler = p_Scheduler_Create(&policy);
ok(scheduler != NULL, "Scheduler::Create() = NULL\n");
i = call_func1(scheduler->vtable->GetNumberOfVirtualProcessors, scheduler);
ok(i == 1, "Scheduler::GetNumberOfVirtualProcessors() = %u\n", i);
call_func1(scheduler->vtable->Release, scheduler);
call_func1(p_SchedulerPolicy_dtor, &policy);
}
START_TEST(msvcr100)
{
if (!init())
return;
test_ExternalContextBase();
test_Scheduler();
test_wmemcpy_s();
test_wmemmove_s();
test_fread_s();
test__aligned_msize();
test_atoi();
test__SpinWait();
test_reader_writer_lock();
test__ReentrantBlockingLock();
test_event();
}