1 /*
2 * Copyright 2003 The WebRTC Project Authors. All rights reserved.
3 *
4 * Use of this source code is governed by a BSD-style license
5 * that can be found in the LICENSE file in the root of the source
6 * tree. An additional intellectual property rights grant can be found
7 * in the file PATENTS. All contributing project authors may
8 * be found in the AUTHORS file in the root of the source tree.
9 */
10
11 // Registry configuration wrapers class implementation
12 //
13 // Change made by S. Ganesh - ganesh@google.com:
14 // Use SHQueryValueEx instead of RegQueryValueEx throughout.
15 // A call to the SHLWAPI function is essentially a call to the standard
16 // function but with post-processing:
17 // * to fix REG_SZ or REG_EXPAND_SZ data that is not properly null-terminated;
18 // * to expand REG_EXPAND_SZ data.
19
20 #include "webrtc/base/win32regkey.h"
21
22 #include <shlwapi.h>
23
24 #include "webrtc/base/common.h"
25 #include "webrtc/base/logging.h"
26 #include "webrtc/base/scoped_ptr.h"
27
28 namespace rtc {
29
RegKey()30 RegKey::RegKey() {
31 h_key_ = NULL;
32 }
33
~RegKey()34 RegKey::~RegKey() {
35 Close();
36 }
37
Create(HKEY parent_key,const wchar_t * key_name)38 HRESULT RegKey::Create(HKEY parent_key, const wchar_t* key_name) {
39 return Create(parent_key,
40 key_name,
41 REG_NONE,
42 REG_OPTION_NON_VOLATILE,
43 KEY_ALL_ACCESS,
44 NULL,
45 NULL);
46 }
47
Open(HKEY parent_key,const wchar_t * key_name)48 HRESULT RegKey::Open(HKEY parent_key, const wchar_t* key_name) {
49 return Open(parent_key, key_name, KEY_ALL_ACCESS);
50 }
51
HasValue(const TCHAR * value_name) const52 bool RegKey::HasValue(const TCHAR* value_name) const {
53 return (ERROR_SUCCESS == ::RegQueryValueEx(h_key_, value_name, NULL,
54 NULL, NULL, NULL));
55 }
56
SetValue(const wchar_t * full_key_name,const wchar_t * value_name,DWORD value)57 HRESULT RegKey::SetValue(const wchar_t* full_key_name,
58 const wchar_t* value_name,
59 DWORD value) {
60 ASSERT(full_key_name != NULL);
61
62 return SetValueStaticHelper(full_key_name, value_name, REG_DWORD, &value);
63 }
64
SetValue(const wchar_t * full_key_name,const wchar_t * value_name,DWORD64 value)65 HRESULT RegKey::SetValue(const wchar_t* full_key_name,
66 const wchar_t* value_name,
67 DWORD64 value) {
68 ASSERT(full_key_name != NULL);
69
70 return SetValueStaticHelper(full_key_name, value_name, REG_QWORD, &value);
71 }
72
SetValue(const wchar_t * full_key_name,const wchar_t * value_name,float value)73 HRESULT RegKey::SetValue(const wchar_t* full_key_name,
74 const wchar_t* value_name,
75 float value) {
76 ASSERT(full_key_name != NULL);
77
78 return SetValueStaticHelper(full_key_name, value_name,
79 REG_BINARY, &value, sizeof(value));
80 }
81
SetValue(const wchar_t * full_key_name,const wchar_t * value_name,double value)82 HRESULT RegKey::SetValue(const wchar_t* full_key_name,
83 const wchar_t* value_name,
84 double value) {
85 ASSERT(full_key_name != NULL);
86
87 return SetValueStaticHelper(full_key_name, value_name,
88 REG_BINARY, &value, sizeof(value));
89 }
90
SetValue(const wchar_t * full_key_name,const wchar_t * value_name,const TCHAR * value)91 HRESULT RegKey::SetValue(const wchar_t* full_key_name,
92 const wchar_t* value_name,
93 const TCHAR* value) {
94 ASSERT(full_key_name != NULL);
95 ASSERT(value != NULL);
96
97 return SetValueStaticHelper(full_key_name, value_name,
98 REG_SZ, const_cast<wchar_t*>(value));
99 }
100
SetValue(const wchar_t * full_key_name,const wchar_t * value_name,const uint8 * value,DWORD byte_count)101 HRESULT RegKey::SetValue(const wchar_t* full_key_name,
102 const wchar_t* value_name,
103 const uint8* value,
104 DWORD byte_count) {
105 ASSERT(full_key_name != NULL);
106
107 return SetValueStaticHelper(full_key_name, value_name, REG_BINARY,
108 const_cast<uint8*>(value), byte_count);
109 }
110
SetValueMultiSZ(const wchar_t * full_key_name,const wchar_t * value_name,const uint8 * value,DWORD byte_count)111 HRESULT RegKey::SetValueMultiSZ(const wchar_t* full_key_name,
112 const wchar_t* value_name,
113 const uint8* value,
114 DWORD byte_count) {
115 ASSERT(full_key_name != NULL);
116
117 return SetValueStaticHelper(full_key_name, value_name, REG_MULTI_SZ,
118 const_cast<uint8*>(value), byte_count);
119 }
120
GetValue(const wchar_t * full_key_name,const wchar_t * value_name,DWORD * value)121 HRESULT RegKey::GetValue(const wchar_t* full_key_name,
