/* * Copyright 2014 Yifu Wang for ESRI * * 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 #include #include #include #include #include #include #include #include #include #include "wine/test.h" #include #include #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 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; } #define call_func1(func,_this) call_thiscall_func1(func,_this) #define call_func2(func,_this,a) call_thiscall_func2(func,_this,(const void*)(a)) #else #define init_thiscall_thunk() #define call_func1(func,_this) func(_this) #define call_func2(func,_this,a) func(_this,a) #endif /* __i386__ */ #undef __thiscall #ifdef __i386__ #define __thiscall __stdcall #else #define __thiscall __cdecl #endif typedef unsigned char MSVCRT_bool; typedef struct cs_queue { struct cs_queue *next; BOOL free; int unknown; } cs_queue; typedef struct { ULONG_PTR unk_thread_id; cs_queue unk_active; void *unknown[2]; cs_queue *head; void *tail; } critical_section; typedef struct { critical_section *cs; void *unknown[4]; int unknown2[2]; } critical_section_scoped_lock; static inline float __port_infinity(void) { static const unsigned __inf_bytes = 0x7f800000; return *(const float *)&__inf_bytes; } #define INFINITY __port_infinity() static inline float __port_nan(void) { static const unsigned __nan_bytes = 0x7fc00000; return *(const float *)&__nan_bytes; } #define NAN __port_nan() struct MSVCRT_lconv { char* decimal_point; char* thousands_sep; char* grouping; char* int_curr_symbol; char* currency_symbol; char* mon_decimal_point; char* mon_thousands_sep; char* mon_grouping; char* positive_sign; char* negative_sign; char int_frac_digits; char frac_digits; char p_cs_precedes; char p_sep_by_space; char n_cs_precedes; char n_sep_by_space; char p_sign_posn; char n_sign_posn; wchar_t* _W_decimal_point; wchar_t* _W_thousands_sep; wchar_t* _W_int_curr_symbol; wchar_t* _W_currency_symbol; wchar_t* _W_mon_decimal_point; wchar_t* _W_mon_thousands_sep; wchar_t* _W_positive_sign; wchar_t* _W_negative_sign; }; static char* (CDECL *p_setlocale)(int category, const char* locale); static struct MSVCRT_lconv* (CDECL *p_localeconv)(void); static size_t (CDECL *p_wcstombs_s)(size_t *ret, char* dest, size_t sz, const wchar_t* src, size_t max); static int (CDECL *p__dsign)(double); static int (CDECL *p__fdsign)(float); static int (__cdecl *p__dpcomp)(double x, double y); static wchar_t** (CDECL *p____lc_locale_name_func)(void); static unsigned int (CDECL *p__GetConcurrency)(void); static void* (CDECL *p__W_Gettnames)(void); static void (CDECL *p_free)(void*); static float (CDECL *p_strtof)(const char *, char **); static int (CDECL *p__finite)(double); static float (CDECL *p_wcstof)(const wchar_t*, wchar_t**); static double (CDECL *p_remainder)(double, double); static int* (CDECL *p_errno)(void); /* make sure we use the correct errno */ #undef errno #define errno (*p_errno()) static critical_section* (__thiscall *p_critical_section_ctor)(critical_section*); static void (__thiscall *p_critical_section_dtor)(critical_section*); static void (__thiscall *p_critical_section_lock)(critical_section*); static void (__thiscall *p_critical_section_unlock)(critical_section*); static critical_section* (__thiscall *p_critical_section_native_handle)(critical_section*); static