Home | History | Annotate | Download | only in base
      1 /*
      2  * libjingle
      3  * Copyright 2003-2008, Google Inc.
      4  *
      5  * Redistribution and use in source and binary forms, with or without
      6  * modification, are permitted provided that the following conditions are met:
      7  *
      8  *  1. Redistributions of source code must retain the above copyright notice,
      9  *     this list of conditions and the following disclaimer.
     10  *  2. Redistributions in binary form must reproduce the above copyright notice,
     11  *     this list of conditions and the following disclaimer in the documentation
     12  *     and/or other materials provided with the distribution.
     13  *  3. The name of the author may not be used to endorse or promote products
     14  *     derived from this software without specific prior written permission.
     15  *
     16  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED
     17  * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
     18  * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO
     19  * EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
     20  * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
     21  * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS;
     22  * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
     23  * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
     24  * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
     25  * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
     26  */
     27 
     28 // Registry configuration wrapers class implementation
     29 //
     30 // Change made by S. Ganesh - ganesh (at) google.com:
     31 //   Use SHQueryValueEx instead of RegQueryValueEx throughout.
     32 //   A call to the SHLWAPI function is essentially a call to the standard
     33 //   function but with post-processing:
     34 //   * to fix REG_SZ or REG_EXPAND_SZ data that is not properly null-terminated;
     35 //   * to expand REG_EXPAND_SZ data.
     36 
     37 #include "talk/base/win32regkey.h"
     38 
     39 #include <shlwapi.h>
     40 
     41 #include "talk/base/common.h"
     42 #include "talk/base/logging.h"
     43 #include "talk/base/scoped_ptr.h"
     44 
     45 namespace talk_base {
     46 
     47 RegKey::RegKey() {
     48   h_key_ = NULL;
     49 }
     50 
     51 RegKey::~RegKey() {
     52   Close();
     53 }
     54 
     55 HRESULT RegKey::Create(HKEY parent_key, const wchar_t* key_name) {
     56   return Create(parent_key,
     57                 key_name,
     58                 REG_NONE,
     59                 REG_OPTION_NON_VOLATILE,
     60                 KEY_ALL_ACCESS,
     61                 NULL,
     62                 NULL);
     63 }
     64 
     65 HRESULT RegKey::Open(HKEY parent_key, const wchar_t* key_name) {
     66   return Open(parent_key, key_name, KEY_ALL_ACCESS);
     67 }
     68 
     69 bool RegKey::HasValue(const TCHAR* value_name) const {
     70   return (ERROR_SUCCESS == ::RegQueryValueEx(h_key_, value_name, NULL,
     71                                              NULL, NULL, NULL));
     72 }
     73 
     74 HRESULT RegKey::SetValue(const wchar_t* full_key_name,
     75                          const wchar_t* value_name,
     76                          DWORD value) {
     77   ASSERT(full_key_name != NULL);
     78 
     79   return SetValueStaticHelper(full_key_name, value_name, REG_DWORD, &value);
     80 }
     81 
     82 HRESULT RegKey::SetValue(const wchar_t* full_key_name,
     83                          const wchar_t* value_name,
     84                          DWORD64 value) {
     85   ASSERT(full_key_name != NULL);
     86 
     87   return SetValueStaticHelper(full_key_name, value_name, REG_QWORD, &value);
     88 }
     89 
     90 HRESULT RegKey::SetValue(const wchar_t* full_key_name,
     91                          const wchar_t* value_name,
     92                          float value) {
     93   ASSERT(full_key_name != NULL);
     94 
     95   return SetValueStaticHelper(full_key_name, value_name,
