/* * Copyright 2010 Piotr Caban for CodeWeavers * * 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 "wine/test.h" static void* (__cdecl *p_set_invalid_parameter_handler)(void*); static void (__cdecl *p_char_assign)(void*, const void*); static void (__cdecl *p_wchar_assign)(void*, const void*); static void (__cdecl *p_short_assign)(void*, const void*); static BYTE (__cdecl *p_char_eq)(const void*, const void*); static BYTE (__cdecl *p_wchar_eq)(const void*, const void*); static BYTE (__cdecl *p_short_eq)(const void*, const void*); static char* (__cdecl *p_Copy_s)(char*, size_t, const char*, size_t); #ifdef __i386__ static char* (WINAPI *p_char_address)(char*); static void* (WINAPI *p_char_ctor)(void); static void (WINAPI *p_char_deallocate)(char*, size_t); static char* (WINAPI *p_char_allocate)(size_t); static void (WINAPI *p_char_construct)(char*, const char*); static size_t (WINAPI *p_char_max_size)(void); #else static char* (__cdecl *p_char_address)(void*, char*); static void* (__cdecl *p_char_ctor)(void*); static void (__cdecl *p_char_deallocate)(void*, char*, size_t); static char* (__cdecl *p_char_allocate)(void*, size_t); static void (__cdecl *p_char_construct)(void*, char*, const char*); static size_t (__cdecl *p_char_max_size)(void*); #endif static int invalid_parameter = 0; static void __cdecl test_invalid_parameter_handler(const wchar_t *expression, const wchar_t *function, const wchar_t *file, unsigned line, uintptr_t arg) { 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); invalid_parameter++; } /* Emulate a __thiscall */ #ifdef __i386__ #ifdef _MSC_VER static inline void* do_call_func1(void *func, void *_this) { volatile void* retval = 0; __asm { push ecx mov ecx, _this call func mov retval, eax pop ecx } return (void*)retval; } static inline void* do_call_func2(void *func, void *_this, const void *arg) { volatile void* retval = 0; __asm { push ecx push arg mov ecx, _this call func mov retval, eax pop ecx } return (void*)retval; } static inline void* do_call_func3(void *func, void *_this, const void *arg1, const void *arg2) { volatile void* retval = 0; __asm { push ecx push arg1 push arg2 mov ecx, _this call func mov retval, eax pop ecx } return (void*)retval; } #else static void* do_call_func1(void *func, void *_this) { void *ret, *dummy; __asm__ __volatile__ ( "call *%2" : "=a" (ret), "=c" (dummy) : "g" (func), "1" (_this) : "edx", "memory" ); return ret; } static void* do_call_func2(void *func, void *_this, const void *arg) { void *ret, *dummy; __asm__ __volatile__ ( "pushl %3\n\tcall *%2" : "=a" (ret), "=c" (dummy) : "r" (func), "r" (arg), "1" (_this) : "edx", "memory" ); return ret; } static void* do_call_func3(void *func, void *_this, const void *arg1, const void *arg2) { void *ret, *dummy; __asm__ __volatile__ ( "pushl %4\n\tpushl %3\n\tcall *%2" : "=a" (ret), "=c" (dummy) : "r" (func), "r" (arg1), "r" (arg2), "1" (_this) : "edx", "memory" ); return ret; } #endif #define call_func1(func,_this) do_call_func1(func,_this) #define call_func2(func,_this,a) do_call_func2(func,_this,(const void*)a) #define call_func3(func,_this,a,b) do_call_func3(func,_this,(const void*)a,(const void*)b) #else #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__ */ static BOOL init(void) { HMODULE msvcr = LoadLibraryA("msvcr90.dll"); HMODULE msvcp = LoadLibraryA("msvcp90.dll"); if(!msvcr || !msvcp) { win_skip("msvcp90.dll or msvcrt90.dll not installed\n"); return FALSE; } p_set_invalid_parameter_handler = (void*)GetProcAddress(msvcr, "_set_invalid_parameter_handler"); if(!p_set_invalid_parameter_handler) { win_skip("Error setting tests environment\n"); return FALSE; } p_set_invalid_parameter_handler(test_invalid_parameter_handler); if(sizeof(void*) == 8) { /* 64-bit initialization */ p_char_assign = (void*)GetProcAddress(msvcp, "?assign@?