gdiplus: Implement GdipCloneFontFamily.
[wine.git] / dlls / ntdll / tests / rtlstr.c
blobd5d8839dd51fadcced0a1c199e1a2a6f863dd796
1 /* Unit test suite for Rtl string functions
3 * Copyright 2002 Robert Shearman
4 * Copyright 2003 Thomas Mertes
6 * This library is free software; you can redistribute it and/or
7 * modify it under the terms of the GNU Lesser General Public
8 * License as published by the Free Software Foundation; either
9 * version 2.1 of the License, or (at your option) any later version.
11 * This library is distributed in the hope that it will be useful,
12 * but WITHOUT ANY WARRANTY; without even the implied warranty of
13 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
14 * Lesser General Public License for more details.
16 * You should have received a copy of the GNU Lesser General Public
17 * License along with this library; if not, write to the Free Software
18 * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
20 * NOTES
21 * We use function pointers here as there is no import library for NTDLL on
22 * windows.
25 #include <stdlib.h>
27 #define INITGUID
29 #include "ntdll_test.h"
30 #include "winnls.h"
31 #include "guiddef.h"
33 /* Function ptrs for ntdll calls */
34 static HMODULE hntdll = 0;
35 static NTSTATUS (WINAPI *pRtlAnsiStringToUnicodeString)(PUNICODE_STRING, PCANSI_STRING, BOOLEAN);
36 static NTSTATUS (WINAPI *pRtlAppendAsciizToString)(STRING *, LPCSTR);
37 static NTSTATUS (WINAPI *pRtlAppendStringToString)(STRING *, const STRING *);
38 static NTSTATUS (WINAPI *pRtlAppendUnicodeStringToString)(UNICODE_STRING *, const UNICODE_STRING *);
39 static NTSTATUS (WINAPI *pRtlAppendUnicodeToString)(UNICODE_STRING *, LPCWSTR);
40 static NTSTATUS (WINAPI *pRtlCharToInteger)(PCSZ, ULONG, int *);
41 static VOID (WINAPI *pRtlCopyString)(STRING *, const STRING *);
42 static BOOLEAN (WINAPI *pRtlCreateUnicodeString)(PUNICODE_STRING, LPCWSTR);
43 static BOOLEAN (WINAPI *pRtlCreateUnicodeStringFromAsciiz)(PUNICODE_STRING, LPCSTR);
44 static NTSTATUS (WINAPI *pRtlDowncaseUnicodeString)(UNICODE_STRING *, const UNICODE_STRING *, BOOLEAN);
45 static NTSTATUS (WINAPI *pRtlDuplicateUnicodeString)(long, UNICODE_STRING *, UNICODE_STRING *);
46 static BOOLEAN (WINAPI *pRtlEqualUnicodeString)(const UNICODE_STRING *, const UNICODE_STRING *, BOOLEAN);
47 static NTSTATUS (WINAPI *pRtlFindCharInUnicodeString)(int, const UNICODE_STRING *, const UNICODE_STRING *, USHORT *);
48 static VOID (WINAPI *pRtlFreeAnsiString)(PSTRING);
49 static VOID (WINAPI *pRtlInitAnsiString)(PSTRING, LPCSTR);
50 static VOID (WINAPI *pRtlInitString)(PSTRING, LPCSTR);
51 static VOID (WINAPI *pRtlInitUnicodeString)(PUNICODE_STRING, LPCWSTR);
52 static NTSTATUS (WINAPI *pRtlInitUnicodeStringEx)(PUNICODE_STRING, LPCWSTR);
53 static NTSTATUS (WINAPI *pRtlIntegerToChar)(ULONG, ULONG, ULONG, PCHAR);
54 static NTSTATUS (WINAPI *pRtlIntegerToUnicodeString)(ULONG, ULONG, UNICODE_STRING *);
55 static NTSTATUS (WINAPI *pRtlMultiAppendUnicodeStringBuffer)(UNICODE_STRING *, long, UNICODE_STRING *);
56 static NTSTATUS (WINAPI *pRtlUnicodeStringToAnsiString)(STRING *, const UNICODE_STRING *, BOOLEAN);
57 static NTSTATUS (WINAPI *pRtlUnicodeStringToInteger)(const UNICODE_STRING *, int, int *);
58 static WCHAR (WINAPI *pRtlUpcaseUnicodeChar)(WCHAR);
59 static NTSTATUS (WINAPI *pRtlUpcaseUnicodeString)(UNICODE_STRING *, const UNICODE_STRING *, BOOLEAN);
60 static CHAR (WINAPI *pRtlUpperChar)(CHAR);
61 static NTSTATUS (WINAPI *pRtlUpperString)(STRING *, const STRING *);
62 static NTSTATUS (WINAPI *pRtlValidateUnicodeString)(long, UNICODE_STRING *);
63 static NTSTATUS (WINAPI *pRtlGUIDFromString)(const UNICODE_STRING*,GUID*);
64 static NTSTATUS (WINAPI *pRtlStringFromGUID)(const GUID*, UNICODE_STRING*);
65 static BOOLEAN (WINAPI *pRtlIsTextUnicode)(LPVOID, INT, INT *);
67 /*static VOID (WINAPI *pRtlFreeOemString)(PSTRING);*/
68 /*static VOID (WINAPI *pRtlFreeUnicodeString)(PUNICODE_STRING);*/
69 /*static VOID (WINAPI *pRtlCopyUnicodeString)(UNICODE_STRING *, const UNICODE_STRING *);*/
70 /*static VOID (WINAPI *pRtlEraseUnicodeString)(UNICODE_STRING *);*/
71 /*static LONG (WINAPI *pRtlCompareString)(const STRING *,const STRING *,BOOLEAN);*/
72 /*static LONG (WINAPI *pRtlCompareUnicodeString)(const UNICODE_STRING *,const UNICODE_STRING *,BOOLEAN);*/
73 /*static BOOLEAN (WINAPI *pRtlEqualString)(const STRING *,const STRING *,BOOLEAN);*/
74 /*static BOOLEAN (WINAPI *pRtlPrefixString)(const STRING *, const STRING *, BOOLEAN);*/
75 /*static BOOLEAN (WINAPI *pRtlPrefixUnicodeString)(const UNICODE_STRING *, const UNICODE_STRING *, BOOLEAN);*/
76 /*static NTSTATUS (WINAPI *pRtlOemStringToUnicodeString)(PUNICODE_STRING, const STRING *, BOOLEAN);*/
77 /*static NTSTATUS (WINAPI *pRtlUnicodeStringToOemString)(STRING *, const UNICODE_STRING *, BOOLEAN);*/
78 /*static NTSTATUS (WINAPI *pRtlMultiByteToUnicodeN)(LPWSTR, DWORD, LPDWORD, LPCSTR, DWORD);*/
79 /*static NTSTATUS (WINAPI *pRtlOemToUnicodeN)(LPWSTR, DWORD, LPDWORD, LPCSTR, DWORD);*/
80 /*static NTSTATUS (WINAPI *pRtlUpcaseUnicodeStringToAnsiString)(STRING *, const UNICODE_STRING *, BOOLEAN);*/
81 /*static NTSTATUS (WINAPI *pRtlUpcaseUnicodeStringToOemString)(STRING *, const UNICODE_STRING *, BOOLEAN);*/
82 /*static NTSTATUS (WINAPI *pRtlUpcaseUnicodeToMultiByteN)(LPSTR, DWORD, LPDWORD, LPCWSTR, DWORD);*/
83 /*static NTSTATUS (WINAPI *pRtlUpcaseUnicodeToOemN)(LPSTR, DWORD, LPDWORD, LPCWSTR, DWORD);*/
84 /*static UINT (WINAPI *pRtlOemToUnicodeSize)(const STRING *);*/
85 /*static DWORD (WINAPI *pRtlAnsiStringToUnicodeSize)(const STRING *);*/
88 static WCHAR* AtoW( const char* p )
90 WCHAR* buffer;
91 DWORD len = MultiByteToWideChar( CP_ACP, 0, p, -1, NULL, 0 );
92 buffer = malloc( len * sizeof(WCHAR) );
93 MultiByteToWideChar( CP_ACP, 0, p, -1, buffer, len );
94 return buffer;
98 static void InitFunctionPtrs(void)
100 hntdll = LoadLibraryA("ntdll.dll");
101 ok(hntdll != 0, "LoadLibrary failed\n");
102 if (hntdll) {
103 pRtlAnsiStringToUnicodeString = (void *)GetProcAddress(hntdll, "RtlAnsiStringToUnicodeString");
104 pRtlAppendAsciizToString = (void *)GetProcAddress(hntdll, "RtlAppendAsciizToString");
105 pRtlAppendStringToString = (void *)GetProcAddress(hntdll, "RtlAppendStringToString");
106 pRtlAppendUnicodeStringToString = (void *)GetProcAddress(hntdll, "RtlAppendUnicodeStringToString");
107 pRtlAppendUnicodeToString = (void *)GetProcAddress(hntdll, "RtlAppendUnicodeToString");
108 pRtlCharToInteger = (void *)GetProcAddress(hntdll, "RtlCharToInteger");
109 pRtlCopyString = (void *)GetProcAddress(hntdll, "RtlCopyString");
110 pRtlCreateUnicodeString = (void *)GetProcAddress(hntdll, "RtlCreateUnicodeString");
111 pRtlCreateUnicodeStringFromAsciiz = (void *)GetProcAddress(hntdll, "RtlCreateUnicodeStringFromAsciiz");
112 pRtlDowncaseUnicodeString = (void *)GetProcAddress(hntdll, "RtlDowncaseUnicodeString");
113 pRtlDuplicateUnicodeString = (void *)GetProcAddress(hntdll, "RtlDuplicateUnicodeString");
114 pRtlEqualUnicodeString = (void *)GetProcAddress(hntdll, "RtlEqualUnicodeString");
115 pRtlFindCharInUnicodeString = (void *)GetProcAddress(hntdll, "RtlFindCharInUnicodeString");
116 pRtlFreeAnsiString = (void *)GetProcAddress(hntdll, "RtlFreeAnsiString");
117 pRtlInitAnsiString = (void *)GetProcAddress(hntdll, "RtlInitAnsiString");
118 pRtlInitString = (void *)GetProcAddress(hntdll, "RtlInitString");
119 pRtlInitUnicodeString = (void *)GetProcAddress(hntdll, "RtlInitUnicodeString");
120 pRtlInitUnicodeStringEx = (void *)GetProcAddress(hntdll, "RtlInitUnicodeStringEx");
121 pRtlIntegerToChar = (void *)GetProcAddress(hntdll, "RtlIntegerToChar");
122 pRtlIntegerToUnicodeString = (void *)GetProcAddress(hntdll, "RtlIntegerToUnicodeString");
123 pRtlMultiAppendUnicodeStringBuffer = (void *)GetProcAddress(hntdll, "RtlMultiAppendUnicodeStringBuffer");
124 pRtlUnicodeStringToAnsiString = (void *)GetProcAddress(hntdll, "RtlUnicodeStringToAnsiString");
125 pRtlUnicodeStringToInteger = (void *)GetProcAddress(hntdll, "RtlUnicodeStringToInteger");
126 pRtlUpcaseUnicodeChar = (void *)GetProcAddress(hntdll, "RtlUpcaseUnicodeChar");
127 pRtlUpcaseUnicodeString = (void *)GetProcAddress(hntdll, "RtlUpcaseUnicodeString");
128 pRtlUpperChar = (void *)GetProcAddress(hntdll, "RtlUpperChar");
129 pRtlUpperString = (void *)GetProcAddress(hntdll, "RtlUpperString");
130 pRtlValidateUnicodeString = (void *)GetProcAddress(hntdll, "RtlValidateUnicodeString");
131 pRtlGUIDFromString = (void *)GetProcAddress(hntdll, "RtlGUIDFromString");
132 pRtlStringFromGUID = (void *)GetProcAddress(hntdll, "RtlStringFromGUID");
133 pRtlIsTextUnicode = (void *)GetProcAddress(hntdll, "RtlIsTextUnicode");
138 static void test_RtlInitString(void)
140 static const char teststring[] = "Some Wild String";
141 STRING str;
143 str.Length = 0;
144 str.MaximumLength = 0;
145 str.Buffer = (void *)0xdeadbeef;
146 pRtlInitString(&str, teststring);
147 ok(str.Length == sizeof(teststring) - sizeof(char), "Length uninitialized\n");
148 ok(str.MaximumLength == sizeof(teststring), "MaximumLength uninitialized\n");
149 ok(str.Buffer == teststring, "Buffer not equal to teststring\n");
150 ok(strcmp(str.Buffer, "Some Wild String") == 0, "Buffer written to\n");
151 pRtlInitString(&str, NULL);
152 ok(str.Length == 0, "Length uninitialized\n");
153 ok(str.MaximumLength == 0, "MaximumLength uninitialized\n");
154 ok(str.Buffer == NULL, "Buffer not equal to NULL\n");
155 /* pRtlInitString(NULL, teststring); */
159 static void test_RtlInitUnicodeString(void)
161 #define STRINGW {'S','o','m','e',' ','W','i','l','d',' ','S','t','r','i','n','g',0}
162 static const WCHAR teststring[] = STRINGW;
163 static const WCHAR originalstring[] = STRINGW;
164 #undef STRINGW
165 UNICODE_STRING uni;
167 uni.Length = 0;
168 uni.MaximumLength = 0;
169 uni.Buffer = (void *)0xdeadbeef;
170 pRtlInitUnicodeString(&uni, teststring);
171 ok(uni.Length == sizeof(teststring) - sizeof(WCHAR), "Length uninitialized\n");
172 ok(uni.MaximumLength == sizeof(teststring), "MaximumLength uninitialized\n");
173 ok(uni.Buffer == teststring, "Buffer not equal to teststring\n");
174 ok(lstrcmpW(uni.Buffer, originalstring) == 0, "Buffer written to\n");
175 pRtlInitUnicodeString(&uni, NULL);
176 ok(uni.Length == 0, "Length uninitialized\n");
177 ok(uni.MaximumLength == 0, "MaximumLength uninitialized\n");
178 ok(uni.Buffer == NULL, "Buffer not equal to NULL\n");
179 /* pRtlInitUnicodeString(NULL, teststring); */
183 #define TESTSTRING2_LEN 1000000
184 /* #define TESTSTRING2_LEN 32766 */
187 static void test_RtlInitUnicodeStringEx(void)
189 static const WCHAR teststring[] = {'S','o','m','e',' ','W','i','l','d',' ','S','t','r','i','n','g',0};
190 WCHAR *teststring2;
191 UNICODE_STRING uni;
192 NTSTATUS result;
194 teststring2 = (WCHAR *) malloc((TESTSTRING2_LEN + 1) * sizeof(WCHAR));
195 memset(teststring2, 'X', TESTSTRING2_LEN * sizeof(WCHAR));
196 teststring2[TESTSTRING2_LEN] = '\0';
198 uni.Length = 12345;
199 uni.MaximumLength = 12345;
200 uni.Buffer = (void *) 0xdeadbeef;
201 result = pRtlInitUnicodeStringEx(&uni, teststring);
202 ok(result == STATUS_SUCCESS,
203 "pRtlInitUnicodeStringEx(&uni, 0) returns %x, expected 0\n",
204 result);
205 ok(uni.Length == 32,
206 "pRtlInitUnicodeStringEx(&uni, 0) sets Length to %u, expected %u\n",
207 uni.Length, 32);
208 ok(uni.MaximumLength == 34,
209 "pRtlInitUnicodeStringEx(&uni, 0) sets MaximumLength to %u, expected %u\n",
210 uni.MaximumLength, 34);
211 ok(uni.Buffer == teststring,