     96                               REG_BINARY, &value, sizeof(value));
     97 }
     98 
     99 HRESULT RegKey::SetValue(const wchar_t* full_key_name,
    100                          const wchar_t* value_name,
    101                          double value) {
    102   ASSERT(full_key_name != NULL);
    103 
    104   return SetValueStaticHelper(full_key_name, value_name,
    105                               REG_BINARY, &value, sizeof(value));
    106 }
    107 
    108 HRESULT RegKey::SetValue(const wchar_t* full_key_name,
    109                          const wchar_t* value_name,
    110                          const TCHAR* value) {
    111   ASSERT(full_key_name != NULL);
    112   ASSERT(value != NULL);
    113 
    114   return SetValueStaticHelper(full_key_name, value_name,
    115                               REG_SZ, const_cast<wchar_t*>(value));
    116 }
    117 
    118 HRESULT RegKey::SetValue(const wchar_t* full_key_name,
    119                          const wchar_t* value_name,
    120                          const uint8* value,
    121                          DWORD byte_count) {
    122   ASSERT(full_key_name != NULL);
    123 
    124   return SetValueStaticHelper(full_key_name, value_name, REG_BINARY,
    125                               const_cast<uint8*>(value), byte_count);
    126 }
    127 
    128 HRESULT RegKey::SetValueMultiSZ(const wchar_t* full_key_name,
    129                                 const wchar_t* value_name,
    130                                 const uint8* value,
    131                                 DWORD byte_count) {
    132   ASSERT(full_key_name != NULL);
    133 
    134   return SetValueStaticHelper(full_key_name, value_name, REG_MULTI_SZ,
    135                               const_cast<uint8*>(value), byte_count);
    136 }
    137 
    138 HRESULT RegKey::GetValue(const wchar_t* full_key_name,
    139                          const wchar_t* value_name,
    140                          DWORD* value) {
    141   ASSERT(full_key_name != NULL);
    142   ASSERT(value != NULL);
    143 
    144   return GetValueStaticHelper(full_key_name, value_name, REG_DWORD, value);
    145 }
    146 
    147 HRESULT RegKey::GetValue(const wchar_t* full_key_name,
    148                          const wchar_t* value_name,
    149                          DWORD64* value) {
    150   ASSERT(full_key_name != NULL);
    151   ASSERT(value != NULL);
    152 
    153   return GetValueStaticHelper(full_key_name, value_name, REG_QWORD, value);
    154 }
    155 
    156 HRESULT RegKey::GetValue(const wchar_t* full_key_name,
    157                          const wchar_t* value_name,
    158                          float* value) {
    159   ASSERT(value != NULL);
    160   ASSERT(full_key_name != NULL);
    161 
    162   DWORD byte_count = 0;
    163   scoped_ptr<byte[]> buffer;
    164   HRESULT hr = GetValueStaticHelper(full_key_name, value_name,
    165                                     REG_BINARY, buffer.accept(), &byte_count);
    166   if (SUCCEEDED(hr)) {
    167     ASSERT(byte_count == sizeof(*value));
    168     if (byte_count == sizeof(*value)) {
    169       *value = *reinterpret_cast<float*>(buffer.get());
    170     }
    171   }
    172   return hr;
    173 }
    174 
    175 HRESULT RegKey::GetValue(const wchar_t* full_key_name,
    176                          const wchar_t* value_name,
    177                          double* value) {
    178   ASSERT(value != NULL);
    179   ASSERT(full_key_name != NULL);
    180 
    181   DWORD byte_count = 0;
    182   scoped_ptr<byte[]> buffer;
    183   HRESULT hr = GetValueStaticHelper(full_key_name, value_name,
    184                                     REG_BINARY, buffer.accept(), &byte_count);
    185   if (SUCCEEDED(hr)) {
    186     ASSERT(byte_count == sizeof(*value));
    187     if (byte_count == sizeof(*value)) {
    188       *value = *reinterpret_cast<double*>(buffer.get());
    189     }
    190   }
    191   return hr;
    192 }
    193 
    194 HRESULT RegKey::GetValue(const wchar_t* full_key_name,
