Sweden-Number/dlls/ntdll/tests/rtlstr.c

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/* Unit test suite for Rtl string functions
*
* Copyright 2002 Robert Shearman
* Copyright 2003 Thomas Mertes
*
* 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
*
* NOTES
* We use function pointers here as there is no import library for NTDLL on
* windows.
*/
#include <stdlib.h>
#define INITGUID
#include "ntdll_test.h"
#include "winnls.h"
#include "guiddef.h"
/* Function ptrs for ntdll calls */
static HMODULE hntdll = 0;
static NTSTATUS (WINAPI *pRtlAnsiStringToUnicodeString)(PUNICODE_STRING, PCANSI_STRING, BOOLEAN);
static NTSTATUS (WINAPI *pRtlAppendAsciizToString)(STRING *, LPCSTR);
static NTSTATUS (WINAPI *pRtlAppendStringToString)(STRING *, const STRING *);
static NTSTATUS (WINAPI *pRtlAppendUnicodeStringToString)(UNICODE_STRING *, const UNICODE_STRING *);
static NTSTATUS (WINAPI *pRtlAppendUnicodeToString)(UNICODE_STRING *, LPCWSTR);
static NTSTATUS (WINAPI *pRtlCharToInteger)(PCSZ, ULONG, int *);
static VOID (WINAPI *pRtlCopyString)(STRING *, const STRING *);
static BOOLEAN (WINAPI *pRtlCreateUnicodeString)(PUNICODE_STRING, LPCWSTR);
static BOOLEAN (WINAPI *pRtlCreateUnicodeStringFromAsciiz)(PUNICODE_STRING, LPCSTR);
static NTSTATUS (WINAPI *pRtlDowncaseUnicodeString)(UNICODE_STRING *, const UNICODE_STRING *, BOOLEAN);
static NTSTATUS (WINAPI *pRtlDuplicateUnicodeString)(long, UNICODE_STRING *, UNICODE_STRING *);
static BOOLEAN (WINAPI *pRtlEqualUnicodeString)(const UNICODE_STRING *, const UNICODE_STRING *, BOOLEAN);
static NTSTATUS (WINAPI *pRtlFindCharInUnicodeString)(int, const UNICODE_STRING *, const UNICODE_STRING *, USHORT *);
static VOID (WINAPI *pRtlFreeAnsiString)(PSTRING);
static VOID (WINAPI *pRtlInitAnsiString)(PSTRING, LPCSTR);
static VOID (WINAPI *pRtlInitString)(PSTRING, LPCSTR);
static VOID (WINAPI *pRtlInitUnicodeString)(PUNICODE_STRING, LPCWSTR);
static NTSTATUS (WINAPI *pRtlInitUnicodeStringEx)(PUNICODE_STRING, LPCWSTR);
static NTSTATUS (WINAPI *pRtlIntegerToChar)(ULONG, ULONG, ULONG, PCHAR);
static NTSTATUS (WINAPI *pRtlIntegerToUnicodeString)(ULONG, ULONG, UNICODE_STRING *);
static NTSTATUS (WINAPI *pRtlMultiAppendUnicodeStringBuffer)(UNICODE_STRING *, long, UNICODE_STRING *);
static NTSTATUS (WINAPI *pRtlUnicodeStringToAnsiString)(STRING *, const UNICODE_STRING *, BOOLEAN);
static NTSTATUS (WINAPI *pRtlUnicodeStringToInteger)(const UNICODE_STRING *, int, int *);
static WCHAR (WINAPI *pRtlUpcaseUnicodeChar)(WCHAR);
static NTSTATUS (WINAPI *pRtlUpcaseUnicodeString)(UNICODE_STRING *, const UNICODE_STRING *, BOOLEAN);
static CHAR (WINAPI *pRtlUpperChar)(CHAR);
static NTSTATUS (WINAPI *pRtlUpperString)(STRING *, const STRING *);
static NTSTATUS (WINAPI *pRtlValidateUnicodeString)(long, UNICODE_STRING *);
static NTSTATUS (WINAPI *pRtlGUIDFromString)(const UNICODE_STRING*,GUID*);
static NTSTATUS (WINAPI *pRtlStringFromGUID)(const GUID*, UNICODE_STRING*);
static BOOLEAN (WINAPI *pRtlIsTextUnicode)(LPVOID, INT, INT *);
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/*static VOID (WINAPI *pRtlFreeOemString)(PSTRING);*/
/*static VOID (WINAPI *pRtlFreeUnicodeString)(PUNICODE_STRING);*/
/*static VOID (WINAPI *pRtlCopyUnicodeString)(UNICODE_STRING *, const UNICODE_STRING *);*/
/*static VOID (WINAPI *pRtlEraseUnicodeString)(UNICODE_STRING *);*/
/*static LONG (WINAPI *pRtlCompareString)(const STRING *,const STRING *,BOOLEAN);*/
/*static LONG (WINAPI *pRtlCompareUnicodeString)(const UNICODE_STRING *,const UNICODE_STRING *,BOOLEAN);*/
/*static BOOLEAN (WINAPI *pRtlEqualString)(const STRING *,const STRING *,BOOLEAN);*/
/*static BOOLEAN (WINAPI *pRtlPrefixString)(const STRING *, const STRING *, BOOLEAN);*/
/*static BOOLEAN (WINAPI *pRtlPrefixUnicodeString)(const UNICODE_STRING *, const UNICODE_STRING *, BOOLEAN);*/
/*static NTSTATUS (WINAPI *pRtlOemStringToUnicodeString)(PUNICODE_STRING, const STRING *, BOOLEAN);*/
/*static NTSTATUS (WINAPI *pRtlUnicodeStringToOemString)(STRING *, const UNICODE_STRING *, BOOLEAN);*/
/*static NTSTATUS (WINAPI *pRtlMultiByteToUnicodeN)(LPWSTR, DWORD, LPDWORD, LPCSTR, DWORD);*/
/*static NTSTATUS (WINAPI *pRtlOemToUnicodeN)(LPWSTR, DWORD, LPDWORD, LPCSTR, DWORD);*/
/*static NTSTATUS (WINAPI *pRtlUpcaseUnicodeStringToAnsiString)(STRING *, const UNICODE_STRING *, BOOLEAN);*/
/*static NTSTATUS (WINAPI *pRtlUpcaseUnicodeStringToOemString)(STRING *, const UNICODE_STRING *, BOOLEAN);*/
/*static NTSTATUS (WINAPI *pRtlUpcaseUnicodeToMultiByteN)(LPSTR, DWORD, LPDWORD, LPCWSTR, DWORD);*/
/*static NTSTATUS (WINAPI *pRtlUpcaseUnicodeToOemN)(LPSTR, DWORD, LPDWORD, LPCWSTR, DWORD);*/
/*static UINT (WINAPI *pRtlOemToUnicodeSize)(const STRING *);*/
/*static DWORD (WINAPI *pRtlAnsiStringToUnicodeSize)(const STRING *);*/
static WCHAR* AtoW( const char* p )
{
WCHAR* buffer;
DWORD len = MultiByteToWideChar( CP_ACP, 0, p, -1, NULL, 0 );
buffer = malloc( len * sizeof(WCHAR) );
MultiByteToWideChar( CP_ACP, 0, p, -1, buffer, len );
return buffer;
}
static void InitFunctionPtrs(void)
{
hntdll = LoadLibraryA("ntdll.dll");
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ok(hntdll != 0, "LoadLibrary failed\n");
if (hntdll) {
pRtlAnsiStringToUnicodeString = (void *)GetProcAddress(hntdll, "RtlAnsiStringToUnicodeString");
pRtlAppendAsciizToString = (void *)GetProcAddress(hntdll, "RtlAppendAsciizToString");
pRtlAppendStringToString = (void *)GetProcAddress(hntdll, "RtlAppendStringToString");
pRtlAppendUnicodeStringToString = (void *)GetProcAddress(hntdll, "RtlAppendUnicodeStringToString");
pRtlAppendUnicodeToString = (void *)GetProcAddress(hntdll, "RtlAppendUnicodeToString");
pRtlCharToInteger = (void *)GetProcAddress(hntdll, "RtlCharToInteger");
pRtlCopyString = (void *)GetProcAddress(hntdll, "RtlCopyString");
pRtlCreateUnicodeString = (void *)GetProcAddress(hntdll, "RtlCreateUnicodeString");
pRtlCreateUnicodeStringFromAsciiz = (void *)GetProcAddress(hntdll, "RtlCreateUnicodeStringFromAsciiz");
pRtlDowncaseUnicodeString = (void *)GetProcAddress(hntdll, "RtlDowncaseUnicodeString");
pRtlDuplicateUnicodeString = (void *)GetProcAddress(hntdll, "RtlDuplicateUnicodeString");
pRtlEqualUnicodeString = (void *)GetProcAddress(hntdll, "RtlEqualUnicodeString");
pRtlFindCharInUnicodeString = (void *)GetProcAddress(hntdll, "RtlFindCharInUnicodeString");
pRtlFreeAnsiString = (void *)GetProcAddress(hntdll, "RtlFreeAnsiString");
pRtlInitAnsiString = (void *)GetProcAddress(hntdll, "RtlInitAnsiString");
pRtlInitString = (void *)GetProcAddress(hntdll, "RtlInitString");
pRtlInitUnicodeString = (void *)GetProcAddress(hntdll, "RtlInitUnicodeString");
pRtlInitUnicodeStringEx = (void *)GetProcAddress(hntdll, "RtlInitUnicodeStringEx");
pRtlIntegerToChar = (void *)GetProcAddress(hntdll, "RtlIntegerToChar");
pRtlIntegerToUnicodeString = (void *)GetProcAddress(hntdll, "RtlIntegerToUnicodeString");
pRtlMultiAppendUnicodeStringBuffer = (void *)GetProcAddress(hntdll, "RtlMultiAppendUnicodeStringBuffer");
pRtlUnicodeStringToAnsiString = (void *)GetProcAddress(hntdll, "RtlUnicodeStringToAnsiString");
pRtlUnicodeStringToInteger = (void *)GetProcAddress(hntdll, "RtlUnicodeStringToInteger");
pRtlUpcaseUnicodeChar = (void *)GetProcAddress(hntdll, "RtlUpcaseUnicodeChar");
pRtlUpcaseUnicodeString = (void *)GetProcAddress(hntdll, "RtlUpcaseUnicodeString");
pRtlUpperChar = (void *)GetProcAddress(hntdll, "RtlUpperChar");
pRtlUpperString = (void *)GetProcAddress(hntdll, "RtlUpperString");
pRtlValidateUnicodeString = (void *)GetProcAddress(hntdll, "RtlValidateUnicodeString");
pRtlGUIDFromString = (void *)GetProcAddress(hntdll, "RtlGUIDFromString");
pRtlStringFromGUID = (void *)GetProcAddress(hntdll, "RtlStringFromGUID");
pRtlIsTextUnicode = (void *)GetProcAddress(hntdll, "RtlIsTextUnicode");
}
}
static void test_RtlInitString(void)
{
static const char teststring[] = "Some Wild String";
STRING str;
str.Length = 0;
str.MaximumLength = 0;
str.Buffer = (void *)0xdeadbeef;
pRtlInitString(&str, teststring);
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ok(str.Length == sizeof(teststring) - sizeof(char), "Length uninitialized\n");
ok(str.MaximumLength == sizeof(teststring), "MaximumLength uninitialized\n");
ok(str.Buffer == teststring, "Buffer not equal to teststring\n");
ok(strcmp(str.Buffer, "Some Wild String") == 0, "Buffer written to\n");
pRtlInitString(&str, NULL);
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ok(str.Length == 0, "Length uninitialized\n");
ok(str.MaximumLength == 0, "MaximumLength uninitialized\n");
ok(str.Buffer == NULL, "Buffer not equal to NULL\n");
/* pRtlInitString(NULL, teststring); */
}
static void test_RtlInitUnicodeString(void)
{
#define STRINGW {'S','o','m','e',' ','W','i','l','d',' ','S','t','r','i','n','g',0}
static const WCHAR teststring[] = STRINGW;
static const WCHAR originalstring[] = STRINGW;
#undef STRINGW
UNICODE_STRING uni;
uni.Length = 0;
uni.MaximumLength = 0;
uni.Buffer = (void *)0xdeadbeef;
pRtlInitUnicodeString(&uni, teststring);
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ok(uni.Length == sizeof(teststring) - sizeof(WCHAR), "Length uninitialized\n");
ok(uni.MaximumLength == sizeof(teststring), "MaximumLength uninitialized\n");
ok(uni.Buffer == teststring, "Buffer not equal to teststring\n");
ok(lstrcmpW(uni.Buffer, originalstring) == 0, "Buffer written to\n");
pRtlInitUnicodeString(&uni, NULL);
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ok(uni.Length == 0, "Length uninitialized\n");
ok(uni.MaximumLength == 0, "MaximumLength uninitialized\n");
ok(uni.Buffer == NULL, "Buffer not equal to NULL\n");
/* pRtlInitUnicodeString(NULL, teststring); */
}
#define TESTSTRING2_LEN 1000000
/* #define TESTSTRING2_LEN 32766 */
static void test_RtlInitUnicodeStringEx(void)
{
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static const WCHAR teststring[] = {'S','o','m','e',' ','W','i','l','d',' ','S','t','r','i','n','g',0};
WCHAR *teststring2;
UNICODE_STRING uni;
NTSTATUS result;
teststring2 = (WCHAR *) malloc((TESTSTRING2_LEN + 1) * sizeof(WCHAR));
memset(teststring2, 'X', TESTSTRING2_LEN * sizeof(WCHAR));
teststring2[TESTSTRING2_LEN] = '\0';
uni.Length = 12345;
uni.MaximumLength = 12345;
uni.Buffer = (void *) 0xdeadbeef;
result = pRtlInitUnicodeStringEx(&uni, teststring);
ok(result == STATUS_SUCCESS,
"pRtlInitUnicodeStringEx(&uni, 0) returns %x, expected 0\n",
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result);
ok(uni.Length == 32,
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"pRtlInitUnicodeStringEx(&uni, 0) sets Length to %u, expected %u\n",
uni.Length, 32);
ok(uni.MaximumLength == 34,
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"pRtlInitUnicodeStringEx(&uni, 0) sets MaximumLength to %u, expected %u\n",
uni.MaximumLength, 34);
ok(uni.Buffer == teststring,
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"pRtlInitUnicodeStringEx(&uni, 0) sets Buffer to %p, expected %p\n",
uni.Buffer, teststring);
uni.Length = 12345;
uni.MaximumLength = 12345;
uni.Buffer = (void *) 0xdeadbeef;
pRtlInitUnicodeString(&uni, teststring);