122 const wchar_t* value_name,
123 DWORD* value) {
124 ASSERT(full_key_name != NULL);
125 ASSERT(value != NULL);
126
127 return GetValueStaticHelper(full_key_name, value_name, REG_DWORD, value);
128 }
129
GetValue(const wchar_t * full_key_name,const wchar_t * value_name,DWORD64 * value)130 HRESULT RegKey::GetValue(const wchar_t* full_key_name,
131 const wchar_t* value_name,
132 DWORD64* value) {
133 ASSERT(full_key_name != NULL);
134 ASSERT(value != NULL);
135
136 return GetValueStaticHelper(full_key_name, value_name, REG_QWORD, value);
137 }
138
GetValue(const wchar_t * full_key_name,const wchar_t * value_name,float * value)139 HRESULT RegKey::GetValue(const wchar_t* full_key_name,
140 const wchar_t* value_name,
141 float* value) {
142 ASSERT(value != NULL);
143 ASSERT(full_key_name != NULL);
144
145 DWORD byte_count = 0;
146 scoped_ptr<byte[]> buffer;
147 HRESULT hr = GetValueStaticHelper(full_key_name, value_name,
148 REG_BINARY, buffer.accept(), &byte_count);
149 if (SUCCEEDED(hr)) {
150 ASSERT(byte_count == sizeof(*value));
151 if (byte_count == sizeof(*value)) {
152 *value = *reinterpret_cast<float*>(buffer.get());
153 }
154 }
155 return hr;
156 }
157
GetValue(const wchar_t * full_key_name,const wchar_t * value_name,double * value)158 HRESULT RegKey::GetValue(const wchar_t* full_key_name,
159 const wchar_t* value_name,
160 double* value) {
161 ASSERT(value != NULL);
162 ASSERT(full_key_name != NULL);
163
164 DWORD byte_count = 0;
165 scoped_ptr<byte[]> buffer;
166 HRESULT hr = GetValueStaticHelper(full_key_name, value_name,
167 REG_BINARY, buffer.accept(), &byte_count);
168 if (SUCCEEDED(hr)) {
169 ASSERT(byte_count == sizeof(*value));
170 if (byte_count == sizeof(*value)) {
171 *value = *reinterpret_cast<double*>(buffer.get());
172 }
173 }
174 return hr;
175 }
176
GetValue(const wchar_t * full_key_name,const wchar_t * value_name,wchar_t ** value)177 HRESULT RegKey::GetValue(const wchar_t* full_key_name,
178 const wchar_t* value_name,
179 wchar_t** value) {
180 ASSERT(full_key_name != NULL);
181 ASSERT(value != NULL);
182
183 return GetValueStaticHelper(full_key_name, value_name, REG_SZ, value);
184 }
185
GetValue(const wchar_t * full_key_name,const wchar_t * value_name,std::wstring * value)186 HRESULT RegKey::GetValue(const wchar_t* full_key_name,
187 const wchar_t* value_name,
188 std::wstring* value) {
189 ASSERT(full_key_name != NULL);
190 ASSERT(value != NULL);
191
192 scoped_ptr<wchar_t[]> buffer;
193 HRESULT hr = RegKey::GetValue(full_key_name, value_name, buffer.accept());
194 if (SUCCEEDED(hr)) {
195 value->assign(buffer.get());
196 }
197 return hr;
198 }
199
GetValue(const wchar_t * full_key_name,const wchar_t * value_name,std::vector<std::wstring> * value)200 HRESULT RegKey::GetValue(const wchar_t* full_key_name,
201 const wchar_t* value_name,
202 std::vector<std::wstring>* value) {
203 ASSERT(full_key_name != NULL);
204 ASSERT(value != NULL);
205
206 return GetValueStaticHelper(full_key_name, value_name, REG_MULTI_SZ, value);
207 }
208
GetValue(const wchar_t * full_key_name,const wchar_t * value_name,uint8 ** value,DWORD * byte_count)209 HRESULT RegKey::GetValue(const wchar_t* full_key_name,
210 const wchar_t* value_name,
211 uint8** value,
212 DWORD* byte_count) {
213 ASSERT(full_key_name != NULL);
214 ASSERT(value != NULL);
215 ASSERT(byte_count != NULL);
216
217 return GetValueStaticHelper(full_key_name, value_name,
218 REG_BINARY, value, byte_count);
219 }
220
DeleteSubKey(const wchar_t * key_name)221 HRESULT RegKey::DeleteSubKey(const wchar_t* key_name) {
222 ASSERT(key_name != NULL);
223 ASSERT(h_key_ != NULL);
224
225 LONG res = ::RegDeleteKey(h_key_, key_name);
226 HRESULT hr = HRESULT_FROM_WIN32(res);
227 if (hr == HRESULT_FROM_WIN32(ERROR_FILE_NOT_FOUND) ||
228 hr == HRESULT_FROM_WIN32(ERROR_PATH_NOT_FOUND)) {
229 hr = S_FALSE;
230 }
231 return hr;
232 }
233
DeleteValue(const wchar_t * value_name)234 HRESULT RegKey::DeleteValue(const wchar_t* value_name) {
235 ASSERT(h_key_ != NULL);
236
237 LONG res = ::RegDeleteValue(h_key_, value_name);
238 HRESULT hr = HRESULT_FROM_WIN32(res);
239 if (hr == HRESULT_FROM_WIN32(ERROR_FILE_NOT_FOUND) ||
240 hr == HRESULT_FROM_WIN32(ERROR_PATH_NOT_FOUND)) {
241 hr = S_FALSE;
242 }
243 return hr;
244 }
245
Close()246 HRESULT RegKey::Close() {
247 HRESULT hr = S_OK;
248 if (h_key_ != NULL) {