    195                          const wchar_t* value_name,
    196                          wchar_t** value) {
    197   ASSERT(full_key_name != NULL);
    198   ASSERT(value != NULL);
    199 
    200   return GetValueStaticHelper(full_key_name, value_name, REG_SZ, value);
    201 }
    202 
    203 HRESULT RegKey::GetValue(const wchar_t* full_key_name,
    204                          const wchar_t* value_name,
    205                          std::wstring* value) {
    206   ASSERT(full_key_name != NULL);
    207   ASSERT(value != NULL);
    208 
    209   scoped_ptr<wchar_t[]> buffer;
    210   HRESULT hr = RegKey::GetValue(full_key_name, value_name, buffer.accept());
    211   if (SUCCEEDED(hr)) {
    212     value->assign(buffer.get());
    213   }
    214   return hr;
    215 }
    216 
    217 HRESULT RegKey::GetValue(const wchar_t* full_key_name,
    218                          const wchar_t* value_name,
    219                          std::vector<std::wstring>* value) {
    220   ASSERT(full_key_name != NULL);
    221   ASSERT(value != NULL);
    222 
    223   return GetValueStaticHelper(full_key_name, value_name, REG_MULTI_SZ, value);
    224 }
    225 
    226 HRESULT RegKey::GetValue(const wchar_t* full_key_name,
    227                          const wchar_t* value_name,
    228                          uint8** value,
    229                          DWORD* byte_count) {
    230   ASSERT(full_key_name != NULL);
    231   ASSERT(value != NULL);
    232   ASSERT(byte_count != NULL);
    233 
    234   return GetValueStaticHelper(full_key_name, value_name,
    235                               REG_BINARY, value, byte_count);
    236 }
    237 
    238 HRESULT RegKey::DeleteSubKey(const wchar_t* key_name) {
    239   ASSERT(key_name != NULL);
    240   ASSERT(h_key_ != NULL);
    241 
    242   LONG res = ::RegDeleteKey(h_key_, key_name);
    243   HRESULT hr = HRESULT_FROM_WIN32(res);
    244   if (hr == HRESULT_FROM_WIN32(ERROR_FILE_NOT_FOUND) ||
    245       hr == HRESULT_FROM_WIN32(ERROR_PATH_NOT_FOUND)) {
    246     hr = S_FALSE;
    247   }
    248   return hr;
    249 }
    250 
    251 HRESULT RegKey::DeleteValue(const wchar_t* value_name) {
    252   ASSERT(h_key_ != NULL);
    253 
    254   LONG res = ::RegDeleteValue(h_key_, value_name);
    255   HRESULT hr = HRESULT_FROM_WIN32(res);
    256   if (hr == HRESULT_FROM_WIN32(ERROR_FILE_NOT_FOUND) ||
    257       hr == HRESULT_FROM_WIN32(ERROR_PATH_NOT_FOUND)) {
    258     hr = S_FALSE;
    259   }
    260   return hr;
    261 }
    262 
    263 HRESULT RegKey::Close() {
    264   HRESULT hr = S_OK;
    265   if (h_key_ != NULL) {
    266     LONG res = ::RegCloseKey(h_key_);
    267     hr = HRESULT_FROM_WIN32(res);
    268     h_key_ = NULL;
    269   }
    270   return hr;
    271 }
    272 
    273 HRESULT RegKey::Create(HKEY parent_key,
    274                        const wchar_t* key_name,
    275                        wchar_t* lpszClass,
    276                        DWORD options,
    277                        REGSAM sam_desired,
    278                        LPSECURITY_ATTRIBUTES lpSecAttr,
    279                        LPDWORD lpdwDisposition) {
    280   ASSERT(key_name != NULL);
    281   ASSERT(parent_key != NULL);
    282 
    283   DWORD dw = 0;
    284   HKEY h_key = NULL;
    285   LONG res = ::RegCreateKeyEx(parent_key, key_name, 0, lpszClass, options,
    286                               sam_desired, lpSecAttr, &h_key, &dw);
    287   HRESULT hr = HRESULT_FROM_WIN32(res);
    288 
    289   if (lpdwDisposition) {
    290     *lpdwDisposition = dw;
    291   }
    292 
    293   // we have to close the currently opened key
    294   // before replacing it with the new one
    295   if (hr == S_OK) {
    296     hr = Close();
    297     ASSERT(hr == S_OK);
    298     h_key_ = h_key;
    299   }
    300   return hr;
    301 }
    302 
    303 HRESULT RegKey::Open(HKEY parent_key,
    304                      const wchar_t* key_name,
    305                      REGSAM sam_desired) {
    306   ASSERT(key_name != NULL);
    307   ASSERT(parent_key != NULL);