ok(uni.Length == 32,
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"pRtlInitUnicodeString(&uni, 0) sets Length to %u, expected %u\n",
uni.Length, 32);
ok(uni.MaximumLength == 34,
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"pRtlInitUnicodeString(&uni, 0) sets MaximumLength to %u, expected %u\n",
uni.MaximumLength, 34);
ok(uni.Buffer == teststring,
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"pRtlInitUnicodeString(&uni, 0) sets Buffer to %p, expected %p\n",
uni.Buffer, teststring);
uni.Length = 12345;
uni.MaximumLength = 12345;
uni.Buffer = (void *) 0xdeadbeef;
result = pRtlInitUnicodeStringEx(&uni, teststring2);
ok(result == STATUS_NAME_TOO_LONG,
"pRtlInitUnicodeStringEx(&uni, 0) returns %x, expected %x\n",
result, STATUS_NAME_TOO_LONG);
ok(uni.Length == 12345 ||
uni.Length == 0, /* win2k3 */
"pRtlInitUnicodeStringEx(&uni, 0) sets Length to %u, expected 12345 or 0\n",
uni.Length);
ok(uni.MaximumLength == 12345 ||
uni.MaximumLength == 0, /* win2k3 */
"pRtlInitUnicodeStringEx(&uni, 0) sets MaximumLength to %u, expected 12345 or 0\n",
uni.MaximumLength);
ok(uni.Buffer == (void *) 0xdeadbeef ||
uni.Buffer == teststring2, /* win2k3 */
"pRtlInitUnicodeStringEx(&uni, 0) sets Buffer to %p, expected %x or %p\n",
uni.Buffer, 0xdeadbeef, teststring2);
uni.Length = 12345;
uni.MaximumLength = 12345;
uni.Buffer = (void *) 0xdeadbeef;
pRtlInitUnicodeString(&uni, teststring2);
ok(uni.Length == 33920 /* <= Win2000 */ || uni.Length == 65532 /* >= Win XP */,
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"pRtlInitUnicodeString(&uni, 0) sets Length to %u, expected %u\n",
uni.Length, 65532);
ok(uni.MaximumLength == 33922 /* <= Win2000 */ || uni.MaximumLength == 65534 /* >= Win XP */,
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"pRtlInitUnicodeString(&uni, 0) sets MaximumLength to %u, expected %u\n",
uni.MaximumLength, 65534);
ok(uni.Buffer == teststring2,
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"pRtlInitUnicodeString(&uni, 0) sets Buffer to %p, expected %p\n",
uni.Buffer, teststring2);
ok(memcmp(uni.Buffer, teststring2, (TESTSTRING2_LEN + 1) * sizeof(WCHAR)) == 0,
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"pRtlInitUnicodeString(&uni, 0) changes Buffer\n");
uni.Length = 12345;
uni.MaximumLength = 12345;
uni.Buffer = (void *) 0xdeadbeef;
result = pRtlInitUnicodeStringEx(&uni, 0);
ok(result == STATUS_SUCCESS,
"pRtlInitUnicodeStringEx(&uni, 0) returns %x, expected 0\n",
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result);
ok(uni.Length == 0,
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"pRtlInitUnicodeStringEx(&uni, 0) sets Length to %u, expected %u\n",
uni.Length, 0);
ok(uni.MaximumLength == 0,
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"pRtlInitUnicodeStringEx(&uni, 0) sets MaximumLength to %u, expected %u\n",
uni.MaximumLength, 0);
ok(uni.Buffer == NULL,
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"pRtlInitUnicodeStringEx(&uni, 0) sets Buffer to %p, expected %p\n",
uni.Buffer, NULL);
uni.Length = 12345;
uni.MaximumLength = 12345;
uni.Buffer = (void *) 0xdeadbeef;
pRtlInitUnicodeString(&uni, 0);
ok(uni.Length == 0,
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"pRtlInitUnicodeString(&uni, 0) sets Length to %u, expected %u\n",
uni.Length, 0);
ok(uni.MaximumLength == 0,
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"pRtlInitUnicodeString(&uni, 0) sets MaximumLength to %u, expected %u\n",
uni.MaximumLength, 0);
ok(uni.Buffer == NULL,
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"pRtlInitUnicodeString(&uni, 0) sets Buffer to %p, expected %p\n",
uni.Buffer, NULL);
free(teststring2);
}
typedef struct {
int add_nul;
int source_Length;
int source_MaximumLength;
int source_buf_size;
const char *source_buf;
int dest_Length;
int dest_MaximumLength;
int dest_buf_size;
const char *dest_buf;
int res_Length;
int res_MaximumLength;
int res_buf_size;
const char *res_buf;
NTSTATUS result;
} dupl_ustr_t;
static const dupl_ustr_t dupl_ustr[] = {
{ 0, 32, 34, 34, "This is a string", 40, 42, 42, "--------------------", 32, 32, 32, "This is a string", STATUS_SUCCESS},
{ 0, 32, 32, 32, "This is a string", 40, 42, 42, "--------------------", 32, 32, 32, "This is a string", STATUS_SUCCESS},
{ 0, 32, 30, 34, "This is a string", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
{ 0, 32, 34, 34, "This is a string", 40, 42, 42, NULL, 32, 32, 32, "This is a string", STATUS_SUCCESS},
{ 0, 32, 32, 32, "This is a string", 40, 42, 42, NULL, 32, 32, 32, "This is a string", STATUS_SUCCESS},
{ 0, 32, 30, 34, "This is a string", 40, 42, 42, NULL, 40, 42, 0, NULL, STATUS_INVALID_PARAMETER},
{ 1, 32, 34, 34, "This is a string", 40, 42, 42, "--------------------", 32, 34, 34, "This is a string", STATUS_SUCCESS},
{ 1, 32, 32, 32, "This is a string", 40, 42, 42, "--------------------", 32, 34, 34, "This is a string", STATUS_SUCCESS},
{ 1, 32, 30, 34, "This is a string", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
{ 1, 32, 34, 34, "This is a string", 40, 42, 42, NULL, 32, 34, 34, "This is a string", STATUS_SUCCESS},
{ 1, 32, 32, 32, "This is a string", 40, 42, 42, NULL, 32, 34, 34, "This is a string", STATUS_SUCCESS},
{ 1, 32, 30, 34, "This is a string", 40, 42, 42, NULL, 40, 42, 0, NULL, STATUS_INVALID_PARAMETER},
{ 2, 32, 34, 34, "This is a string", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
{ 2, 32, 32, 32, "This is a string", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
{ 2, 32, 30, 34, "This is a string", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
{ 2, 32, 34, 34, "This is a string", 40, 42, 42, NULL, 40, 42, 0, NULL, STATUS_INVALID_PARAMETER},
{ 2, 32, 32, 32, "This is a string", 40, 42, 42, NULL, 40, 42, 0, NULL, STATUS_INVALID_PARAMETER},
{ 2, 32, 30, 34, "This is a string", 40, 42, 42, NULL, 40, 42, 0, NULL, STATUS_INVALID_PARAMETER},
{ 3, 32, 34, 34, "This is a string", 40, 42, 42, "--------------------", 32, 34, 34, "This is a string", STATUS_SUCCESS},
{ 3, 32, 32, 32, "This is a string", 40, 42, 42, "--------------------", 32, 34, 34, "This is a string", STATUS_SUCCESS},
{ 3, 32, 30, 32, "This is a string", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
{ 3, 32, 34, 34, "This is a string", 40, 42, 42, NULL, 32, 34, 34, "This is a string", STATUS_SUCCESS},
{ 3, 32, 32, 32, "This is a string", 40, 42, 42, NULL, 32, 34, 34, "This is a string", STATUS_SUCCESS},
{ 3, 32, 30, 32, "This is a string", 40, 42, 42, NULL, 40, 42, 0, NULL, STATUS_INVALID_PARAMETER},
{ 4, 32, 34, 34, "This is a string", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
{ 5, 32, 34, 34, "This is a string", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
{ 6, 32, 34, 34, "This is a string", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
{ 7, 32, 34, 34, "This is a string", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
{ 8, 32, 34, 34, "This is a string", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
{ 9, 32, 34, 34, "This is a string", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
{10, 32, 34, 34, "This is a string", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
{11, 32, 34, 34, "This is a string", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
{12, 32, 34, 34, "This is a string", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
{13, 32, 34, 34, "This is a string", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
{14, 32, 34, 34, "This is a string", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
{15, 32, 34, 34, "This is a string", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
{16, 32, 34, 34, "This is a string", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
{-1, 32, 34, 34, "This is a string", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
{-5, 32, 34, 34, "This is a string", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
{-9, 32, 34, 34, "This is a string", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
{ 0, 0, 2, 2, "", 40, 42, 42, "--------------------", 0, 0, 0, NULL, STATUS_SUCCESS},
{ 0, 0, 0, 0, "", 40, 42, 42, "--------------------", 0, 0, 0, NULL, STATUS_SUCCESS},
{ 0, 0, 2, 2, "", 40, 42, 42, NULL, 0, 0, 0, NULL, STATUS_SUCCESS},
{ 0, 0, 0, 0, "", 40, 42, 42, NULL, 0, 0, 0, NULL, STATUS_SUCCESS},
{ 0, 0, 2, 2, NULL, 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
{ 0, 0, 0, 0, NULL, 40, 42, 42, "--------------------", 0, 0, 0, NULL, STATUS_SUCCESS},
{ 0, 0, 2, 2, NULL, 40, 42, 42, NULL, 40, 42, 0, NULL, STATUS_INVALID_PARAMETER},
{ 0, 0, 0, 0, NULL, 40, 42, 42, NULL, 0, 0, 0, NULL, STATUS_SUCCESS},
{ 1, 0, 2, 2, "", 40, 42, 42, "--------------------", 0, 0, 0, NULL, STATUS_SUCCESS},
{ 1, 0, 0, 0, "", 40, 42, 42, "--------------------", 0, 0, 0, NULL, STATUS_SUCCESS},
{ 1, 0, 2, 2, "", 40, 42, 42, NULL, 0, 0, 0, NULL, STATUS_SUCCESS},
{ 1, 0, 0, 0, "", 40, 42, 42, NULL, 0, 0, 0, NULL, STATUS_SUCCESS},
{ 1, 0, 2, 2, NULL, 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
{ 1, 0, 0, 0, NULL, 40, 42, 42, "--------------------", 0, 0, 0, NULL, STATUS_SUCCESS},
{ 1, 0, 2, 2, NULL, 40, 42, 42, NULL, 40, 42, 0, NULL, STATUS_INVALID_PARAMETER},
{ 1, 0, 0, 0, NULL, 40, 42, 42, NULL, 0, 0, 0, NULL, STATUS_SUCCESS},
{ 2, 0, 2, 2, "", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
{ 2, 0, 0, 0, "", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
{ 2, 0, 2, 2, "", 40, 42, 42, NULL, 40, 42, 0, NULL, STATUS_INVALID_PARAMETER},
{ 2, 0, 0, 0, "", 40, 42, 42, NULL, 40, 42, 0, NULL, STATUS_INVALID_PARAMETER},
{ 2, 0, 2, 2, NULL, 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
{ 2, 0, 0, 0, NULL, 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
{ 2, 0, 2, 2, NULL, 40, 42, 42, NULL, 40, 42, 0, NULL, STATUS_INVALID_PARAMETER},
{ 2, 0, 0, 0, NULL, 40, 42, 42, NULL, 40, 42, 0, NULL, STATUS_INVALID_PARAMETER},
{ 3, 0, 2, 2, "", 40, 42, 42, "--------------------", 0, 2, 2, "", STATUS_SUCCESS},
{ 3, 0, 0, 0, "", 40, 42, 42, "--------------------", 0, 2, 2, "", STATUS_SUCCESS},
{ 3, 0, 2, 2, "", 40, 42, 42, NULL, 0, 2, 2, "", STATUS_SUCCESS},
{ 3, 0, 0, 0, "", 40, 42, 42, NULL, 0, 2, 2, "", STATUS_SUCCESS},
{ 3, 0, 2, 2, NULL, 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
{ 3, 0, 0, 0, NULL, 40, 42, 42, "--------------------", 0, 2, 2, "", STATUS_SUCCESS},
{ 3, 0, 2, 2, NULL, 40, 42, 42, NULL, 40, 42, 0, NULL, STATUS_INVALID_PARAMETER},
{ 3, 0, 0, 0, NULL, 40, 42, 42, NULL, 0, 2, 2, "", STATUS_SUCCESS},
};
#define NB_DUPL_USTR (sizeof(dupl_ustr)/sizeof(*dupl_ustr))
static void test_RtlDuplicateUnicodeString(void)
{
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size_t pos;
WCHAR source_buf[257];
WCHAR dest_buf[257];
WCHAR res_buf[257];
UNICODE_STRING source_str;
UNICODE_STRING dest_str;
UNICODE_STRING res_str;
CHAR dest_ansi_buf[257];
STRING dest_ansi_str;
NTSTATUS result;
unsigned int test_num;
for (test_num = 0; test_num < NB_DUPL_USTR; test_num++) {
source_str.Length = dupl_ustr[test_num].source_Length;
source_str.MaximumLength = dupl_ustr[test_num].source_MaximumLength;