212 "pRtlInitUnicodeStringEx(&uni, 0) sets Buffer to %p, expected %p\n",
213 uni.Buffer, teststring);
215 uni.Length = 12345;
216 uni.MaximumLength = 12345;
217 uni.Buffer = (void *) 0xdeadbeef;
218 pRtlInitUnicodeString(&uni, teststring);
219 ok(uni.Length == 32,
220 "pRtlInitUnicodeString(&uni, 0) sets Length to %u, expected %u\n",
221 uni.Length, 32);
222 ok(uni.MaximumLength == 34,
223 "pRtlInitUnicodeString(&uni, 0) sets MaximumLength to %u, expected %u\n",
224 uni.MaximumLength, 34);
225 ok(uni.Buffer == teststring,
226 "pRtlInitUnicodeString(&uni, 0) sets Buffer to %p, expected %p\n",
227 uni.Buffer, teststring);
229 uni.Length = 12345;
230 uni.MaximumLength = 12345;
231 uni.Buffer = (void *) 0xdeadbeef;
232 result = pRtlInitUnicodeStringEx(&uni, teststring2);
233 ok(result == STATUS_NAME_TOO_LONG,
234 "pRtlInitUnicodeStringEx(&uni, 0) returns %x, expected %x\n",
235 result, STATUS_NAME_TOO_LONG);
236 ok(uni.Length == 12345 ||
237 uni.Length == 0, /* win2k3 */
238 "pRtlInitUnicodeStringEx(&uni, 0) sets Length to %u, expected 12345 or 0\n",
239 uni.Length);
240 ok(uni.MaximumLength == 12345 ||
241 uni.MaximumLength == 0, /* win2k3 */
242 "pRtlInitUnicodeStringEx(&uni, 0) sets MaximumLength to %u, expected 12345 or 0\n",
243 uni.MaximumLength);
244 ok(uni.Buffer == (void *) 0xdeadbeef ||
245 uni.Buffer == teststring2, /* win2k3 */
246 "pRtlInitUnicodeStringEx(&uni, 0) sets Buffer to %p, expected %x or %p\n",
247 uni.Buffer, 0xdeadbeef, teststring2);
249 uni.Length = 12345;
250 uni.MaximumLength = 12345;
251 uni.Buffer = (void *) 0xdeadbeef;
252 pRtlInitUnicodeString(&uni, teststring2);
253 ok(uni.Length == 33920 /* <= Win2000 */ || uni.Length == 65532 /* >= Win XP */,
254 "pRtlInitUnicodeString(&uni, 0) sets Length to %u, expected %u\n",
255 uni.Length, 65532);
256 ok(uni.MaximumLength == 33922 /* <= Win2000 */ || uni.MaximumLength == 65534 /* >= Win XP */,
257 "pRtlInitUnicodeString(&uni, 0) sets MaximumLength to %u, expected %u\n",
258 uni.MaximumLength, 65534);
259 ok(uni.Buffer == teststring2,
260 "pRtlInitUnicodeString(&uni, 0) sets Buffer to %p, expected %p\n",
261 uni.Buffer, teststring2);
262 ok(memcmp(uni.Buffer, teststring2, (TESTSTRING2_LEN + 1) * sizeof(WCHAR)) == 0,
263 "pRtlInitUnicodeString(&uni, 0) changes Buffer\n");
265 uni.Length = 12345;
266 uni.MaximumLength = 12345;
267 uni.Buffer = (void *) 0xdeadbeef;
268 result = pRtlInitUnicodeStringEx(&uni, 0);
269 ok(result == STATUS_SUCCESS,
270 "pRtlInitUnicodeStringEx(&uni, 0) returns %x, expected 0\n",
271 result);
272 ok(uni.Length == 0,
273 "pRtlInitUnicodeStringEx(&uni, 0) sets Length to %u, expected %u\n",
274 uni.Length, 0);
275 ok(uni.MaximumLength == 0,
276 "pRtlInitUnicodeStringEx(&uni, 0) sets MaximumLength to %u, expected %u\n",
277 uni.MaximumLength, 0);
278 ok(uni.Buffer == NULL,
279 "pRtlInitUnicodeStringEx(&uni, 0) sets Buffer to %p, expected %p\n",
280 uni.Buffer, NULL);
282 uni.Length = 12345;
283 uni.MaximumLength = 12345;
284 uni.Buffer = (void *) 0xdeadbeef;
285 pRtlInitUnicodeString(&uni, 0);
286 ok(uni.Length == 0,
287 "pRtlInitUnicodeString(&uni, 0) sets Length to %u, expected %u\n",
288 uni.Length, 0);
289 ok(uni.MaximumLength == 0,
290 "pRtlInitUnicodeString(&uni, 0) sets MaximumLength to %u, expected %u\n",
291 uni.MaximumLength, 0);
292 ok(uni.Buffer == NULL,
293 "pRtlInitUnicodeString(&uni, 0) sets Buffer to %p, expected %p\n",
294 uni.Buffer, NULL);
296 free(teststring2);
300 typedef struct {
301 int add_nul;
302 int source_Length;
303 int source_MaximumLength;
304 int source_buf_size;
305 const char *source_buf;
306 int dest_Length;
307 int dest_MaximumLength;
308 int dest_buf_size;
309 const char *dest_buf;
310 int res_Length;
311 int res_MaximumLength;
312 int res_buf_size;
313 const char *res_buf;
314 NTSTATUS result;
315 } dupl_ustr_t;
317 static const dupl_ustr_t dupl_ustr[] = {
318 { 0, 32, 34, 34, "This is a string", 40, 42, 42, "--------------------", 32, 32, 32, "This is a string", STATUS_SUCCESS},
319 { 0, 32, 32, 32, "This is a string", 40, 42, 42, "--------------------", 32, 32, 32, "This is a string", STATUS_SUCCESS},
320 { 0, 32, 30, 34, "This is a string", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
321 { 0, 32, 34, 34, "This is a string", 40, 42, 42, NULL, 32, 32, 32, "This is a string", STATUS_SUCCESS},
322 { 0, 32, 32, 32, "This is a string", 40, 42, 42, NULL, 32, 32, 32, "This is a string", STATUS_SUCCESS},
323 { 0, 32, 30, 34, "This is a string", 40, 42, 42, NULL, 40, 42, 0, NULL, STATUS_INVALID_PARAMETER},
324 { 1, 32, 34, 34, "This is a string", 40, 42, 42, "--------------------", 32, 34, 34, "This is a string", STATUS_SUCCESS},
325 { 1, 32, 32, 32, "This is a string", 40, 42, 42, "--------------------", 32, 34, 34, "This is a string", STATUS_SUCCESS},
326 { 1, 32, 30, 34, "This is a string", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
327 { 1, 32, 34, 34, "This is a string", 40, 42, 42, NULL, 32, 34, 34, "This is a string", STATUS_SUCCESS},
328 { 1, 32, 32, 32, "This is a string", 40, 42, 42, NULL, 32, 34, 34, "This is a string", STATUS_SUCCESS},
329 { 1, 32, 30, 34, "This is a string", 40, 42, 42, NULL, 40, 42, 0, NULL, STATUS_INVALID_PARAMETER},
330 { 2, 32, 34, 34, "This is a string", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
331 { 2, 32, 32, 32, "This is a string", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
332 { 2, 32, 30, 34, "This is a string", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
333 { 2, 32, 34, 34, "This is a string", 40, 42, 42, NULL, 40, 42, 0, NULL, STATUS_INVALID_PARAMETER},
334 { 2, 32, 32, 32, "This is a string", 40, 42, 42, NULL, 40, 42, 0, NULL, STATUS_INVALID_PARAMETER},
335 { 2, 32, 30, 34, "This is a string", 40, 42, 42, NULL, 40, 42, 0, NULL, STATUS_INVALID_PARAMETER},
336 { 3, 32, 34, 34, "This is a string", 40, 42, 42, "--------------------", 32, 34, 34, "This is a string", STATUS_SUCCESS},
337 { 3, 32, 32, 32, "This is a string", 40, 42, 42, "--------------------", 32, 34, 34, "This is a string", STATUS_SUCCESS},
338 { 3, 32, 30, 32, "This is a string", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
339 { 3, 32, 34, 34, "This is a string", 40, 42, 42, NULL, 32, 34, 34, "This is a string", STATUS_SUCCESS},
340 { 3, 32, 32, 32, "This is a string", 40, 42, 42, NULL, 32, 34, 34, "This is a string", STATUS_SUCCESS},
341 { 3, 32, 30, 32, "This is a string", 40, 42, 42, NULL, 40, 42, 0, NULL, STATUS_INVALID_PARAMETER},
342 { 4, 32, 34, 34, "This is a string", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
343 { 5, 32, 34, 34, "This is a string", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
344 { 6, 32, 34, 34, "This is a string", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
345 { 7, 32, 34, 34, "This is a string", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
346 { 8, 32, 34, 34, "This is a string", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
347 { 9, 32, 34, 34, "This is a string", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
348 {10, 32, 34, 34, "This is a string", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
349 {11, 32, 34, 34, "This is a string", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
350 {12, 32, 34, 34, "This is a string", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
351 {13, 32, 34, 34, "This is a string", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
352 {14, 32, 34, 34, "This is a string", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
353 {15, 32, 34, 34, "This is a string", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
354 {16, 32, 34, 34, "This is a string", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
355 {-1, 32, 34, 34, "This is a string", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
356 {-5, 32, 34, 34, "This is a string", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
357 {-9, 32, 34, 34, "This is a string", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
358 { 0, 0, 2, 2, "", 40, 42, 42, "--------------------", 0, 0, 0, NULL, STATUS_SUCCESS},
359 { 0, 0, 0, 0, "", 40, 42, 42, "--------------------", 0, 0, 0, NULL, STATUS_SUCCESS},
360 { 0, 0, 2, 2, "", 40, 42, 42, NULL, 0, 0, 0, NULL, STATUS_SUCCESS},
361 { 0, 0, 0, 0, "", 40, 42, 42, NULL, 0, 0, 0, NULL, STATUS_SUCCESS},
362 { 0, 0, 2, 2, NULL, 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
363 { 0, 0, 0, 0, NULL, 40, 42, 42, "--------------------", 0, 0, 0, NULL, STATUS_SUCCESS},
364 { 0, 0, 2, 2, NULL, 40, 42, 42, NULL, 40, 42, 0, NULL, STATUS_INVALID_PARAMETER},
365 { 0, 0, 0, 0, NULL, 40, 42, 42, NULL, 0, 0, 0, NULL, STATUS_SUCCESS},
366 { 1, 0, 2, 2, "", 40, 42, 42, "--------------------", 0, 0, 0, NULL, STATUS_SUCCESS},
367 { 1, 0, 0, 0, "", 40, 42, 42, "--------------------", 0, 0, 0, NULL, STATUS_SUCCESS},
368 { 1, 0, 2, 2, "", 40, 42, 42, NULL, 0, 0, 0, NULL, STATUS_SUCCESS},
369 { 1, 0, 0, 0, "", 40, 42, 42, NULL, 0, 0, 0, NULL, STATUS_SUCCESS},
370 { 1, 0, 2, 2, NULL, 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
371 { 1, 0, 0, 0, NULL, 40, 42, 42, "--------------------", 0, 0, 0, NULL, STATUS_SUCCESS},
372 { 1, 0, 2, 2, NULL, 40, 42, 42, NULL, 40, 42, 0, NULL, STATUS_INVALID_PARAMETER},
373 { 1, 0, 0, 0, NULL, 40, 42, 42, NULL, 0, 0, 0, NULL, STATUS_SUCCESS},
374 { 2, 0, 2, 2, "", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
375 { 2, 0, 0, 0, "", 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
376 { 2, 0, 2, 2, "", 40, 42, 42, NULL, 40, 42, 0, NULL, STATUS_INVALID_PARAMETER},
377 { 2, 0, 0, 0, "", 40, 42, 42, NULL, 40, 42, 0, NULL, STATUS_INVALID_PARAMETER},
378 { 2, 0, 2, 2, NULL, 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
379 { 2, 0, 0, 0, NULL, 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
380 { 2, 0, 2, 2, NULL, 40, 42, 42, NULL, 40, 42, 0, NULL, STATUS_INVALID_PARAMETER},
381 { 2, 0, 0, 0, NULL, 40, 42, 42, NULL, 40, 42, 0, NULL, STATUS_INVALID_PARAMETER},
382 { 3, 0, 2, 2, "", 40, 42, 42, "--------------------", 0, 2, 2, "", STATUS_SUCCESS},
383 { 3, 0, 0, 0, "", 40, 42, 42, "--------------------", 0, 2, 2, "", STATUS_SUCCESS},
384 { 3, 0, 2, 2, "", 40, 42, 42, NULL, 0, 2, 2, "", STATUS_SUCCESS},
385 { 3, 0, 0, 0, "", 40, 42, 42, NULL, 0, 2, 2, "", STATUS_SUCCESS},
386 { 3, 0, 2, 2, NULL, 40, 42, 42, "--------------------", 40, 42, 42, "--------------------", STATUS_INVALID_PARAMETER},
387 { 3, 0, 0, 0, NULL, 40, 42, 42, "--------------------", 0, 2, 2, "", STATUS_SUCCESS},
388 { 3, 0, 2, 2, NULL, 40, 42, 42, NULL, 40, 42, 0, NULL, STATUS_INVALID_PARAMETER},
389 { 3, 0, 0, 0, NULL, 40, 42, 42, NULL, 0, 2, 2, "", STATUS_SUCCESS},
391 #define NB_DUPL_USTR (sizeof(dupl_ustr)/sizeof(*dupl_ustr))
394 static void test_RtlDuplicateUnicodeString(void)
396 size_t pos;
397 WCHAR source_buf[257];
398 WCHAR dest_buf[257];
399 WCHAR res_buf[257];
400 UNICODE_STRING source_str;
401 UNICODE_STRING dest_str;
402 UNICODE_STRING res_str;
403 CHAR dest_ansi_buf[257];
404 STRING dest_ansi_str;
405 NTSTATUS result;
406 unsigned int test_num;
408 for (test_num = 0; test_num < NB_DUPL_USTR; test_num++) {
409 source_str.Length = dupl_ustr[test_num].source_Length;
410 source_str.MaximumLength = dupl_ustr[test_num].source_MaximumLength;
411 if (dupl_ustr[test_num].source_buf != NULL) {
412 for (pos = 0; pos < dupl_ustr[test_num].source_buf_size/sizeof(WCHAR); pos++) {
413 source_buf[pos] = dupl_ustr[test_num].source_buf[pos];
415 source_str.Buffer = source_buf;
416 } else {
417 source_str.Buffer = NULL;