    308 
    309   HKEY h_key = NULL;
    310   LONG res = ::RegOpenKeyEx(parent_key, key_name, 0, sam_desired, &h_key);
    311   HRESULT hr = HRESULT_FROM_WIN32(res);
    312 
    313   // we have to close the currently opened key
    314   // before replacing it with the new one
    315   if (hr == S_OK) {
    316     // close the currently opened key if any
    317     hr = Close();
    318     ASSERT(hr == S_OK);
    319     h_key_ = h_key;
    320   }
    321   return hr;
    322 }
    323 
    324 // save the key and all of its subkeys and values to a file
    325 HRESULT RegKey::Save(const wchar_t* full_key_name, const wchar_t* file_name) {
    326   ASSERT(full_key_name != NULL);
    327   ASSERT(file_name != NULL);
    328 
    329   std::wstring key_name(full_key_name);
    330   HKEY h_key = GetRootKeyInfo(&key_name);
    331   if (!h_key) {
    332     return E_FAIL;
    333   }
    334 
    335   RegKey key;
    336   HRESULT hr = key.Open(h_key, key_name.c_str(), KEY_READ);
    337   if (FAILED(hr)) {
    338     return hr;
    339   }
    340 
    341   AdjustCurrentProcessPrivilege(SE_BACKUP_NAME, true);
    342   LONG res = ::RegSaveKey(key.h_key_, file_name, NULL);
    343   AdjustCurrentProcessPrivilege(SE_BACKUP_NAME, false);
    344 
    345   return HRESULT_FROM_WIN32(res);
    346 }
    347 
    348 // restore the key and all of its subkeys and values which are saved into a file
    349 HRESULT RegKey::Restore(const wchar_t* full_key_name,
    350                         const wchar_t* file_name) {
    351   ASSERT(full_key_name != NULL);
    352   ASSERT(file_name != NULL);
    353 
    354   std::wstring key_name(full_key_name);
    355   HKEY h_key = GetRootKeyInfo(&key_name);
    356   if (!h_key) {
    357     return E_FAIL;
    358   }
    359 
    360   RegKey key;
    361   HRESULT hr = key.Open(h_key, key_name.c_str(), KEY_WRITE);
    362   if (FAILED(hr)) {
    363     return hr;
    364   }
    365 
    366   AdjustCurrentProcessPrivilege(SE_RESTORE_NAME, true);
    367   LONG res = ::RegRestoreKey(key.h_key_, file_name, REG_FORCE_RESTORE);
    368   AdjustCurrentProcessPrivilege(SE_RESTORE_NAME, false);
    369 
    370   return HRESULT_FROM_WIN32(res);
    371 }
    372 
    373 // check if the current key has the specified subkey
    374 bool RegKey::HasSubkey(const wchar_t* key_name) const {
    375   ASSERT(key_name != NULL);
    376 
    377   RegKey key;
    378   HRESULT hr = key.Open(h_key_, key_name, KEY_READ);
    379   key.Close();
    380   return hr == S_OK;
    381 }
    382 
    383 // static flush key
    384 HRESULT RegKey::FlushKey(const wchar_t* full_key_name) {
    385   ASSERT(full_key_name != NULL);
    386 
    387   HRESULT hr = HRESULT_FROM_WIN32(ERROR_PATH_NOT_FOUND);
    388   // get the root HKEY
    389   std::wstring key_name(full_key_name);
    390   HKEY h_key = GetRootKeyInfo(&key_name);
    391 
    392   if (h_key != NULL) {
    393     LONG res = ::RegFlushKey(h_key);
    394     hr = HRESULT_FROM_WIN32(res);
    395   }
    396   return hr;
    397 }
    398 
    399 // static SET helper
    400 HRESULT RegKey::SetValueStaticHelper(const wchar_t* full_key_name,
    401                                      const wchar_t* value_name,
    402                                      DWORD type,
    403                                      LPVOID value,
    404                                      DWORD byte_count) {
    405   ASSERT(full_key_name != NULL);
    406 
    407   HRESULT hr = HRESULT_FROM_WIN32(ERROR_PATH_NOT_FOUND);
    408   // get the root HKEY
    409   std::wstring key_name(full_key_name);
    410   HKEY h_key = GetRootKeyInfo(&key_name);
    411 
    412   if (h_key != NULL) {
    413     RegKey key;
    414     hr = key.Create(h_key, key_name.c_str());
    415     if (hr == S_OK) {
    416       switch (type) {
    417         case REG_DWORD:
    418           hr = key.SetValue(value_name, *(static_cast<DWORD*>(value)));
    419           break;
    420         case REG_QWORD:
    421           hr = key.SetValue(value_name, *(static_cast<DWORD64*>(value)));