if (dupl_ustr[test_num].source_buf != NULL) {
for (pos = 0; pos < dupl_ustr[test_num].source_buf_size/sizeof(WCHAR); pos++) {
source_buf[pos] = dupl_ustr[test_num].source_buf[pos];
}
source_str.Buffer = source_buf;
} else {
source_str.Buffer = NULL;
}
dest_str.Length = dupl_ustr[test_num].dest_Length;
dest_str.MaximumLength = dupl_ustr[test_num].dest_MaximumLength;
if (dupl_ustr[test_num].dest_buf != NULL) {
for (pos = 0; pos < dupl_ustr[test_num].dest_buf_size/sizeof(WCHAR); pos++) {
dest_buf[pos] = dupl_ustr[test_num].dest_buf[pos];
}
dest_str.Buffer = dest_buf;
} else {
dest_str.Buffer = NULL;
}
res_str.Length = dupl_ustr[test_num].res_Length;
res_str.MaximumLength = dupl_ustr[test_num].res_MaximumLength;
if (dupl_ustr[test_num].res_buf != NULL) {
for (pos = 0; pos < dupl_ustr[test_num].res_buf_size/sizeof(WCHAR); pos++) {
res_buf[pos] = dupl_ustr[test_num].res_buf[pos];
}
res_str.Buffer = res_buf;
} else {
res_str.Buffer = NULL;
}
result = pRtlDuplicateUnicodeString(dupl_ustr[test_num].add_nul, &source_str, &dest_str);
dest_ansi_str.Length = dest_str.Length / sizeof(WCHAR);
dest_ansi_str.MaximumLength = dest_ansi_str.Length + 1;
for (pos = 0; pos < dest_ansi_str.Length; pos++) {
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dest_ansi_buf[pos] = (char)dest_buf[pos];
}
dest_ansi_buf[dest_ansi_str.Length] = '\0';
dest_ansi_str.Buffer = dest_ansi_buf;
ok(result == dupl_ustr[test_num].result,
"(test %d): RtlDuplicateUnicodeString(%d, source, dest) has result %x, expected %x\n",
test_num, dupl_ustr[test_num].add_nul, result, dupl_ustr[test_num].result);
ok(dest_str.Length == dupl_ustr[test_num].res_Length,
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"(test %d): RtlDuplicateUnicodeString(%d, source, dest) destination has Length %d, expected %d\n",
test_num, dupl_ustr[test_num].add_nul, dest_str.Length, dupl_ustr[test_num].res_Length);
ok(dest_str.MaximumLength == dupl_ustr[test_num].res_MaximumLength,
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"(test %d): RtlDuplicateUnicodeString(%d, source, dest) destination has MaximumLength %d, expected %d\n",
test_num, dupl_ustr[test_num].add_nul, dest_str.MaximumLength, dupl_ustr[test_num].res_MaximumLength);
if (result == STATUS_INVALID_PARAMETER) {
ok((dest_str.Buffer == NULL && res_str.Buffer == NULL) ||
dest_str.Buffer == dest_buf,
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"(test %d): RtlDuplicateUnicodeString(%d, source, dest) destination buffer changed %p expected %p\n",
test_num, dupl_ustr[test_num].add_nul, dest_str.Buffer, dest_buf);
} else {
ok(dest_str.Buffer != dest_buf,
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"(test %d): RtlDuplicateUnicodeString(%d, source, dest) has destination buffer unchanged %p\n",
test_num, dupl_ustr[test_num].add_nul, dest_str.Buffer);
}
if (dest_str.Buffer != NULL && dupl_ustr[test_num].res_buf != NULL) {
ok(memcmp(dest_str.Buffer, res_str.Buffer, dupl_ustr[test_num].res_buf_size) == 0,
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"(test %d): RtlDuplicateUnicodeString(%d, source, dest) has destination \"%s\" expected \"%s\"\n",
test_num, dupl_ustr[test_num].add_nul, dest_ansi_str.Buffer, dupl_ustr[test_num].res_buf);
} else {
ok(dest_str.Buffer == NULL && dupl_ustr[test_num].res_buf == NULL,
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"(test %d): RtlDuplicateUnicodeString(%d, source, dest) has destination %p expected %p\n",
test_num, dupl_ustr[test_num].add_nul, dest_str.Buffer, dupl_ustr[test_num].res_buf);
}
}
}
static void test_RtlCopyString(void)
{
static const char teststring[] = "Some Wild String";
char deststring[] = " ";
STRING str;
STRING deststr;
pRtlInitString(&str, teststring);
pRtlInitString(&deststr, deststring);
pRtlCopyString(&deststr, &str);
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ok(strncmp(str.Buffer, deststring, str.Length) == 0, "String not copied\n");
}
static void test_RtlUpperChar(void)
{
int ch;
int upper_ch;
int expected_upper_ch;
int byte_ch;
for (ch = -1; ch <= 1024; ch++) {
upper_ch = pRtlUpperChar(ch);
byte_ch = ch & 0xff;
if (byte_ch >= 'a' && byte_ch <= 'z') {
expected_upper_ch = (CHAR) (byte_ch - 'a' + 'A');
} else {
expected_upper_ch = (CHAR) byte_ch;
}
ok(upper_ch == expected_upper_ch,
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"RtlUpperChar('%c'[=0x%x]) has result '%c'[=0x%x], expected '%c'[=0x%x]\n",
ch, ch, upper_ch, upper_ch, expected_upper_ch, expected_upper_ch);
}
}
static void test_RtlUpperString(void)
{
int i;
CHAR ch;
CHAR upper_ch;
char ascii_buf[257];
char result_buf[257];
char upper_buf[257];
STRING ascii_str;
STRING result_str;
STRING upper_str;
for (i = 0; i <= 255; i++) {
ch = (CHAR) i;
if (ch >= 'a' && ch <= 'z') {
upper_ch = ch - 'a' + 'A';
} else {
upper_ch = ch;
}
ascii_buf[i] = ch;
result_buf[i] = '\0';
upper_buf[i] = upper_ch;
}
ascii_buf[i] = '\0';
result_buf[i] = '\0';
upper_buf[i] = '\0';
ascii_str.Length = 256;
ascii_str.MaximumLength = 256;
ascii_str.Buffer = ascii_buf;
result_str.Length = 256;
result_str.MaximumLength = 256;
result_str.Buffer = result_buf;
upper_str.Length = 256;
upper_str.MaximumLength = 256;
upper_str.Buffer = upper_buf;
pRtlUpperString(&result_str, &ascii_str);
ok(memcmp(result_str.Buffer, upper_str.Buffer, 256) == 0,
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"RtlUpperString does not work as expected\n");
}
static void test_RtlUpcaseUnicodeChar(void)
{
int i;
WCHAR ch;
WCHAR upper_ch;
WCHAR expected_upper_ch;
for (i = 0; i <= 255; i++) {
ch = (WCHAR) i;
upper_ch = pRtlUpcaseUnicodeChar(ch);
if (ch >= 'a' && ch <= 'z') {
expected_upper_ch = ch - 'a' + 'A';
} else if (ch >= 0xe0 && ch <= 0xfe && ch != 0xf7) {
expected_upper_ch = ch - 0x20;
} else if (ch == 0xff) {
expected_upper_ch = 0x178;
} else {
expected_upper_ch = ch;
}
ok(upper_ch == expected_upper_ch,
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"RtlUpcaseUnicodeChar('%c'[=0x%x]) has result '%c'[=0x%x], expected: '%c'[=0x%x]\n",
ch, ch, upper_ch, upper_ch, expected_upper_ch, expected_upper_ch);
}
}
static void test_RtlUpcaseUnicodeString(void)
{
int i;
WCHAR ch;
WCHAR upper_ch;
WCHAR ascii_buf[257];
WCHAR result_buf[257];
WCHAR upper_buf[257];
UNICODE_STRING ascii_str;
UNICODE_STRING result_str;
UNICODE_STRING upper_str;
for (i = 0; i <= 255; i++) {
ch = (WCHAR) i;
if (ch >= 'a' && ch <= 'z') {
upper_ch = ch - 'a' + 'A';
} else if (ch >= 0xe0 && ch <= 0xfe && ch != 0xf7) {
upper_ch = ch - 0x20;
} else if (ch == 0xff) {
upper_ch = 0x178;
} else {
upper_ch = ch;
}
ascii_buf[i] = ch;
result_buf[i] = '\0';
upper_buf[i] = upper_ch;
}
ascii_buf[i] = '\0';
result_buf[i] = '\0';
upper_buf[i] = '\0';
ascii_str.Length = 512;
ascii_str.MaximumLength = 512;
ascii_str.Buffer = ascii_buf;
result_str.Length = 512;
result_str.MaximumLength = 512;
result_str.Buffer = result_buf;
upper_str.Length = 512;
upper_str.MaximumLength = 512;
upper_str.Buffer = upper_buf;
pRtlUpcaseUnicodeString(&result_str, &ascii_str, 0);
for (i = 0; i <= 255; i++) {
ok(result_str.Buffer[i] == upper_str.Buffer[i],
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"RtlUpcaseUnicodeString works wrong: '%c'[=0x%x] is converted to '%c'[=0x%x], expected: '%c'[=0x%x]\n",
ascii_str.Buffer[i], ascii_str.Buffer[i],
result_str.Buffer[i], result_str.Buffer[i],
upper_str.Buffer[i], upper_str.Buffer[i]);
}
}
static void test_RtlDowncaseUnicodeString(void)
{
int i;
WCHAR ch;
WCHAR lower_ch;
WCHAR source_buf[1025];
WCHAR result_buf[1025];
WCHAR lower_buf[1025];
UNICODE_STRING source_str;
UNICODE_STRING result_str;
UNICODE_STRING lower_str;
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for (i = 0; i < 1024; i++) {
ch = (WCHAR) i;
if (ch >= 'A' && ch <= 'Z') {
lower_ch = ch - 'A' + 'a';
} else if (ch >= 0xc0 && ch <= 0xde && ch != 0xd7) {
lower_ch = ch + 0x20;
} else if (ch >= 0x391 && ch <= 0x3ab && ch != 0x3a2) {
lower_ch = ch + 0x20;
} else {
switch (ch) {
case 0x178: lower_ch = 0xff; break;
case 0x181: lower_ch = 0x253; break;
case 0x186: lower_ch = 0x254; break;
case 0x189: lower_ch = 0x256; break;
case 0x18a: lower_ch = 0x257; break;
case 0x18e: lower_ch = 0x1dd; break;
case 0x18f: lower_ch = 0x259; break;
case 0x190: lower_ch = 0x25b; break;
case 0x193: lower_ch = 0x260; break;
case 0x194: lower_ch = 0x263; break;
case 0x196: lower_ch = 0x269; break;
case 0x197: lower_ch = 0x268; break;
case 0x19c: lower_ch = 0x26f; break;
case 0x19d: lower_ch = 0x272; break;
case 0x19f: lower_ch = 0x275; break;
case 0x1a9: lower_ch = 0x283; break;
case 0x1ae: lower_ch = 0x288; break;
case 0x1b1: lower_ch = 0x28a; break;
case 0x1b2: lower_ch = 0x28b; break;
case 0x1b7: lower_ch = 0x292; break;
case 0x1c4: lower_ch = 0x1c6; break;
case 0x1c7: lower_ch = 0x1c9; break;
case 0x1ca: lower_ch = 0x1cc; break;
case 0x1f1: lower_ch = 0x1f3; break;
case 0x386: lower_ch = 0x3ac; break;
case 0x388: lower_ch = 0x3ad; break;
case 0x389: lower_ch = 0x3ae; break;
case 0x38a: lower_ch = 0x3af; break;
case 0x38c: lower_ch = 0x3cc; break;
case 0x38e: lower_ch = 0x3cd; break;
case 0x38f: lower_ch = 0x3ce; break;
default: lower_ch = ch; break;
} /* switch */
}
source_buf[i] = ch;
result_buf[i] = '\0';
lower_buf[i] = lower_ch;
}
source_buf[i] = '\0';
result_buf[i] = '\0';
lower_buf[i] = '\0';
source_str.Length = 2048;
source_str.MaximumLength = 2048;
source_str.Buffer = source_buf;
result_str.Length = 2048;
result_str.MaximumLength = 2048;
result_str.Buffer = result_buf;
lower_str.Length = 2048;
lower_str.MaximumLength = 2048;
lower_str.Buffer = lower_buf;
pRtlDowncaseUnicodeString(&result_str, &source_str, 0);
for (i = 0; i <= 1024; i++) {
ok(result_str.Buffer[i] == lower_str.Buffer[i] || result_str.Buffer[i] == source_str.Buffer[i] + 1,
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"RtlDowncaseUnicodeString works wrong: '%c'[=0x%x] is converted to '%c'[=0x%x], expected: '%c'[=0x%x]\n",
source_str.Buffer[i], source_str.Buffer[i],
result_str.Buffer[i], result_str.Buffer[i],
lower_str.Buffer[i], lower_str.Buffer[i]);
}
}
typedef struct {
int ansi_Length;
int ansi_MaximumLength;
int ansi_buf_size;
const char *ansi_buf;
int uni_Length;
int uni_MaximumLength;
int uni_buf_size;
const char *uni_buf;
BOOLEAN doalloc;
int res_Length;
int res_MaximumLength;
int res_buf_size;
const char *res_buf;
NTSTATUS result;
} ustr2astr_t;
static const ustr2astr_t ustr2astr[] = {
{ 10, 12, 12, "------------", 0, 0, 0, "", TRUE, 0, 1, 1, "", STATUS_SUCCESS},
{ 10, 12, 12, "------------", 12, 12, 12, "abcdef", TRUE, 6, 7, 7, "abcdef", STATUS_SUCCESS},
{ 0, 2, 12, "------------", 12, 12, 12, "abcdef", TRUE, 6, 7, 7, "abcdef", STATUS_SUCCESS},
{ 10, 12, 12, NULL, 12, 12, 12, "abcdef", TRUE, 6, 7, 7, "abcdef", STATUS_SUCCESS},
{ 0, 0, 12, "------------", 12, 12, 12, "abcdef", FALSE, 6, 0, 0, "", STATUS_BUFFER_OVERFLOW},
{ 0, 1, 12, "------------", 12, 12, 12, "abcdef", FALSE, 0, 1, 1, "", STATUS_BUFFER_OVERFLOW},
{ 0, 2, 12, "------------", 12, 12, 12, "abcdef", FALSE, 1, 2, 2, "a", STATUS_BUFFER_OVERFLOW},