249 LONG res = ::RegCloseKey(h_key_);
250 hr = HRESULT_FROM_WIN32(res);
251 h_key_ = NULL;
252 }
253 return hr;
254 }
255
Create(HKEY parent_key,const wchar_t * key_name,wchar_t * lpszClass,DWORD options,REGSAM sam_desired,LPSECURITY_ATTRIBUTES lpSecAttr,LPDWORD lpdwDisposition)256 HRESULT RegKey::Create(HKEY parent_key,
257 const wchar_t* key_name,
258 wchar_t* lpszClass,
259 DWORD options,
260 REGSAM sam_desired,
261 LPSECURITY_ATTRIBUTES lpSecAttr,
262 LPDWORD lpdwDisposition) {
263 ASSERT(key_name != NULL);
264 ASSERT(parent_key != NULL);
265
266 DWORD dw = 0;
267 HKEY h_key = NULL;
268 LONG res = ::RegCreateKeyEx(parent_key, key_name, 0, lpszClass, options,
269 sam_desired, lpSecAttr, &h_key, &dw);
270 HRESULT hr = HRESULT_FROM_WIN32(res);
271
272 if (lpdwDisposition) {
273 *lpdwDisposition = dw;
274 }
275
276 // we have to close the currently opened key
277 // before replacing it with the new one
278 if (hr == S_OK) {
279 hr = Close();
280 ASSERT(hr == S_OK);
281 h_key_ = h_key;
282 }
283 return hr;
284 }
285
Open(HKEY parent_key,const wchar_t * key_name,REGSAM sam_desired)286 HRESULT RegKey::Open(HKEY parent_key,
287 const wchar_t* key_name,
288 REGSAM sam_desired) {
289 ASSERT(key_name != NULL);
290 ASSERT(parent_key != NULL);
291
292 HKEY h_key = NULL;
293 LONG res = ::RegOpenKeyEx(parent_key, key_name, 0, sam_desired, &h_key);
294 HRESULT hr = HRESULT_FROM_WIN32(res);
295
296 // we have to close the currently opened key
297 // before replacing it with the new one
298 if (hr == S_OK) {
299 // close the currently opened key if any
300 hr = Close();
301 ASSERT(hr == S_OK);
302 h_key_ = h_key;
303 }
304 return hr;
305 }
306
307 // save the key and all of its subkeys and values to a file
Save(const wchar_t * full_key_name,const wchar_t * file_name)308 HRESULT RegKey::Save(const wchar_t* full_key_name, const wchar_t* file_name) {
309 ASSERT(full_key_name != NULL);
310 ASSERT(file_name != NULL);
311
312 std::wstring key_name(full_key_name);
313 HKEY h_key = GetRootKeyInfo(&key_name);
314 if (!h_key) {
315 return E_FAIL;
316 }
317
318 RegKey key;
319 HRESULT hr = key.Open(h_key, key_name.c_str(), KEY_READ);
320 if (FAILED(hr)) {
321 return hr;
322 }
323
324 AdjustCurrentProcessPrivilege(SE_BACKUP_NAME, true);
325 LONG res = ::RegSaveKey(key.h_key_, file_name, NULL);
326 AdjustCurrentProcessPrivilege(SE_BACKUP_NAME, false);
327
328 return HRESULT_FROM_WIN32(res);
329 }
330
331 // restore the key and all of its subkeys and values which are saved into a file
Restore(const wchar_t * full_key_name,const wchar_t * file_name)332 HRESULT RegKey::Restore(const wchar_t* full_key_name,
333 const wchar_t* file_name) {
334 ASSERT(full_key_name != NULL);
335 ASSERT(file_name != NULL);
336
337 std::wstring key_name(full_key_name);
338 HKEY h_key = GetRootKeyInfo(&key_name);
339 if (!h_key) {
340 return E_FAIL;
341 }
342
343 RegKey key;
344 HRESULT hr = key.Open(h_key, key_name.c_str(), KEY_WRITE);
345 if (FAILED(hr)) {
346 return hr;
347 }
348
349 AdjustCurrentProcessPrivilege(SE_RESTORE_NAME, true);
350 LONG res = ::RegRestoreKey(key.h_key_, file_name, REG_FORCE_RESTORE);
351 AdjustCurrentProcessPrivilege(SE_RESTORE_NAME, false);
352
353 return HRESULT_FROM_WIN32(res);
354 }
355
356 // check if the current key has the specified subkey
HasSubkey(const wchar_t * key_name) const357 bool RegKey::HasSubkey(const wchar_t* key_name) const {
358 ASSERT(key_name != NULL);
359
360 RegKey key;
361 HRESULT hr = key.Open(h_key_, key_name, KEY_READ);
362 key.Close();
363 return hr == S_OK;
364 }
365
366 // static flush key
FlushKey(const wchar_t * full_key_name)367 HRESULT RegKey::FlushKey(const wchar_t* full_key_name) {
368 ASSERT(full_key_name != NULL);
369
370 HRESULT hr = HRESULT_FROM_WIN32(ERROR_PATH_NOT_FOUND);
371 // get the root HKEY
372 std::wstring key_name(full_key_name);
373 HKEY h_key = GetRootKeyInfo(&key_name);
374
375 if (h_key != NULL) {
376 LONG res = ::RegFlushKey(h_key);
377 hr = HRESULT_FROM_WIN32(res);
378 }
379 return hr;
380 }
381
382 // static SET helper
SetValueStaticHelper(const wchar_t * full_key_name,const wchar_t * value_name,DWORD type,LPVOID value,DWORD byte_count)383 HRESULT RegKey::SetValueStaticHelper(const wchar_t* full_key_name,
384 const wchar_t* value_name,
385 DWORD type,
386 LPVOID value,
387 DWORD byte_count) {
388 ASSERT(full_key_name != NULL);
389