    422           break;
    423         case REG_SZ:
    424           hr = key.SetValue(value_name, static_cast<const wchar_t*>(value));
    425           break;
    426         case REG_BINARY:
    427           hr = key.SetValue(value_name, static_cast<const uint8*>(value),
    428                             byte_count);
    429           break;
    430         case REG_MULTI_SZ:
    431           hr = key.SetValue(value_name, static_cast<const uint8*>(value),
    432                             byte_count, type);
    433           break;
    434         default:
    435           ASSERT(false);
    436           hr = HRESULT_FROM_WIN32(ERROR_DATATYPE_MISMATCH);
    437           break;
    438       }
    439       // close the key after writing
    440       HRESULT temp_hr = key.Close();
    441       if (hr == S_OK) {
    442         hr = temp_hr;
    443       }
    444     }
    445   }
    446   return hr;
    447 }
    448 
    449 // static GET helper
    450 HRESULT RegKey::GetValueStaticHelper(const wchar_t* full_key_name,
    451                                      const wchar_t* value_name,
    452                                      DWORD type,
    453                                      LPVOID value,
    454                                      DWORD* byte_count) {
    455   ASSERT(full_key_name != NULL);
    456 
    457   HRESULT hr = HRESULT_FROM_WIN32(ERROR_PATH_NOT_FOUND);
    458   // get the root HKEY
    459   std::wstring key_name(full_key_name);
    460   HKEY h_key = GetRootKeyInfo(&key_name);
    461 
    462   if (h_key != NULL) {
    463     RegKey key;
    464     hr = key.Open(h_key, key_name.c_str(), KEY_READ);
    465     if (hr == S_OK) {
    466       switch (type) {
    467         case REG_DWORD:
    468           hr = key.GetValue(value_name, reinterpret_cast<DWORD*>(value));
    469           break;
    470         case REG_QWORD:
    471           hr = key.GetValue(value_name, reinterpret_cast<DWORD64*>(value));
    472           break;
    473         case REG_SZ:
    474           hr = key.GetValue(value_name, reinterpret_cast<wchar_t**>(value));
    475           break;
    476         case REG_MULTI_SZ:
    477           hr = key.GetValue(value_name, reinterpret_cast<
    478                                             std::vector<std::wstring>*>(value));
    479           break;
    480         case REG_BINARY:
    481           hr = key.GetValue(value_name, reinterpret_cast<uint8**>(value),
    482                             byte_count);
    483           break;
    484         default:
    485           ASSERT(false);
    486           hr = HRESULT_FROM_WIN32(ERROR_DATATYPE_MISMATCH);
    487           break;
    488       }
    489       // close the key after writing
    490       HRESULT temp_hr = key.Close();
    491       if (hr == S_OK) {
    492         hr = temp_hr;
    493       }
    494     }
    495   }
    496   return hr;
    497 }
    498 
    499 // GET helper
    500 HRESULT RegKey::GetValueHelper(const wchar_t* value_name,
    501                                DWORD* type,
    502                                uint8** value,
    503                                DWORD* byte_count) const {
    504   ASSERT(byte_count != NULL);
    505   ASSERT(value != NULL);
    506   ASSERT(type != NULL);
    507 
    508   // init return buffer
    509   *value = NULL;
    510 
    511   // get the size of the return data buffer
    512   LONG res = ::SHQueryValueEx(h_key_, value_name, NULL, type, NULL, byte_count);
    513   HRESULT hr = HRESULT_FROM_WIN32(res);
    514 
    515   if (hr == S_OK) {
    516     // if the value length is 0, nothing to do
    517     if (*byte_count != 0) {
    518       // allocate the buffer
    519       *value = new byte[*byte_count];
    520       ASSERT(*value != NULL);
    521 
    522       // make the call again to get the data
    523       res = ::SHQueryValueEx(h_key_, value_name, NULL,
    524                              type, *value, byte_count);
    525       hr = HRESULT_FROM_WIN32(res);