{ 0, 3, 12, "------------", 12, 12, 12, "abcdef", FALSE, 2, 3, 3, "ab", STATUS_BUFFER_OVERFLOW},
{ 0, 5, 12, "------------", 12, 12, 12, "abcdef", FALSE, 4, 5, 5, "abcd", STATUS_BUFFER_OVERFLOW},
{ 8, 5, 12, "------------", 12, 12, 12, "abcdef", FALSE, 4, 5, 5, "abcd", STATUS_BUFFER_OVERFLOW},
{ 8, 6, 12, "------------", 12, 12, 12, "abcdef", FALSE, 5, 6, 6, "abcde", STATUS_BUFFER_OVERFLOW},
{ 8, 7, 12, "------------", 12, 12, 12, "abcdef", FALSE, 6, 7, 7, "abcdef", STATUS_SUCCESS},
{ 8, 7, 12, "------------", 0, 12, 12, NULL, FALSE, 0, 7, 0, "", STATUS_SUCCESS},
{ 0, 0, 12, NULL, 10, 10, 12, NULL, FALSE, 5, 0, 0, NULL, STATUS_BUFFER_OVERFLOW},
};
#define NB_USTR2ASTR (sizeof(ustr2astr)/sizeof(*ustr2astr))
static void test_RtlUnicodeStringToAnsiString(void)
{
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size_t pos;
CHAR ansi_buf[257];
WCHAR uni_buf[257];
STRING ansi_str;
UNICODE_STRING uni_str;
NTSTATUS result;
unsigned int test_num;
for (test_num = 0; test_num < NB_USTR2ASTR; test_num++) {
ansi_str.Length = ustr2astr[test_num].ansi_Length;
ansi_str.MaximumLength = ustr2astr[test_num].ansi_MaximumLength;
if (ustr2astr[test_num].ansi_buf != NULL) {
memcpy(ansi_buf, ustr2astr[test_num].ansi_buf, ustr2astr[test_num].ansi_buf_size);
ansi_buf[ustr2astr[test_num].ansi_buf_size] = '\0';
ansi_str.Buffer = ansi_buf;
} else {
ansi_str.Buffer = NULL;
}
uni_str.Length = ustr2astr[test_num].uni_Length;
uni_str.MaximumLength = ustr2astr[test_num].uni_MaximumLength;
if (ustr2astr[test_num].uni_buf != NULL) {
for (pos = 0; pos < ustr2astr[test_num].uni_buf_size/sizeof(WCHAR); pos++) {
uni_buf[pos] = ustr2astr[test_num].uni_buf[pos];
}
uni_str.Buffer = uni_buf;
} else {
uni_str.Buffer = NULL;
}
result = pRtlUnicodeStringToAnsiString(&ansi_str, &uni_str, ustr2astr[test_num].doalloc);
ok(result == ustr2astr[test_num].result,
"(test %d): RtlUnicodeStringToAnsiString(ansi, uni, %d) has result %x, expected %x\n",
test_num, ustr2astr[test_num].doalloc, result, ustr2astr[test_num].result);
ok(ansi_str.Length == ustr2astr[test_num].res_Length,
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"(test %d): RtlUnicodeStringToAnsiString(ansi, uni, %d) ansi has Length %d, expected %d\n",
test_num, ustr2astr[test_num].doalloc, ansi_str.Length, ustr2astr[test_num].res_Length);
ok(ansi_str.MaximumLength == ustr2astr[test_num].res_MaximumLength,
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"(test %d): RtlUnicodeStringToAnsiString(ansi, uni, %d) ansi has MaximumLength %d, expected %d\n",
test_num, ustr2astr[test_num].doalloc, ansi_str.MaximumLength, ustr2astr[test_num].res_MaximumLength);
ok(memcmp(ansi_str.Buffer, ustr2astr[test_num].res_buf, ustr2astr[test_num].res_buf_size) == 0,
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"(test %d): RtlUnicodeStringToAnsiString(ansi, uni, %d) has ansi \"%s\" expected \"%s\"\n",
test_num, ustr2astr[test_num].doalloc, ansi_str.Buffer, ustr2astr[test_num].res_buf);
}
}
typedef struct {
int dest_Length;
int dest_MaximumLength;
int dest_buf_size;
const char *dest_buf;
const char *src;
int res_Length;
int res_MaximumLength;
int res_buf_size;
const char *res_buf;
NTSTATUS result;
} app_asc2str_t;
static const app_asc2str_t app_asc2str[] = {
{ 5, 12, 15, "TestS01234abcde", "tring", 10, 12, 15, "TestStringabcde", STATUS_SUCCESS},
{ 5, 11, 15, "TestS01234abcde", "tring", 10, 11, 15, "TestStringabcde", STATUS_SUCCESS},
{ 5, 10, 15, "TestS01234abcde", "tring", 10, 10, 15, "TestStringabcde", STATUS_SUCCESS},
{ 5, 9, 15, "TestS01234abcde", "tring", 5, 9, 15, "TestS01234abcde", STATUS_BUFFER_TOO_SMALL},
{ 5, 0, 15, "TestS01234abcde", "tring", 5, 0, 15, "TestS01234abcde", STATUS_BUFFER_TOO_SMALL},
{ 5, 14, 15, "TestS01234abcde", "tring", 10, 14, 15, "TestStringabcde", STATUS_SUCCESS},
{ 5, 14, 15, "TestS01234abcde", NULL, 5, 14, 15, "TestS01234abcde", STATUS_SUCCESS},
{ 5, 14, 15, NULL, NULL, 5, 14, 15, NULL, STATUS_SUCCESS},
{ 5, 12, 15, "Tst\0S01234abcde", "tr\0i", 7, 12, 15, "Tst\0Str234abcde", STATUS_SUCCESS},
};
#define NB_APP_ASC2STR (sizeof(app_asc2str)/sizeof(*app_asc2str))
static void test_RtlAppendAsciizToString(void)
{
CHAR dest_buf[257];
STRING dest_str;
NTSTATUS result;
unsigned int test_num;
for (test_num = 0; test_num < NB_APP_ASC2STR; test_num++) {
dest_str.Length = app_asc2str[test_num].dest_Length;
dest_str.MaximumLength = app_asc2str[test_num].dest_MaximumLength;
if (app_asc2str[test_num].dest_buf != NULL) {
memcpy(dest_buf, app_asc2str[test_num].dest_buf, app_asc2str[test_num].dest_buf_size);
dest_buf[app_asc2str[test_num].dest_buf_size] = '\0';
dest_str.Buffer = dest_buf;
} else {
dest_str.Buffer = NULL;
}
result = pRtlAppendAsciizToString(&dest_str, app_asc2str[test_num].src);
ok(result == app_asc2str[test_num].result,
"(test %d): RtlAppendAsciizToString(dest, src) has result %x, expected %x\n",
test_num, result, app_asc2str[test_num].result);
ok(dest_str.Length == app_asc2str[test_num].res_Length,
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"(test %d): RtlAppendAsciizToString(dest, src) dest has Length %d, expected %d\n",
test_num, dest_str.Length, app_asc2str[test_num].res_Length);
ok(dest_str.MaximumLength == app_asc2str[test_num].res_MaximumLength,
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"(test %d): RtlAppendAsciizToString(dest, src) dest has MaximumLength %d, expected %d\n",
test_num, dest_str.MaximumLength, app_asc2str[test_num].res_MaximumLength);
if (dest_str.Buffer == dest_buf) {
ok(memcmp(dest_buf, app_asc2str[test_num].res_buf, app_asc2str[test_num].res_buf_size) == 0,
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"(test %d): RtlAppendAsciizToString(dest, src) has dest \"%s\" expected \"%s\"\n",
test_num, dest_buf, app_asc2str[test_num].res_buf);
} else {
ok(dest_str.Buffer == app_asc2str[test_num].res_buf,
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"(test %d): RtlAppendAsciizToString(dest, src) dest has Buffer %p expected %p\n",
test_num, dest_str.Buffer, app_asc2str[test_num].res_buf);
}
}
}
typedef struct {
int dest_Length;
int dest_MaximumLength;
int dest_buf_size;
const char *dest_buf;
int src_Length;
int src_MaximumLength;
int src_buf_size;
const char *src_buf;
int res_Length;
int res_MaximumLength;
int res_buf_size;
const char *res_buf;
NTSTATUS result;
} app_str2str_t;
static const app_str2str_t app_str2str[] = {
{ 5, 12, 15, "TestS01234abcde", 5, 5, 7, "tringZY", 10, 12, 15, "TestStringabcde", STATUS_SUCCESS},
{ 5, 11, 15, "TestS01234abcde", 5, 5, 7, "tringZY", 10, 11, 15, "TestStringabcde", STATUS_SUCCESS},
{ 5, 10, 15, "TestS01234abcde", 5, 5, 7, "tringZY", 10, 10, 15, "TestStringabcde", STATUS_SUCCESS},
{ 5, 9, 15, "TestS01234abcde", 5, 5, 7, "tringZY", 5, 9, 15, "TestS01234abcde", STATUS_BUFFER_TOO_SMALL},
{ 5, 0, 15, "TestS01234abcde", 0, 0, 7, "tringZY", 5, 0, 15, "TestS01234abcde", STATUS_SUCCESS},
{ 5, 14, 15, "TestS01234abcde", 0, 0, 7, "tringZY", 5, 14, 15, "TestS01234abcde", STATUS_SUCCESS},
{ 5, 14, 15, "TestS01234abcde", 0, 0, 7, NULL, 5, 14, 15, "TestS01234abcde", STATUS_SUCCESS},
{ 5, 14, 15, NULL, 0, 0, 7, NULL, 5, 14, 15, NULL, STATUS_SUCCESS},
{ 5, 12, 15, "Tst\0S01234abcde", 4, 4, 7, "tr\0iZY", 9, 12, 15, "Tst\0Str\0i4abcde", STATUS_SUCCESS},
};
#define NB_APP_STR2STR (sizeof(app_str2str)/sizeof(*app_str2str))
static void test_RtlAppendStringToString(void)
{
CHAR dest_buf[257];
CHAR src_buf[257];
STRING dest_str;
STRING src_str;
NTSTATUS result;
unsigned int test_num;
for (test_num = 0; test_num < NB_APP_STR2STR; test_num++) {
dest_str.Length = app_str2str[test_num].dest_Length;
dest_str.MaximumLength = app_str2str[test_num].dest_MaximumLength;
if (app_str2str[test_num].dest_buf != NULL) {
memcpy(dest_buf, app_str2str[test_num].dest_buf, app_str2str[test_num].dest_buf_size);
dest_buf[app_str2str[test_num].dest_buf_size] = '\0';
dest_str.Buffer = dest_buf;
} else {
dest_str.Buffer = NULL;
}
src_str.Length = app_str2str[test_num].src_Length;
src_str.MaximumLength = app_str2str[test_num].src_MaximumLength;
if (app_str2str[test_num].src_buf != NULL) {
memcpy(src_buf, app_str2str[test_num].src_buf, app_str2str[test_num].src_buf_size);
src_buf[app_str2str[test_num].src_buf_size] = '\0';
src_str.Buffer = src_buf;
} else {
src_str.Buffer = NULL;
}
result = pRtlAppendStringToString(&dest_str, &src_str);
ok(result == app_str2str[test_num].result,
"(test %d): RtlAppendStringToString(dest, src) has result %x, expected %x\n",
test_num, result, app_str2str[test_num].result);
ok(dest_str.Length == app_str2str[test_num].res_Length,
2004-02-07 02:03:17 +01:00
"(test %d): RtlAppendStringToString(dest, src) dest has Length %d, expected %d\n",
test_num, dest_str.Length, app_str2str[test_num].res_Length);
ok(dest_str.MaximumLength == app_str2str[test_num].res_MaximumLength,
2004-02-07 02:03:17 +01:00
"(test %d): RtlAppendStringToString(dest, src) dest has MaximumLength %d, expected %d\n",
test_num, dest_str.MaximumLength, app_str2str[test_num].res_MaximumLength);
if (dest_str.Buffer == dest_buf) {
ok(memcmp(dest_buf, app_str2str[test_num].res_buf, app_str2str[test_num].res_buf_size) == 0,
2004-02-07 02:03:17 +01:00
"(test %d): RtlAppendStringToString(dest, src) has dest \"%s\" expected \"%s\"\n",
test_num, dest_buf, app_str2str[test_num].res_buf);
} else {
ok(dest_str.Buffer == app_str2str[test_num].res_buf,
2004-02-07 02:03:17 +01:00
"(test %d): RtlAppendStringToString(dest, src) dest has Buffer %p expected %p\n",
test_num, dest_str.Buffer, app_str2str[test_num].res_buf);
}
}
}
typedef struct {
int dest_Length;
int dest_MaximumLength;
int dest_buf_size;
const char *dest_buf;
const char *src;
int res_Length;
int res_MaximumLength;
int res_buf_size;
const char *res_buf;
NTSTATUS result;
} app_uni2str_t;
static const app_uni2str_t app_uni2str[] = {
{ 4, 12, 14, "Fake0123abcdef", "Ustr\0", 8, 12, 14, "FakeUstr\0\0cdef", STATUS_SUCCESS},
{ 4, 11, 14, "Fake0123abcdef", "Ustr\0", 8, 11, 14, "FakeUstr\0\0cdef", STATUS_SUCCESS},
{ 4, 10, 14, "Fake0123abcdef", "Ustr\0", 8, 10, 14, "FakeUstr\0\0cdef", STATUS_SUCCESS},
2003-07-19 05:06:03 +02:00
/* In the following test the native function writes beyond MaximumLength
* { 4, 9, 14, "Fake0123abcdef", "Ustr\0", 8, 9, 14, "FakeUstrabcdef", STATUS_SUCCESS},
*/
{ 4, 8, 14, "Fake0123abcdef", "Ustr\0", 8, 8, 14, "FakeUstrabcdef", STATUS_SUCCESS},
{ 4, 7, 14, "Fake0123abcdef", "Ustr\0", 4, 7, 14, "Fake0123abcdef", STATUS_BUFFER_TOO_SMALL},
{ 4, 0, 14, "Fake0123abcdef", "Ustr\0", 4, 0, 14, "Fake0123abcdef", STATUS_BUFFER_TOO_SMALL},
{ 4, 14, 14, "Fake0123abcdef", "Ustr\0", 8, 14, 14, "FakeUstr\0\0cdef", STATUS_SUCCESS},
{ 4, 14, 14, "Fake0123abcdef", NULL, 4, 14, 14, "Fake0123abcdef", STATUS_SUCCESS},
{ 4, 14, 14, NULL, NULL, 4, 14, 14, NULL, STATUS_SUCCESS},
{ 4, 14, 14, "Fake0123abcdef", "U\0stri\0", 10, 14, 14, "FakeU\0stri\0\0ef", STATUS_SUCCESS},
{ 6, 14, 16, "Te\0\0stabcdefghij", "St\0\0ri", 8, 14, 16, "Te\0\0stSt\0\0efghij", STATUS_SUCCESS},
};
#define NB_APP_UNI2STR (sizeof(app_uni2str)/sizeof(*app_uni2str))
static void test_RtlAppendUnicodeToString(void)