419 dest_str.Length = dupl_ustr[test_num].dest_Length;
420 dest_str.MaximumLength = dupl_ustr[test_num].dest_MaximumLength;
421 if (dupl_ustr[test_num].dest_buf != NULL) {
422 for (pos = 0; pos < dupl_ustr[test_num].dest_buf_size/sizeof(WCHAR); pos++) {
423 dest_buf[pos] = dupl_ustr[test_num].dest_buf[pos];
425 dest_str.Buffer = dest_buf;
426 } else {
427 dest_str.Buffer = NULL;
429 res_str.Length = dupl_ustr[test_num].res_Length;
430 res_str.MaximumLength = dupl_ustr[test_num].res_MaximumLength;
431 if (dupl_ustr[test_num].res_buf != NULL) {
432 for (pos = 0; pos < dupl_ustr[test_num].res_buf_size/sizeof(WCHAR); pos++) {
433 res_buf[pos] = dupl_ustr[test_num].res_buf[pos];
435 res_str.Buffer = res_buf;
436 } else {
437 res_str.Buffer = NULL;
439 result = pRtlDuplicateUnicodeString(dupl_ustr[test_num].add_nul, &source_str, &dest_str);
440 dest_ansi_str.Length = dest_str.Length / sizeof(WCHAR);
441 dest_ansi_str.MaximumLength = dest_ansi_str.Length + 1;
442 for (pos = 0; pos < dest_ansi_str.Length; pos++) {
443 dest_ansi_buf[pos] = (char)dest_buf[pos];
445 dest_ansi_buf[dest_ansi_str.Length] = '\0';
446 dest_ansi_str.Buffer = dest_ansi_buf;
447 ok(result == dupl_ustr[test_num].result,
448 "(test %d): RtlDuplicateUnicodeString(%d, source, dest) has result %x, expected %x\n",
449 test_num, dupl_ustr[test_num].add_nul, result, dupl_ustr[test_num].result);
450 ok(dest_str.Length == dupl_ustr[test_num].res_Length,
451 "(test %d): RtlDuplicateUnicodeString(%d, source, dest) destination has Length %d, expected %d\n",
452 test_num, dupl_ustr[test_num].add_nul, dest_str.Length, dupl_ustr[test_num].res_Length);
453 ok(dest_str.MaximumLength == dupl_ustr[test_num].res_MaximumLength,
454 "(test %d): RtlDuplicateUnicodeString(%d, source, dest) destination has MaximumLength %d, expected %d\n",
455 test_num, dupl_ustr[test_num].add_nul, dest_str.MaximumLength, dupl_ustr[test_num].res_MaximumLength);
456 if (result == STATUS_INVALID_PARAMETER) {
457 ok((dest_str.Buffer == NULL && res_str.Buffer == NULL) ||
458 dest_str.Buffer == dest_buf,
459 "(test %d): RtlDuplicateUnicodeString(%d, source, dest) destination buffer changed %p expected %p\n",
460 test_num, dupl_ustr[test_num].add_nul, dest_str.Buffer, dest_buf);
461 } else {
462 ok(dest_str.Buffer != dest_buf,
463 "(test %d): RtlDuplicateUnicodeString(%d, source, dest) has destination buffer unchanged %p\n",
464 test_num, dupl_ustr[test_num].add_nul, dest_str.Buffer);
466 if (dest_str.Buffer != NULL && dupl_ustr[test_num].res_buf != NULL) {
467 ok(memcmp(dest_str.Buffer, res_str.Buffer, dupl_ustr[test_num].res_buf_size) == 0,
468 "(test %d): RtlDuplicateUnicodeString(%d, source, dest) has destination \"%s\" expected \"%s\"\n",
469 test_num, dupl_ustr[test_num].add_nul, dest_ansi_str.Buffer, dupl_ustr[test_num].res_buf);
470 } else {
471 ok(dest_str.Buffer == NULL && dupl_ustr[test_num].res_buf == NULL,
472 "(test %d): RtlDuplicateUnicodeString(%d, source, dest) has destination %p expected %p\n",
473 test_num, dupl_ustr[test_num].add_nul, dest_str.Buffer, dupl_ustr[test_num].res_buf);
479 static void test_RtlCopyString(void)
481 static const char teststring[] = "Some Wild String";
482 char deststring[] = " ";
483 STRING str;
484 STRING deststr;
486 pRtlInitString(&str, teststring);
487 pRtlInitString(&deststr, deststring);
488 pRtlCopyString(&deststr, &str);
489 ok(strncmp(str.Buffer, deststring, str.Length) == 0, "String not copied\n");
493 static void test_RtlUpperChar(void)
495 int ch;
496 int upper_ch;
497 int expected_upper_ch;
498 int byte_ch;
500 for (ch = -1; ch <= 1024; ch++) {
501 upper_ch = pRtlUpperChar(ch);
502 byte_ch = ch & 0xff;
503 if (byte_ch >= 'a' && byte_ch <= 'z') {
504 expected_upper_ch = (CHAR) (byte_ch - 'a' + 'A');
505 } else {
506 expected_upper_ch = (CHAR) byte_ch;
508 ok(upper_ch == expected_upper_ch,
509 "RtlUpperChar('%c'[=0x%x]) has result '%c'[=0x%x], expected '%c'[=0x%x]\n",
510 ch, ch, upper_ch, upper_ch, expected_upper_ch, expected_upper_ch);
515 static void test_RtlUpperString(void)
517 int i;
518 CHAR ch;
519 CHAR upper_ch;
520 char ascii_buf[257];
521 char result_buf[257];
522 char upper_buf[257];
523 STRING ascii_str;
524 STRING result_str;
525 STRING upper_str;
527 for (i = 0; i <= 255; i++) {
528 ch = (CHAR) i;
529 if (ch >= 'a' && ch <= 'z') {
530 upper_ch = ch - 'a' + 'A';
531 } else {
532 upper_ch = ch;
534 ascii_buf[i] = ch;
535 result_buf[i] = '\0';
536 upper_buf[i] = upper_ch;
538 ascii_buf[i] = '\0';
539 result_buf[i] = '\0';
540 upper_buf[i] = '\0';
541 ascii_str.Length = 256;
542 ascii_str.MaximumLength = 256;
543 ascii_str.Buffer = ascii_buf;
544 result_str.Length = 256;
545 result_str.MaximumLength = 256;
546 result_str.Buffer = result_buf;
547 upper_str.Length = 256;
548 upper_str.MaximumLength = 256;
549 upper_str.Buffer = upper_buf;
551 pRtlUpperString(&result_str, &ascii_str);
552 ok(memcmp(result_str.Buffer, upper_str.Buffer, 256) == 0,
553 "RtlUpperString does not work as expected\n");
557 static void test_RtlUpcaseUnicodeChar(void)
559 int i;
560 WCHAR ch;
561 WCHAR upper_ch;
562 WCHAR expected_upper_ch;
564 for (i = 0; i <= 255; i++) {
565 ch = (WCHAR) i;
566 upper_ch = pRtlUpcaseUnicodeChar(ch);
567 if (ch >= 'a' && ch <= 'z') {
568 expected_upper_ch = ch - 'a' + 'A';
569 } else if (ch >= 0xe0 && ch <= 0xfe && ch != 0xf7) {
570 expected_upper_ch = ch - 0x20;
571 } else if (ch == 0xff) {
572 expected_upper_ch = 0x178;
573 } else {
574 expected_upper_ch = ch;
576 ok(upper_ch == expected_upper_ch,
577 "RtlUpcaseUnicodeChar('%c'[=0x%x]) has result '%c'[=0x%x], expected: '%c'[=0x%x]\n",
578 ch, ch, upper_ch, upper_ch, expected_upper_ch, expected_upper_ch);
583 static void test_RtlUpcaseUnicodeString(void)
585 int i;
586 WCHAR ch;
587 WCHAR upper_ch;
588 WCHAR ascii_buf[257];
589 WCHAR result_buf[257];
590 WCHAR upper_buf[257];
591 UNICODE_STRING ascii_str;
592 UNICODE_STRING result_str;
593 UNICODE_STRING upper_str;
595 for (i = 0; i <= 255; i++) {
596 ch = (WCHAR) i;
597 if (ch >= 'a' && ch <= 'z') {
598 upper_ch = ch - 'a' + 'A';
599 } else if (ch >= 0xe0 && ch <= 0xfe && ch != 0xf7) {
600 upper_ch = ch - 0x20;
601 } else if (ch == 0xff) {
602 upper_ch = 0x178;
603 } else {
604 upper_ch = ch;
606 ascii_buf[i] = ch;
607 result_buf[i] = '\0';
608 upper_buf[i] = upper_ch;
610 ascii_buf[i] = '\0';
611 result_buf[i] = '\0';
612 upper_buf[i] = '\0';
613 ascii_str.Length = 512;
614 ascii_str.MaximumLength = 512;
615 ascii_str.Buffer = ascii_buf;
616 result_str.Length = 512;
617 result_str.MaximumLength = 512;
618 result_str.Buffer = result_buf;
619 upper_str.Length = 512;
620 upper_str.MaximumLength = 512;
621 upper_str.Buffer = upper_buf;
623 pRtlUpcaseUnicodeString(&result_str, &ascii_str, 0);
624 for (i = 0; i <= 255; i++) {
625 ok(result_str.Buffer[i] == upper_str.Buffer[i],
626 "RtlUpcaseUnicodeString works wrong: '%c'[=0x%x] is converted to '%c'[=0x%x], expected: '%c'[=0x%x]\n",
627 ascii_str.Buffer[i], ascii_str.Buffer[i],
628 result_str.Buffer[i], result_str.Buffer[i],
629 upper_str.Buffer[i], upper_str.Buffer[i]);
634 static void test_RtlDowncaseUnicodeString(void)
636 int i;
637 WCHAR ch;
638 WCHAR lower_ch;
639 WCHAR source_buf[1025];
640 WCHAR result_buf[1025];
641 WCHAR lower_buf[1025];
642 UNICODE_STRING source_str;
643 UNICODE_STRING result_str;
644 UNICODE_STRING lower_str;
646 for (i = 0; i < 1024; i++) {
647 ch = (WCHAR) i;
648 if (ch >= 'A' && ch <= 'Z') {
649 lower_ch = ch - 'A' + 'a';
650 } else if (ch >= 0xc0 && ch <= 0xde && ch != 0xd7) {
651 lower_ch = ch + 0x20;
652 } else if (ch >= 0x391 && ch <= 0x3ab && ch != 0x3a2) {
653 lower_ch = ch + 0x20;
654 } else {
655 switch (ch) {
656 case 0x178: lower_ch = 0xff; break;
657 case 0x181: lower_ch = 0x253; break;
658 case 0x186: lower_ch = 0x254; break;
659 case 0x189: lower_ch = 0x256; break;
660 case 0x18a: lower_ch = 0x257; break;
661 case 0x18e: lower_ch = 0x1dd; break;
662 case 0x18f: lower_ch = 0x259; break;
663 case 0x190: lower_ch = 0x25b; break;
664 case 0x193: lower_ch = 0x260; break;
665 case 0x194: lower_ch = 0x263; break;
666 case 0x196: lower_ch = 0x269; break;
667 case 0x197: lower_ch = 0x268; break;
668 case 0x19c: lower_ch = 0x26f; break;
669 case 0x19d: lower_ch = 0x272; break;
670 case 0x19f: lower_ch = 0x275; break;
671 case 0x1a9: lower_ch = 0x283; break;
672 case 0x1ae: lower_ch = 0x288; break;
673 case 0x1b1: lower_ch = 0x28a; break;
674 case 0x1b2: lower_ch = 0x28b; break;
675 case 0x1b7: lower_ch = 0x292; break;
676 case 0x1c4: lower_ch = 0x1c6; break;
677 case 0x1c7: lower_ch = 0x1c9; break;
678 case 0x1ca: lower_ch = 0x1cc; break;
679 case 0x1f1: lower_ch = 0x1f3; break;
680 case 0x386: lower_ch = 0x3ac; break;
681 case 0x388: lower_ch = 0x3ad; break;
682 case 0x389: lower_ch = 0x3ae; break;
683 case 0x38a: lower_ch = 0x3af; break;
684 case 0x38c: lower_ch = 0x3cc; break;
685 case 0x38e: lower_ch = 0x3cd; break;
686 case 0x38f: lower_ch = 0x3ce; break;
687 default: lower_ch = ch; break;
688 } /* switch */
690 source_buf[i] = ch;
691 result_buf[i] = '\0';
692 lower_buf[i] = lower_ch;
694 source_buf[i] = '\0';
695 result_buf[i] = '\0';
696 lower_buf[i] = '\0';
697 source_str.Length = 2048;
698 source_str.MaximumLength = 2048;
699 source_str.Buffer = source_buf;
700 result_str.Length = 2048;
701 result_str.MaximumLength = 2048;
702 result_str.Buffer = result_buf;
703 lower_str.Length = 2048;
704 lower_str.MaximumLength = 2048;
705 lower_str.Buffer = lower_buf;
707 pRtlDowncaseUnicodeString(&result_str, &source_str, 0);
708 for (i = 0; i <= 1024; i++) {
709 ok(result_str.Buffer[i] == lower_str.Buffer[i] || result_str.Buffer[i] == source_str.Buffer[i] + 1,
710 "RtlDowncaseUnicodeString works wrong: '%c'[=0x%x] is converted to '%c'[=0x%x], expected: '%c'[=0x%x]\n",
711 source_str.Buffer[i], source_str.Buffer[i],
712 result_str.Buffer[i], result_str.Buffer[i],
713 lower_str.Buffer[i], lower_str.Buffer[i]);
718 typedef struct {
719 int ansi_Length;
720 int ansi_MaximumLength;
721 int ansi_buf_size;
722 const char *ansi_buf;
723 int uni_Length;
724 int uni_MaximumLength;
725 int uni_buf_size;
726 const char *uni_buf;
727 BOOLEAN doalloc;
728 int res_Length;
729 int res_MaximumLength;
730 int res_buf_size;
731 const char *res_buf;
732 NTSTATUS result;
733 } ustr2astr_t;
735 static const ustr2astr_t ustr2astr[] = {
736 { 10, 12, 12, "------------", 0, 0, 0, "", TRUE, 0, 1, 1, "", STATUS_SUCCESS},
737 { 10, 12, 12, "------------", 12, 12, 12, "abcdef", TRUE, 6, 7, 7, "abcdef", STATUS_SUCCESS},
738 { 0, 2, 12, "------------", 12, 12, 12, "abcdef", TRUE, 6, 7, 7, "abcdef", STATUS_SUCCESS},
739 { 10, 12, 12, NULL, 12, 12, 12, "abcdef", TRUE, 6, 7, 7, "abcdef", STATUS_SUCCESS},
740 { 0, 0, 12, "------------", 12, 12, 12, "abcdef", FALSE, 6, 0, 0, "", STATUS_BUFFER_OVERFLOW},
741 { 0, 1, 12, "------------", 12, 12, 12, "abcdef", FALSE, 0, 1, 1, "", STATUS_BUFFER_OVERFLOW},
742 { 0, 2, 12, "------------", 12, 12, 12, "abcdef", FALSE, 1, 2, 2, "a", STATUS_BUFFER_OVERFLOW},
743 { 0, 3, 12, "------------", 12, 12, 12, "abcdef", FALSE, 2, 3, 3, "ab", STATUS_BUFFER_OVERFLOW},
744 { 0, 5, 12, "------------", 12, 12, 12, "abcdef", FALSE, 4, 5, 5, "abcd", STATUS_BUFFER_OVERFLOW},
745 { 8, 5, 12, "------------", 12, 12, 12, "abcdef", FALSE, 4, 5, 5, "abcd", STATUS_BUFFER_OVERFLOW},
746 { 8, 6, 12, "------------", 12, 12, 12, "abcdef", FALSE, 5, 6, 6, "abcde", STATUS_BUFFER_OVERFLOW},
747 { 8, 7, 12, "------------", 12, 12, 12, "abcdef", FALSE, 6, 7, 7, "abcdef", STATUS_SUCCESS},
