/* Unit test suite for SHLWAPI ordinal functions * * Copyright 2004 Jon Griffiths * * 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 "wine/test.h" #include "winbase.h" #include "winerror.h" #include "winuser.h" #include "ole2.h" #include "oaidl.h" /* Function ptrs for ordinal calls */ static HMODULE hShlwapi; static int (WINAPI *pSHSearchMapInt)(const int*,const int*,int,int); static HRESULT (WINAPI *pGetAcceptLanguagesA)(LPSTR,LPDWORD); static HANDLE (WINAPI *pSHAllocShared)(LPCVOID,DWORD,DWORD); static LPVOID (WINAPI *pSHLockShared)(HANDLE,DWORD); static BOOL (WINAPI *pSHUnlockShared)(LPVOID); static BOOL (WINAPI *pSHFreeShared)(HANDLE,DWORD); static HRESULT(WINAPIV *pSHPackDispParams)(DISPPARAMS*,VARIANTARG*,UINT,...); static void test_GetAcceptLanguagesA(void) { HRESULT retval; DWORD buffersize, buffersize2, exactsize; char buffer[100]; if (!pGetAcceptLanguagesA) { win_skip("GetAcceptLanguagesA is not available\n"); return; } buffersize = sizeof(buffer); memset(buffer, 0, sizeof(buffer)); SetLastError(ERROR_SUCCESS); retval = pGetAcceptLanguagesA( buffer, &buffersize); if (!retval && GetLastError() == ERROR_CALL_NOT_IMPLEMENTED) { win_skip("GetAcceptLanguagesA is not implemented\n"); return; } trace("GetAcceptLanguagesA: retval %08x, size %08x, buffer (%s)," " last error %u\n", retval, buffersize, buffer, GetLastError()); if(retval != S_OK) { trace("GetAcceptLanguagesA: skipping tests\n"); return; } ok( (ERROR_NO_IMPERSONATION_TOKEN == GetLastError()) || (ERROR_CLASS_DOES_NOT_EXIST == GetLastError()) || (ERROR_PROC_NOT_FOUND == GetLastError()) || (ERROR_SUCCESS == GetLastError()), "last error set to %u\n", GetLastError()); exactsize = strlen(buffer); SetLastError(ERROR_SUCCESS); retval = pGetAcceptLanguagesA( NULL, NULL); ok(retval == E_FAIL || retval == E_INVALIDARG, /* w2k8 */ "function result wrong: got %08x; expected E_FAIL\n", retval); ok(ERROR_SUCCESS == GetLastError(), "last error set to %u\n", GetLastError()); buffersize = sizeof(buffer); SetLastError(ERROR_SUCCESS); retval = pGetAcceptLanguagesA( NULL, &buffersize); ok(retval == E_FAIL || retval == E_INVALIDARG, /* w2k8 */ "function result wrong: got %08x; expected E_FAIL\n", retval); ok(buffersize == sizeof(buffer) || buffersize == 0, /* w2k8*/ "buffersize was changed and is not 0; size (%d))\n", buffersize); ok(ERROR_SUCCESS == GetLastError(), "last error set to %u\n", GetLastError()); SetLastError(ERROR_SUCCESS); retval = pGetAcceptLanguagesA( buffer, NULL); ok(retval == E_FAIL || retval == E_INVALIDARG, /* w2k8 */ "function result wrong: got %08x; expected E_FAIL\n", retval); ok(ERROR_SUCCESS == GetLastError(), "last error set to %u\n", GetLastError()); buffersize = 0; memset(buffer, 0, sizeof(buffer)); SetLastError(ERROR_SUCCESS); retval = pGetAcceptLanguagesA( buffer, &buffersize); ok(retval == E_FAIL || retval == E_INVALIDARG, /* w2k8 */ "function result wrong: got %08x; expected E_FAIL\n", retval); ok(buffersize == 0, "buffersize wrong(changed) got %08x; expected 0 (2nd parameter; not on Win2k)\n", buffersize); ok(ERROR_SUCCESS == GetLastError(), "last