{
WCHAR dest_buf[257];
UNICODE_STRING dest_str;
NTSTATUS result;
unsigned int test_num;
for (test_num = 0; test_num < NB_APP_UNI2STR; test_num++) {
dest_str.Length = app_uni2str[test_num].dest_Length;
dest_str.MaximumLength = app_uni2str[test_num].dest_MaximumLength;
if (app_uni2str[test_num].dest_buf != NULL) {
memcpy(dest_buf, app_uni2str[test_num].dest_buf, app_uni2str[test_num].dest_buf_size);
dest_buf[app_uni2str[test_num].dest_buf_size/sizeof(WCHAR)] = '\0';
dest_str.Buffer = dest_buf;
} else {
dest_str.Buffer = NULL;
}
result = pRtlAppendUnicodeToString(&dest_str, (LPCWSTR) app_uni2str[test_num].src);
ok(result == app_uni2str[test_num].result,
"(test %d): RtlAppendUnicodeToString(dest, src) has result %x, expected %x\n",
test_num, result, app_uni2str[test_num].result);
ok(dest_str.Length == app_uni2str[test_num].res_Length,
2004-02-07 02:03:17 +01:00
"(test %d): RtlAppendUnicodeToString(dest, src) dest has Length %d, expected %d\n",
test_num, dest_str.Length, app_uni2str[test_num].res_Length);
ok(dest_str.MaximumLength == app_uni2str[test_num].res_MaximumLength,
2004-02-07 02:03:17 +01:00
"(test %d): RtlAppendUnicodeToString(dest, src) dest has MaximumLength %d, expected %d\n",
test_num, dest_str.MaximumLength, app_uni2str[test_num].res_MaximumLength);
if (dest_str.Buffer == dest_buf) {
ok(memcmp(dest_buf, app_uni2str[test_num].res_buf, app_uni2str[test_num].res_buf_size) == 0,
2004-02-07 02:03:17 +01:00
"(test %d): RtlAppendUnicodeToString(dest, src) has dest \"%s\" expected \"%s\"\n",
test_num, (char *) dest_buf, app_uni2str[test_num].res_buf);
} else {
ok(dest_str.Buffer == (WCHAR *) app_uni2str[test_num].res_buf,
2004-02-07 02:03:17 +01:00
"(test %d): RtlAppendUnicodeToString(dest, src) dest has Buffer %p expected %p\n",
test_num, dest_str.Buffer, app_uni2str[test_num].res_buf);
}
}
}
typedef struct {
int dest_Length;
int dest_MaximumLength;
int dest_buf_size;
const char *dest_buf;
int src_Length;
int src_MaximumLength;
int src_buf_size;
const char *src_buf;
int res_Length;
int res_MaximumLength;
int res_buf_size;
const char *res_buf;
NTSTATUS result;
} app_ustr2str_t;
static const app_ustr2str_t app_ustr2str[] = {
{ 4, 12, 14, "Fake0123abcdef", 4, 6, 8, "UstrZYXW", 8, 12, 14, "FakeUstr\0\0cdef", STATUS_SUCCESS},
{ 4, 11, 14, "Fake0123abcdef", 4, 6, 8, "UstrZYXW", 8, 11, 14, "FakeUstr\0\0cdef", STATUS_SUCCESS},
{ 4, 10, 14, "Fake0123abcdef", 4, 6, 8, "UstrZYXW", 8, 10, 14, "FakeUstr\0\0cdef", STATUS_SUCCESS},
/* In the following test the native function writes beyond MaximumLength
* { 4, 9, 14, "Fake0123abcdef", 4, 6, 8, "UstrZYXW", 8, 9, 14, "FakeUstrabcdef", STATUS_SUCCESS},
*/
{ 4, 8, 14, "Fake0123abcdef", 4, 6, 8, "UstrZYXW", 8, 8, 14, "FakeUstrabcdef", STATUS_SUCCESS},
{ 4, 7, 14, "Fake0123abcdef", 4, 6, 8, "UstrZYXW", 4, 7, 14, "Fake0123abcdef", STATUS_BUFFER_TOO_SMALL},
{ 4, 0, 14, "Fake0123abcdef", 0, 0, 8, "UstrZYXW", 4, 0, 14, "Fake0123abcdef", STATUS_SUCCESS},
{ 4, 14, 14, "Fake0123abcdef", 0, 0, 8, "UstrZYXW", 4, 14, 14, "Fake0123abcdef", STATUS_SUCCESS},
{ 4, 14, 14, "Fake0123abcdef", 0, 0, 8, NULL, 4, 14, 14, "Fake0123abcdef", STATUS_SUCCESS},
{ 4, 14, 14, NULL, 0, 0, 8, NULL, 4, 14, 14, NULL, STATUS_SUCCESS},
{ 6, 14, 16, "Te\0\0stabcdefghij", 6, 8, 8, "St\0\0riZY", 12, 14, 16, "Te\0\0stSt\0\0ri\0\0ij", STATUS_SUCCESS},
};
#define NB_APP_USTR2STR (sizeof(app_ustr2str)/sizeof(*app_ustr2str))
static void test_RtlAppendUnicodeStringToString(void)
{
WCHAR dest_buf[257];
WCHAR src_buf[257];
UNICODE_STRING dest_str;
UNICODE_STRING src_str;
NTSTATUS result;
unsigned int test_num;
for (test_num = 0; test_num < NB_APP_USTR2STR; test_num++) {
dest_str.Length = app_ustr2str[test_num].dest_Length;
dest_str.MaximumLength = app_ustr2str[test_num].dest_MaximumLength;
if (app_ustr2str[test_num].dest_buf != NULL) {
memcpy(dest_buf, app_ustr2str[test_num].dest_buf, app_ustr2str[test_num].dest_buf_size);
dest_buf[app_ustr2str[test_num].dest_buf_size/sizeof(WCHAR)] = '\0';
dest_str.Buffer = dest_buf;
} else {
dest_str.Buffer = NULL;
}
src_str.Length = app_ustr2str[test_num].src_Length;
src_str.MaximumLength = app_ustr2str[test_num].src_MaximumLength;
if (app_ustr2str[test_num].src_buf != NULL) {
memcpy(src_buf, app_ustr2str[test_num].src_buf, app_ustr2str[test_num].src_buf_size);
src_buf[app_ustr2str[test_num].src_buf_size/sizeof(WCHAR)] = '\0';
src_str.Buffer = src_buf;
} else {
src_str.Buffer = NULL;
}
result = pRtlAppendUnicodeStringToString(&dest_str, &src_str);
ok(result == app_ustr2str[test_num].result,
"(test %d): RtlAppendStringToString(dest, src) has result %x, expected %x\n",
test_num, result, app_ustr2str[test_num].result);
ok(dest_str.Length == app_ustr2str[test_num].res_Length,
2004-02-07 02:03:17 +01:00
"(test %d): RtlAppendStringToString(dest, src) dest has Length %d, expected %d\n",
test_num, dest_str.Length, app_ustr2str[test_num].res_Length);
ok(dest_str.MaximumLength == app_ustr2str[test_num].res_MaximumLength,
2004-02-07 02:03:17 +01:00
"(test %d): RtlAppendStringToString(dest, src) dest has MaximumLength %d, expected %d\n",
test_num, dest_str.MaximumLength, app_ustr2str[test_num].res_MaximumLength);
if (dest_str.Buffer == dest_buf) {
ok(memcmp(dest_buf, app_ustr2str[test_num].res_buf, app_ustr2str[test_num].res_buf_size) == 0,
2004-02-07 02:03:17 +01:00
"(test %d): RtlAppendStringToString(dest, src) has dest \"%s\" expected \"%s\"\n",
test_num, (char *) dest_buf, app_ustr2str[test_num].res_buf);
} else {
ok(dest_str.Buffer == (WCHAR *) app_ustr2str[test_num].res_buf,
2004-02-07 02:03:17 +01:00
"(test %d): RtlAppendStringToString(dest, src) dest has Buffer %p expected %p\n",
test_num, dest_str.Buffer, app_ustr2str[test_num].res_buf);
}
}
}
typedef struct {
int flags;
const char *main_str;
const char *search_chars;
USHORT pos;
NTSTATUS result;
} find_ch_in_ustr_t;
static const find_ch_in_ustr_t find_ch_in_ustr[] = {
{ 0, "Some Wild String", "S", 2, STATUS_SUCCESS},
{ 0, "This is a String", "String", 6, STATUS_SUCCESS},
{ 1, "This is a String", "String", 30, STATUS_SUCCESS},
{ 2, "This is a String", "String", 2, STATUS_SUCCESS},
{ 3, "This is a String", "String", 18, STATUS_SUCCESS},
{ 0, "This is a String", "Wild", 6, STATUS_SUCCESS},
{ 1, "This is a String", "Wild", 26, STATUS_SUCCESS},
{ 2, "This is a String", "Wild", 2, STATUS_SUCCESS},
{ 3, "This is a String", "Wild", 30, STATUS_SUCCESS},
{ 0, "abcdefghijklmnopqrstuvwxyz", "", 0, STATUS_NOT_FOUND},
{ 0, "abcdefghijklmnopqrstuvwxyz", "123", 0, STATUS_NOT_FOUND},
{ 0, "abcdefghijklmnopqrstuvwxyz", "a", 2, STATUS_SUCCESS},
{ 0, "abcdefghijklmnopqrstuvwxyz", "12a34", 2, STATUS_SUCCESS},
{ 0, "abcdefghijklmnopqrstuvwxyz", "12b34", 4, STATUS_SUCCESS},
{ 0, "abcdefghijklmnopqrstuvwxyz", "12y34", 50, STATUS_SUCCESS},
{ 0, "abcdefghijklmnopqrstuvwxyz", "12z34", 52, STATUS_SUCCESS},
{ 0, "abcdefghijklmnopqrstuvwxyz", "rvz", 36, STATUS_SUCCESS},
{ 0, "abcdefghijklmmlkjihgfedcba", "egik", 10, STATUS_SUCCESS},
{ 1, "abcdefghijklmnopqrstuvwxyz", "", 0, STATUS_NOT_FOUND},
{ 1, "abcdefghijklmnopqrstuvwxyz", "rvz", 50, STATUS_SUCCESS},
{ 1, "abcdefghijklmnopqrstuvwxyz", "ravy", 48, STATUS_SUCCESS},
{ 1, "abcdefghijklmnopqrstuvwxyz", "raxv", 46, STATUS_SUCCESS},
{ 2, "abcdefghijklmnopqrstuvwxyz", "", 2, STATUS_SUCCESS},
{ 2, "abcdefghijklmnopqrstuvwxyz", "rvz", 2, STATUS_SUCCESS},
{ 2, "abcdefghijklmnopqrstuvwxyz", "vaz", 4, STATUS_SUCCESS},
{ 2, "abcdefghijklmnopqrstuvwxyz", "ravbz", 6, STATUS_SUCCESS},
{ 3, "abcdefghijklmnopqrstuvwxyz", "", 50, STATUS_SUCCESS},
{ 3, "abcdefghijklmnopqrstuvwxyz", "123", 50, STATUS_SUCCESS},
{ 3, "abcdefghijklmnopqrstuvwxyz", "ahp", 50, STATUS_SUCCESS},
{ 3, "abcdefghijklmnopqrstuvwxyz", "rvz", 48, STATUS_SUCCESS},
{ 0, NULL, "abc", 0, STATUS_NOT_FOUND},
{ 1, NULL, "abc", 0, STATUS_NOT_FOUND},
{ 2, NULL, "abc", 0, STATUS_NOT_FOUND},
{ 3, NULL, "abc", 0, STATUS_NOT_FOUND},
{ 0, "abcdefghijklmnopqrstuvwxyz", NULL, 0, STATUS_NOT_FOUND},
{ 1, "abcdefghijklmnopqrstuvwxyz", NULL, 0, STATUS_NOT_FOUND},
{ 2, "abcdefghijklmnopqrstuvwxyz", NULL, 2, STATUS_SUCCESS},
{ 3, "abcdefghijklmnopqrstuvwxyz", NULL, 50, STATUS_SUCCESS},
{ 0, NULL, NULL, 0, STATUS_NOT_FOUND},
{ 1, NULL, NULL, 0, STATUS_NOT_FOUND},
{ 2, NULL, NULL, 0, STATUS_NOT_FOUND},
{ 3, NULL, NULL, 0, STATUS_NOT_FOUND},
{ 0, "abcdabcdabcdabcdabcdabcd", "abcd", 2, STATUS_SUCCESS},
{ 1, "abcdabcdabcdabcdabcdabcd", "abcd", 46, STATUS_SUCCESS},
{ 2, "abcdabcdabcdabcdabcdabcd", "abcd", 0, STATUS_NOT_FOUND},
{ 3, "abcdabcdabcdabcdabcdabcd", "abcd", 0, STATUS_NOT_FOUND},
};
#define NB_FIND_CH_IN_USTR (sizeof(find_ch_in_ustr)/sizeof(*find_ch_in_ustr))
static void test_RtlFindCharInUnicodeString(void)
{
WCHAR main_str_buf[257];
WCHAR search_chars_buf[257];
UNICODE_STRING main_str;
UNICODE_STRING search_chars;
USHORT pos;
NTSTATUS result;
unsigned int idx;
unsigned int test_num;
for (test_num = 0; test_num < NB_FIND_CH_IN_USTR; test_num++) {
if (find_ch_in_ustr[test_num].main_str != NULL) {
main_str.Length = strlen(find_ch_in_ustr[test_num].main_str) * sizeof(WCHAR);
main_str.MaximumLength = main_str.Length + sizeof(WCHAR);
for (idx = 0; idx < main_str.Length / sizeof(WCHAR); idx++) {
main_str_buf[idx] = find_ch_in_ustr[test_num].main_str[idx];
}
main_str.Buffer = main_str_buf;
} else {
main_str.Length = 0;
main_str.MaximumLength = 0;
main_str.Buffer = NULL;
}
if (find_ch_in_ustr[test_num].search_chars != NULL) {
search_chars.Length = strlen(find_ch_in_ustr[test_num].search_chars) * sizeof(WCHAR);
search_chars.MaximumLength = search_chars.Length + sizeof(WCHAR);
for (idx = 0; idx < search_chars.Length / sizeof(WCHAR); idx++) {
search_chars_buf[idx] = find_ch_in_ustr[test_num].search_chars[idx];
}
search_chars.Buffer = search_chars_buf;
} else {
search_chars.Length = 0;
search_chars.MaximumLength = 0;
search_chars.Buffer = NULL;
}
pos = 12345;
result = pRtlFindCharInUnicodeString(find_ch_in_ustr[test_num].flags, &main_str, &search_chars, &pos);
ok(result == find_ch_in_ustr[test_num].result,
"(test %d): RtlFindCharInUnicodeString(%d, %s, %s, [out]) has result %x, expected %x\n",
test_num, find_ch_in_ustr[test_num].flags,
find_ch_in_ustr[test_num].main_str, find_ch_in_ustr[test_num].search_chars,
result, find_ch_in_ustr[test_num].result);
ok(pos == find_ch_in_ustr[test_num].pos,
2004-02-07 02:03:17 +01:00
"(test %d): RtlFindCharInUnicodeString(%d, %s, %s, [out]) assigns %d to pos, expected %d\n",
test_num, find_ch_in_ustr[test_num].flags,
find_ch_in_ustr[test_num].main_str, find_ch_in_ustr[test_num].search_chars,
pos, find_ch_in_ustr[test_num].pos);
}
}
typedef struct {
int base;
const char *str;
int value;
NTSTATUS result;
} str2int_t;
static const str2int_t str2int[] = {
{ 0, "1011101100", 1011101100, STATUS_SUCCESS},
{ 0, "1234567", 1234567, STATUS_SUCCESS},
{ 0, "-214", -214, STATUS_SUCCESS},
{ 0, "+214", 214, STATUS_SUCCESS}, /* The + sign is allowed also */
{ 0, "--214", 0, STATUS_SUCCESS}, /* Do not accept more than one sign */
{ 0, "-+214", 0, STATUS_SUCCESS},
{ 0, "++214", 0, STATUS_SUCCESS},