$char_traits@D@std@@SAXAEADAEBD@Z"); p_wchar_assign = (void*)GetProcAddress(msvcp, "?assign@?$char_traits@_W@std@@SAXAEA_WAEB_W@Z"); p_short_assign = (void*)GetProcAddress(msvcp, "?assign@?$char_traits@G@std@@SAXAEAGAEBG@Z"); p_char_eq = (void*)GetProcAddress(msvcp, "?eq@?$char_traits@D@std@@SA_NAEBD0@Z"); p_wchar_eq = (void*)GetProcAddress(msvcp, "?eq@?$char_traits@_W@std@@SA_NAEB_W0@Z"); p_short_eq = (void*)GetProcAddress(msvcp, "?eq@?$char_traits@G@std@@SA_NAEBG0@Z"); p_Copy_s = (void*)GetProcAddress(msvcp, "?_Copy_s@?$char_traits@D@std@@SAPEADPEAD_KPEBD1@Z"); p_char_address = (void*)GetProcAddress(msvcp, "?address@?$allocator@D@std@@QEBAPEADAEAD@Z"); p_char_ctor = (void*)GetProcAddress(msvcp, "??0?$allocator@D@std@@QEAA@XZ"); p_char_deallocate = (void*)GetProcAddress(msvcp, "?deallocate@?$allocator@D@std@@QEAAXPEAD_K@Z"); p_char_allocate = (void*)GetProcAddress(msvcp, "?allocate@?$allocator@D@std@@QEAAPEAD_K@Z"); p_char_construct = (void*)GetProcAddress(msvcp, "?construct@?$allocator@D@std@@QEAAXPEADAEBD@Z"); p_char_max_size = (void*)GetProcAddress(msvcp, "?max_size@?$allocator@D@std@@QEBA_KXZ"); } else { p_char_assign = (void*)GetProcAddress(msvcp, "?assign@?$char_traits@D@std@@SAXAADABD@Z"); p_wchar_assign = (void*)GetProcAddress(msvcp, "?assign@?$char_traits@_W@std@@SAXAA_WAB_W@Z"); p_short_assign = (void*)GetProcAddress(msvcp, "?assign@?$char_traits@G@std@@SAXAAGABG@Z"); p_char_eq = (void*)GetProcAddress(msvcp, "?eq@?$char_traits@D@std@@SA_NABD0@Z"); p_wchar_eq = (void*)GetProcAddress(msvcp, "?eq@?$char_traits@_W@std@@SA_NAB_W0@Z"); p_short_eq = (void*)GetProcAddress(msvcp, "?eq@?$char_traits@G@std@@SA_NABG0@Z"); p_Copy_s = (void*)GetProcAddress(msvcp, "?_Copy_s@?$char_traits@D@std@@SAPADPADIPBDI@Z"); p_char_address = (void*)GetProcAddress(msvcp, "?address@?$allocator@D@std@@QBEPADAAD@Z"); p_char_ctor = (void*)GetProcAddress(msvcp, "??0?$allocator@D@std@@QAE@XZ"); p_char_deallocate = (void*)GetProcAddress(msvcp, "?deallocate@?$allocator@D@std@@QAEXPADI@Z"); p_char_allocate = (void*)GetProcAddress(msvcp, "?allocate@?$allocator@D@std@@QAEPADI@Z"); p_char_construct = (void*)GetProcAddress(msvcp, "?construct@?$allocator@D@std@@QAEXPADABD@Z"); p_char_max_size = (void*)GetProcAddress(msvcp, "?max_size@?$allocator@D@std@@QBEIXZ"); } return TRUE; } static void test_assign(void) { const char in[] = "abc"; char out[4]; if(!p_char_assign || !p_wchar_assign || !p_short_assign) { win_skip("assign tests skipped\n"); return; } out[1] = '#'; p_char_assign(out, in); ok(out[0] == in[0], "out[0] = %c\n", out[0]); ok(out[1] == '#', "out[1] = %c\n", out[1]); out[2] = '#'; p_wchar_assign(out, in); ok(*((char*)out)==in[0] && *((char*)out+1)==in[1], "out[0] = %d, out[1] = %d\n", (int)out[0], (int)out[1]); ok(out[2] == '#', "out[2] = %c\n", out[2]); out[2] = '#'; p_short_assign(out, in); ok(*((char*)out)==in[0] && *((char*)out+1)==in[1], "out[0] = %d, out[1] = %d\n", (int)out[0], (int)out[1]); ok(out[2] == '#', "out[2] = %c\n", out[2]); } static