390 HRESULT hr = HRESULT_FROM_WIN32(ERROR_PATH_NOT_FOUND);
391 // get the root HKEY
392 std::wstring key_name(full_key_name);
393 HKEY h_key = GetRootKeyInfo(&key_name);
394
395 if (h_key != NULL) {
396 RegKey key;
397 hr = key.Create(h_key, key_name.c_str());
398 if (hr == S_OK) {
399 switch (type) {
400 case REG_DWORD:
401 hr = key.SetValue(value_name, *(static_cast<DWORD*>(value)));
402 break;
403 case REG_QWORD:
404 hr = key.SetValue(value_name, *(static_cast<DWORD64*>(value)));
405 break;
406 case REG_SZ:
407 hr = key.SetValue(value_name, static_cast<const wchar_t*>(value));
408 break;
409 case REG_BINARY:
410 hr = key.SetValue(value_name, static_cast<const uint8*>(value),
411 byte_count);
412 break;
413 case REG_MULTI_SZ:
414 hr = key.SetValue(value_name, static_cast<const uint8*>(value),
415 byte_count, type);
416 break;
417 default:
418 ASSERT(false);
419 hr = HRESULT_FROM_WIN32(ERROR_DATATYPE_MISMATCH);
420 break;
421 }
422 // close the key after writing
423 HRESULT temp_hr = key.Close();
424 if (hr == S_OK) {
425 hr = temp_hr;
426 }
427 }
428 }
429 return hr;
430 }
431
432 // static GET helper
GetValueStaticHelper(const wchar_t * full_key_name,const wchar_t * value_name,DWORD type,LPVOID value,DWORD * byte_count)433 HRESULT RegKey::GetValueStaticHelper(const wchar_t* full_key_name,
434 const wchar_t* value_name,
435 DWORD type,
436 LPVOID value,
437 DWORD* byte_count) {
438 ASSERT(full_key_name != NULL);
439
440 HRESULT hr = HRESULT_FROM_WIN32(ERROR_PATH_NOT_FOUND);
441 // get the root HKEY
442 std::wstring key_name(full_key_name);
443 HKEY h_key = GetRootKeyInfo(&key_name);
444
445 if (h_key != NULL) {
446 RegKey key;
447 hr = key.Open(h_key, key_name.c_str(), KEY_READ);
448 if (hr == S_OK) {
449 switch (type) {
450 case REG_DWORD:
451 hr = key.GetValue(value_name, reinterpret_cast<DWORD*>(value));
452 break;
453 case REG_QWORD:
454 hr = key.GetValue(value_name, reinterpret_cast<DWORD64*>(value));
455 break;
456 case REG_SZ:
457 hr = key.GetValue(value_name, reinterpret_cast<wchar_t**>(value));
458 break;
459 case REG_MULTI_SZ:
460 hr = key.GetValue(value_name, reinterpret_cast<
461 std::vector<std::wstring>*>(value));
462 break;
463 case REG_BINARY:
464 hr = key.GetValue(value_name, reinterpret_cast<uint8**>(value),
465 byte_count);
466 break;
467 default:
468 ASSERT(false);
469 hr = HRESULT_FROM_WIN32(ERROR_DATATYPE_MISMATCH);
470 break;
471 }
472 // close the key after writing
473 HRESULT temp_hr = key.Close();
474 if (hr == S_OK) {
475 hr = temp_hr;
476 }
477 }
478 }
479 return hr;
480 }
481
482 // GET helper
GetValueHelper(const wchar_t * value_name,DWORD * type,uint8 ** value,DWORD * byte_count) const483 HRESULT RegKey::GetValueHelper(const wchar_t* value_name,
484 DWORD* type,
485 uint8** value,
486 DWORD* byte_count) const {
487 ASSERT(byte_count != NULL);
488 ASSERT(value != NULL);
489 ASSERT(type != NULL);
490
491 // init return buffer
492 *value = NULL;
493
494 // get the size of the return data buffer
495 LONG res = ::SHQueryValueEx(h_key_, value_name, NULL, type, NULL, byte_count);
496 HRESULT hr = HRESULT_FROM_WIN32(res);
497
498 if (hr == S_OK) {
499 // if the value length is 0, nothing to do
500 if (*byte_count != 0) {
501 // allocate the buffer
502 *value = new byte[*byte_count];
503 ASSERT(*value != NULL);
504
505 // make the call again to get the data
506 res = ::SHQueryValueEx(h_key_, value_name, NULL,
507 type, *value, byte_count);
508 hr = HRESULT_FROM_WIN32(res);
509 ASSERT(hr == S_OK);
510 }
511 }
512 return hr;
513 }
514
515 // Int32 Get
GetValue(const wchar_t * value_name,DWORD * value) const516 HRESULT RegKey::GetValue(const wchar_t* value_name, DWORD* value) const {
517 ASSERT(value != NULL);
518
519 DWORD type = 0;
520 DWORD byte_count = sizeof(DWORD);
521 LONG res = ::SHQueryValueEx(h_key_, value_name, NULL, &type,
522 value, &byte_count);
523 HRESULT hr = HRESULT_FROM_WIN32(res);
524 ASSERT((hr != S_OK) || (type == REG_DWORD));
525 ASSERT((hr != S_OK) || (byte_count == sizeof(DWORD)));
526 return hr;
527 }
528
529 // Int64 Get
GetValue(const wchar_t * value_name,DWORD64 * value) const530 HRESULT RegKey::GetValue(const wchar_t* value_name, DWORD64* value) const {
531 ASSERT(value != NULL);
532
533 DWORD type = 0;
534 DWORD byte_count = sizeof(DWORD64);
535 LONG res = ::SHQueryValueEx(h_key_, value_name, NULL, &type,
536 value, &byte_count);