{ 0, "+-214", 0, STATUS_SUCCESS},
{ 0, "\001\002\003\00411", 11, STATUS_SUCCESS}, /* whitespace char 1 to 4 */
{ 0, "\005\006\007\01012", 12, STATUS_SUCCESS}, /* whitespace char 5 to 8 */
{ 0, "\011\012\013\01413", 13, STATUS_SUCCESS}, /* whitespace char 9 to 12 */
{ 0, "\015\016\017\02014", 14, STATUS_SUCCESS}, /* whitespace char 13 to 16 */
{ 0, "\021\022\023\02415", 15, STATUS_SUCCESS}, /* whitespace char 17 to 20 */
{ 0, "\025\026\027\03016", 16, STATUS_SUCCESS}, /* whitespace char 21 to 24 */
{ 0, "\031\032\033\03417", 17, STATUS_SUCCESS}, /* whitespace char 25 to 28 */
{ 0, "\035\036\037\04018", 18, STATUS_SUCCESS}, /* whitespace char 29 to 32 */
{ 0, " \n \r \t214", 214, STATUS_SUCCESS},
{ 0, " \n \r \t+214", 214, STATUS_SUCCESS}, /* Signs can be used after whitespace */
{ 0, " \n \r \t-214", -214, STATUS_SUCCESS},
{ 0, "+214 0", 214, STATUS_SUCCESS}, /* Space terminates the number */
{ 0, " 214.01", 214, STATUS_SUCCESS}, /* Decimal point not accepted */
{ 0, " 214,01", 214, STATUS_SUCCESS}, /* Decimal comma not accepted */
{ 0, "f81", 0, STATUS_SUCCESS},
{ 0, "0x12345", 0x12345, STATUS_SUCCESS}, /* Hex */
{ 0, "00x12345", 0, STATUS_SUCCESS},
{ 0, "0xx12345", 0, STATUS_SUCCESS},
{ 0, "1x34", 1, STATUS_SUCCESS},
{ 0, "-9999999999", -1410065407, STATUS_SUCCESS}, /* Big negative integer */
{ 0, "-2147483649", 2147483647, STATUS_SUCCESS}, /* Too small to fit in 32 Bits */
{ 0, "-2147483648", 0x80000000L, STATUS_SUCCESS}, /* Smallest negative integer */
{ 0, "-2147483647", -2147483647, STATUS_SUCCESS},
{ 0, "-1", -1, STATUS_SUCCESS},
{ 0, "0", 0, STATUS_SUCCESS},
{ 0, "1", 1, STATUS_SUCCESS},
{ 0, "2147483646", 2147483646, STATUS_SUCCESS},
{ 0, "2147483647", 2147483647, STATUS_SUCCESS}, /* Largest signed positive integer */
{ 0, "2147483648", 0x80000000L, STATUS_SUCCESS}, /* Positive int equal to smallest negative int */
{ 0, "2147483649", -2147483647, STATUS_SUCCESS},
{ 0, "4294967294", -2, STATUS_SUCCESS},
{ 0, "4294967295", -1, STATUS_SUCCESS}, /* Largest unsigned integer */
{ 0, "4294967296", 0, STATUS_SUCCESS}, /* Too big to fit in 32 Bits */
{ 0, "9999999999", 1410065407, STATUS_SUCCESS}, /* Big positive integer */
{ 0, "056789", 56789, STATUS_SUCCESS}, /* Leading zero and still decimal */
{ 0, "b1011101100", 0, STATUS_SUCCESS}, /* Binary (b-notation) */
{ 0, "-b1011101100", 0, STATUS_SUCCESS}, /* Negative Binary (b-notation) */
{ 0, "b10123456789", 0, STATUS_SUCCESS}, /* Binary with nonbinary digits (2-9) */
{ 0, "0b1011101100", 748, STATUS_SUCCESS}, /* Binary (0b-notation) */
{ 0, "-0b1011101100", -748, STATUS_SUCCESS}, /* Negative binary (0b-notation) */
{ 0, "0b10123456789", 5, STATUS_SUCCESS}, /* Binary with nonbinary digits (2-9) */
{ 0, "-0b10123456789", -5, STATUS_SUCCESS}, /* Negative binary with nonbinary digits (2-9) */
{ 0, "0b1", 1, STATUS_SUCCESS}, /* one digit binary */
{ 0, "0b2", 0, STATUS_SUCCESS}, /* empty binary */
{ 0, "0b", 0, STATUS_SUCCESS}, /* empty binary */
{ 0, "o1234567", 0, STATUS_SUCCESS}, /* Octal (o-notation) */
{ 0, "-o1234567", 0, STATUS_SUCCESS}, /* Negative Octal (o-notation) */
{ 0, "o56789", 0, STATUS_SUCCESS}, /* Octal with nonoctal digits (8 and 9) */
{ 0, "0o1234567", 01234567, STATUS_SUCCESS}, /* Octal (0o-notation) */
{ 0, "-0o1234567", -01234567, STATUS_SUCCESS}, /* Negative octal (0o-notation) */
{ 0, "0o56789", 0567, STATUS_SUCCESS}, /* Octal with nonoctal digits (8 and 9) */
{ 0, "-0o56789", -0567, STATUS_SUCCESS}, /* Negative octal with nonoctal digits (8 and 9) */
{ 0, "0o7", 7, STATUS_SUCCESS}, /* one digit octal */
{ 0, "0o8", 0, STATUS_SUCCESS}, /* empty octal */
{ 0, "0o", 0, STATUS_SUCCESS}, /* empty octal */
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{ 0, "0d1011101100", 0, STATUS_SUCCESS}, /* explicit decimal with 0d */
{ 0, "x89abcdef", 0, STATUS_SUCCESS}, /* Hex with lower case digits a-f (x-notation) */
{ 0, "xFEDCBA00", 0, STATUS_SUCCESS}, /* Hex with upper case digits A-F (x-notation) */
{ 0, "-xFEDCBA00", 0, STATUS_SUCCESS}, /* Negative Hexadecimal (x-notation) */
{ 0, "0x89abcdef", 0x89abcdef, STATUS_SUCCESS}, /* Hex with lower case digits a-f (0x-notation) */
{ 0, "0xFEDCBA00", 0xFEDCBA00, STATUS_SUCCESS}, /* Hex with upper case digits A-F (0x-notation) */
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{ 0, "-0xFEDCBA00", 19088896, STATUS_SUCCESS}, /* Negative Hexadecimal (0x-notation) */
{ 0, "0xabcdefgh", 0xabcdef, STATUS_SUCCESS}, /* Hex with illegal lower case digits (g-z) */
{ 0, "0xABCDEFGH", 0xABCDEF, STATUS_SUCCESS}, /* Hex with illegal upper case digits (G-Z) */
{ 0, "0xF", 0xf, STATUS_SUCCESS}, /* one digit hexadecimal */
{ 0, "0xG", 0, STATUS_SUCCESS}, /* empty hexadecimal */
{ 0, "0x", 0, STATUS_SUCCESS}, /* empty hexadecimal */
{ 0, "", 0, STATUS_SUCCESS}, /* empty string */
{ 2, "1011101100", 748, STATUS_SUCCESS},
{ 2, "-1011101100", -748, STATUS_SUCCESS},
{ 2, "2", 0, STATUS_SUCCESS},
{ 2, "0b1011101100", 0, STATUS_SUCCESS},
{ 2, "0o1011101100", 0, STATUS_SUCCESS},
{ 2, "0d1011101100", 0, STATUS_SUCCESS},
{ 2, "0x1011101100", 0, STATUS_SUCCESS},
{ 2, "", 0, STATUS_SUCCESS}, /* empty string */
{ 8, "1011101100", 136610368, STATUS_SUCCESS},
{ 8, "-1011101100", -136610368, STATUS_SUCCESS},
{ 8, "8", 0, STATUS_SUCCESS},
{ 8, "0b1011101100", 0, STATUS_SUCCESS},
{ 8, "0o1011101100", 0, STATUS_SUCCESS},
{ 8, "0d1011101100", 0, STATUS_SUCCESS},
{ 8, "0x1011101100", 0, STATUS_SUCCESS},
{ 8, "", 0, STATUS_SUCCESS}, /* empty string */
{10, "1011101100", 1011101100, STATUS_SUCCESS},
{10, "-1011101100", -1011101100, STATUS_SUCCESS},
{10, "0b1011101100", 0, STATUS_SUCCESS},
{10, "0o1011101100", 0, STATUS_SUCCESS},
{10, "0d1011101100", 0, STATUS_SUCCESS},
{10, "0x1011101100", 0, STATUS_SUCCESS},
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{10, "o12345", 0, STATUS_SUCCESS}, /* Octal although base is 10 */
{10, "", 0, STATUS_SUCCESS}, /* empty string */
{16, "1011101100", 286265600, STATUS_SUCCESS},
{16, "-1011101100", -286265600, STATUS_SUCCESS},
{16, "G", 0, STATUS_SUCCESS},
{16, "g", 0, STATUS_SUCCESS},
{16, "0b1011101100", 286265600, STATUS_SUCCESS},
{16, "0o1011101100", 0, STATUS_SUCCESS},
{16, "0d1011101100", 286265600, STATUS_SUCCESS},
{16, "0x1011101100", 0, STATUS_SUCCESS},
{16, "", 0, STATUS_SUCCESS}, /* empty string */
{20, "0", 0xdeadbeef, STATUS_INVALID_PARAMETER}, /* illegal base */
{-8, "0", 0xdeadbeef, STATUS_INVALID_PARAMETER}, /* Negative base */
/* { 0, NULL, 0, STATUS_SUCCESS}, */ /* NULL as string */
};
#define NB_STR2INT (sizeof(str2int)/sizeof(*str2int))
static void test_RtlUnicodeStringToInteger(void)
{
unsigned int test_num;
int value;
NTSTATUS result;
WCHAR *wstr;
UNICODE_STRING uni;
for (test_num = 0; test_num < NB_STR2INT; test_num++) {
wstr = AtoW(str2int[test_num].str);
value = 0xdeadbeef;
pRtlInitUnicodeString(&uni, wstr);
result = pRtlUnicodeStringToInteger(&uni, str2int[test_num].base, &value);
ok(result == str2int[test_num].result,
"(test %d): RtlUnicodeStringToInteger(\"%s\", %d, [out]) has result %x, expected: %x\n",
test_num, str2int[test_num].str, str2int[test_num].base, result, str2int[test_num].result);
ok(value == str2int[test_num].value,
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"(test %d): RtlUnicodeStringToInteger(\"%s\", %d, [out]) assigns value %d, expected: %d\n",
test_num, str2int[test_num].str, str2int[test_num].base, value, str2int[test_num].value);
free(wstr);
}
wstr = AtoW(str2int[1].str);
pRtlInitUnicodeString(&uni, wstr);
result = pRtlUnicodeStringToInteger(&uni, str2int[1].base, NULL);
ok(result == STATUS_ACCESS_VIOLATION,
"call failed: RtlUnicodeStringToInteger(\"%s\", %d, NULL) has result %x\n",
str2int[1].str, str2int[1].base, result);
result = pRtlUnicodeStringToInteger(&uni, 20, NULL);
ok(result == STATUS_INVALID_PARAMETER,
"call failed: RtlUnicodeStringToInteger(\"%s\", 20, NULL) has result %x\n",
str2int[1].str, result);
uni.Length = 10; /* Make Length shorter (5 WCHARS instead of 7) */
result = pRtlUnicodeStringToInteger(&uni, str2int[1].base, &value);
ok(result == STATUS_SUCCESS,
"call failed: RtlUnicodeStringToInteger(\"12345\", %d, [out]) has result %x\n",
str2int[1].base, result);
ok(value == 12345,
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"didn't return expected value (test a): expected: %d, got: %d\n",
12345, value);
uni.Length = 5; /* Use odd Length (2.5 WCHARS) */
result = pRtlUnicodeStringToInteger(&uni, str2int[1].base, &value);
ok(result == STATUS_SUCCESS,
"call failed: RtlUnicodeStringToInteger(\"12\", %d, [out]) has result %x\n",
str2int[1].base, result);
ok(value == 12,
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"didn't return expected value (test b): expected: %d, got: %d\n",
12, value);
uni.Length = 2;
result = pRtlUnicodeStringToInteger(&uni, str2int[1].base, &value);
ok(result == STATUS_SUCCESS,
"call failed: RtlUnicodeStringToInteger(\"1\", %d, [out]) has result %x\n",
str2int[1].base, result);
ok(value == 1,
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"didn't return expected value (test c): expected: %d, got: %d\n",
1, value);
/* w2k: uni.Length = 0 returns value 11234567 instead of 0 */
free(wstr);
}
static void test_RtlCharToInteger(void)
{
unsigned int test_num;
int value;
NTSTATUS result;
for (test_num = 0; test_num < NB_STR2INT; test_num++) {
/* w2k skips a leading '\0' and processes the string after */
if (str2int[test_num].str[0] != '\0') {
value = 0xdeadbeef;
result = pRtlCharToInteger(str2int[test_num].str, str2int[test_num].base, &value);
ok(result == str2int[test_num].result,
"(test %d): call failed: RtlCharToInteger(\"%s\", %d, [out]) has result %x, expected: %x\n",
test_num, str2int[test_num].str, str2int[test_num].base, result, str2int[test_num].result);
ok(value == str2int[test_num].value,
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"(test %d): call failed: RtlCharToInteger(\"%s\", %d, [out]) assigns value %d, expected: %d\n",
test_num, str2int[test_num].str, str2int[test_num].base, value, str2int[test_num].value);
}
}
result = pRtlCharToInteger(str2int[1].str, str2int[1].base, NULL);
ok(result == STATUS_ACCESS_VIOLATION,
"call failed: RtlCharToInteger(\"%s\", %d, NULL) has result %x\n",
str2int[1].str, str2int[1].base, result);
result = pRtlCharToInteger(str2int[1].str, 20, NULL);
ok(result == STATUS_INVALID_PARAMETER,
"call failed: RtlCharToInteger(\"%s\", 20, NULL) has result %x\n",
str2int[1].str, result);
}
#define STRI_BUFFER_LENGTH 35
typedef struct {
int base;
ULONG value;
USHORT Length;
USHORT MaximumLength;
const char *Buffer;
NTSTATUS result;
} int2str_t;
static const int2str_t int2str[] = {
{10, 123, 3, 11, "123\0-------------------------------", STATUS_SUCCESS},
{ 0, 0x80000000U, 10, 11, "2147483648\0------------------------", STATUS_SUCCESS}, /* min signed int */
{ 0, -2147483647, 10, 11, "2147483649\0------------------------", STATUS_SUCCESS},
{ 0, -2, 10, 11, "4294967294\0------------------------", STATUS_SUCCESS},
{ 0, -1, 10, 11, "4294967295\0------------------------", STATUS_SUCCESS},