748 { 8, 7, 12, "------------", 0, 12, 12, NULL, FALSE, 0, 7, 0, "", STATUS_SUCCESS},
749 { 0, 0, 12, NULL, 10, 10, 12, NULL, FALSE, 5, 0, 0, NULL, STATUS_BUFFER_OVERFLOW},
751 #define NB_USTR2ASTR (sizeof(ustr2astr)/sizeof(*ustr2astr))
754 static void test_RtlUnicodeStringToAnsiString(void)
756 size_t pos;
757 CHAR ansi_buf[257];
758 WCHAR uni_buf[257];
759 STRING ansi_str;
760 UNICODE_STRING uni_str;
761 NTSTATUS result;
762 unsigned int test_num;
764 for (test_num = 0; test_num < NB_USTR2ASTR; test_num++) {
765 ansi_str.Length = ustr2astr[test_num].ansi_Length;
766 ansi_str.MaximumLength = ustr2astr[test_num].ansi_MaximumLength;
767 if (ustr2astr[test_num].ansi_buf != NULL) {
768 memcpy(ansi_buf, ustr2astr[test_num].ansi_buf, ustr2astr[test_num].ansi_buf_size);
769 ansi_buf[ustr2astr[test_num].ansi_buf_size] = '\0';
770 ansi_str.Buffer = ansi_buf;
771 } else {
772 ansi_str.Buffer = NULL;
774 uni_str.Length = ustr2astr[test_num].uni_Length;
775 uni_str.MaximumLength = ustr2astr[test_num].uni_MaximumLength;
776 if (ustr2astr[test_num].uni_buf != NULL) {
777 for (pos = 0; pos < ustr2astr[test_num].uni_buf_size/sizeof(WCHAR); pos++) {
778 uni_buf[pos] = ustr2astr[test_num].uni_buf[pos];
780 uni_str.Buffer = uni_buf;
781 } else {
782 uni_str.Buffer = NULL;
784 result = pRtlUnicodeStringToAnsiString(&ansi_str, &uni_str, ustr2astr[test_num].doalloc);
785 ok(result == ustr2astr[test_num].result,
786 "(test %d): RtlUnicodeStringToAnsiString(ansi, uni, %d) has result %x, expected %x\n",
787 test_num, ustr2astr[test_num].doalloc, result, ustr2astr[test_num].result);
788 ok(ansi_str.Length == ustr2astr[test_num].res_Length,
789 "(test %d): RtlUnicodeStringToAnsiString(ansi, uni, %d) ansi has Length %d, expected %d\n",
790 test_num, ustr2astr[test_num].doalloc, ansi_str.Length, ustr2astr[test_num].res_Length);
791 ok(ansi_str.MaximumLength == ustr2astr[test_num].res_MaximumLength,
792 "(test %d): RtlUnicodeStringToAnsiString(ansi, uni, %d) ansi has MaximumLength %d, expected %d\n",
793 test_num, ustr2astr[test_num].doalloc, ansi_str.MaximumLength, ustr2astr[test_num].res_MaximumLength);
794 ok(memcmp(ansi_str.Buffer, ustr2astr[test_num].res_buf, ustr2astr[test_num].res_buf_size) == 0,
795 "(test %d): RtlUnicodeStringToAnsiString(ansi, uni, %d) has ansi \"%s\" expected \"%s\"\n",
796 test_num, ustr2astr[test_num].doalloc, ansi_str.Buffer, ustr2astr[test_num].res_buf);
801 typedef struct {
802 int dest_Length;
803 int dest_MaximumLength;
804 int dest_buf_size;
805 const char *dest_buf;
806 const char *src;
807 int res_Length;
808 int res_MaximumLength;
809 int res_buf_size;
810 const char *res_buf;
811 NTSTATUS result;
812 } app_asc2str_t;
814 static const app_asc2str_t app_asc2str[] = {
815 { 5, 12, 15, "TestS01234abcde", "tring", 10, 12, 15, "TestStringabcde", STATUS_SUCCESS},
816 { 5, 11, 15, "TestS01234abcde", "tring", 10, 11, 15, "TestStringabcde", STATUS_SUCCESS},
817 { 5, 10, 15, "TestS01234abcde", "tring", 10, 10, 15, "TestStringabcde", STATUS_SUCCESS},
818 { 5, 9, 15, "TestS01234abcde", "tring", 5, 9, 15, "TestS01234abcde", STATUS_BUFFER_TOO_SMALL},
819 { 5, 0, 15, "TestS01234abcde", "tring", 5, 0, 15, "TestS01234abcde", STATUS_BUFFER_TOO_SMALL},
820 { 5, 14, 15, "TestS01234abcde", "tring", 10, 14, 15, "TestStringabcde", STATUS_SUCCESS},
821 { 5, 14, 15, "TestS01234abcde", NULL, 5, 14, 15, "TestS01234abcde", STATUS_SUCCESS},
822 { 5, 14, 15, NULL, NULL, 5, 14, 15, NULL, STATUS_SUCCESS},
823 { 5, 12, 15, "Tst\0S01234abcde", "tr\0i", 7, 12, 15, "Tst\0Str234abcde", STATUS_SUCCESS},
825 #define NB_APP_ASC2STR (sizeof(app_asc2str)/sizeof(*app_asc2str))
828 static void test_RtlAppendAsciizToString(void)
830 CHAR dest_buf[257];
831 STRING dest_str;
832 NTSTATUS result;
833 unsigned int test_num;
835 for (test_num = 0; test_num < NB_APP_ASC2STR; test_num++) {
836 dest_str.Length = app_asc2str[test_num].dest_Length;
837 dest_str.MaximumLength = app_asc2str[test_num].dest_MaximumLength;
838 if (app_asc2str[test_num].dest_buf != NULL) {
839 memcpy(dest_buf, app_asc2str[test_num].dest_buf, app_asc2str[test_num].dest_buf_size);
840 dest_buf[app_asc2str[test_num].dest_buf_size] = '\0';
841 dest_str.Buffer = dest_buf;
842 } else {
843 dest_str.Buffer = NULL;
845 result = pRtlAppendAsciizToString(&dest_str, app_asc2str[test_num].src);
846 ok(result == app_asc2str[test_num].result,
847 "(test %d): RtlAppendAsciizToString(dest, src) has result %x, expected %x\n",
848 test_num, result, app_asc2str[test_num].result);
849 ok(dest_str.Length == app_asc2str[test_num].res_Length,
850 "(test %d): RtlAppendAsciizToString(dest, src) dest has Length %d, expected %d\n",
851 test_num, dest_str.Length, app_asc2str[test_num].res_Length);
852 ok(dest_str.MaximumLength == app_asc2str[test_num].res_MaximumLength,
853 "(test %d): RtlAppendAsciizToString(dest, src) dest has MaximumLength %d, expected %d\n",
854 test_num, dest_str.MaximumLength, app_asc2str[test_num].res_MaximumLength);
855 if (dest_str.Buffer == dest_buf) {
856 ok(memcmp(dest_buf, app_asc2str[test_num].res_buf, app_asc2str[test_num].res_buf_size) == 0,
857 "(test %d): RtlAppendAsciizToString(dest, src) has dest \"%s\" expected \"%s\"\n",
858 test_num, dest_buf, app_asc2str[test_num].res_buf);
859 } else {
860 ok(dest_str.Buffer == app_asc2str[test_num].res_buf,
861 "(test %d): RtlAppendAsciizToString(dest, src) dest has Buffer %p expected %p\n",
862 test_num, dest_str.Buffer, app_asc2str[test_num].res_buf);
868 typedef struct {
869 int dest_Length;
870 int dest_MaximumLength;
871 int dest_buf_size;
872 const char *dest_buf;
873 int src_Length;
874 int src_MaximumLength;
875 int src_buf_size;
876 const char *src_buf;
877 int res_Length;
878 int res_MaximumLength;
879 int res_buf_size;
880 const char *res_buf;
881 NTSTATUS result;
882 } app_str2str_t;
884 static const app_str2str_t app_str2str[] = {
885 { 5, 12, 15, "TestS01234abcde", 5, 5, 7, "tringZY", 10, 12, 15, "TestStringabcde", STATUS_SUCCESS},
886 { 5, 11, 15, "TestS01234abcde", 5, 5, 7, "tringZY", 10, 11, 15, "TestStringabcde", STATUS_SUCCESS},
887 { 5, 10, 15, "TestS01234abcde", 5, 5, 7, "tringZY", 10, 10, 15, "TestStringabcde", STATUS_SUCCESS},
888 { 5, 9, 15, "TestS01234abcde", 5, 5, 7, "tringZY", 5, 9, 15, "TestS01234abcde", STATUS_BUFFER_TOO_SMALL},
889 { 5, 0, 15, "TestS01234abcde", 0, 0, 7, "tringZY", 5, 0, 15, "TestS01234abcde", STATUS_SUCCESS},
890 { 5, 14, 15, "TestS01234abcde", 0, 0, 7, "tringZY", 5, 14, 15, "TestS01234abcde", STATUS_SUCCESS},
891 { 5, 14, 15, "TestS01234abcde", 0, 0, 7, NULL, 5, 14, 15, "TestS01234abcde", STATUS_SUCCESS},
892 { 5, 14, 15, NULL, 0, 0, 7, NULL, 5, 14, 15, NULL, STATUS_SUCCESS},
893 { 5, 12, 15, "Tst\0S01234abcde", 4, 4, 7, "tr\0iZY", 9, 12, 15, "Tst\0Str\0i4abcde", STATUS_SUCCESS},
895 #define NB_APP_STR2STR (sizeof(app_str2str)/sizeof(*app_str2str))
898 static void test_RtlAppendStringToString(void)
900 CHAR dest_buf[257];
901 CHAR src_buf[257];
902 STRING dest_str;
903 STRING src_str;
904 NTSTATUS result;
905 unsigned int test_num;
907 for (test_num = 0; test_num < NB_APP_STR2STR; test_num++) {
908 dest_str.Length = app_str2str[test_num].dest_Length;
909 dest_str.MaximumLength = app_str2str[test_num].dest_MaximumLength;
910 if (app_str2str[test_num].dest_buf != NULL) {
911 memcpy(dest_buf, app_str2str[test_num].dest_buf, app_str2str[test_num].dest_buf_size);
912 dest_buf[app_str2str[test_num].dest_buf_size] = '\0';
913 dest_str.Buffer = dest_buf;
914 } else {
915 dest_str.Buffer = NULL;
917 src_str.Length = app_str2str[test_num].src_Length;
918 src_str.MaximumLength = app_str2str[test_num].src_MaximumLength;
919 if (app_str2str[test_num].src_buf != NULL) {
920 memcpy(src_buf, app_str2str[test_num].src_buf, app_str2str[test_num].src_buf_size);
921 src_buf[app_str2str[test_num].src_buf_size] = '\0';
922 src_str.Buffer = src_buf;
923 } else {
924 src_str.Buffer = NULL;
926 result = pRtlAppendStringToString(&dest_str, &src_str);
927 ok(result == app_str2str[test_num].result,
928 "(test %d): RtlAppendStringToString(dest, src) has result %x, expected %x\n",
929 test_num, result, app_str2str[test_num].result);
930 ok(dest_str.Length == app_str2str[test_num].res_Length,
931 "(test %d): RtlAppendStringToString(dest, src) dest has Length %d, expected %d\n",
932 test_num, dest_str.Length, app_str2str[test_num].res_Length);
933 ok(dest_str.MaximumLength == app_str2str[test_num].res_MaximumLength,
934 "(test %d): RtlAppendStringToString(dest, src) dest has MaximumLength %d, expected %d\n",
935 test_num, dest_str.MaximumLength, app_str2str[test_num].res_MaximumLength);
936 if (dest_str.Buffer == dest_buf) {
937 ok(memcmp(dest_buf, app_str2str[test_num].res_buf, app_str2str[test_num].res_buf_size) == 0,
938 "(test %d): RtlAppendStringToString(dest, src) has dest \"%s\" expected \"%s\"\n",
939 test_num, dest_buf, app_str2str[test_num].res_buf);
940 } else {
941 ok(dest_str.Buffer == app_str2str[test_num].res_buf,
942 "(test %d): RtlAppendStringToString(dest, src) dest has Buffer %p expected %p\n",
943 test_num, dest_str.Buffer, app_str2str[test_num].res_buf);
949 typedef struct {
950 int dest_Length;
951 int dest_MaximumLength;
952 int dest_buf_size;
953 const char *dest_buf;
954 const char *src;
955 int res_Length;
956 int res_MaximumLength;
957 int res_buf_size;
958 const char *res_buf;
959 NTSTATUS result;
960 } app_uni2str_t;
962 static const app_uni2str_t app_uni2str[] = {
963 { 4, 12, 14, "Fake0123abcdef", "Ustr\0", 8, 12, 14, "FakeUstr\0\0cdef", STATUS_SUCCESS},
964 { 4, 11, 14, "Fake0123abcdef", "Ustr\0", 8, 11, 14, "FakeUstr\0\0cdef", STATUS_SUCCESS},
965 { 4, 10, 14, "Fake0123abcdef", "Ustr\0", 8, 10, 14, "FakeUstr\0\0cdef", STATUS_SUCCESS},
966 /* In the following test the native function writes beyond MaximumLength
967 * { 4, 9, 14, "Fake0123abcdef", "Ustr\0", 8, 9, 14, "FakeUstrabcdef", STATUS_SUCCESS},
969 { 4, 8, 14, "Fake0123abcdef", "Ustr\0", 8, 8, 14, "FakeUstrabcdef", STATUS_SUCCESS},
970 { 4, 7, 14, "Fake0123abcdef", "Ustr\0", 4, 7, 14, "Fake0123abcdef", STATUS_BUFFER_TOO_SMALL},
971 { 4, 0, 14, "Fake0123abcdef", "Ustr\0", 4, 0, 14, "Fake0123abcdef", STATUS_BUFFER_TOO_SMALL},
972 { 4, 14, 14, "Fake0123abcdef", "Ustr\0", 8, 14, 14, "FakeUstr\0\0cdef", STATUS_SUCCESS},
973 { 4, 14, 14, "Fake0123abcdef", NULL, 4, 14, 14, "Fake0123abcdef", STATUS_SUCCESS},
974 { 4, 14, 14, NULL, NULL, 4, 14, 14, NULL, STATUS_SUCCESS},
975 { 4, 14, 14, "Fake0123abcdef", "U\0stri\0", 10, 14, 14, "FakeU\0stri\0\0ef", STATUS_SUCCESS},
976 { 6, 14, 16, "Te\0\0stabcdefghij", "St\0\0ri", 8, 14, 16, "Te\0\0stSt\0\0efghij", STATUS_SUCCESS},
978 #define NB_APP_UNI2STR (sizeof(app_uni2str)/sizeof(*app_uni2str))
981 static void test_RtlAppendUnicodeToString(void)
983 WCHAR dest_buf[257];
984 UNICODE_STRING dest_str;
985 NTSTATUS result;
986 unsigned int test_num;
988 for (test_num = 0; test_num < NB_APP_UNI2STR; test_num++) {
989 dest_str.Length = app_uni2str[test_num].dest_Length;
990 dest_str.MaximumLength = app_uni2str[test_num].dest_MaximumLength;
991 if (app_uni2str[test_num].dest_buf != NULL) {
992 memcpy(dest_buf, app_uni2str[test_num].dest_buf, app_uni2str[test_num].dest_buf_size);
993 dest_buf[app_uni2str[test_num].dest_buf_size/sizeof(WCHAR)] = '\0';
994 dest_str.Buffer = dest_buf;
995 } else {
996 dest_str.Buffer = NULL;
998 result = pRtlAppendUnicodeToString(&dest_str, (LPCWSTR) app_uni2str[test_num].src);
999 ok(result == app_uni2str[test_num].result,
1000 "(test %d): RtlAppendUnicodeToString(dest, src) has result %x, expected %x\n",