537 HRESULT hr = HRESULT_FROM_WIN32(res);
538 ASSERT((hr != S_OK) || (type == REG_QWORD));
539 ASSERT((hr != S_OK) || (byte_count == sizeof(DWORD64)));
540 return hr;
541 }
542
543 // String Get
GetValue(const wchar_t * value_name,wchar_t ** value) const544 HRESULT RegKey::GetValue(const wchar_t* value_name, wchar_t** value) const {
545 ASSERT(value != NULL);
546
547 DWORD byte_count = 0;
548 DWORD type = 0;
549
550 // first get the size of the string buffer
551 LONG res = ::SHQueryValueEx(h_key_, value_name, NULL,
552 &type, NULL, &byte_count);
553 HRESULT hr = HRESULT_FROM_WIN32(res);
554
555 if (hr == S_OK) {
556 // allocate room for the string and a terminating \0
557 *value = new wchar_t[(byte_count / sizeof(wchar_t)) + 1];
558
559 if ((*value) != NULL) {
560 if (byte_count != 0) {
561 // make the call again
562 res = ::SHQueryValueEx(h_key_, value_name, NULL, &type,
563 *value, &byte_count);
564 hr = HRESULT_FROM_WIN32(res);
565 } else {
566 (*value)[0] = L'\0';
567 }
568
569 ASSERT((hr != S_OK) || (type == REG_SZ) ||
570 (type == REG_MULTI_SZ) || (type == REG_EXPAND_SZ));
571 } else {
572 hr = E_OUTOFMEMORY;
573 }
574 }
575
576 return hr;
577 }
578
579 // get a string value
GetValue(const wchar_t * value_name,std::wstring * value) const580 HRESULT RegKey::GetValue(const wchar_t* value_name, std::wstring* value) const {
581 ASSERT(value != NULL);
582
583 DWORD byte_count = 0;
584 DWORD type = 0;
585
586 // first get the size of the string buffer
587 LONG res = ::SHQueryValueEx(h_key_, value_name, NULL,
588 &type, NULL, &byte_count);
589 HRESULT hr = HRESULT_FROM_WIN32(res);
590
591 if (hr == S_OK) {
592 if (byte_count != 0) {
593 // Allocate some memory and make the call again
594 value->resize(byte_count / sizeof(wchar_t) + 1);
595 res = ::SHQueryValueEx(h_key_, value_name, NULL, &type,
596 &value->at(0), &byte_count);
597 hr = HRESULT_FROM_WIN32(res);
598 value->resize(wcslen(value->data()));
599 } else {
600 value->clear();
601 }
602
603 ASSERT((hr != S_OK) || (type == REG_SZ) ||
604 (type == REG_MULTI_SZ) || (type == REG_EXPAND_SZ));
605 }
606
607 return hr;
608 }
609
610 // convert REG_MULTI_SZ bytes to string array
MultiSZBytesToStringArray(const uint8 * buffer,DWORD byte_count,std::vector<std::wstring> * value)611 HRESULT RegKey::MultiSZBytesToStringArray(const uint8* buffer,
612 DWORD byte_count,
613 std::vector<std::wstring>* value) {
614 ASSERT(buffer != NULL);
615 ASSERT(value != NULL);
616
617 const wchar_t* data = reinterpret_cast<const wchar_t*>(buffer);
618 DWORD data_len = byte_count / sizeof(wchar_t);
619 value->clear();
620 if (data_len > 1) {
621 // must be terminated by two null characters
622 if (data[data_len - 1] != 0 || data[data_len - 2] != 0) {
623 return E_INVALIDARG;
624 }
625
626 // put null-terminated strings into arrays
627 while (*data) {
628 std::wstring str(data);
629 value->push_back(str);
630 data += str.length() + 1;
631 }
632 }
633 return S_OK;
634 }
635
636 // get a std::vector<std::wstring> value from REG_MULTI_SZ type
GetValue(const wchar_t * value_name,std::vector<std::wstring> * value) const637 HRESULT RegKey::GetValue(const wchar_t* value_name,
638 std::vector<std::wstring>* value) const {
639 ASSERT(value != NULL);
640
641 DWORD byte_count = 0;
642 DWORD type = 0;
643 uint8* buffer = 0;
644
645 // first get the size of the buffer
646 HRESULT hr = GetValueHelper(value_name, &type, &buffer, &byte_count);
647 ASSERT((hr != S_OK) || (type == REG_MULTI_SZ));
648
649 if (SUCCEEDED(hr)) {
650 hr = MultiSZBytesToStringArray(buffer, byte_count, value);
651 }
652
653 return hr;
654 }
655
656 // Binary data Get
GetValue(const wchar_t * value_name,uint8 ** value,DWORD * byte_count) const657 HRESULT RegKey::GetValue(const wchar_t* value_name,
658 uint8** value,
659 DWORD* byte_count) const {
660 ASSERT(byte_count != NULL);
661 ASSERT(value != NULL);
662
663 DWORD type = 0;
664 HRESULT hr = GetValueHelper(value_name, &type, value, byte_count);
665 ASSERT((hr != S_OK) || (type == REG_MULTI_SZ) || (type == REG_BINARY));
666 return hr;
667 }
668
669 // Raw data get
GetValue(const wchar_t * value_name,uint8 ** value,DWORD * byte_count,DWORD * type) const670 HRESULT RegKey::GetValue(const wchar_t* value_name,
671 uint8** value,
672 DWORD* byte_count,
673 DWORD*type) const {
674 ASSERT(type != NULL);
675 ASSERT(byte_count != NULL);
676 ASSERT(value != NULL);