{ 0, 0, 1, 11, "0\0---------------------------------", STATUS_SUCCESS},
{ 0, 1, 1, 11, "1\0---------------------------------", STATUS_SUCCESS},
{ 0, 12, 2, 11, "12\0--------------------------------", STATUS_SUCCESS},
{ 0, 123, 3, 11, "123\0-------------------------------", STATUS_SUCCESS},
{ 0, 1234, 4, 11, "1234\0------------------------------", STATUS_SUCCESS},
{ 0, 12345, 5, 11, "12345\0-----------------------------", STATUS_SUCCESS},
{ 0, 123456, 6, 11, "123456\0----------------------------", STATUS_SUCCESS},
{ 0, 1234567, 7, 11, "1234567\0---------------------------", STATUS_SUCCESS},
{ 0, 12345678, 8, 11, "12345678\0--------------------------", STATUS_SUCCESS},
{ 0, 123456789, 9, 11, "123456789\0-------------------------", STATUS_SUCCESS},
{ 0, 2147483646, 10, 11, "2147483646\0------------------------", STATUS_SUCCESS},
{ 0, 2147483647, 10, 11, "2147483647\0------------------------", STATUS_SUCCESS}, /* max signed int */
{ 0, 2147483648U, 10, 11, "2147483648\0------------------------", STATUS_SUCCESS}, /* uint = -max int */
{ 0, 2147483649U, 10, 11, "2147483649\0------------------------", STATUS_SUCCESS},
{ 0, 4294967294U, 10, 11, "4294967294\0------------------------", STATUS_SUCCESS},
{ 0, 4294967295U, 10, 11, "4294967295\0------------------------", STATUS_SUCCESS}, /* max unsigned int */
{ 2, 0x80000000U, 32, 33, "10000000000000000000000000000000\0--", STATUS_SUCCESS}, /* min signed int */
{ 2, -2147483647, 32, 33, "10000000000000000000000000000001\0--", STATUS_SUCCESS},
{ 2, -2, 32, 33, "11111111111111111111111111111110\0--", STATUS_SUCCESS},
{ 2, -1, 32, 33, "11111111111111111111111111111111\0--", STATUS_SUCCESS},
{ 2, 0, 1, 33, "0\0---------------------------------", STATUS_SUCCESS},
{ 2, 1, 1, 33, "1\0---------------------------------", STATUS_SUCCESS},
{ 2, 10, 4, 33, "1010\0------------------------------", STATUS_SUCCESS},
{ 2, 100, 7, 33, "1100100\0---------------------------", STATUS_SUCCESS},
{ 2, 1000, 10, 33, "1111101000\0------------------------", STATUS_SUCCESS},
{ 2, 10000, 14, 33, "10011100010000\0--------------------", STATUS_SUCCESS},
{ 2, 32767, 15, 33, "111111111111111\0-------------------", STATUS_SUCCESS},
/* { 2, 32768, 16, 33, "1000000000000000\0------------------", STATUS_SUCCESS}, broken on windows */
/* { 2, 65535, 16, 33, "1111111111111111\0------------------", STATUS_SUCCESS}, broken on windows */
{ 2, 65536, 17, 33, "10000000000000000\0-----------------", STATUS_SUCCESS},
{ 2, 100000, 17, 33, "11000011010100000\0-----------------", STATUS_SUCCESS},
{ 2, 1000000, 20, 33, "11110100001001000000\0--------------", STATUS_SUCCESS},
{ 2, 10000000, 24, 33, "100110001001011010000000\0----------", STATUS_SUCCESS},
{ 2, 100000000, 27, 33, "101111101011110000100000000\0-------", STATUS_SUCCESS},
{ 2, 1000000000, 30, 33, "111011100110101100101000000000\0----", STATUS_SUCCESS},
{ 2, 1073741823, 30, 33, "111111111111111111111111111111\0----", STATUS_SUCCESS},
{ 2, 2147483646, 31, 33, "1111111111111111111111111111110\0---", STATUS_SUCCESS},
{ 2, 2147483647, 31, 33, "1111111111111111111111111111111\0---", STATUS_SUCCESS}, /* max signed int */
{ 2, 2147483648U, 32, 33, "10000000000000000000000000000000\0--", STATUS_SUCCESS}, /* uint = -max int */
{ 2, 2147483649U, 32, 33, "10000000000000000000000000000001\0--", STATUS_SUCCESS},
{ 2, 4294967294U, 32, 33, "11111111111111111111111111111110\0--", STATUS_SUCCESS},
{ 2, 4294967295U, 32, 33, "11111111111111111111111111111111\0--", STATUS_SUCCESS}, /* max unsigned int */
{ 8, 0x80000000U, 11, 12, "20000000000\0-----------------------", STATUS_SUCCESS}, /* min signed int */
{ 8, -2147483647, 11, 12, "20000000001\0-----------------------", STATUS_SUCCESS},
{ 8, -2, 11, 12, "37777777776\0-----------------------", STATUS_SUCCESS},
{ 8, -1, 11, 12, "37777777777\0-----------------------", STATUS_SUCCESS},
{ 8, 0, 1, 12, "0\0---------------------------------", STATUS_SUCCESS},
{ 8, 1, 1, 12, "1\0---------------------------------", STATUS_SUCCESS},
{ 8, 2147483646, 11, 12, "17777777776\0-----------------------", STATUS_SUCCESS},
{ 8, 2147483647, 11, 12, "17777777777\0-----------------------", STATUS_SUCCESS}, /* max signed int */
{ 8, 2147483648U, 11, 12, "20000000000\0-----------------------", STATUS_SUCCESS}, /* uint = -max int */
{ 8, 2147483649U, 11, 12, "20000000001\0-----------------------", STATUS_SUCCESS},
{ 8, 4294967294U, 11, 12, "37777777776\0-----------------------", STATUS_SUCCESS},
{ 8, 4294967295U, 11, 12, "37777777777\0-----------------------", STATUS_SUCCESS}, /* max unsigned int */
{10, 0x80000000U, 10, 11, "2147483648\0------------------------", STATUS_SUCCESS}, /* min signed int */
{10, -2147483647, 10, 11, "2147483649\0------------------------", STATUS_SUCCESS},
{10, -2, 10, 11, "4294967294\0------------------------", STATUS_SUCCESS},
{10, -1, 10, 11, "4294967295\0------------------------", STATUS_SUCCESS},
{10, 0, 1, 11, "0\0---------------------------------", STATUS_SUCCESS},
{10, 1, 1, 11, "1\0---------------------------------", STATUS_SUCCESS},
{10, 2147483646, 10, 11, "2147483646\0------------------------", STATUS_SUCCESS},
{10, 2147483647, 10, 11, "2147483647\0------------------------", STATUS_SUCCESS}, /* max signed int */
{10, 2147483648U, 10, 11, "2147483648\0------------------------", STATUS_SUCCESS}, /* uint = -max int */
{10, 2147483649U, 10, 11, "2147483649\0------------------------", STATUS_SUCCESS},
{10, 4294967294U, 10, 11, "4294967294\0------------------------", STATUS_SUCCESS},
{10, 4294967295U, 10, 11, "4294967295\0------------------------", STATUS_SUCCESS}, /* max unsigned int */
{16, 0x80000000U, 8, 9, "80000000\0--------------------------", STATUS_SUCCESS}, /* min signed int */
{16, -2147483647, 8, 9, "80000001\0--------------------------", STATUS_SUCCESS},
{16, -2, 8, 9, "FFFFFFFE\0--------------------------", STATUS_SUCCESS},
{16, -1, 8, 9, "FFFFFFFF\0--------------------------", STATUS_SUCCESS},
{16, 0, 1, 9, "0\0---------------------------------", STATUS_SUCCESS},
{16, 1, 1, 9, "1\0---------------------------------", STATUS_SUCCESS},
{16, 2147483646, 8, 9, "7FFFFFFE\0--------------------------", STATUS_SUCCESS},
{16, 2147483647, 8, 9, "7FFFFFFF\0--------------------------", STATUS_SUCCESS}, /* max signed int */
{16, 2147483648U, 8, 9, "80000000\0--------------------------", STATUS_SUCCESS}, /* uint = -max int */
{16, 2147483649U, 8, 9, "80000001\0--------------------------", STATUS_SUCCESS},
{16, 4294967294U, 8, 9, "FFFFFFFE\0--------------------------", STATUS_SUCCESS},
{16, 4294967295U, 8, 9, "FFFFFFFF\0--------------------------", STATUS_SUCCESS}, /* max unsigned int */
/* { 2, 32768, 16, 17, "1000000000000000\0------------------", STATUS_SUCCESS}, broken on windows */
/* { 2, 32768, 16, 16, "1000000000000000-------------------", STATUS_SUCCESS}, broken on windows */
{ 2, 65536, 17, 18, "10000000000000000\0-----------------", STATUS_SUCCESS},
{ 2, 65536, 17, 17, "10000000000000000------------------", STATUS_SUCCESS},
{ 2, 131072, 18, 19, "100000000000000000\0----------------", STATUS_SUCCESS},
{ 2, 131072, 18, 18, "100000000000000000-----------------", STATUS_SUCCESS},
{16, 0xffffffff, 8, 9, "FFFFFFFF\0--------------------------", STATUS_SUCCESS},
{16, 0xffffffff, 8, 8, "FFFFFFFF---------------------------", STATUS_SUCCESS}, /* No \0 term */
{16, 0xffffffff, 8, 7, "-----------------------------------", STATUS_BUFFER_OVERFLOW}, /* Too short */
{16, 0xa, 1, 2, "A\0---------------------------------", STATUS_SUCCESS},
{16, 0xa, 1, 1, "A----------------------------------", STATUS_SUCCESS}, /* No \0 term */
{16, 0, 1, 0, "-----------------------------------", STATUS_BUFFER_OVERFLOW},
{20, 0xdeadbeef, 0, 9, "-----------------------------------", STATUS_INVALID_PARAMETER}, /* ill. base */
{-8, 07654321, 0, 12, "-----------------------------------", STATUS_INVALID_PARAMETER}, /* neg. base */
};
#define NB_INT2STR (sizeof(int2str)/sizeof(*int2str))
static void one_RtlIntegerToUnicodeString_test(int test_num, const int2str_t *int2str)
{
int pos;
WCHAR expected_str_Buffer[STRI_BUFFER_LENGTH + 1];
UNICODE_STRING expected_unicode_string;
STRING expected_ansi_str;
WCHAR str_Buffer[STRI_BUFFER_LENGTH + 1];
UNICODE_STRING unicode_string;
STRING ansi_str;
NTSTATUS result;
for (pos = 0; pos < STRI_BUFFER_LENGTH; pos++) {
expected_str_Buffer[pos] = int2str->Buffer[pos];
}
expected_unicode_string.Length = int2str->Length * sizeof(WCHAR);
expected_unicode_string.MaximumLength = int2str->MaximumLength * sizeof(WCHAR);
expected_unicode_string.Buffer = expected_str_Buffer;
pRtlUnicodeStringToAnsiString(&expected_ansi_str, &expected_unicode_string, 1);
for (pos = 0; pos < STRI_BUFFER_LENGTH; pos++) {
str_Buffer[pos] = '-';
}
unicode_string.Length = 0;
unicode_string.MaximumLength = int2str->MaximumLength * sizeof(WCHAR);
unicode_string.Buffer = str_Buffer;
result = pRtlIntegerToUnicodeString(int2str->value, int2str->base, &unicode_string);
pRtlUnicodeStringToAnsiString(&ansi_str, &unicode_string, 1);
if (result == STATUS_BUFFER_OVERFLOW) {
/* On BUFFER_OVERFLOW the string Buffer should be unchanged */
for (pos = 0; pos < STRI_BUFFER_LENGTH; pos++) {
expected_str_Buffer[pos] = '-';
}
/* w2k: The native function has two reasons for BUFFER_OVERFLOW: */
/* If the value is too large to convert: The Length is unchanged */
/* If str is too small to hold the string: Set str->Length to the length */
/* the string would have (which can be larger than the MaximumLength). */
/* To allow all this in the tests we do the following: */
if (expected_unicode_string.Length > 32 && unicode_string.Length == 0) {
/* The value is too large to convert only triggerd when testing native */
expected_unicode_string.Length = 0;
}
} else {
ok(result == int2str->result,
"(test %d): RtlIntegerToUnicodeString(%u, %d, [out]) has result %x, expected: %x\n",
test_num, int2str->value, int2str->base, result, int2str->result);
if (result == STATUS_SUCCESS) {
ok(unicode_string.Buffer[unicode_string.Length/sizeof(WCHAR)] == '\0',
"(test %d): RtlIntegerToUnicodeString(%u, %d, [out]) string \"%s\" is not NULL terminated\n",
test_num, int2str->value, int2str->base, ansi_str.Buffer);
}
}
ok(memcmp(unicode_string.Buffer, expected_unicode_string.Buffer, STRI_BUFFER_LENGTH * sizeof(WCHAR)) == 0,
"(test %d): RtlIntegerToUnicodeString(%u, %d, [out]) assigns string \"%s\", expected: \"%s\"\n",
test_num, int2str->value, int2str->base, ansi_str.Buffer, expected_ansi_str.Buffer);
ok(unicode_string.Length == expected_unicode_string.Length,
"(test %d): RtlIntegerToUnicodeString(%u, %d, [out]) string has Length %d, expected: %d\n",
test_num, int2str->value, int2str->base, unicode_string.Length, expected_unicode_string.Length);
ok(unicode_string.MaximumLength == expected_unicode_string.MaximumLength,
"(test %d): RtlIntegerToUnicodeString(%u, %d, [out]) string has MaximumLength %d, expected: %d\n",
test_num, int2str->value, int2str->base, unicode_string.MaximumLength, expected_unicode_string.MaximumLength);
pRtlFreeAnsiString(&expected_ansi_str);
pRtlFreeAnsiString(&ansi_str);