1001 test_num, result, app_uni2str[test_num].result);
1002 ok(dest_str.Length == app_uni2str[test_num].res_Length,
1003 "(test %d): RtlAppendUnicodeToString(dest, src) dest has Length %d, expected %d\n",
1004 test_num, dest_str.Length, app_uni2str[test_num].res_Length);
1005 ok(dest_str.MaximumLength == app_uni2str[test_num].res_MaximumLength,
1006 "(test %d): RtlAppendUnicodeToString(dest, src) dest has MaximumLength %d, expected %d\n",
1007 test_num, dest_str.MaximumLength, app_uni2str[test_num].res_MaximumLength);
1008 if (dest_str.Buffer == dest_buf) {
1009 ok(memcmp(dest_buf, app_uni2str[test_num].res_buf, app_uni2str[test_num].res_buf_size) == 0,
1010 "(test %d): RtlAppendUnicodeToString(dest, src) has dest \"%s\" expected \"%s\"\n",
1011 test_num, (char *) dest_buf, app_uni2str[test_num].res_buf);
1012 } else {
1013 ok(dest_str.Buffer == (WCHAR *) app_uni2str[test_num].res_buf,
1014 "(test %d): RtlAppendUnicodeToString(dest, src) dest has Buffer %p expected %p\n",
1015 test_num, dest_str.Buffer, app_uni2str[test_num].res_buf);
1021 typedef struct {
1022 int dest_Length;
1023 int dest_MaximumLength;
1024 int dest_buf_size;
1025 const char *dest_buf;
1026 int src_Length;
1027 int src_MaximumLength;
1028 int src_buf_size;
1029 const char *src_buf;
1030 int res_Length;
1031 int res_MaximumLength;
1032 int res_buf_size;
1033 const char *res_buf;
1034 NTSTATUS result;
1035 } app_ustr2str_t;
1037 static const app_ustr2str_t app_ustr2str[] = {
1038 { 4, 12, 14, "Fake0123abcdef", 4, 6, 8, "UstrZYXW", 8, 12, 14, "FakeUstr\0\0cdef", STATUS_SUCCESS},
1039 { 4, 11, 14, "Fake0123abcdef", 4, 6, 8, "UstrZYXW", 8, 11, 14, "FakeUstr\0\0cdef", STATUS_SUCCESS},
1040 { 4, 10, 14, "Fake0123abcdef", 4, 6, 8, "UstrZYXW", 8, 10, 14, "FakeUstr\0\0cdef", STATUS_SUCCESS},
1041 /* In the following test the native function writes beyond MaximumLength
1042 * { 4, 9, 14, "Fake0123abcdef", 4, 6, 8, "UstrZYXW", 8, 9, 14, "FakeUstrabcdef", STATUS_SUCCESS},
1044 { 4, 8, 14, "Fake0123abcdef", 4, 6, 8, "UstrZYXW", 8, 8, 14, "FakeUstrabcdef", STATUS_SUCCESS},
1045 { 4, 7, 14, "Fake0123abcdef", 4, 6, 8, "UstrZYXW", 4, 7, 14, "Fake0123abcdef", STATUS_BUFFER_TOO_SMALL},
1046 { 4, 0, 14, "Fake0123abcdef", 0, 0, 8, "UstrZYXW", 4, 0, 14, "Fake0123abcdef", STATUS_SUCCESS},
1047 { 4, 14, 14, "Fake0123abcdef", 0, 0, 8, "UstrZYXW", 4, 14, 14, "Fake0123abcdef", STATUS_SUCCESS},
1048 { 4, 14, 14, "Fake0123abcdef", 0, 0, 8, NULL, 4, 14, 14, "Fake0123abcdef", STATUS_SUCCESS},
1049 { 4, 14, 14, NULL, 0, 0, 8, NULL, 4, 14, 14, NULL, STATUS_SUCCESS},
1050 { 6, 14, 16, "Te\0\0stabcdefghij", 6, 8, 8, "St\0\0riZY", 12, 14, 16, "Te\0\0stSt\0\0ri\0\0ij", STATUS_SUCCESS},
1052 #define NB_APP_USTR2STR (sizeof(app_ustr2str)/sizeof(*app_ustr2str))
1055 static void test_RtlAppendUnicodeStringToString(void)
1057 WCHAR dest_buf[257];
1058 WCHAR src_buf[257];
1059 UNICODE_STRING dest_str;
1060 UNICODE_STRING src_str;
1061 NTSTATUS result;
1062 unsigned int test_num;
1064 for (test_num = 0; test_num < NB_APP_USTR2STR; test_num++) {
1065 dest_str.Length = app_ustr2str[test_num].dest_Length;
1066 dest_str.MaximumLength = app_ustr2str[test_num].dest_MaximumLength;
1067 if (app_ustr2str[test_num].dest_buf != NULL) {
1068 memcpy(dest_buf, app_ustr2str[test_num].dest_buf, app_ustr2str[test_num].dest_buf_size);
1069 dest_buf[app_ustr2str[test_num].dest_buf_size/sizeof(WCHAR)] = '\0';
1070 dest_str.Buffer = dest_buf;
1071 } else {
1072 dest_str.Buffer = NULL;
1074 src_str.Length = app_ustr2str[test_num].src_Length;
1075 src_str.MaximumLength = app_ustr2str[test_num].src_MaximumLength;
1076 if (app_ustr2str[test_num].src_buf != NULL) {
1077 memcpy(src_buf, app_ustr2str[test_num].src_buf, app_ustr2str[test_num].src_buf_size);
1078 src_buf[app_ustr2str[test_num].src_buf_size/sizeof(WCHAR)] = '\0';
1079 src_str.Buffer = src_buf;
1080 } else {
1081 src_str.Buffer = NULL;
1083 result = pRtlAppendUnicodeStringToString(&dest_str, &src_str);
1084 ok(result == app_ustr2str[test_num].result,
1085 "(test %d): RtlAppendStringToString(dest, src) has result %x, expected %x\n",
1086 test_num, result, app_ustr2str[test_num].result);
1087 ok(dest_str.Length == app_ustr2str[test_num].res_Length,
1088 "(test %d): RtlAppendStringToString(dest, src) dest has Length %d, expected %d\n",
1089 test_num, dest_str.Length, app_ustr2str[test_num].res_Length);
1090 ok(dest_str.MaximumLength == app_ustr2str[test_num].res_MaximumLength,
1091 "(test %d): RtlAppendStringToString(dest, src) dest has MaximumLength %d, expected %d\n",
1092 test_num, dest_str.MaximumLength, app_ustr2str[test_num].res_MaximumLength);
1093 if (dest_str.Buffer == dest_buf) {
1094 ok(memcmp(dest_buf, app_ustr2str[test_num].res_buf, app_ustr2str[test_num].res_buf_size) == 0,
1095 "(test %d): RtlAppendStringToString(dest, src) has dest \"%s\" expected \"%s\"\n",
1096 test_num, (char *) dest_buf, app_ustr2str[test_num].res_buf);
1097 } else {
1098 ok(dest_str.Buffer == (WCHAR *) app_ustr2str[test_num].res_buf,
1099 "(test %d): RtlAppendStringToString(dest, src) dest has Buffer %p expected %p\n",
1100 test_num, dest_str.Buffer, app_ustr2str[test_num].res_buf);
1106 typedef struct {
1107 int flags;
1108 const char *main_str;
1109 const char *search_chars;
1110 USHORT pos;
1111 NTSTATUS result;
1112 } find_ch_in_ustr_t;
1114 static const find_ch_in_ustr_t find_ch_in_ustr[] = {
1115 { 0, "Some Wild String", "S", 2, STATUS_SUCCESS},
1116 { 0, "This is a String", "String", 6, STATUS_SUCCESS},
1117 { 1, "This is a String", "String", 30, STATUS_SUCCESS},
1118 { 2, "This is a String", "String", 2, STATUS_SUCCESS},
1119 { 3, "This is a String", "String", 18, STATUS_SUCCESS},
1120 { 0, "This is a String", "Wild", 6, STATUS_SUCCESS},
1121 { 1, "This is a String", "Wild", 26, STATUS_SUCCESS},
1122 { 2, "This is a String", "Wild", 2, STATUS_SUCCESS},
1123 { 3, "This is a String", "Wild", 30, STATUS_SUCCESS},
1124 { 0, "abcdefghijklmnopqrstuvwxyz", "", 0, STATUS_NOT_FOUND},
1125 { 0, "abcdefghijklmnopqrstuvwxyz", "123", 0, STATUS_NOT_FOUND},
1126 { 0, "abcdefghijklmnopqrstuvwxyz", "a", 2, STATUS_SUCCESS},
1127 { 0, "abcdefghijklmnopqrstuvwxyz", "12a34", 2, STATUS_SUCCESS},
1128 { 0, "abcdefghijklmnopqrstuvwxyz", "12b34", 4, STATUS_SUCCESS},
1129 { 0, "abcdefghijklmnopqrstuvwxyz", "12y34", 50, STATUS_SUCCESS},
1130 { 0, "abcdefghijklmnopqrstuvwxyz", "12z34", 52, STATUS_SUCCESS},
1131 { 0, "abcdefghijklmnopqrstuvwxyz", "rvz", 36, STATUS_SUCCESS},
1132 { 0, "abcdefghijklmmlkjihgfedcba", "egik", 10, STATUS_SUCCESS},
1133 { 1, "abcdefghijklmnopqrstuvwxyz", "", 0, STATUS_NOT_FOUND},
1134 { 1, "abcdefghijklmnopqrstuvwxyz", "rvz", 50, STATUS_SUCCESS},
1135 { 1, "abcdefghijklmnopqrstuvwxyz", "ravy", 48, STATUS_SUCCESS},
1136 { 1, "abcdefghijklmnopqrstuvwxyz", "raxv", 46, STATUS_SUCCESS},
1137 { 2, "abcdefghijklmnopqrstuvwxyz", "", 2, STATUS_SUCCESS},
1138 { 2, "abcdefghijklmnopqrstuvwxyz", "rvz", 2, STATUS_SUCCESS},
1139 { 2, "abcdefghijklmnopqrstuvwxyz", "vaz", 4, STATUS_SUCCESS},
1140 { 2, "abcdefghijklmnopqrstuvwxyz", "ravbz", 6, STATUS_SUCCESS},
1141 { 3, "abcdefghijklmnopqrstuvwxyz", "", 50, STATUS_SUCCESS},
1142 { 3, "abcdefghijklmnopqrstuvwxyz", "123", 50, STATUS_SUCCESS},
1143 { 3, "abcdefghijklmnopqrstuvwxyz", "ahp", 50, STATUS_SUCCESS},
1144 { 3, "abcdefghijklmnopqrstuvwxyz", "rvz", 48, STATUS_SUCCESS},
1145 { 0, NULL, "abc", 0, STATUS_NOT_FOUND},
1146 { 1, NULL, "abc", 0, STATUS_NOT_FOUND},
1147 { 2, NULL, "abc", 0, STATUS_NOT_FOUND},
1148 { 3, NULL, "abc", 0, STATUS_NOT_FOUND},
1149 { 0, "abcdefghijklmnopqrstuvwxyz", NULL, 0, STATUS_NOT_FOUND},
1150 { 1, "abcdefghijklmnopqrstuvwxyz", NULL, 0, STATUS_NOT_FOUND},
1151 { 2, "abcdefghijklmnopqrstuvwxyz", NULL, 2, STATUS_SUCCESS},
1152 { 3, "abcdefghijklmnopqrstuvwxyz", NULL, 50, STATUS_SUCCESS},
1153 { 0, NULL, NULL, 0, STATUS_NOT_FOUND},
1154 { 1, NULL, NULL, 0, STATUS_NOT_FOUND},
1155 { 2, NULL, NULL, 0, STATUS_NOT_FOUND},
1156 { 3, NULL, NULL, 0, STATUS_NOT_FOUND},
1157 { 0, "abcdabcdabcdabcdabcdabcd", "abcd", 2, STATUS_SUCCESS},
1158 { 1, "abcdabcdabcdabcdabcdabcd", "abcd", 46, STATUS_SUCCESS},
1159 { 2, "abcdabcdabcdabcdabcdabcd", "abcd", 0, STATUS_NOT_FOUND},
1160 { 3, "abcdabcdabcdabcdabcdabcd", "abcd", 0, STATUS_NOT_FOUND},
1162 #define NB_FIND_CH_IN_USTR (sizeof(find_ch_in_ustr)/sizeof(*find_ch_in_ustr))
1165 static void test_RtlFindCharInUnicodeString(void)
1167 WCHAR main_str_buf[257];
1168 WCHAR search_chars_buf[257];
1169 UNICODE_STRING main_str;
1170 UNICODE_STRING search_chars;
1171 USHORT pos;
1172 NTSTATUS result;
1173 unsigned int idx;
1174 unsigned int test_num;
1176 for (test_num = 0; test_num < NB_FIND_CH_IN_USTR; test_num++) {
1177 if (find_ch_in_ustr[test_num].main_str != NULL) {
1178 main_str.Length = strlen(find_ch_in_ustr[test_num].main_str) * sizeof(WCHAR);
1179 main_str.MaximumLength = main_str.Length + sizeof(WCHAR);
1180 for (idx = 0; idx < main_str.Length / sizeof(WCHAR); idx++) {
1181 main_str_buf[idx] = find_ch_in_ustr[test_num].main_str[idx];
1183 main_str.Buffer = main_str_buf;
1184 } else {
1185 main_str.Length = 0;
1186 main_str.MaximumLength = 0;
1187 main_str.Buffer = NULL;
1189 if (find_ch_in_ustr[test_num].search_chars != NULL) {
1190 search_chars.Length = strlen(find_ch_in_ustr[test_num].search_chars) * sizeof(WCHAR);
1191 search_chars.MaximumLength = search_chars.Length + sizeof(WCHAR);
1192 for (idx = 0; idx < search_chars.Length / sizeof(WCHAR); idx++) {
1193 search_chars_buf[idx] = find_ch_in_ustr[test_num].search_chars[idx];
1195 search_chars.Buffer = search_chars_buf;
1196 } else {
1197 search_chars.Length = 0;
1198 search_chars.MaximumLength = 0;
1199 search_chars.Buffer = NULL;
1201 pos = 12345;
1202 result = pRtlFindCharInUnicodeString(find_ch_in_ustr[test_num].flags, &main_str, &search_chars, &pos);
1203 ok(result == find_ch_in_ustr[test_num].result,
1204 "(test %d): RtlFindCharInUnicodeString(%d, %s, %s, [out]) has result %x, expected %x\n",
1205 test_num, find_ch_in_ustr[test_num].flags,
1206 find_ch_in_ustr[test_num].main_str, find_ch_in_ustr[test_num].search_chars,
1207 result, find_ch_in_ustr[test_num].result);
1208 ok(pos == find_ch_in_ustr[test_num].pos,
1209 "(test %d): RtlFindCharInUnicodeString(%d, %s, %s, [out]) assigns %d to pos, expected %d\n",
1210 test_num, find_ch_in_ustr[test_num].flags,
1211 find_ch_in_ustr[test_num].main_str, find_ch_in_ustr[test_num].search_chars,
1212 pos, find_ch_in_ustr[test_num].pos);
1217 typedef struct {
1218 int base;
1219 const char *str;
1220 int value;
1221 NTSTATUS result;
1222 } str2int_t;
1224 static const str2int_t str2int[] = {
1225 { 0, "1011101100", 1011101100, STATUS_SUCCESS},
1226 { 0, "1234567", 1234567, STATUS_SUCCESS},
1227 { 0, "-214", -214, STATUS_SUCCESS},
1228 { 0, "+214", 214, STATUS_SUCCESS}, /* The + sign is allowed also */
1229 { 0, "--214", 0, STATUS_SUCCESS}, /* Do not accept more than one sign */
1230 { 0, "-+214", 0, STATUS_SUCCESS},
1231 { 0, "++214", 0, STATUS_SUCCESS},
1232 { 0, "+-214", 0, STATUS_SUCCESS},
1233 { 0, "\001\002\003\00411", 11, STATUS_SUCCESS}, /* whitespace char 1 to 4 */
1234 { 0, "\005\006\007\01012", 12, STATUS_SUCCESS}, /* whitespace char 5 to 8 */
1235 { 0, "\011\012\013\01413", 13, STATUS_SUCCESS}, /* whitespace char 9 to 12 */
1236 { 0, "\015\016\017\02014", 14, STATUS_SUCCESS}, /* whitespace char 13 to 16 */
1237 { 0, "\021\022\023\02415", 15, STATUS_SUCCESS}, /* whitespace char 17 to 20 */
1238 { 0, "\025\026\027\03016", 16, STATUS_SUCCESS}, /* whitespace char 21 to 24 */