    526       ASSERT(hr == S_OK);
    527     }
    528   }
    529   return hr;
    530 }
    531 
    532 // Int32 Get
    533 HRESULT RegKey::GetValue(const wchar_t* value_name, DWORD* value) const {
    534   ASSERT(value != NULL);
    535 
    536   DWORD type = 0;
    537   DWORD byte_count = sizeof(DWORD);
    538   LONG res = ::SHQueryValueEx(h_key_, value_name, NULL, &type,
    539                               value, &byte_count);
    540   HRESULT hr = HRESULT_FROM_WIN32(res);
    541   ASSERT((hr != S_OK) || (type == REG_DWORD));
    542   ASSERT((hr != S_OK) || (byte_count == sizeof(DWORD)));
    543   return hr;
    544 }
    545 
    546 // Int64 Get
    547 HRESULT RegKey::GetValue(const wchar_t* value_name, DWORD64* value) const {
    548   ASSERT(value != NULL);
    549 
    550   DWORD type = 0;
    551   DWORD byte_count = sizeof(DWORD64);
    552   LONG res = ::SHQueryValueEx(h_key_, value_name, NULL, &type,
    553                               value, &byte_count);
    554   HRESULT hr = HRESULT_FROM_WIN32(res);
    555   ASSERT((hr != S_OK) || (type == REG_QWORD));
    556   ASSERT((hr != S_OK) || (byte_count == sizeof(DWORD64)));
    557   return hr;
    558 }
    559 
    560 // String Get
    561 HRESULT RegKey::GetValue(const wchar_t* value_name, wchar_t** value) const {
    562   ASSERT(value != NULL);
    563 
    564   DWORD byte_count = 0;
    565   DWORD type = 0;
    566 
    567   // first get the size of the string buffer
    568   LONG res = ::SHQueryValueEx(h_key_, value_name, NULL,
    569                               &type, NULL, &byte_count);
    570   HRESULT hr = HRESULT_FROM_WIN32(res);
    571 
    572   if (hr == S_OK) {
    573     // allocate room for the string and a terminating \0
    574     *value = new wchar_t[(byte_count / sizeof(wchar_t)) + 1];
    575 
    576     if ((*value) != NULL) {
    577       if (byte_count != 0) {
    578         // make the call again
    579         res = ::SHQueryValueEx(h_key_, value_name, NULL, &type,
    580                                *value, &byte_count);
    581         hr = HRESULT_FROM_WIN32(res);
    582       } else {
    583         (*value)[0] = L'\0';
    584       }
    585 
    586       ASSERT((hr != S_OK) || (type == REG_SZ) ||
    587              (type == REG_MULTI_SZ) || (type == REG_EXPAND_SZ));
    588     } else {
    589       hr = E_OUTOFMEMORY;
    590     }
    591   }
    592 
    593   return hr;
    594 }
    595 
    596 // get a string value
    597 HRESULT RegKey::GetValue(const wchar_t* value_name, std::wstring* value) const {
    598   ASSERT(value != NULL);
    599 
    600   DWORD byte_count = 0;
    601   DWORD type = 0;
    602 
    603   // first get the size of the string buffer
    604   LONG res = ::SHQueryValueEx(h_key_, value_name, NULL,
    605                               &type, NULL, &byte_count);
    606   HRESULT hr = HRESULT_FROM_WIN32(res);
    607 
    608   if (hr == S_OK) {
    609     if (byte_count != 0) {
    610       // Allocate some memory and make the call again
    611       value->resize(byte_count / sizeof(wchar_t) + 1);
    612       res = ::SHQueryValueEx(h_key_, value_name, NULL, &type,
    613                              &value->at(0), &byte_count);
    614       hr = HRESULT_FROM_WIN32(res);
    615       value->resize(wcslen(value->data()));
    616     } else {
    617       value->clear();
    618     }
    619 
    620     ASSERT((hr != S_OK) || (type == REG_SZ) ||
    621            (type == REG_MULTI_SZ) || (type == REG_EXPAND_SZ));
    622   }
    623 
    624   return hr;
    625 }
    626 
    627 // convert REG_MULTI_SZ bytes to string array
    628 HRESULT RegKey::MultiSZBytesToStringArray(const uint8* buffer,
    629                                           DWORD byte_count,
    630                                           std::vector<std::wstring>* value) {
    631   ASSERT(buffer != NULL);
    632   ASSERT(value != NULL);
    633 
    634   const wchar_t* data = reinterpret_cast<const wchar_t*>(buffer);
    635   DWORD data_len = byte_count / sizeof(wchar_t);