MSVCRT_bool (__thiscall *p_critical_section_try_lock)(critical_section*); static MSVCRT_bool (__thiscall *p_critical_section_try_lock_for)(critical_section*, unsigned int); static critical_section_scoped_lock* (__thiscall *p_critical_section_scoped_lock_ctor) (critical_section_scoped_lock*, critical_section *); static void (__thiscall *p_critical_section_scoped_lock_dtor)(critical_section_scoped_lock*); #define SETNOFAIL(x,y) x = (void*)GetProcAddress(module,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 module; module = LoadLibraryA("msvcr120.dll"); if (!module) { win_skip("msvcr120.dll not installed\n"); return FALSE; } p_setlocale = (void*)GetProcAddress(module, "setlocale"); p_localeconv = (void*)GetProcAddress(module, "localeconv"); p_wcstombs_s = (void*)GetProcAddress(module, "wcstombs_s"); p__dsign = (void*)GetProcAddress(module, "_dsign"); p__fdsign = (void*)GetProcAddress(module, "_fdsign"); p__dpcomp = (void*)GetProcAddress(module, "_dpcomp"); p____lc_locale_name_func = (void*)GetProcAddress(module, "___lc_locale_name_func"); p__GetConcurrency = (void*)GetProcAddress(module,"?_GetConcurrency@details@Concurrency@@YAIXZ"); p__W_Gettnames = (void*)GetProcAddress(module, "_W_Gettnames"); p_free = (void*)GetProcAddress(module, "free"); p_strtof = (void*)GetProcAddress(module, "strtof"); p__finite = (void*)GetProcAddress(module, "_finite"); p_wcstof = (void*)GetProcAddress(module, "wcstof"); p_remainder = (void*)GetProcAddress(module, "remainder"); p_errno = (void*)GetProcAddress(module, "_errno"); if(sizeof(void*) == 8) { /* 64-bit initialization */ SET(p_critical_section_ctor, "??0critical_section@Concurrency@@QEAA@XZ"); SET(p_critical_section_dtor, "??1critical_section@Concurrency@@QEAA@XZ"); SET(p_critical_section_lock, "?lock@critical_section@Concurrency@@QEAAXXZ"); SET(p_critical_section_unlock, "?unlock@critical_section@Concurrency@@QEAAXXZ"); SET(p_critical_section_native_handle, "?native_handle@critical_section@Concurrency@@QEAAAEAV12@XZ"); SET(p_critical_section_try_lock, "?try_lock@critical_section@Concurrency@@QEAA_NXZ"); SET(p_critical_section_try_lock_for, "?try_lock_for@critical_section@Concurrency@@QEAA_NI@Z"); SET(p_critical_section_scoped_lock_ctor, "??0scoped_lock@critical_section@Concurrency@@QEAA@AEAV12@@Z"); SET(p_critical_section_scoped_lock_dtor, "??1scoped_lock@critical_section@Concurrency@@QEAA@XZ"); } else { #ifdef __arm__ SET(p_critical_section_ctor, "??0critical_section@Concurrency@@QAA@XZ"); SET(p_critical_section_dtor, "??1critical_section@Concurrency@@QAA@XZ"); SET(p_critical_section_lock, "?lock@critical_section@Concurrency@@QAAXXZ"); SET(p_critical_section_unlock, "?unlock@critical_section@Concurrency@@QAAXXZ"); SET(p_critical_section_native_handle, "?native_handle@critical_section@Concurrency@@QAAAAV12@XZ"); SET(p_critical_section_try_lock, "?try_lock@critical_section@Concurrency@@QAA_NXZ"); SET(p_critical_section_try_lock_for, "?try_lock_for@critical_section@Concurrency@@QAA_NI@Z"); SET(p_critical_section_scoped_lock_ctor, "??0scoped_lock@critical_section@Concurrency@@QAA@AAV12@@Z"); SET(p_critical_section_scoped_lock_dtor, "??1scoped_lock@critical_section@Concurrency@@QAA@XZ"); #else