1239 { 0, "\031\032\033\03417", 17, STATUS_SUCCESS}, /* whitespace char 25 to 28 */
1240 { 0, "\035\036\037\04018", 18, STATUS_SUCCESS}, /* whitespace char 29 to 32 */
1241 { 0, " \n \r \t214", 214, STATUS_SUCCESS},
1242 { 0, " \n \r \t+214", 214, STATUS_SUCCESS}, /* Signs can be used after whitespace */
1243 { 0, " \n \r \t-214", -214, STATUS_SUCCESS},
1244 { 0, "+214 0", 214, STATUS_SUCCESS}, /* Space terminates the number */
1245 { 0, " 214.01", 214, STATUS_SUCCESS}, /* Decimal point not accepted */
1246 { 0, " 214,01", 214, STATUS_SUCCESS}, /* Decimal comma not accepted */
1247 { 0, "f81", 0, STATUS_SUCCESS},
1248 { 0, "0x12345", 0x12345, STATUS_SUCCESS}, /* Hex */
1249 { 0, "00x12345", 0, STATUS_SUCCESS},
1250 { 0, "0xx12345", 0, STATUS_SUCCESS},
1251 { 0, "1x34", 1, STATUS_SUCCESS},
1252 { 0, "-9999999999", -1410065407, STATUS_SUCCESS}, /* Big negative integer */
1253 { 0, "-2147483649", 2147483647, STATUS_SUCCESS}, /* Too small to fit in 32 Bits */
1254 { 0, "-2147483648", 0x80000000L, STATUS_SUCCESS}, /* Smallest negative integer */
1255 { 0, "-2147483647", -2147483647, STATUS_SUCCESS},
1256 { 0, "-1", -1, STATUS_SUCCESS},
1257 { 0, "0", 0, STATUS_SUCCESS},
1258 { 0, "1", 1, STATUS_SUCCESS},
1259 { 0, "2147483646", 2147483646, STATUS_SUCCESS},
1260 { 0, "2147483647", 2147483647, STATUS_SUCCESS}, /* Largest signed positive integer */
1261 { 0, "2147483648", 0x80000000L, STATUS_SUCCESS}, /* Positive int equal to smallest negative int */
1262 { 0, "2147483649", -2147483647, STATUS_SUCCESS},
1263 { 0, "4294967294", -2, STATUS_SUCCESS},
1264 { 0, "4294967295", -1, STATUS_SUCCESS}, /* Largest unsigned integer */
1265 { 0, "4294967296", 0, STATUS_SUCCESS}, /* Too big to fit in 32 Bits */
1266 { 0, "9999999999", 1410065407, STATUS_SUCCESS}, /* Big positive integer */
1267 { 0, "056789", 56789, STATUS_SUCCESS}, /* Leading zero and still decimal */
1268 { 0, "b1011101100", 0, STATUS_SUCCESS}, /* Binary (b-notation) */
1269 { 0, "-b1011101100", 0, STATUS_SUCCESS}, /* Negative Binary (b-notation) */
1270 { 0, "b10123456789", 0, STATUS_SUCCESS}, /* Binary with nonbinary digits (2-9) */
1271 { 0, "0b1011101100", 748, STATUS_SUCCESS}, /* Binary (0b-notation) */
1272 { 0, "-0b1011101100", -748, STATUS_SUCCESS}, /* Negative binary (0b-notation) */
1273 { 0, "0b10123456789", 5, STATUS_SUCCESS}, /* Binary with nonbinary digits (2-9) */
1274 { 0, "-0b10123456789", -5, STATUS_SUCCESS}, /* Negative binary with nonbinary digits (2-9) */
1275 { 0, "0b1", 1, STATUS_SUCCESS}, /* one digit binary */
1276 { 0, "0b2", 0, STATUS_SUCCESS}, /* empty binary */
1277 { 0, "0b", 0, STATUS_SUCCESS}, /* empty binary */
1278 { 0, "o1234567", 0, STATUS_SUCCESS}, /* Octal (o-notation) */
1279 { 0, "-o1234567", 0, STATUS_SUCCESS}, /* Negative Octal (o-notation) */
1280 { 0, "o56789", 0, STATUS_SUCCESS}, /* Octal with nonoctal digits (8 and 9) */
1281 { 0, "0o1234567", 01234567, STATUS_SUCCESS}, /* Octal (0o-notation) */
1282 { 0, "-0o1234567", -01234567, STATUS_SUCCESS}, /* Negative octal (0o-notation) */
1283 { 0, "0o56789", 0567, STATUS_SUCCESS}, /* Octal with nonoctal digits (8 and 9) */
1284 { 0, "-0o56789", -0567, STATUS_SUCCESS}, /* Negative octal with nonoctal digits (8 and 9) */
1285 { 0, "0o7", 7, STATUS_SUCCESS}, /* one digit octal */
1286 { 0, "0o8", 0, STATUS_SUCCESS}, /* empty octal */
1287 { 0, "0o", 0, STATUS_SUCCESS}, /* empty octal */
1288 { 0, "0d1011101100", 0, STATUS_SUCCESS}, /* explicit decimal with 0d */
1289 { 0, "x89abcdef", 0, STATUS_SUCCESS}, /* Hex with lower case digits a-f (x-notation) */
1290 { 0, "xFEDCBA00", 0, STATUS_SUCCESS}, /* Hex with upper case digits A-F (x-notation) */
1291 { 0, "-xFEDCBA00", 0, STATUS_SUCCESS}, /* Negative Hexadecimal (x-notation) */
1292 { 0, "0x89abcdef", 0x89abcdef, STATUS_SUCCESS}, /* Hex with lower case digits a-f (0x-notation) */
1293 { 0, "0xFEDCBA00", 0xFEDCBA00, STATUS_SUCCESS}, /* Hex with upper case digits A-F (0x-notation) */
1294 { 0, "-0xFEDCBA00", 19088896, STATUS_SUCCESS}, /* Negative Hexadecimal (0x-notation) */
1295 { 0, "0xabcdefgh", 0xabcdef, STATUS_SUCCESS}, /* Hex with illegal lower case digits (g-z) */
1296 { 0, "0xABCDEFGH", 0xABCDEF, STATUS_SUCCESS}, /* Hex with illegal upper case digits (G-Z) */
1297 { 0, "0xF", 0xf, STATUS_SUCCESS}, /* one digit hexadecimal */
1298 { 0, "0xG", 0, STATUS_SUCCESS}, /* empty hexadecimal */
1299 { 0, "0x", 0, STATUS_SUCCESS}, /* empty hexadecimal */
1300 { 0, "", 0, STATUS_SUCCESS}, /* empty string */
1301 { 2, "1011101100", 748, STATUS_SUCCESS},
1302 { 2, "-1011101100", -748, STATUS_SUCCESS},
1303 { 2, "2", 0, STATUS_SUCCESS},
1304 { 2, "0b1011101100", 0, STATUS_SUCCESS},
1305 { 2, "0o1011101100", 0, STATUS_SUCCESS},
1306 { 2, "0d1011101100", 0, STATUS_SUCCESS},
1307 { 2, "0x1011101100", 0, STATUS_SUCCESS},
1308 { 2, "", 0, STATUS_SUCCESS}, /* empty string */
1309 { 8, "1011101100", 136610368, STATUS_SUCCESS},
1310 { 8, "-1011101100", -136610368, STATUS_SUCCESS},
1311 { 8, "8", 0, STATUS_SUCCESS},
1312 { 8, "0b1011101100", 0, STATUS_SUCCESS},
1313 { 8, "0o1011101100", 0, STATUS_SUCCESS},
1314 { 8, "0d1011101100", 0, STATUS_SUCCESS},
1315 { 8, "0x1011101100", 0, STATUS_SUCCESS},
1316 { 8, "", 0, STATUS_SUCCESS}, /* empty string */
1317 {10, "1011101100", 1011101100, STATUS_SUCCESS},
1318 {10, "-1011101100", -1011101100, STATUS_SUCCESS},
1319 {10, "0b1011101100", 0, STATUS_SUCCESS},
1320 {10, "0o1011101100", 0, STATUS_SUCCESS},
1321 {10, "0d1011101100", 0, STATUS_SUCCESS},
1322 {10, "0x1011101100", 0, STATUS_SUCCESS},
1323 {10, "o12345", 0, STATUS_SUCCESS}, /* Octal although base is 10 */
1324 {10, "", 0, STATUS_SUCCESS}, /* empty string */
1325 {16, "1011101100", 286265600, STATUS_SUCCESS},
1326 {16, "-1011101100", -286265600, STATUS_SUCCESS},
1327 {16, "G", 0, STATUS_SUCCESS},
1328 {16, "g", 0, STATUS_SUCCESS},
1329 {16, "0b1011101100", 286265600, STATUS_SUCCESS},
1330 {16, "0o1011101100", 0, STATUS_SUCCESS},
1331 {16, "0d1011101100", 286265600, STATUS_SUCCESS},
1332 {16, "0x1011101100", 0, STATUS_SUCCESS},
1333 {16, "", 0, STATUS_SUCCESS}, /* empty string */
1334 {20, "0", 0xdeadbeef, STATUS_INVALID_PARAMETER}, /* illegal base */
1335 {-8, "0", 0xdeadbeef, STATUS_INVALID_PARAMETER}, /* Negative base */
1336 /* { 0, NULL, 0, STATUS_SUCCESS}, */ /* NULL as string */
1338 #define NB_STR2INT (sizeof(str2int)/sizeof(*str2int))
1341 static void test_RtlUnicodeStringToInteger(void)
1343 unsigned int test_num;
1344 int value;
1345 NTSTATUS result;
1346 WCHAR *wstr;
1347 UNICODE_STRING uni;
1349 for (test_num = 0; test_num < NB_STR2INT; test_num++) {
1350 wstr = AtoW(str2int[test_num].str);
1351 value = 0xdeadbeef;
1352 pRtlInitUnicodeString(&uni, wstr);
1353 result = pRtlUnicodeStringToInteger(&uni, str2int[test_num].base, &value);
1354 ok(result == str2int[test_num].result,
1355 "(test %d): RtlUnicodeStringToInteger(\"%s\", %d, [out]) has result %x, expected: %x\n",
1356 test_num, str2int[test_num].str, str2int[test_num].base, result, str2int[test_num].result);
1357 ok(value == str2int[test_num].value,
1358 "(test %d): RtlUnicodeStringToInteger(\"%s\", %d, [out]) assigns value %d, expected: %d\n",
1359 test_num, str2int[test_num].str, str2int[test_num].base, value, str2int[test_num].value);
1360 free(wstr);
1363 wstr = AtoW(str2int[1].str);
1364 pRtlInitUnicodeString(&uni, wstr);
1365 result = pRtlUnicodeStringToInteger(&uni, str2int[1].base, NULL);
1366 ok(result == STATUS_ACCESS_VIOLATION,
1367 "call failed: RtlUnicodeStringToInteger(\"%s\", %d, NULL) has result %x\n",
1368 str2int[1].str, str2int[1].base, result);
1369 result = pRtlUnicodeStringToInteger(&uni, 20, NULL);
1370 ok(result == STATUS_INVALID_PARAMETER,
1371 "call failed: RtlUnicodeStringToInteger(\"%s\", 20, NULL) has result %x\n",
1372 str2int[1].str, result);
1374 uni.Length = 10; /* Make Length shorter (5 WCHARS instead of 7) */
1375 result = pRtlUnicodeStringToInteger(&uni, str2int[1].base, &value);
1376 ok(result == STATUS_SUCCESS,
1377 "call failed: RtlUnicodeStringToInteger(\"12345\", %d, [out]) has result %x\n",
1378 str2int[1].base, result);
1379 ok(value == 12345,
1380 "didn't return expected value (test a): expected: %d, got: %d\n",
1381 12345, value);
1383 uni.Length = 5; /* Use odd Length (2.5 WCHARS) */
1384 result = pRtlUnicodeStringToInteger(&uni, str2int[1].base, &value);
1385 ok(result == STATUS_SUCCESS,
1386 "call failed: RtlUnicodeStringToInteger(\"12\", %d, [out]) has result %x\n",
1387 str2int[1].base, result);
1388 ok(value == 12,
1389 "didn't return expected value (test b): expected: %d, got: %d\n",
1390 12, value);
1392 uni.Length = 2;
1393 result = pRtlUnicodeStringToInteger(&uni, str2int[1].base, &value);
1394 ok(result == STATUS_SUCCESS,
1395 "call failed: RtlUnicodeStringToInteger(\"1\", %d, [out]) has result %x\n",
1396 str2int[1].base, result);
1397 ok(value == 1,
1398 "didn't return expected value (test c): expected: %d, got: %d\n",
1399 1, value);
1400 /* w2k: uni.Length = 0 returns value 11234567 instead of 0 */
1401 free(wstr);
1405 static void test_RtlCharToInteger(void)
1407 unsigned int test_num;
1408 int value;
1409 NTSTATUS result;
1411 for (test_num = 0; test_num < NB_STR2INT; test_num++) {
1412 /* w2k skips a leading '\0' and processes the string after */
1413 if (str2int[test_num].str[0] != '\0') {
1414 value = 0xdeadbeef;
1415 result = pRtlCharToInteger(str2int[test_num].str, str2int[test_num].base, &value);
1416 ok(result == str2int[test_num].result,
1417 "(test %d): call failed: RtlCharToInteger(\"%s\", %d, [out]) has result %x, expected: %x\n",
1418 test_num, str2int[test_num].str, str2int[test_num].base, result, str2int[test_num].result);
1419 ok(value == str2int[test_num].value,
1420 "(test %d): call failed: RtlCharToInteger(\"%s\", %d, [out]) assigns value %d, expected: %d\n",
1421 test_num, str2int[test_num].str, str2int[test_num].base, value, str2int[test_num].value);
1425 result = pRtlCharToInteger(str2int[1].str, str2int[1].base, NULL);
1426 ok(result == STATUS_ACCESS_VIOLATION,
1427 "call failed: RtlCharToInteger(\"%s\", %d, NULL) has result %x\n",
1428 str2int[1].str, str2int[1].base, result);
1430 result = pRtlCharToInteger(str2int[1].str, 20, NULL);
1431 ok(result == STATUS_INVALID_PARAMETER,
1432 "call failed: RtlCharToInteger(\"%s\", 20, NULL) has result %x\n",
1433 str2int[1].str, result);
1437 #define STRI_BUFFER_LENGTH 35
1439 typedef struct {
1440 int base;
1441 ULONG value;
1442 USHORT Length;
1443 USHORT MaximumLength;
1444 const char *Buffer;
1445 NTSTATUS result;
1446 } int2str_t;
1448 static const int2str_t int2str[] = {
1449 {10, 123, 3, 11, "123\0-------------------------------", STATUS_SUCCESS},
1451 { 0, 0x80000000U, 10, 11, "2147483648\0------------------------", STATUS_SUCCESS}, /* min signed int */
1452 { 0, -2147483647, 10, 11, "2147483649\0------------------------", STATUS_SUCCESS},
1453 { 0, -2, 10, 11, "4294967294\0------------------------", STATUS_SUCCESS},
1454 { 0, -1, 10, 11, "4294967295\0------------------------", STATUS_SUCCESS},
1455 { 0, 0, 1, 11, "0\0---------------------------------", STATUS_SUCCESS},
1456 { 0, 1, 1, 11, "1\0---------------------------------", STATUS_SUCCESS},
1457 { 0, 12, 2, 11, "12\0--------------------------------", STATUS_SUCCESS},
1458 { 0, 123, 3, 11, "123\0-------------------------------", STATUS_SUCCESS},
1459 { 0, 1234, 4, 11, "1234\0------------------------------", STATUS_SUCCESS},
1460 { 0, 12345, 5, 11, "12345\0-----------------------------", STATUS_SUCCESS},
1461 { 0, 123456, 6, 11, "123456\0----------------------------", STATUS_SUCCESS},