677
678 return GetValueHelper(value_name, type, value, byte_count);
679 }
680
681 // Int32 set
SetValue(const wchar_t * value_name,DWORD value) const682 HRESULT RegKey::SetValue(const wchar_t* value_name, DWORD value) const {
683 ASSERT(h_key_ != NULL);
684
685 LONG res = ::RegSetValueEx(h_key_, value_name, NULL, REG_DWORD,
686 reinterpret_cast<const uint8*>(&value),
687 sizeof(DWORD));
688 return HRESULT_FROM_WIN32(res);
689 }
690
691 // Int64 set
SetValue(const wchar_t * value_name,DWORD64 value) const692 HRESULT RegKey::SetValue(const wchar_t* value_name, DWORD64 value) const {
693 ASSERT(h_key_ != NULL);
694
695 LONG res = ::RegSetValueEx(h_key_, value_name, NULL, REG_QWORD,
696 reinterpret_cast<const uint8*>(&value),
697 sizeof(DWORD64));
698 return HRESULT_FROM_WIN32(res);
699 }
700
701 // String set
SetValue(const wchar_t * value_name,const wchar_t * value) const702 HRESULT RegKey::SetValue(const wchar_t* value_name,
703 const wchar_t* value) const {
704 ASSERT(value != NULL);
705 ASSERT(h_key_ != NULL);
706
707 LONG res = ::RegSetValueEx(h_key_, value_name, NULL, REG_SZ,
708 reinterpret_cast<const uint8*>(value),
709 (lstrlen(value) + 1) * sizeof(wchar_t));
710 return HRESULT_FROM_WIN32(res);
711 }
712
713 // Binary data set
SetValue(const wchar_t * value_name,const uint8 * value,DWORD byte_count) const714 HRESULT RegKey::SetValue(const wchar_t* value_name,
715 const uint8* value,
716 DWORD byte_count) const {
717 ASSERT(h_key_ != NULL);
718
719 // special case - if 'value' is NULL make sure byte_count is zero
720 if (value == NULL) {
721 byte_count = 0;
722 }
723
724 LONG res = ::RegSetValueEx(h_key_, value_name, NULL,
725 REG_BINARY, value, byte_count);
726 return HRESULT_FROM_WIN32(res);
727 }
728
729 // Raw data set
SetValue(const wchar_t * value_name,const uint8 * value,DWORD byte_count,DWORD type) const730 HRESULT RegKey::SetValue(const wchar_t* value_name,
731 const uint8* value,
732 DWORD byte_count,
733 DWORD type) const {
734 ASSERT(value != NULL);
735 ASSERT(h_key_ != NULL);
736
737 LONG res = ::RegSetValueEx(h_key_, value_name, NULL, type, value, byte_count);
738 return HRESULT_FROM_WIN32(res);
739 }
740
HasKey(const wchar_t * full_key_name)741 bool RegKey::HasKey(const wchar_t* full_key_name) {
742 ASSERT(full_key_name != NULL);
743
744 // get the root HKEY
745 std::wstring key_name(full_key_name);
746 HKEY h_key = GetRootKeyInfo(&key_name);
747
748 if (h_key != NULL) {
749 RegKey key;
750 HRESULT hr = key.Open(h_key, key_name.c_str(), KEY_READ);
751 key.Close();
752 return S_OK == hr;
753 }
754 return false;
755 }
756
757 // static version of HasValue
HasValue(const wchar_t * full_key_name,const wchar_t * value_name)758 bool RegKey::HasValue(const wchar_t* full_key_name, const wchar_t* value_name) {
759 ASSERT(full_key_name != NULL);
760
761 bool has_value = false;
762 // get the root HKEY
763 std::wstring key_name(full_key_name);
764 HKEY h_key = GetRootKeyInfo(&key_name);
765
766 if (h_key != NULL) {
767 RegKey key;
768 if (key.Open(h_key, key_name.c_str(), KEY_READ) == S_OK) {
769 has_value = key.HasValue(value_name);
770 key.Close();
771 }
772 }
773 return has_value;
774 }
775
GetValueType(const wchar_t * full_key_name,const wchar_t * value_name,DWORD * value_type)776 HRESULT RegKey::GetValueType(const wchar_t* full_key_name,
777 const wchar_t* value_name,
778 DWORD* value_type) {
779 ASSERT(full_key_name != NULL);
780 ASSERT(value_type != NULL);
781
782 *value_type = REG_NONE;
783
784 std::wstring key_name(full_key_name);
785 HKEY h_key = GetRootKeyInfo(&key_name);
786
787 RegKey key;
788 HRESULT hr = key.Open(h_key, key_name.c_str(), KEY_READ);
789 if (SUCCEEDED(hr)) {
790 LONG res = ::SHQueryValueEx(key.h_key_, value_name, NULL, value_type,
791 NULL, NULL);
792 if (res != ERROR_SUCCESS) {
793 hr = HRESULT_FROM_WIN32(res);
794 }
795 }
796
797 return hr;
798 }
799
DeleteKey(const wchar_t * full_key_name)800 HRESULT RegKey::DeleteKey(const wchar_t* full_key_name) {
801 ASSERT(full_key_name != NULL);
802
803 return DeleteKey(full_key_name, true);
804 }
805
DeleteKey(const wchar_t * full_key_name,bool recursively)806 HRESULT RegKey::DeleteKey(const wchar_t* full_key_name, bool recursively) {
807 ASSERT(full_key_name != NULL);
808
809 // need to open the parent key first
810 // get the root HKEY
811 std::wstring key_name(full_key_name);