SET(p_critical_section_ctor, "??0critical_section@Concurrency@@QAE@XZ"); SET(p_critical_section_dtor, "??1critical_section@Concurrency@@QAE@XZ"); SET(p_critical_section_lock, "?lock@critical_section@Concurrency@@QAEXXZ"); SET(p_critical_section_unlock, "?unlock@critical_section@Concurrency@@QAEXXZ"); SET(p_critical_section_native_handle, "?native_handle@critical_section@Concurrency@@QAEAAV12@XZ"); SET(p_critical_section_try_lock, "?try_lock@critical_section@Concurrency@@QAE_NXZ"); SET(p_critical_section_try_lock_for, "?try_lock_for@critical_section@Concurrency@@QAE_NI@Z"); SET(p_critical_section_scoped_lock_ctor, "??0scoped_lock@critical_section@Concurrency@@QAE@AAV12@@Z"); SET(p_critical_section_scoped_lock_dtor, "??1scoped_lock@critical_section@Concurrency@@QAE@XZ"); #endif } init_thiscall_thunk(); return TRUE; } static void test_lconv_helper(const char *locstr) { struct MSVCRT_lconv *lconv; char mbs[256]; size_t i; if(!p_setlocale(LC_ALL, locstr)) { win_skip("locale %s not available\n", locstr); return; } lconv = p_localeconv(); /* If multi-byte version available, asserts that wide char version also available. * If wide char version can be converted to a multi-byte string , asserts that the * conversion result is the same as the multi-byte version. */ if(strlen(lconv->decimal_point) > 0) ok(wcslen(lconv->_W_decimal_point) > 0, "%s: decimal_point\n", locstr); if(p_wcstombs_s(&i, mbs, 256, lconv->_W_decimal_point, 256) == 0) ok(strcmp(mbs, lconv->decimal_point) == 0, "%s: decimal_point\n", locstr); if(strlen(lconv->thousands_sep) > 0) ok(wcslen(lconv->_W_thousands_sep) > 0, "%s: thousands_sep\n", locstr); if(p_wcstombs_s(&i, mbs, 256, lconv->_W_thousands_sep, 256) == 0) ok(strcmp(mbs, lconv->thousands_sep) == 0, "%s: thousands_sep\n", locstr); if(strlen(lconv->int_curr_symbol) > 0) ok(wcslen(lconv->_W_int_curr_symbol) > 0, "%s: int_curr_symbol\n", locstr); if(p_wcstombs_s(&i, mbs, 256, lconv->_W_int_curr_symbol, 256) == 0) ok(strcmp(mbs, lconv->int_curr_symbol) == 0, "%s: int_curr_symbol\n", locstr); if(strlen(lconv->currency_symbol) > 0) ok(wcslen(lconv->_W_currency_symbol) > 0, "%s: currency_symbol\n", locstr); if(p_wcstombs_s(&i, mbs, 256, lconv->_W_currency_symbol, 256) == 0) ok(strcmp(mbs, lconv->currency_symbol) == 0, "%s: currency_symbol\n", locstr); if(strlen(lconv->mon_decimal_point) > 0) ok(wcslen(lconv->_W_mon_decimal_point) > 0, "%s: decimal_point\n", locstr); if(p_wcstombs_s(&i, mbs, 256, lconv->_W_mon_decimal_point, 256) == 0) ok(strcmp(mbs, lconv->mon_decimal_point) == 0, "%s: decimal_point\n", locstr); if(strlen(lconv->positive_sign) > 0) ok(wcslen(lconv->_W_positive_sign) > 0, "%s: positive_sign\n", locstr); if(p_wcstombs_s(&i, mbs, 256, lconv->_W_positive_sign, 256) == 0) ok(strcmp(mbs, lconv->positive_sign) == 0, "%s: positive_sign\n", locstr); if(strlen(lconv->negative_sign) > 0) ok(wcslen(lconv->_W_negative_sign) > 0, "%s: negative_sign\n", locstr); if(p_wcstombs_s(&i, mbs, 256, lconv->_W_negative_sign, 256) == 0) ok(strcmp(mbs, lconv->negative_sign) == 0, "%s: negative_sign\n", locstr); } static void test_lconv(void) { int i; const char *locstrs[] = { "American", "Belgian", "Chinese", "Dutch", "English", "French", "German", "Hungarian", "Icelandic", "Japanese", "Korean", "Spanish" }; for(i = 0; i < sizeof(locstrs) / sizeof(char *); i ++) test_lconv_helper(locstrs[i]); } static void test__dsign(void) { int ret; ret = p__dsign(1); ok(ret == 0, "p_dsign(1) = %x\n", ret); ret = p__dsign(0); ok(ret == 0, "p_dsign(0) = %x\n", ret); ret = p__dsign(-1); ok(ret == 0x8000, "p_dsign(-1) = %x\n", ret); ret = p__fdsign(1); ok(ret == 0, "p_fdsign(1) = %x\n", ret); ret = p__fdsign(0); ok(ret == 0, "p_fdsign(0) = %x\n", ret); ret = p__fdsign(-1); ok(ret == 0x8000, "p_fdsign(-1) = %x\n", ret); } static void test__dpcomp(void) { struct { double x, y; int ret; } tests[] = { {0, 0, 2}, {1, 1, 2}, {-1, -1, 2}, {-2, -1, 1}, {-1, 1, 1}, {1, 2, 1}, {1, -1, 4}, {2, 1, 4}, {-1, -2, 4}, {NAN, NAN, 0}, {NAN, 1, 0}, {1, NAN, 0}, {INFINITY, INFINITY, 2}, {-1, INFINITY, 1}, {1, INFINITY, 1}, }; int i, ret; for(i=0; istr[0]-(char*)ret; if(sizeof(void*) == 8) ok(size==0x2c0, "structure size: %x\n", size); else ok(size==0x164, "structure size: %x\n", size); for(i=0; istr[i], str[i]), "ret->str[%d] = %s, expected %s\n", i, ret->str[i], str[i]); MultiByteToWideChar(CP_ACP, 0, str[i], strlen(str[i])+1, buf, sizeof(buf)/sizeof(*buf)); ok(!lstrcmpW(ret->wstr[i], buf), "ret->wstr[%d] = %s, expected %s\n", i, wine_dbgstr_w(ret->wstr[i]), wine_dbgstr_w(buf)); } p_free(ret); p_setlocale(LC_ALL, "C"); } static void test__strtof(void) { const char float1[] = "12.0"; const char float2[] = "3.402823466e+38"; /* FLT_MAX */ const char float3[] = "-3.402823466e+38"; const char float4[] = "1.7976931348623158e+308"; /* DBL_MAX */ const WCHAR twelve[] = {'1','2','.','0',0}; const WCHAR arabic23[] = { 0x662, 0x663, 0}; char *end; float f; f = p_strtof(float1, &end); ok(f == 12.0, "f = %lf\n", f); ok(end == float1+4, "incorrect end (%d)\n", (int)(end-float1)); f = p_strtof(float2, &end); ok(f == FLT_MAX, "f = %lf\n", f); ok(end == float2+15, "incorrect end (%d)\n", (int)(end-float2)); f = p_strtof(float3, &end); ok(f == -FLT_MAX, "f = %lf\n", f); ok(end == float3+16, "incorrect end (%d)\n", (int)(end-float3)); f = p_strtof(float4, &end); ok(!p__finite(f), "f = %lf\n", f); ok(end == float4+23, "incorrect end (%d)\n", (int)(end-float4)); f = p_strtof("inf", NULL); ok(f == 0, "f = %lf\n", f); f = p_strtof("INF", NULL); ok(f == 0, "f = %lf\n", f); f = p_strtof("1.#inf", NULL); ok(f == 1, "f = %lf\n", f); f = p_strtof("INFINITY", NULL); ok(f == 0, "f = %lf\n", f); f = p_strtof("0x12", NULL); ok(f == 0, "f = %lf\n", f); f = p_wcstof(twelve, NULL); ok(f == 12.0, "f = %lf\n", f); f = p_wcstof(arabic23, NULL); ok(f == 0, "f = %lf\n", f); if(!p_setlocale(LC_ALL, "Arabic")) { win_skip("Arabic locale not available\n"); return; } f = p_wcstof(twelve, NULL); ok(f == 12.0, "f = %lf\n", f); f = p_wcstof(arabic23, NULL); ok(f == 0, "f = %lf\n", f); p_setlocale(LC_ALL, "C"); } static void test_remainder(void) { struct { double x, y, r; errno_t e; } tests[] = { { 3.0, 2.0, -1.0, -1 }, { 1.0, 1.0, 0.0, -1 }, { INFINITY, 0.0, NAN, EDOM }, { INFINITY, 42.0, NAN, EDOM }, { NAN, 0.0, NAN, EDOM }, { NAN, 42.0, NAN, EDOM }, { 0.0, INFINITY, 0.0, -1 }, { 42.0, INFINITY, 42.0, -1 }, { 0.0, NAN, NAN, EDOM }, { 42.0, NAN, NAN, EDOM }, { 1.0, 0.0, NAN, EDOM }, { INFINITY, INFINITY, NAN, EDOM }, }; errno_t e; double r; int i; if(sizeof(void*) != 8) /* errno handling slightly different on 32-bit */ return; for(i=0; i