void test_equal(void) { static const char in1[] = "abc"; static const char in2[] = "ab"; static const char in3[] = "a"; static const char in4[] = "b"; BYTE ret; if(!p_char_eq || !p_wchar_eq || !p_short_eq) { win_skip("equal tests skipped\n"); return; } ret = p_char_eq(in1, in2); ok(ret == TRUE, "ret = %d\n", (int)ret); ret = p_char_eq(in1, in3); ok(ret == TRUE, "ret = %d\n", (int)ret); ret = p_char_eq(in1, in4); ok(ret == FALSE, "ret = %d\n", (int)ret); ret = p_wchar_eq(in1, in2); ok(ret == TRUE, "ret = %d\n", (int)ret); ret = p_wchar_eq(in1, in3); ok(ret == FALSE, "ret = %d\n", (int)ret); ret = p_wchar_eq(in1, in4); ok(ret == FALSE, "ret = %d\n", (int)ret); ret = p_short_eq(in1, in2); ok(ret == TRUE, "ret = %d\n", (int)ret); ret = p_short_eq(in1, in3); ok(ret == FALSE, "ret = %d\n", (int)ret); ret = p_short_eq(in1, in4); ok(ret == FALSE, "ret = %d\n", (int)ret); } static void test_Copy_s(void) { static const char src[] = "abcd"; char dest[32], *ret; if(!p_Copy_s) { win_skip("Copy_s tests skipped\n"); return; } dest[4] = '#'; dest[5] = '\0'; ret = p_Copy_s(dest, 4, src, 4); ok(ret == dest, "ret != dest\n"); ok(dest[4] == '#', "dest[4] != '#'\n"); ok(!memcmp(dest, src, sizeof(char[4])), "dest = %s\n", dest); ret = p_Copy_s(dest, 32, src, 4); ok(ret == dest, "ret != dest\n"); ok(dest[4] == '#', "dest[4] != '#'\n"); ok(!memcmp(dest, src, sizeof(char[4])), "dest = %s\n", dest); errno = 0xdeadbeef; dest[0] = '#'; ret = p_Copy_s(dest, 3, src, 4); ok(ret == dest, "ret != dest\n"); ok(dest[0] == '\0', "dest[0] != 0\n"); ok(invalid_parameter==1, "invalid_parameter = %d\n", invalid_parameter); invalid_parameter = 0; ok(errno == 0xdeadbeef, "errno = %d\n", errno); errno = 0xdeadbeef; p_Copy_s(NULL, 32, src, 4); ok(invalid_parameter==1, "invalid_parameter = %d\n", invalid_parameter); invalid_parameter = 0; ok(errno == 0xdeadbeef, "errno = %d\n", errno); errno = 0xdeadbeef; p_Copy_s(dest, 32, NULL, 4); ok(invalid_parameter==1, "invalid_parameter = %d\n", invalid_parameter); invalid_parameter = 0; ok(errno == 0xdeadbeef, "errno = %d\n", errno); } static void test_allocator_char(void) { void *allocator = (void*)0xdeadbeef; char *ptr; char val; unsigned int size; if(!p_char_address || !p_char_ctor || !p_char_deallocate || !p_char_allocate || !p_char_construct || !p_char_max_size) { win_skip("allocator class not available\n"); return; } allocator = call_func1(p_char_ctor, allocator); ok(allocator == (void*)0xdeadbeef, "allocator = %p\n", allocator); ptr = call_func2(p_char_address, NULL, (void*)0xdeadbeef); ok(ptr == (void*)0xdeadbeef, "incorrect address (%p)\n", ptr); ptr = NULL; ptr = call_func2(p_char_allocate, allocator, 10); ok(ptr != NULL, "Memory allocation failed\n"); ptr[0] = ptr[1] = '#'; val = 'a'; call_func3(p_char_construct, allocator, ptr, &val); val = 'b'; call_func3(p_char_construct, allocator, (ptr+1), &val); ok(ptr[0] == 'a', "ptr[0] = %c\n", ptr[0]); ok(ptr[1] == 'b', "ptr[1] = %c\n", ptr[1]); call_func3(p_char_deallocate, allocator, ptr, -1); size = (unsigned int)call_func1(p_char_max_size, allocator); ok(size == (unsigned int)0xffffffff, "size = %x\n", size); } START_TEST(misc) { if(!init()) return; test_assign(); test_equal(); test_Copy_s(); test_allocator_char(); ok(!invalid_parameter, "invalid_parameter_handler was invoked too many times\n"); }