error set to %u\n", GetLastError()); buffersize = buffersize2 = 1; memset(buffer, 0, sizeof(buffer)); SetLastError(ERROR_SUCCESS); retval = pGetAcceptLanguagesA( buffer, &buffersize); switch(retval) { case 0L: if(buffersize == exactsize) { ok( (ERROR_SUCCESS == GetLastError()) || (ERROR_PROC_NOT_FOUND == GetLastError()) || (ERROR_NO_IMPERSONATION_TOKEN == GetLastError()), "last error wrong: got %u; expected ERROR_SUCCESS(NT4)/" "ERROR_PROC_NOT_FOUND(NT4)/ERROR_NO_IMPERSONATION_TOKEN(XP)\n", GetLastError()); ok(exactsize == strlen(buffer), "buffer content (length) wrong: got %08x, expected %08x\n", lstrlenA(buffer), exactsize); } else if((buffersize +1) == buffersize2) { ok(ERROR_SUCCESS == GetLastError(), "last error wrong: got %u; expected ERROR_SUCCESS\n", GetLastError()); ok(buffersize == strlen(buffer), "buffer content (length) wrong: got %08x, expected %08x\n", lstrlenA(buffer), buffersize); } else ok( 0, "retval %08x, size %08x, buffer (%s), last error %u\n", retval, buffersize, buffer, GetLastError()); break; case E_INVALIDARG: ok(buffersize == 0, "buffersize wrong: got %08x, expected 0 (2nd parameter;Win2k)\n", buffersize); ok(ERROR_INSUFFICIENT_BUFFER == GetLastError(), "last error wrong: got %u; expected ERROR_INSUFFICIENT_BUFFER\n", GetLastError()); ok(buffersize2 == strlen(buffer), "buffer content (length) wrong: got %08x, expected %08x\n", lstrlenA(buffer), buffersize2); break; default: ok( 0, "retval %08x, size %08x, buffer (%s), last error %u\n", retval, buffersize, buffer, GetLastError()); break; } buffersize = buffersize2 = exactsize; memset(buffer, 0, sizeof(buffer)); SetLastError(ERROR_SUCCESS); retval = pGetAcceptLanguagesA( buffer, &buffersize); switch(retval) { case 0L: ok(ERROR_SUCCESS == GetLastError(), "last error wrong: got %u; expected ERROR_SUCCESS\n", GetLastError()); if((buffersize == exactsize) /* XP */ || ((buffersize +1)== exactsize) /* 98 */) ok(buffersize == strlen(buffer), "buffer content (length) wrong: got %08x, expected %08x\n", lstrlenA(buffer), buffersize); else ok( 0, "retval %08x, size %08x, buffer (%s), last error %u\n", retval, buffersize, buffer, GetLastError()); break; case E_INVALIDARG: ok(buffersize == 0, "buffersize wrong: got %08x, expected 0 (2nd parameter;Win2k)\n", buffersize); ok(ERROR_INSUFFICIENT_BUFFER == GetLastError(), "last error wrong: got %u; expected ERROR_INSUFFICIENT_BUFFER\n", GetLastError()); ok(buffersize2 == strlen(buffer), "buffer content (length) wrong: got %08x, expected %08x\n", lstrlenA(buffer), buffersize2); break; default: ok( 0, "retval %08x, size %08x, buffer (%s), last error %u\n", retval, buffersize, buffer, GetLastError()); break; } } static void test_SHSearchMapInt(void) { int keys[8], values[8]; int i = 0; if (!pSHSearchMapInt) return; memset(keys, 0, sizeof(keys)); memset(values, 0, sizeof(values)); keys[0] = 99; values[0] = 101; /* NULL key/value lists crash native, so skip testing them */ /* 1 element */ i = pSHSearchMapInt(keys, values, 1, keys[0]); ok(i == values[0], "Len 1, expected %d, got %d\n", values[0], i); /* Key doesn't exist */ i = pSHSearchMapInt(keys, values, 1, 100); ok(i == -1, "Len 1 - bad key, expected -1, got %d\n", i); /* Len = 0 => not found */ i = pSHSearchMapInt(keys, values, 0, keys[0]); ok(i == -1, "Len 1 - passed len 0, expected -1, got %d\n", i); /* 2 elements, len = 1 */ keys[1] = 98; values[1] = 102; i = pSHSearchMapInt(keys, values, 1, keys[1]); ok(i == -1, "Len 1 - array len 2, expected -1, got %d\n", i); /* 2 elements, len = 2 */ i = pSHSearchMapInt(keys, values, 2, keys[1]); ok(i == values[1], "Len 2, expected %d, got %d\n", values[1], i); /* Searches forward */ keys[2] = 99; values[2] = 103; i = pSHSearchMapInt(keys, values, 3, keys[0]); ok(i == values[0], "Len 3, expected %d, got %d\n", values[0], i); } static void test_alloc_shared(void) { DWORD procid; HANDLE hmem; int val; int* p; BOOL ret; procid=GetCurrentProcessId(); hmem=pSHAllocShared(NULL,10,procid); ok(hmem!=NULL,"SHAllocShared(NULL...) failed: %u\n", GetLastError()); ret = pSHFreeShared(hmem, procid); ok( ret, "SHFreeShared failed: %u\n", GetLastError()); val=0x12345678; hmem=pSHAllocShared(&val,4,procid); ok(hmem!=NULL,"SHAllocShared(NULL...) failed: %u\n", GetLastError()); p=pSHLockShared(hmem,procid); ok(p!=NULL,"SHLockShared failed: %u\n", GetLastError()); if (p!=NULL) ok(*p==val,"Wrong value in shared memory: %d instead of %d\n",*p,val); ret = pSHUnlockShared(p); ok( ret, "SHUnlockShared failed: %u\n", GetLastError()); ret = pSHFreeShared(hmem, procid); ok( ret, "SHFreeShared failed: %u\n", GetLastError()); } static void test_fdsa(void) { typedef struct { DWORD num_items; /* Number of elements inserted */ void *mem; /* Ptr to array */ DWORD blocks_alloced; /* Number of elements allocated */ BYTE inc; /* Number of elements to grow by when we need to expand */ BYTE block_size; /* Size in bytes of an element */ BYTE flags; /* Flags */ } FDSA_info; BOOL (WINAPI *pFDSA_Initialize)(DWORD block_size, DWORD inc, FDSA_info *info, void *mem, DWORD init_blocks); BOOL (WINAPI *pFDSA_Destroy)(FDSA_info *info); DWORD (WINAPI *pFDSA_InsertItem)(FDSA_info *info, DWORD where, const void *block); BOOL (WINAPI *pFDSA_DeleteItem)(FDSA_info *info, DWORD where); FDSA_info info; int block_size = 10, init_blocks = 4, inc = 2; DWORD ret; char *mem; pFDSA_Initialize = (void *)GetProcAddress(hShlwapi, (LPSTR)208); pFDSA_Destroy = (void *)GetProcAddress(hShlwapi, (LPSTR)209); pFDSA_InsertItem = (void *)GetProcAddress(hShlwapi, (LPSTR)210); pFDSA_DeleteItem = (void *)GetProcAddress(hShlwapi, (LPSTR)211); mem = HeapAlloc(GetProcessHeap(), 0, block_size * init_blocks); memset(&info, 0, sizeof(info)); ok(pFDSA_Initialize(block_size, inc, &info, mem, init_blocks), "FDSA_Initialize rets FALSE\n"); ok(info.num_items == 0, "num_items = %d\n", info.num_items); ok(info.mem == mem, "mem = %p\n", info.mem); ok(info.blocks_alloced == init_blocks, "blocks_alloced = %d\n", info.blocks_alloced); ok(info.inc == inc, "inc = %d\n", info.inc); ok(info.block_size == block_size, "block_size = %d\n", info.block_size); ok(info.flags == 0, "flags = %d\n", info.flags); ret = pFDSA_InsertItem(&info, 1234, "1234567890"); ok(ret == 