1462 { 0, 1234567, 7, 11, "1234567\0---------------------------", STATUS_SUCCESS},
1463 { 0, 12345678, 8, 11, "12345678\0--------------------------", STATUS_SUCCESS},
1464 { 0, 123456789, 9, 11, "123456789\0-------------------------", STATUS_SUCCESS},
1465 { 0, 2147483646, 10, 11, "2147483646\0------------------------", STATUS_SUCCESS},
1466 { 0, 2147483647, 10, 11, "2147483647\0------------------------", STATUS_SUCCESS}, /* max signed int */
1467 { 0, 2147483648U, 10, 11, "2147483648\0------------------------", STATUS_SUCCESS}, /* uint = -max int */
1468 { 0, 2147483649U, 10, 11, "2147483649\0------------------------", STATUS_SUCCESS},
1469 { 0, 4294967294U, 10, 11, "4294967294\0------------------------", STATUS_SUCCESS},
1470 { 0, 4294967295U, 10, 11, "4294967295\0------------------------", STATUS_SUCCESS}, /* max unsigned int */
1472 { 2, 0x80000000U, 32, 33, "10000000000000000000000000000000\0--", STATUS_SUCCESS}, /* min signed int */
1473 { 2, -2147483647, 32, 33, "10000000000000000000000000000001\0--", STATUS_SUCCESS},
1474 { 2, -2, 32, 33, "11111111111111111111111111111110\0--", STATUS_SUCCESS},
1475 { 2, -1, 32, 33, "11111111111111111111111111111111\0--", STATUS_SUCCESS},
1476 { 2, 0, 1, 33, "0\0---------------------------------", STATUS_SUCCESS},
1477 { 2, 1, 1, 33, "1\0---------------------------------", STATUS_SUCCESS},
1478 { 2, 10, 4, 33, "1010\0------------------------------", STATUS_SUCCESS},
1479 { 2, 100, 7, 33, "1100100\0---------------------------", STATUS_SUCCESS},
1480 { 2, 1000, 10, 33, "1111101000\0------------------------", STATUS_SUCCESS},
1481 { 2, 10000, 14, 33, "10011100010000\0--------------------", STATUS_SUCCESS},
1482 { 2, 32767, 15, 33, "111111111111111\0-------------------", STATUS_SUCCESS},
1483 /* { 2, 32768, 16, 33, "1000000000000000\0------------------", STATUS_SUCCESS}, broken on windows */
1484 /* { 2, 65535, 16, 33, "1111111111111111\0------------------", STATUS_SUCCESS}, broken on windows */
1485 { 2, 65536, 17, 33, "10000000000000000\0-----------------", STATUS_SUCCESS},
1486 { 2, 100000, 17, 33, "11000011010100000\0-----------------", STATUS_SUCCESS},
1487 { 2, 1000000, 20, 33, "11110100001001000000\0--------------", STATUS_SUCCESS},
1488 { 2, 10000000, 24, 33, "100110001001011010000000\0----------", STATUS_SUCCESS},
1489 { 2, 100000000, 27, 33, "101111101011110000100000000\0-------", STATUS_SUCCESS},
1490 { 2, 1000000000, 30, 33, "111011100110101100101000000000\0----", STATUS_SUCCESS},
1491 { 2, 1073741823, 30, 33, "111111111111111111111111111111\0----", STATUS_SUCCESS},
1492 { 2, 2147483646, 31, 33, "1111111111111111111111111111110\0---", STATUS_SUCCESS},
1493 { 2, 2147483647, 31, 33, "1111111111111111111111111111111\0---", STATUS_SUCCESS}, /* max signed int */
1494 { 2, 2147483648U, 32, 33, "10000000000000000000000000000000\0--", STATUS_SUCCESS}, /* uint = -max int */
1495 { 2, 2147483649U, 32, 33, "10000000000000000000000000000001\0--", STATUS_SUCCESS},
1496 { 2, 4294967294U, 32, 33, "11111111111111111111111111111110\0--", STATUS_SUCCESS},
1497 { 2, 4294967295U, 32, 33, "11111111111111111111111111111111\0--", STATUS_SUCCESS}, /* max unsigned int */
1499 { 8, 0x80000000U, 11, 12, "20000000000\0-----------------------", STATUS_SUCCESS}, /* min signed int */
1500 { 8, -2147483647, 11, 12, "20000000001\0-----------------------", STATUS_SUCCESS},
1501 { 8, -2, 11, 12, "37777777776\0-----------------------", STATUS_SUCCESS},
1502 { 8, -1, 11, 12, "37777777777\0-----------------------", STATUS_SUCCESS},
1503 { 8, 0, 1, 12, "0\0---------------------------------", STATUS_SUCCESS},
1504 { 8, 1, 1, 12, "1\0---------------------------------", STATUS_SUCCESS},
1505 { 8, 2147483646, 11, 12, "17777777776\0-----------------------", STATUS_SUCCESS},
1506 { 8, 2147483647, 11, 12, "17777777777\0-----------------------", STATUS_SUCCESS}, /* max signed int */
1507 { 8, 2147483648U, 11, 12, "20000000000\0-----------------------", STATUS_SUCCESS}, /* uint = -max int */
1508 { 8, 2147483649U, 11, 12, "20000000001\0-----------------------", STATUS_SUCCESS},
1509 { 8, 4294967294U, 11, 12, "37777777776\0-----------------------", STATUS_SUCCESS},
1510 { 8, 4294967295U, 11, 12, "37777777777\0-----------------------", STATUS_SUCCESS}, /* max unsigned int */
1512 {10, 0x80000000U, 10, 11, "2147483648\0------------------------", STATUS_SUCCESS}, /* min signed int */
1513 {10, -2147483647, 10, 11, "2147483649\0------------------------", STATUS_SUCCESS},
1514 {10, -2, 10, 11, "4294967294\0------------------------", STATUS_SUCCESS},
1515 {10, -1, 10, 11, "4294967295\0------------------------", STATUS_SUCCESS},
1516 {10, 0, 1, 11, "0\0---------------------------------", STATUS_SUCCESS},
1517 {10, 1, 1, 11, "1\0---------------------------------", STATUS_SUCCESS},
1518 {10, 2147483646, 10, 11, "2147483646\0------------------------", STATUS_SUCCESS},
1519 {10, 2147483647, 10, 11, "2147483647\0------------------------", STATUS_SUCCESS}, /* max signed int */
1520 {10, 2147483648U, 10, 11, "2147483648\0------------------------", STATUS_SUCCESS}, /* uint = -max int */
1521 {10, 2147483649U, 10, 11, "2147483649\0------------------------", STATUS_SUCCESS},
1522 {10, 4294967294U, 10, 11, "4294967294\0------------------------", STATUS_SUCCESS},
1523 {10, 4294967295U, 10, 11, "4294967295\0------------------------", STATUS_SUCCESS}, /* max unsigned int */
1525 {16, 0x80000000U, 8, 9, "80000000\0--------------------------", STATUS_SUCCESS}, /* min signed int */
1526 {16, -2147483647, 8, 9, "80000001\0--------------------------", STATUS_SUCCESS},
1527 {16, -2, 8, 9, "FFFFFFFE\0--------------------------", STATUS_SUCCESS},
1528 {16, -1, 8, 9, "FFFFFFFF\0--------------------------", STATUS_SUCCESS},
1529 {16, 0, 1, 9, "0\0---------------------------------", STATUS_SUCCESS},
1530 {16, 1, 1, 9, "1\0---------------------------------", STATUS_SUCCESS},
1531 {16, 2147483646, 8, 9, "7FFFFFFE\0--------------------------", STATUS_SUCCESS},
1532 {16, 2147483647, 8, 9, "7FFFFFFF\0--------------------------", STATUS_SUCCESS}, /* max signed int */
1533 {16, 2147483648U, 8, 9, "80000000\0--------------------------", STATUS_SUCCESS}, /* uint = -max int */
1534 {16, 2147483649U, 8, 9, "80000001\0--------------------------", STATUS_SUCCESS},
1535 {16, 4294967294U, 8, 9, "FFFFFFFE\0--------------------------", STATUS_SUCCESS},
1536 {16, 4294967295U, 8, 9, "FFFFFFFF\0--------------------------", STATUS_SUCCESS}, /* max unsigned int */
1538 /* { 2, 32768, 16, 17, "1000000000000000\0------------------", STATUS_SUCCESS}, broken on windows */
1539 /* { 2, 32768, 16, 16, "1000000000000000-------------------", STATUS_SUCCESS}, broken on windows */
1540 { 2, 65536, 17, 18, "10000000000000000\0-----------------", STATUS_SUCCESS},
1541 { 2, 65536, 17, 17, "10000000000000000------------------", STATUS_SUCCESS},
1542 { 2, 131072, 18, 19, "100000000000000000\0----------------", STATUS_SUCCESS},
1543 { 2, 131072, 18, 18, "100000000000000000-----------------", STATUS_SUCCESS},
1544 {16, 0xffffffff, 8, 9, "FFFFFFFF\0--------------------------", STATUS_SUCCESS},
1545 {16, 0xffffffff, 8, 8, "FFFFFFFF---------------------------", STATUS_SUCCESS}, /* No \0 term */
1546 {16, 0xffffffff, 8, 7, "-----------------------------------", STATUS_BUFFER_OVERFLOW}, /* Too short */
1547 {16, 0xa, 1, 2, "A\0---------------------------------", STATUS_SUCCESS},
1548 {16, 0xa, 1, 1, "A----------------------------------", STATUS_SUCCESS}, /* No \0 term */
1549 {16, 0, 1, 0, "-----------------------------------", STATUS_BUFFER_OVERFLOW},
1550 {20, 0xdeadbeef, 0, 9, "-----------------------------------", STATUS_INVALID_PARAMETER}, /* ill. base */
1551 {-8, 07654321, 0, 12, "-----------------------------------", STATUS_INVALID_PARAMETER}, /* neg. base */
1553 #define NB_INT2STR (sizeof(int2str)/sizeof(*int2str))
1556 static void one_RtlIntegerToUnicodeString_test(int test_num, const int2str_t *int2str)
1558 int pos;
1559 WCHAR expected_str_Buffer[STRI_BUFFER_LENGTH + 1];
1560 UNICODE_STRING expected_unicode_string;
1561 STRING expected_ansi_str;
1562 WCHAR str_Buffer[STRI_BUFFER_LENGTH + 1];
1563 UNICODE_STRING unicode_string;
1564 STRING ansi_str;
1565 NTSTATUS result;
1567 for (pos = 0; pos < STRI_BUFFER_LENGTH; pos++) {
1568 expected_str_Buffer[pos] = int2str->Buffer[pos];
1570 expected_unicode_string.Length = int2str->Length * sizeof(WCHAR);
1571 expected_unicode_string.MaximumLength = int2str->MaximumLength * sizeof(WCHAR);
1572 expected_unicode_string.Buffer = expected_str_Buffer;
1573 pRtlUnicodeStringToAnsiString(&expected_ansi_str, &expected_unicode_string, 1);
1575 for (pos = 0; pos < STRI_BUFFER_LENGTH; pos++) {
1576 str_Buffer[pos] = '-';
1578 unicode_string.Length = 0;
1579 unicode_string.MaximumLength = int2str->MaximumLength * sizeof(WCHAR);
1580 unicode_string.Buffer = str_Buffer;
1582 result = pRtlIntegerToUnicodeString(int2str->value, int2str->base, &unicode_string);
1583 pRtlUnicodeStringToAnsiString(&ansi_str, &unicode_string, 1);
1584 if (result == STATUS_BUFFER_OVERFLOW) {
1585 /* On BUFFER_OVERFLOW the string Buffer should be unchanged */
1586 for (pos = 0; pos < STRI_BUFFER_LENGTH; pos++) {
1587 expected_str_Buffer[pos] = '-';
1589 /* w2k: The native function has two reasons for BUFFER_OVERFLOW: */
1590 /* If the value is too large to convert: The Length is unchanged */
1591 /* If str is too small to hold the string: Set str->Length to the length */
1592 /* the string would have (which can be larger than the MaximumLength). */
1593 /* To allow all this in the tests we do the following: */
1594 if (expected_unicode_string.Length > 32 && unicode_string.Length == 0) {
1595 /* The value is too large to convert only triggerd when testing native */
1596 expected_unicode_string.Length = 0;
1598 } else {
1599 ok(result == int2str->result,
1600 "(test %d): RtlIntegerToUnicodeString(%u, %d, [out]) has result %x, expected: %x\n",
1601 test_num, int2str->value, int2str->base, result, int2str->result);
1602 if (result == STATUS_SUCCESS) {
1603 ok(unicode_string.Buffer[unicode_string.Length/sizeof(WCHAR)] == '\0',
1604 "(test %d): RtlIntegerToUnicodeString(%u, %d, [out]) string \"%s\" is not NULL terminated\n",
1605 test_num, int2str->value, int2str->base, ansi_str.Buffer);
1608 ok(memcmp(unicode_string.Buffer, expected_unicode_string.Buffer, STRI_BUFFER_LENGTH * sizeof(WCHAR)) == 0,
1609 "(test %d): RtlIntegerToUnicodeString(%u, %d, [out]) assigns string \"%s\", expected: \"%s\"\n",
1610 test_num, int2str->value, int2str->base, ansi_str.Buffer, expected_ansi_str.Buffer);
1611 ok(unicode_string.Length == expected_unicode_string.Length,
1612 "(test %d): RtlIntegerToUnicodeString(%u, %d, [out]) string has Length %d, expected: %d\n",
1613 test_num, int2str->value, int2str->base, unicode_string.Length, expected_unicode_string.Length);
1614 ok(unicode_string.MaximumLength == expected_unicode_string.MaximumLength,
1615 "(test %d): RtlIntegerToUnicodeString(%u, %d, [out]) string has MaximumLength %d, expected: %d\n",
1616 test_num, int2str->value, int2str->base, unicode_string.MaximumLength, expected_unicode_string.MaximumLength);
1617 pRtlFreeAnsiString(&expected_ansi_str);
1618 pRtlFreeAnsiString(&ansi_str);
1622 static void test_RtlIntegerToUnicodeString(void)
1624 size_t test_num;
1626 for (test_num = 0; test_num < NB_INT2STR; test_num++)
1627 one_RtlIntegerToUnicodeString_test(test_num, &int2str[test_num]);
1631 static void one_RtlIntegerToChar_test(int test_num, const int2str_t *int2str)