812 HKEY h_key = GetRootKeyInfo(&key_name);
813
814 // get the parent key
815 std::wstring parent_key(GetParentKeyInfo(&key_name));
816
817 RegKey key;
818 HRESULT hr = key.Open(h_key, parent_key.c_str());
819
820 if (hr == S_OK) {
821 hr = recursively ? key.RecurseDeleteSubKey(key_name.c_str())
822 : key.DeleteSubKey(key_name.c_str());
823 } else if (hr == HRESULT_FROM_WIN32(ERROR_FILE_NOT_FOUND) ||
824 hr == HRESULT_FROM_WIN32(ERROR_PATH_NOT_FOUND)) {
825 hr = S_FALSE;
826 }
827
828 key.Close();
829 return hr;
830 }
831
DeleteValue(const wchar_t * full_key_name,const wchar_t * value_name)832 HRESULT RegKey::DeleteValue(const wchar_t* full_key_name,
833 const wchar_t* value_name) {
834 ASSERT(full_key_name != NULL);
835
836 HRESULT hr = HRESULT_FROM_WIN32(ERROR_PATH_NOT_FOUND);
837 // get the root HKEY
838 std::wstring key_name(full_key_name);
839 HKEY h_key = GetRootKeyInfo(&key_name);
840
841 if (h_key != NULL) {
842 RegKey key;
843 hr = key.Open(h_key, key_name.c_str());
844 if (hr == S_OK) {
845 hr = key.DeleteValue(value_name);
846 key.Close();
847 }
848 }
849 return hr;
850 }
851
RecurseDeleteSubKey(const wchar_t * key_name)852 HRESULT RegKey::RecurseDeleteSubKey(const wchar_t* key_name) {
853 ASSERT(key_name != NULL);
854
855 RegKey key;
856 HRESULT hr = key.Open(h_key_, key_name);
857
858 if (hr == S_OK) {
859 // enumerate all subkeys of this key and recursivelly delete them
860 FILETIME time = {0};
861 wchar_t key_name_buf[kMaxKeyNameChars] = {0};
862 DWORD key_name_buf_size = kMaxKeyNameChars;
863 while (hr == S_OK &&
864 ::RegEnumKeyEx(key.h_key_, 0, key_name_buf, &key_name_buf_size,
865 NULL, NULL, NULL, &time) == ERROR_SUCCESS) {
866 hr = key.RecurseDeleteSubKey(key_name_buf);
867
868 // restore the buffer size
869 key_name_buf_size = kMaxKeyNameChars;
870 }
871 // close the top key
872 key.Close();
873 }
874
875 if (hr == S_OK) {
876 // the key has no more children keys
877 // delete the key and all of its values
878 hr = DeleteSubKey(key_name);
879 }
880
881 return hr;
882 }
883
GetRootKeyInfo(std::wstring * full_key_name)884 HKEY RegKey::GetRootKeyInfo(std::wstring* full_key_name) {
885 ASSERT(full_key_name != NULL);
886
887 HKEY h_key = NULL;
888 // get the root HKEY
889 size_t index = full_key_name->find(L'\\');
890 std::wstring root_key;
891
892 if (index == -1) {
893 root_key = *full_key_name;
894 *full_key_name = L"";
895 } else {
896 root_key = full_key_name->substr(0, index);
897 *full_key_name = full_key_name->substr(index + 1,
898 full_key_name->length() - index - 1);
899 }
900
901 for (std::wstring::iterator iter = root_key.begin();
902 iter != root_key.end(); ++iter) {
903 *iter = toupper(*iter);
904 }
905
906 if (!root_key.compare(L"HKLM") ||
907 !root_key.compare(L"HKEY_LOCAL_MACHINE")) {
908 h_key = HKEY_LOCAL_MACHINE;
909 } else if (!root_key.compare(L"HKCU") ||
910 !root_key.compare(L"HKEY_CURRENT_USER")) {
911 h_key = HKEY_CURRENT_USER;
912 } else if (!root_key.compare(L"HKU") ||
913 !root_key.compare(L"HKEY_USERS")) {
914 h_key = HKEY_USERS;
915 } else if (!root_key.compare(L"HKCR") ||
916 !root_key.compare(L"HKEY_CLASSES_ROOT")) {
917 h_key = HKEY_CLASSES_ROOT;
918 }
919
920 return h_key;
921 }
922
923
924 // Returns true if this key name is 'safe' for deletion
925 // (doesn't specify a key root)
SafeKeyNameForDeletion(const wchar_t * key_name)926 bool RegKey::SafeKeyNameForDeletion(const wchar_t* key_name) {
927 ASSERT(key_name != NULL);
928 std::wstring key(key_name);
929
930 HKEY root_key = GetRootKeyInfo(&key);
931
932 if (!root_key) {
933 key = key_name;
934 }
935 if (key.empty()) {
936 return false;
937 }
938 bool found_subkey = false, backslash_found = false;
939 for (size_t i = 0 ; i < key.length() ; ++i) {
940 if (key[i] == L'\\') {
941 backslash_found = true;
942 } else if (backslash_found) {
943 found_subkey = true;
944 break;
945 }
946 }
947 return (root_key == HKEY_USERS) ? found_subkey : true;
948 }
949
GetParentKeyInfo(std::wstring * key_name)950 std::wstring RegKey::GetParentKeyInfo(std::wstring* key_name) {
951 ASSERT(key_name != NULL);
952
953 // get the parent key
954 size_t index = key_name->rfind(L'\\');
955 std::wstring parent_key;
956 if (index == -1) {
957 parent_key = L"";
958 } else {
959 parent_key = key_name->substr(0, index);
960 *key_name = key_name->substr(index + 1, key_name->length() - index - 1);
961 }
962