}
static void test_RtlIntegerToUnicodeString(void)
{
2003-07-19 05:06:03 +02:00
size_t test_num;
2003-07-19 05:06:03 +02:00
for (test_num = 0; test_num < NB_INT2STR; test_num++)
one_RtlIntegerToUnicodeString_test(test_num, &int2str[test_num]);
}
static void one_RtlIntegerToChar_test(int test_num, const int2str_t *int2str)
{
NTSTATUS result;
char dest_str[STRI_BUFFER_LENGTH + 1];
memset(dest_str, '-', STRI_BUFFER_LENGTH);
dest_str[STRI_BUFFER_LENGTH] = '\0';
result = pRtlIntegerToChar(int2str->value, int2str->base, int2str->MaximumLength, dest_str);
ok(result == int2str->result,
"(test %d): RtlIntegerToChar(%u, %d, %d, [out]) has result %x, expected: %x\n",
test_num, int2str->value, int2str->base, int2str->MaximumLength, result, int2str->result);
ok(memcmp(dest_str, int2str->Buffer, STRI_BUFFER_LENGTH) == 0,
"(test %d): RtlIntegerToChar(%u, %d, %d, [out]) assigns string \"%s\", expected: \"%s\"\n",
test_num, int2str->value, int2str->base, int2str->MaximumLength, dest_str, int2str->Buffer);
}
static void test_RtlIntegerToChar(void)
{
NTSTATUS result;
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size_t test_num;
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for (test_num = 0; test_num < NB_INT2STR; test_num++)
one_RtlIntegerToChar_test(test_num, &int2str[test_num]);
result = pRtlIntegerToChar(int2str[0].value, 20, int2str[0].MaximumLength, NULL);
ok(result == STATUS_INVALID_PARAMETER,
"(test a): RtlIntegerToChar(%u, %d, %d, NULL) has result %x, expected: %x\n",
int2str[0].value, 20, int2str[0].MaximumLength, result, STATUS_INVALID_PARAMETER);
result = pRtlIntegerToChar(int2str[0].value, 20, 0, NULL);
ok(result == STATUS_INVALID_PARAMETER,
"(test b): RtlIntegerToChar(%u, %d, %d, NULL) has result %x, expected: %x\n",
int2str[0].value, 20, 0, result, STATUS_INVALID_PARAMETER);
result = pRtlIntegerToChar(int2str[0].value, int2str[0].base, 0, NULL);
ok(result == STATUS_BUFFER_OVERFLOW,
"(test c): RtlIntegerToChar(%u, %d, %d, NULL) has result %x, expected: %x\n",
int2str[0].value, int2str[0].base, 0, result, STATUS_BUFFER_OVERFLOW);
result = pRtlIntegerToChar(int2str[0].value, int2str[0].base, int2str[0].MaximumLength, NULL);
ok(result == STATUS_ACCESS_VIOLATION,
"(test d): RtlIntegerToChar(%u, %d, %d, NULL) has result %x, expected: %x\n",
int2str[0].value, int2str[0].base, int2str[0].MaximumLength, result, STATUS_ACCESS_VIOLATION);
}
static void test_RtlIsTextUnicode(void)
{
char ascii[] = "A simple string";
WCHAR unicode[] = {'A',' ','U','n','i','c','o','d','e',' ','s','t','r','i','n','g',0};
WCHAR unicode_no_controls[] = {'A','U','n','i','c','o','d','e','s','t','r','i','n','g',0};
/* String with both byte-reversed and standard Unicode control characters. */
WCHAR mixed_controls[] = {'\t',0x9000,0x0d00,'\n',0};
WCHAR *be_unicode;
WCHAR *be_unicode_no_controls;
int flags;
int i;
ok(!pRtlIsTextUnicode(ascii, sizeof(ascii), NULL), "ASCII text detected as Unicode\n");
ok(pRtlIsTextUnicode(unicode, sizeof(unicode), NULL), "Text should be Unicode\n");
ok(!pRtlIsTextUnicode(unicode, sizeof(unicode) - 1, NULL), "Text should be Unicode\n");
flags = IS_TEXT_UNICODE_UNICODE_MASK;
ok(pRtlIsTextUnicode(unicode, sizeof(unicode), &flags), "Text should not pass a Unicode\n");
ok(flags == (IS_TEXT_UNICODE_STATISTICS | IS_TEXT_UNICODE_CONTROLS),
"Expected flags 0x6, obtained %x\n", flags);
flags = IS_TEXT_UNICODE_REVERSE_MASK;
ok(!pRtlIsTextUnicode(unicode, sizeof(unicode), &flags), "Text should not pass reverse Unicode tests\n");
ok(flags == 0, "Expected flags 0, obtained %x\n", flags);
flags = IS_TEXT_UNICODE_ODD_LENGTH;
ok(!pRtlIsTextUnicode(unicode, sizeof(unicode) - 1, &flags), "Odd length test should have passed\n");
ok(flags == IS_TEXT_UNICODE_ODD_LENGTH, "Expected flags 0x200, obtained %x\n", flags);
be_unicode = HeapAlloc(GetProcessHeap(), 0, sizeof(unicode) + sizeof(WCHAR));
be_unicode[0] = 0xfffe;
for (i = 0; i < sizeof(unicode)/sizeof(unicode[0]); i++)
{
be_unicode[i + 1] = (unicode[i] >> 8) | ((unicode[i] & 0xff) << 8);
}
ok(!pRtlIsTextUnicode(be_unicode, sizeof(unicode) + 2, NULL), "Reverse endian should not be Unicode\n");
ok(!pRtlIsTextUnicode(&be_unicode[1], sizeof(unicode), NULL), "Reverse endian should not be Unicode\n");
flags = IS_TEXT_UNICODE_REVERSE_MASK;
ok(!pRtlIsTextUnicode(&be_unicode[1], sizeof(unicode), &flags), "Reverse endian should be Unicode\n");
todo_wine
ok(flags == (IS_TEXT_UNICODE_REVERSE_ASCII16 | IS_TEXT_UNICODE_REVERSE_STATISTICS | IS_TEXT_UNICODE_REVERSE_CONTROLS),
"Expected flags 0x70, obtained %x\n", flags);
flags = IS_TEXT_UNICODE_REVERSE_MASK;
ok(!pRtlIsTextUnicode(be_unicode, sizeof(unicode) + 2, &flags), "Reverse endian should be Unicode\n");
ok(flags == (IS_TEXT_UNICODE_REVERSE_CONTROLS | IS_TEXT_UNICODE_REVERSE_SIGNATURE),
"Expected flags 0xc0, obtained %x\n", flags);
/* build byte reversed unicode string with no control chars */
be_unicode_no_controls = HeapAlloc(GetProcessHeap(), 0, sizeof(unicode) + sizeof(WCHAR));
ok(be_unicode_no_controls != NULL, "Expeced HeapAlloc to succeed.\n");
be_unicode_no_controls[0] = 0xfffe;
for (i = 0; i < sizeof(unicode_no_controls)/sizeof(unicode_no_controls[0]); i++)
be_unicode_no_controls[i + 1] = (unicode_no_controls[i] >> 8) | ((unicode_no_controls[i] & 0xff) << 8);
/* The following tests verify that the tests for */
/* IS_TEXT_UNICODE_CONTROLS and IS_TEXT_UNICODE_REVERSE_CONTROLS */
/* are not mutually exclusive. Regardless of whether the strings */
/* contain an indication of endianness, the tests are still */
/* run if the flag is passed to (Rtl)IsTextUnicode. */
/* Test IS_TEXT_UNICODE_CONTROLS flag */
flags = IS_TEXT_UNICODE_CONTROLS;
ok(!pRtlIsTextUnicode(unicode_no_controls, sizeof(unicode_no_controls), &flags), "Test should not pass on Unicode string lacking control characters.\n");
ok(flags == 0, "Expected flags 0x0, obtained %x\n", flags);
flags = IS_TEXT_UNICODE_CONTROLS;
ok(!pRtlIsTextUnicode(be_unicode_no_controls, sizeof(unicode_no_controls), &flags), "Test should not pass on byte-reversed Unicode string lacking control characters.\n");
ok(flags == 0, "Expected flags 0x0, obtained %x\n", flags);
flags = IS_TEXT_UNICODE_CONTROLS;
ok(pRtlIsTextUnicode(unicode, sizeof(unicode), &flags), "Test should pass on Unicode string lacking control characters.\n");
ok(flags == IS_TEXT_UNICODE_CONTROLS, "Expected flags 0x04, obtained %x\n", flags);
flags = IS_TEXT_UNICODE_CONTROLS;
ok(!pRtlIsTextUnicode(be_unicode_no_controls, sizeof(unicode_no_controls) + 2, &flags),
"Test should not pass with standard Unicode string.\n");
ok(flags == 0, "Expected flags 0x0, obtained %x\n", flags);
flags = IS_TEXT_UNICODE_CONTROLS;
ok(pRtlIsTextUnicode(mixed_controls, sizeof(mixed_controls), &flags), "Test should pass on a string containing control characters.\n");
ok(flags == IS_TEXT_UNICODE_CONTROLS, "Expected flags 0x04, obtained %x\n", flags);
/* Test IS_TEXT_UNICODE_REVERSE_CONTROLS flag */
flags = IS_TEXT_UNICODE_REVERSE_CONTROLS;
ok(!pRtlIsTextUnicode(be_unicode_no_controls, sizeof(unicode_no_controls), &flags), "Test should not pass on Unicode string lacking control characters.\n");
ok(flags == 0, "Expected flags 0x0, obtained %x\n", flags);
flags = IS_TEXT_UNICODE_REVERSE_CONTROLS;
ok(!pRtlIsTextUnicode(unicode_no_controls, sizeof(unicode_no_controls), &flags), "Test should not pass on Unicode string lacking control characters.\n");
ok(flags == 0, "Expected flags 0x0, obtained %x\n", flags);
flags = IS_TEXT_UNICODE_REVERSE_CONTROLS;
ok(!pRtlIsTextUnicode(unicode, sizeof(unicode), &flags), "Test should not pass on Unicode string lacking control characters.\n");
ok(flags == 0, "Expected flags 0x0, obtained %x\n", flags);
flags = IS_TEXT_UNICODE_REVERSE_CONTROLS;
ok(!pRtlIsTextUnicode(be_unicode, sizeof(unicode) + 2, &flags),
"Test should pass with byte-reversed Unicode string containing control characters.\n");
ok(flags == IS_TEXT_UNICODE_REVERSE_CONTROLS, "Expected flags 0x40, obtained %x\n", flags);
flags = IS_TEXT_UNICODE_REVERSE_CONTROLS;
ok(!pRtlIsTextUnicode(mixed_controls, sizeof(mixed_controls), &flags), "Test should pass on a string containing byte-reversed control characters.\n");
ok(flags == IS_TEXT_UNICODE_REVERSE_CONTROLS, "Expected flags 0x40, obtained %x\n", flags);
/* Test with flags for both byte-reverse and standard Unicode characters */
flags = IS_TEXT_UNICODE_CONTROLS | IS_TEXT_UNICODE_REVERSE_CONTROLS;
ok(!pRtlIsTextUnicode(mixed_controls, sizeof(mixed_controls), &flags), "Test should pass on string containing both byte-reversed and standard control characters.\n");
ok(flags == (IS_TEXT_UNICODE_CONTROLS | IS_TEXT_UNICODE_REVERSE_CONTROLS), "Expected flags 0x44, obtained %x\n", flags);
HeapFree(GetProcessHeap(), 0, be_unicode);
HeapFree(GetProcessHeap(), 0, be_unicode_no_controls);
}
static const WCHAR szGuid[] = { '{','0','1','0','2','0','3','0','4','-',
'0','5','0','6','-' ,'0','7','0','8','-','0','9','0','A','-',
'0','B','0','C','0','D','0','E','0','F','0','A','}','\0' };
static const WCHAR szGuid2[] = { '{','0','1','0','2','0','3','0','4','-',
'0','5','0','6','-' ,'0','7','0','8','-','0','9','0','A','-',
'0','B','0','C','0','D','0','E','0','F','0','A',']','\0' };
DEFINE_GUID(IID_Endianess, 0x01020304, 0x0506, 0x0708, 0x09, 0x0A, 0x0B,
0x0C, 0x0D, 0x0E, 0x0F, 0x0A);
static void test_RtlGUIDFromString(void)
{
GUID guid;
UNICODE_STRING str;
NTSTATUS ret;
str.Length = str.MaximumLength = sizeof(szGuid) - sizeof(WCHAR);
str.Buffer = (LPWSTR)szGuid;
ret = pRtlGUIDFromString(&str, &guid);
ok(ret == 0, "expected ret=0, got 0x%0x\n", ret);
ok(memcmp(&guid, &IID_Endianess, sizeof(guid)) == 0, "Endianess broken\n");
str.Length = str.MaximumLength = sizeof(szGuid2) - sizeof(WCHAR);
str.Buffer = (LPWSTR)szGuid2;
ret = pRtlGUIDFromString(&str, &guid);
ok(ret, "expected ret!=0\n");
}
static void test_RtlStringFromGUID(void)
{
UNICODE_STRING str;
NTSTATUS ret;
str.Length = str.MaximumLength = 0;
str.Buffer = NULL;
ret = pRtlStringFromGUID(&IID_Endianess, &str);
ok(ret == 0, "expected ret=0, got 0x%0x\n", ret);
ok(str.Buffer && !lstrcmpiW(str.Buffer, szGuid), "Endianess broken\n");
}
START_TEST(rtlstr)
{
InitFunctionPtrs();
if (pRtlInitAnsiString) {
test_RtlInitString();
test_RtlInitUnicodeString();
test_RtlCopyString();
test_RtlUnicodeStringToInteger();
test_RtlCharToInteger();
test_RtlIntegerToUnicodeString();
test_RtlIntegerToChar();
test_RtlUpperChar();
test_RtlUpperString();
test_RtlUnicodeStringToAnsiString();
test_RtlAppendAsciizToString();
test_RtlAppendStringToString();
test_RtlAppendUnicodeToString();
test_RtlAppendUnicodeStringToString();
}
if (pRtlInitUnicodeStringEx)
test_RtlInitUnicodeStringEx();
if (pRtlDuplicateUnicodeString)
test_RtlDuplicateUnicodeString();
if (pRtlFindCharInUnicodeString)
test_RtlFindCharInUnicodeString();
if (pRtlGUIDFromString)
test_RtlGUIDFromString();
if (pRtlStringFromGUID)
test_RtlStringFromGUID();
if (pRtlIsTextUnicode)
test_RtlIsTextUnicode();
if(0)
{
test_RtlUpcaseUnicodeChar();
test_RtlUpcaseUnicodeString();
test_RtlDowncaseUnicodeString();
}
}