0, "ret = %d\n", ret); ok(info.num_items == 1, "num_items = %d\n", info.num_items); ok(info.mem == mem, "mem = %p\n", info.mem); ok(info.blocks_alloced == init_blocks, "blocks_alloced = %d\n", info.blocks_alloced); ok(info.inc == inc, "inc = %d\n", info.inc); ok(info.block_size == block_size, "block_size = %d\n", info.block_size); ok(info.flags == 0, "flags = %d\n", info.flags); ret = pFDSA_InsertItem(&info, 1234, "abcdefghij"); ok(ret == 1, "ret = %d\n", ret); ret = pFDSA_InsertItem(&info, 1, "klmnopqrst"); ok(ret == 1, "ret = %d\n", ret); ret = pFDSA_InsertItem(&info, 0, "uvwxyzABCD"); ok(ret == 0, "ret = %d\n", ret); ok(info.mem == mem, "mem = %p\n", info.mem); ok(info.flags == 0, "flags = %d\n", info.flags); /* This next InsertItem will cause shlwapi to allocate its own mem buffer */ ret = pFDSA_InsertItem(&info, 0, "EFGHIJKLMN"); ok(ret == 0, "ret = %d\n", ret); ok(info.mem != mem, "mem = %p\n", info.mem); ok(info.blocks_alloced == init_blocks + inc, "blocks_alloced = %d\n", info.blocks_alloced); ok(info.flags == 0x1, "flags = %d\n", info.flags); ok(!memcmp(info.mem, "EFGHIJKLMNuvwxyzABCD1234567890klmnopqrstabcdefghij", 50), "mem %s\n", (char*)info.mem); ok(pFDSA_DeleteItem(&info, 2), "rets FALSE\n"); ok(info.mem != mem, "mem = %p\n", info.mem); ok(info.blocks_alloced == init_blocks + inc, "blocks_alloced = %d\n", info.blocks_alloced); ok(info.flags == 0x1, "flags = %d\n", info.flags); ok(!memcmp(info.mem, "EFGHIJKLMNuvwxyzABCDklmnopqrstabcdefghij", 40), "mem %s\n", (char*)info.mem); ok(pFDSA_DeleteItem(&info, 3), "rets FALSE\n"); ok(info.mem != mem, "mem = %p\n", info.mem); ok(info.blocks_alloced == init_blocks + inc, "blocks_alloced = %d\n", info.blocks_alloced); ok(info.flags == 0x1, "flags = %d\n", info.flags); ok(!memcmp(info.mem, "EFGHIJKLMNuvwxyzABCDklmnopqrst", 30), "mem %s\n", (char*)info.mem); ok(!pFDSA_DeleteItem(&info, 4), "does not ret FALSE\n"); /* As shlwapi has allocated memory internally, Destroy will ret FALSE */ ok(!pFDSA_Destroy(&info), "FDSA_Destroy does not ret FALSE\n"); /* When Initialize is called with inc = 0, set it to 1 */ ok(pFDSA_Initialize(block_size, 0, &info, mem, init_blocks), "FDSA_Initialize rets FALSE\n"); ok(info.inc == 1, "inc = %d\n", info.inc); /* This time, because shlwapi hasn't had to allocate memory internally, Destroy rets non-zero */ ok(pFDSA_Destroy(&info), "FDSA_Destroy rets FALSE\n"); HeapFree(GetProcessHeap(), 0, mem); } typedef struct SHELL_USER_SID { SID_IDENTIFIER_AUTHORITY sidAuthority; DWORD dwUserGroupID; DWORD dwUserID; } SHELL_USER_SID, *PSHELL_USER_SID; typedef struct SHELL_USER_PERMISSION { SHELL_USER_SID susID; DWORD dwAccessType; BOOL fInherit; DWORD dwAccessMask; DWORD dwInheritMask; DWORD dwInheritAccessMask; } SHELL_USER_PERMISSION, *PSHELL_USER_PERMISSION; static void test_GetShellSecurityDescriptor(void) { SHELL_USER_PERMISSION supCurrentUserFull = { { {SECURITY_NULL_SID_AUTHORITY}, 0, 0 }, ACCESS_ALLOWED_ACE_TYPE, FALSE, GENERIC_ALL, 0, 0 }; #define MY_INHERITANCE 0xBE /* invalid value to proof behavior */ SHELL_USER_PERMISSION supEveryoneDenied = { { {SECURITY_WORLD_SID_AUTHORITY}, SECURITY_WORLD_RID, 0 }, ACCESS_DENIED_ACE_TYPE, TRUE, GENERIC_WRITE, MY_INHERITANCE | 0xDEADBA00, GENERIC_READ }; PSHELL_USER_PERMISSION rgsup[2] = { &supCurrentUserFull, &supEveryoneDenied, }; SECURITY_DESCRIPTOR* psd; SECURITY_DESCRIPTOR* (WINAPI*pGetShellSecurityDescriptor)(PSHELL_USER_PERMISSION*,int); pGetShellSecurityDescriptor=(void*)GetProcAddress(hShlwapi,(char*)475); if(!pGetShellSecurityDescriptor) { win_skip("GetShellSecurityDescriptor not available\n"); return; } psd = pGetShellSecurityDescriptor(NULL, 2); ok(psd==NULL, "GetShellSecurityDescriptor should fail\n"); psd = pGetShellSecurityDescriptor(rgsup, 0); ok(psd==NULL, "GetShellSecurityDescriptor should fail\n"); SetLastError(0xdeadbeef); psd = pGetShellSecurityDescriptor(rgsup, 2); if (psd == NULL && GetLastError() == ERROR_CALL_NOT_IMPLEMENTED) { /* The previous calls to GetShellSecurityDescriptor don't set the last error */ win_skip("GetShellSecurityDescriptor is not implemented\n"); return; } ok(psd!=NULL, "GetShellSecurityDescriptor failed\n"); if (psd!=NULL) { BOOL bHasDacl = FALSE, bDefaulted; PACL pAcl; DWORD dwRev; SECURITY_DESCRIPTOR_CONTROL control; ok(IsValidSecurityDescriptor(psd), "returned value is not valid SD\n"); ok(GetSecurityDescriptorControl(psd, &control, &dwRev), "GetSecurityDescriptorControl failed with error %u\n", GetLastError()); ok(0 == (control & SE_SELF_RELATIVE), "SD should be absolute\n"); ok(GetSecurityDescriptorDacl(psd, &bHasDacl, &pAcl, &bDefaulted), "GetSecurityDescriptorDacl failed with error %u\n", GetLastError()); ok(bHasDacl, "SD has no DACL\n"); if (bHasDacl) { ok(!bDefaulted, "DACL should not be defaulted\n"); ok(pAcl != NULL, "NULL DACL!\n"); if (pAcl != NULL) { ACL_SIZE_INFORMATION asiSize; ok(IsValidAcl(pAcl), "DACL is not valid\n"); ok(GetAclInformation(pAcl, &asiSize, sizeof(asiSize), AclSizeInformation), "GetAclInformation failed with error %u\n", GetLastError()); ok(asiSize.AceCount == 3, "Incorrect number of ACEs: %d entries\n", asiSize.AceCount); if (asiSize.AceCount == 3) { ACCESS_ALLOWED_ACE *paaa; /* will use for DENIED too */ ok(GetAce(pAcl, 0, (LPVOID*)&paaa), "GetAce failed with error %u\n", GetLastError()); ok(paaa->Header.AceType == ACCESS_ALLOWED_ACE_TYPE, "Invalid ACE type %d\n", paaa->Header.AceType); ok(paaa->Header.AceFlags == 0, "Invalid ACE flags %x\n", paaa->Header.AceFlags); ok(paaa->Mask == GENERIC_ALL, "Invalid ACE mask %x\n", paaa->Mask); ok(GetAce(pAcl, 1, (LPVOID*)&paaa), "GetAce failed with error %u\n", GetLastError()); ok(paaa->Header.AceType == ACCESS_DENIED_ACE_TYPE, "Invalid ACE type %d\n", paaa->Header.AceType); /* first one of two ACEs generated from inheritable entry - without inheritance */ ok(paaa->Header.AceFlags == 0, "Invalid ACE flags %x\n", paaa->Header.AceFlags); ok(paaa->Mask == GENERIC_WRITE, "Invalid ACE mask %x\n", paaa->Mask); ok(GetAce(pAcl, 2, (LPVOID*)&paaa), "GetAce failed with error %u\n", GetLastError()); ok(paaa->Header.AceType == ACCESS_DENIED_ACE_TYPE, "Invalid ACE type %d\n", paaa->Header.AceType); /* second ACE - with inheritance */ ok(paaa->Header.AceFlags == MY_INHERITANCE, "Invalid ACE flags %x\n", paaa->Header.AceFlags); ok(paaa->Mask == GENERIC_READ, "Invalid ACE mask %x\n", paaa->Mask); } } } LocalFree(psd); } } static void test_SHPackDispParams(void) { DISPPARAMS params; VARIANT vars[10]; HRESULT hres; if(!pSHPackDispParams) skip("SHPackSidpParams not available\n"); memset(¶ms, 0xc0, sizeof(params)); memset(vars, 0xc0, sizeof(vars)); hres = pSHPackDispParams(¶ms, vars, 1, VT_I4, 0xdeadbeef); ok(hres == S_OK, "SHPackDispParams failed: %08x\n", hres); ok(params.cArgs == 1, "params.cArgs = %d\n", params.cArgs); ok(params.cNamedArgs == 0, "params.cNamedArgs = %d\n", params.cArgs); ok(params.rgdispidNamedArgs == NULL, "params.rgdispidNamedArgs = %p\n", params.rgdispidNamedArgs); ok(params.rgvarg == vars, "params.rgvarg = %p\n", params.rgvarg); ok(V_VT(vars) == VT_I4, "V_VT(var) = %d\n", V_VT(vars)); ok(V_DISPATCH(vars) == (void*)0xdeadbeef, "failed\n"); memset(¶ms, 0xc0, sizeof(params)); hres = pSHPackDispParams(¶ms, NULL, 0, 0); ok(hres == S_OK, "SHPackDispParams failed: %08x\n", hres); ok(params.cArgs == 0, "params.cArgs = %d\n", params.cArgs); ok(params.cNamedArgs == 0, "params.cNamedArgs = %d\n", params.cArgs); ok(params.rgdispidNamedArgs == NULL, "params.rgdispidNamedArgs = %p\n", params.rgdispidNamedArgs); ok(params.rgvarg == NULL, "params.rgvarg = %p\n", params.rgvarg); memset(vars, 0xc0, sizeof(vars)); memset(¶ms, 0xc0, sizeof(params)); hres = pSHPackDispParams(¶ms, vars, 4, VT_BSTR, (void*)0xdeadbeef, VT_EMPTY, 10, VT_I4, 100, VT_DISPATCH, (void*)0xdeadbeef); ok(hres == S_OK, "SHPackDispParams failed: %08x\n", hres); ok(params.cArgs == 4, "params.cArgs = %d\n", params.cArgs); ok(params.cNamedArgs == 0, "params.cNamedArgs = %d\n", params.cArgs); ok(params.rgdispidNamedArgs == NULL, "params.rgdispidNamedArgs = %p\n", params.rgdispidNamedArgs); ok(params.rgvarg == vars, "params.rgvarg = %p\n", params.rgvarg); ok(V_VT(vars) == VT_DISPATCH, "V_VT(vars[0]) = %x\n", V_VT(vars)); ok(V_I4(vars) == 0xdeadbeef, "V_I4(vars[0]) = %x\n", V_I4(vars)); ok(V_VT(vars+1) == VT_I4, "V_VT(vars[1]) = %d\n", V_VT(vars+1)); ok(V_I4(vars+1) == 100, "V_I4(vars[1]) = %x\n", V_I4(vars+1)); ok(V_VT(vars+2) == VT_I4, "V_VT(vars[2]) = %d\n", V_VT(vars+2)); ok(V_I4(vars+2) == 10, "V_I4(vars[2]) = %x\n", V_I4(vars+2)); ok(V_VT(vars+3) == VT_BSTR, "V_VT(vars[3]) = %d\n", V_VT(vars+3)); ok(V_BSTR(vars+3) == (void*)0xdeadbeef, "V_BSTR(vars[3]) = %p\n", V_BSTR(vars+3)); } START_TEST(ordinal) { hShlwapi = GetModuleHandleA("shlwapi.dll"); pGetAcceptLanguagesA = (void*)GetProcAddress(hShlwapi, (LPSTR)14); pSHSearchMapInt = (void*)GetProcAddress(hShlwapi, (LPSTR)198); pSHAllocShared=(void*)GetProcAddress(hShlwapi,(char*)7); pSHLockShared=(void*)GetProcAddress(hShlwapi,(char*)8); pSHUnlockShared=(void*)GetProcAddress(hShlwapi,(char*)9); pSHFreeShared=(void*)GetProcAddress(hShlwapi,(char*)10); pSHPackDispParams=(void*)GetProcAddress(hShlwapi,(char*)282); test_GetAcceptLanguagesA(); test_SHSearchMapInt(); test_alloc_shared(); test_fdsa(); test_GetShellSecurityDescriptor(); test_SHPackDispParams(); }