1633 NTSTATUS result;
1634 char dest_str[STRI_BUFFER_LENGTH + 1];
1636 memset(dest_str, '-', STRI_BUFFER_LENGTH);
1637 dest_str[STRI_BUFFER_LENGTH] = '\0';
1638 result = pRtlIntegerToChar(int2str->value, int2str->base, int2str->MaximumLength, dest_str);
1639 ok(result == int2str->result,
1640 "(test %d): RtlIntegerToChar(%u, %d, %d, [out]) has result %x, expected: %x\n",
1641 test_num, int2str->value, int2str->base, int2str->MaximumLength, result, int2str->result);
1642 ok(memcmp(dest_str, int2str->Buffer, STRI_BUFFER_LENGTH) == 0,
1643 "(test %d): RtlIntegerToChar(%u, %d, %d, [out]) assigns string \"%s\", expected: \"%s\"\n",
1644 test_num, int2str->value, int2str->base, int2str->MaximumLength, dest_str, int2str->Buffer);
1648 static void test_RtlIntegerToChar(void)
1650 NTSTATUS result;
1651 size_t test_num;
1653 for (test_num = 0; test_num < NB_INT2STR; test_num++)
1654 one_RtlIntegerToChar_test(test_num, &int2str[test_num]);
1656 result = pRtlIntegerToChar(int2str[0].value, 20, int2str[0].MaximumLength, NULL);
1657 ok(result == STATUS_INVALID_PARAMETER,
1658 "(test a): RtlIntegerToChar(%u, %d, %d, NULL) has result %x, expected: %x\n",
1659 int2str[0].value, 20, int2str[0].MaximumLength, result, STATUS_INVALID_PARAMETER);
1661 result = pRtlIntegerToChar(int2str[0].value, 20, 0, NULL);
1662 ok(result == STATUS_INVALID_PARAMETER,
1663 "(test b): RtlIntegerToChar(%u, %d, %d, NULL) has result %x, expected: %x\n",
1664 int2str[0].value, 20, 0, result, STATUS_INVALID_PARAMETER);
1666 result = pRtlIntegerToChar(int2str[0].value, int2str[0].base, 0, NULL);
1667 ok(result == STATUS_BUFFER_OVERFLOW,
1668 "(test c): RtlIntegerToChar(%u, %d, %d, NULL) has result %x, expected: %x\n",
1669 int2str[0].value, int2str[0].base, 0, result, STATUS_BUFFER_OVERFLOW);
1671 result = pRtlIntegerToChar(int2str[0].value, int2str[0].base, int2str[0].MaximumLength, NULL);
1672 ok(result == STATUS_ACCESS_VIOLATION,
1673 "(test d): RtlIntegerToChar(%u, %d, %d, NULL) has result %x, expected: %x\n",
1674 int2str[0].value, int2str[0].base, int2str[0].MaximumLength, result, STATUS_ACCESS_VIOLATION);
1677 static void test_RtlIsTextUnicode(void)
1679 char ascii[] = "A simple string";
1680 WCHAR unicode[] = {'A',' ','U','n','i','c','o','d','e',' ','s','t','r','i','n','g',0};
1681 WCHAR unicode_no_controls[] = {'A','U','n','i','c','o','d','e','s','t','r','i','n','g',0};
1682 /* String with both byte-reversed and standard Unicode control characters. */
1683 WCHAR mixed_controls[] = {'\t',0x9000,0x0d00,'\n',0};
1684 WCHAR *be_unicode;
1685 WCHAR *be_unicode_no_controls;
1686 int flags;
1687 int i;
1689 ok(!pRtlIsTextUnicode(ascii, sizeof(ascii), NULL), "ASCII text detected as Unicode\n");
1691 ok(pRtlIsTextUnicode(unicode, sizeof(unicode), NULL), "Text should be Unicode\n");
1692 ok(!pRtlIsTextUnicode(unicode, sizeof(unicode) - 1, NULL), "Text should be Unicode\n");
1694 flags = IS_TEXT_UNICODE_UNICODE_MASK;
1695 ok(pRtlIsTextUnicode(unicode, sizeof(unicode), &flags), "Text should not pass a Unicode\n");
1696 ok(flags == (IS_TEXT_UNICODE_STATISTICS | IS_TEXT_UNICODE_CONTROLS),
1697 "Expected flags 0x6, obtained %x\n", flags);
1699 flags = IS_TEXT_UNICODE_REVERSE_MASK;
1700 ok(!pRtlIsTextUnicode(unicode, sizeof(unicode), &flags), "Text should not pass reverse Unicode tests\n");
1701 ok(flags == 0, "Expected flags 0, obtained %x\n", flags);
1703 flags = IS_TEXT_UNICODE_ODD_LENGTH;
1704 ok(!pRtlIsTextUnicode(unicode, sizeof(unicode) - 1, &flags), "Odd length test should have passed\n");
1705 ok(flags == IS_TEXT_UNICODE_ODD_LENGTH, "Expected flags 0x200, obtained %x\n", flags);
1707 be_unicode = HeapAlloc(GetProcessHeap(), 0, sizeof(unicode) + sizeof(WCHAR));
1708 be_unicode[0] = 0xfffe;
1709 for (i = 0; i < sizeof(unicode)/sizeof(unicode[0]); i++)
1711 be_unicode[i + 1] = (unicode[i] >> 8) | ((unicode[i] & 0xff) << 8);
1713 ok(!pRtlIsTextUnicode(be_unicode, sizeof(unicode) + 2, NULL), "Reverse endian should not be Unicode\n");
1714 ok(!pRtlIsTextUnicode(&be_unicode[1], sizeof(unicode), NULL), "Reverse endian should not be Unicode\n");
1716 flags = IS_TEXT_UNICODE_REVERSE_MASK;
1717 ok(!pRtlIsTextUnicode(&be_unicode[1], sizeof(unicode), &flags), "Reverse endian should be Unicode\n");
1718 todo_wine
1719 ok(flags == (IS_TEXT_UNICODE_REVERSE_ASCII16 | IS_TEXT_UNICODE_REVERSE_STATISTICS | IS_TEXT_UNICODE_REVERSE_CONTROLS),
1720 "Expected flags 0x70, obtained %x\n", flags);
1722 flags = IS_TEXT_UNICODE_REVERSE_MASK;
1723 ok(!pRtlIsTextUnicode(be_unicode, sizeof(unicode) + 2, &flags), "Reverse endian should be Unicode\n");
1724 ok(flags == (IS_TEXT_UNICODE_REVERSE_CONTROLS | IS_TEXT_UNICODE_REVERSE_SIGNATURE),
1725 "Expected flags 0xc0, obtained %x\n", flags);
1727 /* build byte reversed unicode string with no control chars */
1728 be_unicode_no_controls = HeapAlloc(GetProcessHeap(), 0, sizeof(unicode) + sizeof(WCHAR));
1729 ok(be_unicode_no_controls != NULL, "Expeced HeapAlloc to succeed.\n");
1730 be_unicode_no_controls[0] = 0xfffe;
1731 for (i = 0; i < sizeof(unicode_no_controls)/sizeof(unicode_no_controls[0]); i++)
1732 be_unicode_no_controls[i + 1] = (unicode_no_controls[i] >> 8) | ((unicode_no_controls[i] & 0xff) << 8);
1735 /* The following tests verify that the tests for */
1736 /* IS_TEXT_UNICODE_CONTROLS and IS_TEXT_UNICODE_REVERSE_CONTROLS */
1737 /* are not mutually exclusive. Regardless of whether the strings */
1738 /* contain an indication of endianness, the tests are still */
1739 /* run if the flag is passed to (Rtl)IsTextUnicode. */
1741 /* Test IS_TEXT_UNICODE_CONTROLS flag */
1742 flags = IS_TEXT_UNICODE_CONTROLS;
1743 ok(!pRtlIsTextUnicode(unicode_no_controls, sizeof(unicode_no_controls), &flags), "Test should not pass on Unicode string lacking control characters.\n");
1744 ok(flags == 0, "Expected flags 0x0, obtained %x\n", flags);
1746 flags = IS_TEXT_UNICODE_CONTROLS;
1747 ok(!pRtlIsTextUnicode(be_unicode_no_controls, sizeof(unicode_no_controls), &flags), "Test should not pass on byte-reversed Unicode string lacking control characters.\n");
1748 ok(flags == 0, "Expected flags 0x0, obtained %x\n", flags);
1750 flags = IS_TEXT_UNICODE_CONTROLS;
1751 ok(pRtlIsTextUnicode(unicode, sizeof(unicode), &flags), "Test should pass on Unicode string lacking control characters.\n");
1752 ok(flags == IS_TEXT_UNICODE_CONTROLS, "Expected flags 0x04, obtained %x\n", flags);
1754 flags = IS_TEXT_UNICODE_CONTROLS;
1755 ok(!pRtlIsTextUnicode(be_unicode_no_controls, sizeof(unicode_no_controls) + 2, &flags),
1756 "Test should not pass with standard Unicode string.\n");
1757 ok(flags == 0, "Expected flags 0x0, obtained %x\n", flags);
1759 flags = IS_TEXT_UNICODE_CONTROLS;
1760 ok(pRtlIsTextUnicode(mixed_controls, sizeof(mixed_controls), &flags), "Test should pass on a string containing control characters.\n");
1761 ok(flags == IS_TEXT_UNICODE_CONTROLS, "Expected flags 0x04, obtained %x\n", flags);
1763 /* Test IS_TEXT_UNICODE_REVERSE_CONTROLS flag */
1764 flags = IS_TEXT_UNICODE_REVERSE_CONTROLS;
1765 ok(!pRtlIsTextUnicode(be_unicode_no_controls, sizeof(unicode_no_controls), &flags), "Test should not pass on Unicode string lacking control characters.\n");
1766 ok(flags == 0, "Expected flags 0x0, obtained %x\n", flags);
1768 flags = IS_TEXT_UNICODE_REVERSE_CONTROLS;
1769 ok(!pRtlIsTextUnicode(unicode_no_controls, sizeof(unicode_no_controls), &flags), "Test should not pass on Unicode string lacking control characters.\n");
1770 ok(flags == 0, "Expected flags 0x0, obtained %x\n", flags);
1772 flags = IS_TEXT_UNICODE_REVERSE_CONTROLS;
1773 ok(!pRtlIsTextUnicode(unicode, sizeof(unicode), &flags), "Test should not pass on Unicode string lacking control characters.\n");
1774 ok(flags == 0, "Expected flags 0x0, obtained %x\n", flags);
1776 flags = IS_TEXT_UNICODE_REVERSE_CONTROLS;
1777 ok(!pRtlIsTextUnicode(be_unicode, sizeof(unicode) + 2, &flags),
1778 "Test should pass with byte-reversed Unicode string containing control characters.\n");
1779 ok(flags == IS_TEXT_UNICODE_REVERSE_CONTROLS, "Expected flags 0x40, obtained %x\n", flags);
1781 flags = IS_TEXT_UNICODE_REVERSE_CONTROLS;
1782 ok(!pRtlIsTextUnicode(mixed_controls, sizeof(mixed_controls), &flags), "Test should pass on a string containing byte-reversed control characters.\n");
1783 ok(flags == IS_TEXT_UNICODE_REVERSE_CONTROLS, "Expected flags 0x40, obtained %x\n", flags);
1785 /* Test with flags for both byte-reverse and standard Unicode characters */
1786 flags = IS_TEXT_UNICODE_CONTROLS | IS_TEXT_UNICODE_REVERSE_CONTROLS;
1787 ok(!pRtlIsTextUnicode(mixed_controls, sizeof(mixed_controls), &flags), "Test should pass on string containing both byte-reversed and standard control characters.\n");
1788 ok(flags == (IS_TEXT_UNICODE_CONTROLS | IS_TEXT_UNICODE_REVERSE_CONTROLS), "Expected flags 0x44, obtained %x\n", flags);
1790 HeapFree(GetProcessHeap(), 0, be_unicode);
1791 HeapFree(GetProcessHeap(), 0, be_unicode_no_controls);
1794 static const WCHAR szGuid[] = { '{','0','1','0','2','0','3','0','4','-',
1795 '0','5','0','6','-' ,'0','7','0','8','-','0','9','0','A','-',
1796 '0','B','0','C','0','D','0','E','0','F','0','A','}','\0' };
1797 static const WCHAR szGuid2[] = { '{','0','1','0','2','0','3','0','4','-',
1798 '0','5','0','6','-' ,'0','7','0','8','-','0','9','0','A','-',
1799 '0','B','0','C','0','D','0','E','0','F','0','A',']','\0' };
1800 DEFINE_GUID(IID_Endianess, 0x01020304, 0x0506, 0x0708, 0x09, 0x0A, 0x0B,
1801 0x0C, 0x0D, 0x0E, 0x0F, 0x0A);
1803 static void test_RtlGUIDFromString(void)
1805 GUID guid;
1806 UNICODE_STRING str;
1807 NTSTATUS ret;
1809 str.Length = str.MaximumLength = sizeof(szGuid) - sizeof(WCHAR);
1810 str.Buffer = (LPWSTR)szGuid;
1812 ret = pRtlGUIDFromString(&str, &guid);
1813 ok(ret == 0, "expected ret=0, got 0x%0x\n", ret);
1814 ok(memcmp(&guid, &IID_Endianess, sizeof(guid)) == 0, "Endianess broken\n");
1816 str.Length = str.MaximumLength = sizeof(szGuid2) - sizeof(WCHAR);
1817 str.Buffer = (LPWSTR)szGuid2;
1819 ret = pRtlGUIDFromString(&str, &guid);
1820 ok(ret, "expected ret!=0\n");
1823 static void test_RtlStringFromGUID(void)
1825 UNICODE_STRING str;
1826 NTSTATUS ret;
1828 str.Length = str.MaximumLength = 0;
1829 str.Buffer = NULL;
1831 ret = pRtlStringFromGUID(&IID_Endianess, &str);
1832 ok(ret == 0, "expected ret=0, got 0x%0x\n", ret);
1833 ok(str.Buffer && !lstrcmpiW(str.Buffer, szGuid), "Endianess broken\n");
1836 START_TEST(rtlstr)
1838 InitFunctionPtrs();
1839 if (pRtlInitAnsiString) {
1840 test_RtlInitString();
1841 test_RtlInitUnicodeString();
1842 test_RtlCopyString();
1843 test_RtlUnicodeStringToInteger();
1844 test_RtlCharToInteger();
1845 test_RtlIntegerToUnicodeString();
1846 test_RtlIntegerToChar();
1847 test_RtlUpperChar();
1848 test_RtlUpperString();
1849 test_RtlUnicodeStringToAnsiString();
1850 test_RtlAppendAsciizToString();
1851 test_RtlAppendStringToString();
1852 test_RtlAppendUnicodeToString();
1853 test_RtlAppendUnicodeStringToString();
1856 if (pRtlInitUnicodeStringEx)
1857 test_RtlInitUnicodeStringEx();
1858 if (pRtlDuplicateUnicodeString)
1859 test_RtlDuplicateUnicodeString();
1860 if (pRtlFindCharInUnicodeString)
1861 test_RtlFindCharInUnicodeString();
1862 if (pRtlGUIDFromString)
1863 test_RtlGUIDFromString();
1864 if (pRtlStringFromGUID)
1865 test_RtlStringFromGUID();
1866 if (pRtlIsTextUnicode)
1867 test_RtlIsTextUnicode();
1868 if(0)
1870 test_RtlUpcaseUnicodeChar();
1871 test_RtlUpcaseUnicodeString();
1872 test_RtlDowncaseUnicodeString();