963 return parent_key;
964 }
965
966 // get the number of values for this key
GetValueCount()967 uint32 RegKey::GetValueCount() {
968 DWORD num_values = 0;
969
970 if (ERROR_SUCCESS != ::RegQueryInfoKey(
971 h_key_, // key handle
972 NULL, // buffer for class name
973 NULL, // size of class string
974 NULL, // reserved
975 NULL, // number of subkeys
976 NULL, // longest subkey size
977 NULL, // longest class string
978 &num_values, // number of values for this key
979 NULL, // longest value name
980 NULL, // longest value data
981 NULL, // security descriptor
982 NULL)) { // last write time
983 ASSERT(false);
984 }
985 return num_values;
986 }
987
988 // Enumerators for the value_names for this key
989
990 // Called to get the value name for the given value name index
991 // Use GetValueCount() to get the total value_name count for this key
992 // Returns failure if no key at the specified index
GetValueNameAt(int index,std::wstring * value_name,DWORD * type)993 HRESULT RegKey::GetValueNameAt(int index, std::wstring* value_name,
994 DWORD* type) {
995 ASSERT(value_name != NULL);
996
997 LONG res = ERROR_SUCCESS;
998 wchar_t value_name_buf[kMaxValueNameChars] = {0};
999 DWORD value_name_buf_size = kMaxValueNameChars;
1000 res = ::RegEnumValue(h_key_, index, value_name_buf, &value_name_buf_size,
1001 NULL, type, NULL, NULL);
1002
1003 if (res == ERROR_SUCCESS) {
1004 value_name->assign(value_name_buf);
1005 }
1006
1007 return HRESULT_FROM_WIN32(res);
1008 }
1009
GetSubkeyCount()1010 uint32 RegKey::GetSubkeyCount() {
1011 // number of values for key
1012 DWORD num_subkeys = 0;
1013
1014 if (ERROR_SUCCESS != ::RegQueryInfoKey(
1015 h_key_, // key handle
1016 NULL, // buffer for class name
1017 NULL, // size of class string
1018 NULL, // reserved
1019 &num_subkeys, // number of subkeys
1020 NULL, // longest subkey size
1021 NULL, // longest class string
1022 NULL, // number of values for this key
1023 NULL, // longest value name
1024 NULL, // longest value data
1025 NULL, // security descriptor
1026 NULL)) { // last write time
1027 ASSERT(false);
1028 }
1029 return num_subkeys;
1030 }
1031
GetSubkeyNameAt(int index,std::wstring * key_name)1032 HRESULT RegKey::GetSubkeyNameAt(int index, std::wstring* key_name) {
1033 ASSERT(key_name != NULL);
1034
1035 LONG res = ERROR_SUCCESS;
1036 wchar_t key_name_buf[kMaxKeyNameChars] = {0};
1037 DWORD key_name_buf_size = kMaxKeyNameChars;
1038
1039 res = ::RegEnumKeyEx(h_key_, index, key_name_buf, &key_name_buf_size,
1040 NULL, NULL, NULL, NULL);
1041
1042 if (res == ERROR_SUCCESS) {
1043 key_name->assign(key_name_buf);
1044 }
1045
1046 return HRESULT_FROM_WIN32(res);
1047 }
1048
1049 // Is the key empty: having no sub-keys and values
IsKeyEmpty(const wchar_t * full_key_name)1050 bool RegKey::IsKeyEmpty(const wchar_t* full_key_name) {
1051 ASSERT(full_key_name != NULL);
1052
1053 bool is_empty = true;
1054
1055 // Get the root HKEY
1056 std::wstring key_name(full_key_name);
1057 HKEY h_key = GetRootKeyInfo(&key_name);
1058
1059 // Open the key to check
1060 if (h_key != NULL) {
1061 RegKey key;
1062 HRESULT hr = key.Open(h_key, key_name.c_str(), KEY_READ);
1063 if (SUCCEEDED(hr)) {
1064 is_empty = key.GetSubkeyCount() == 0 && key.GetValueCount() == 0;
1065 key.Close();
1066 }
1067 }
1068
1069 return is_empty;
1070 }
1071
AdjustCurrentProcessPrivilege(const TCHAR * privilege,bool to_enable)1072 bool AdjustCurrentProcessPrivilege(const TCHAR* privilege, bool to_enable) {
1073 ASSERT(privilege != NULL);
1074
1075 bool ret = false;
1076 HANDLE token;
1077 if (::OpenProcessToken(::GetCurrentProcess(),
1078 TOKEN_ADJUST_PRIVILEGES | TOKEN_QUERY, &token)) {
1079 LUID luid;
1080 memset(&luid, 0, sizeof(luid));
1081 if (::LookupPrivilegeValue(NULL, privilege, &luid)) {
1082 TOKEN_PRIVILEGES privs;
1083 privs.PrivilegeCount = 1;
1084 privs.Privileges[0].Luid = luid;
1085 privs.Privileges[0].Attributes = to_enable ? SE_PRIVILEGE_ENABLED : 0;
1086 if (::AdjustTokenPrivileges(token, FALSE, &privs, 0, NULL, 0)) {
1087 ret = true;
1088 } else {
1089 LOG_GLE(LS_ERROR) << "AdjustTokenPrivileges failed";
1090 }
1091 } else {
1092 LOG_GLE(LS_ERROR) << "LookupPrivilegeValue failed";
1093 }
1094 CloseHandle(token);
1095 } else {
1096 LOG_GLE(LS_ERROR) << "OpenProcessToken(GetCurrentProcess) failed";
1097 }
1098
1099 return ret;
1100 }
1101
1102 } // namespace rtc
1103