    636   value->clear();
    637   if (data_len > 1) {
    638     // must be terminated by two null characters
    639     if (data[data_len - 1] != 0 || data[data_len - 2] != 0) {
    640       return E_INVALIDARG;
    641     }
    642 
    643     // put null-terminated strings into arrays
    644     while (*data) {
    645       std::wstring str(data);
    646       value->push_back(str);
    647       data += str.length() + 1;
    648     }
    649   }
    650   return S_OK;
    651 }
    652 
    653 // get a std::vector<std::wstring> value from REG_MULTI_SZ type
    654 HRESULT RegKey::GetValue(const wchar_t* value_name,
    655                          std::vector<std::wstring>* value) const {
    656   ASSERT(value != NULL);
    657 
    658   DWORD byte_count = 0;
    659   DWORD type = 0;
    660   uint8* buffer = 0;
    661 
    662   // first get the size of the buffer
    663   HRESULT hr = GetValueHelper(value_name, &type, &buffer, &byte_count);
    664   ASSERT((hr != S_OK) || (type == REG_MULTI_SZ));
    665 
    666   if (SUCCEEDED(hr)) {
    667     hr = MultiSZBytesToStringArray(buffer, byte_count, value);
    668   }
    669 
    670   return hr;
    671 }
    672 
    673 // Binary data Get
    674 HRESULT RegKey::GetValue(const wchar_t* value_name,
    675                          uint8** value,
    676                          DWORD* byte_count) const {
    677   ASSERT(byte_count != NULL);
    678   ASSERT(value != NULL);
    679 
    680   DWORD type = 0;
    681   HRESULT hr = GetValueHelper(value_name, &type, value, byte_count);
    682   ASSERT((hr != S_OK) || (type == REG_MULTI_SZ) || (type == REG_BINARY));
    683   return hr;
    684 }
    685 
    686 // Raw data get
    687 HRESULT RegKey::GetValue(const wchar_t* value_name,
    688                          uint8** value,
    689                          DWORD* byte_count,
    690                          DWORD*type) const {
    691   ASSERT(type != NULL);
    692   ASSERT(byte_count != NULL);
    693   ASSERT(value != NULL);
    694 
    695   return GetValueHelper(value_name, type, value, byte_count);
    696 }
    697 
    698 // Int32 set
    699 HRESULT RegKey::SetValue(const wchar_t* value_name, DWORD value) const {
    700   ASSERT(h_key_ != NULL);
    701 
    702   LONG res = ::RegSetValueEx(h_key_, value_name, NULL, REG_DWORD,
    703                              reinterpret_cast<const uint8*>(&value),
    704                              sizeof(DWORD));
    705   return HRESULT_FROM_WIN32(res);
    706 }
    707 
    708 // Int64 set
    709 HRESULT RegKey::SetValue(const wchar_t* value_name, DWORD64 value) const {
    710   ASSERT(h_key_ != NULL);
    711 
    712   LONG res = ::RegSetValueEx(h_key_, value_name, NULL, REG_QWORD,
    713                              reinterpret_cast<const uint8*>(&value),
    714                              sizeof(DWORD64));
    715   return HRESULT_FROM_WIN32(res);
    716 }
    717 
    718 // String set
    719 HRESULT RegKey::SetValue(const wchar_t* value_name,
    720                          const wchar_t* value) const {
    721   ASSERT(value != NULL);
    722   ASSERT(h_key_ != NULL);
    723 
    724   LONG res = ::RegSetValueEx(h_key_, value_name, NULL, REG_SZ,
    725                              reinterpret_cast<const uint8*>(value),
    726                              (lstrlen(value) + 1) * sizeof(wchar_t));
    727   return HRESULT_FROM_WIN32(res);
    728 }
    729 
    730 // Binary data set
    731 HRESULT RegKey::SetValue(const wchar_t* value_name,
    732                          const uint8* value,
    733                          DWORD byte_count) const {
    734   ASSERT(h_key_ != NULL);
    735 
    736   // special case - if 'value' is NULL make sure byte_count is zero
    737   if (value == NULL) {
    738     byte_count = 0;
    739   }
    740 
    741   LONG res = ::RegSetValueEx(h_key_, value_name, NULL,
    742                              REG_BINARY, value, byte_count);
    743   return HRESULT_FROM_WIN32(res);
    744 }
    745 
    746 // Raw data set
    747 HRESULT RegKey::SetValue(const wchar_t* value_name,
    748                          const uint8* value,
    749                          DWORD byte_count,
    750                          DWORD type) const {
    751   ASSERT(value != NULL);
    752   ASSERT(h_key_ != NULL);
    753 
    754   LONG res = ::RegSetValueEx(h_key_, value_name, NULL, type, value, byte_count);
    755   return HRESULT_FROM_WIN32(res);
    756 }
    757 
    758 bool RegKey::HasKey(const wchar_t* full_key_name) {
    759   ASSERT(full_key_name != NULL);
    760 
    761   // get the root HKEY
    762   std::wstring key_name(full_key_name);
    763   HKEY h_key = GetRootKeyInfo(&key_name);
    764 
    765   if (h_key != NULL) {
    766     RegKey key;
    767     HRESULT hr = key.Open(h_key, key_name.c_str(), KEY_READ);
    768     key.Close();
    769     return S_OK == hr;
    770   }
    771   return false;
    772 }
    773 
    774 // static version of HasValue
    775 bool RegKey::HasValue(const wchar_t* full_key_name, const wchar_t* value_name) {
    776   ASSERT(full_key_name != NULL);
    777 
    778   bool has_value = false;
    779   // get the root HKEY
    780   std::wstring key_name(full_key_name);
    781   HKEY h_key = GetRootKeyInfo(&key_name);
    782 
    783   if (h_key != NULL) {
    784     RegKey key;
    785     if (key.Open(h_key, key_name.c_str(), KEY_READ) == S_OK) {
    786       has_value = key.HasValue(value_name);
    787       key.Close();
    788     }
    789   }
    790   return has_value;
    791 }
    792 
    793 HRESULT RegKey::GetValueType(const wchar_t* full_key_name,
    794                              const wchar_t* value_name,
    795                              DWORD* value_type) {
    796   ASSERT(full_key_name != NULL);
    797   ASSERT(value_type != NULL);
    798 
    799   *value_type = REG_NONE;
    800 
    801   std::wstring key_name(full_key_name);
    802   HKEY h_key = GetRootKeyInfo(&key_name);
    803 
    804   RegKey key;
    805   HRESULT hr = key.Open(h_key, key_name.c_str(), KEY_READ);
    806   if (SUCCEEDED(hr)) {
    807     LONG res = ::SHQueryValueEx(key.h_key_, value_name, NULL, value_type,
    808                                 NULL, NULL);
    809     if (res != ERROR_SUCCESS) {
    810       hr = HRESULT_FROM_WIN32(res);
    811     }
    812   }
    813 
    814   return hr;
    815 }
    816 
    817 HRESULT RegKey::DeleteKey(const wchar_t* full_key_name) {
    818   ASSERT(full_key_name != NULL);
    819 
    820   return DeleteKey(full_key_name, true);
    821 }
    822 
    823 HRESULT RegKey::DeleteKey(const wchar_t* full_key_name, bool recursively) {
    824   ASSERT(full_key_name != NULL);
    825 
    826   // need to open the parent key first
    827   // get the root HKEY
    828   std::wstring key_name(full_key_name);
    829   HKEY h_key = GetRootKeyInfo(&key_name);
    830 
    831   // get the parent key
    832   std::wstring parent_key(GetParentKeyInfo(&key_name));
    833 
    834   RegKey key;
    835   HRESULT hr = key.Open(h_key, parent_key.c_str());
    836 
    837   if (hr == S_OK) {
    838     hr = recursively ? key.RecurseDeleteSubKey(key_name.c_str())
    839                      : key.DeleteSubKey(key_name.c_str());
    840   } else if (hr == HRESULT_FROM_WIN32(ERROR_FILE_NOT_FOUND) ||
    841              hr == HRESULT_FROM_WIN32(ERROR_PATH_NOT_FOUND)) {
    842     hr = S_FALSE;
    843   }
    844 
    845   key.Close();
    846   return hr;
    847 }
    848 
    849 HRESULT RegKey::DeleteValue(const wchar_t* full_key_name,
    850                             const wchar_t* value_name) {
    851   ASSERT(full_key_name != NULL);
    852 
    853   HRESULT hr = HRESULT_FROM_WIN32(ERROR_PATH_NOT_FOUND);
    854   // get the root HKEY
    855   std::wstring key_name(full_key_name);
    856   HKEY h_key = GetRootKeyInfo(&key_name);
    857 
    858   if (h_key != NULL) {
    859     RegKey key;
    860     hr = key.Open(h_key, key_name.c_str());
    861     if (hr == S_OK) {
    862       hr = key.DeleteValue(value_name);
    863       key.Close();
    864     }
    865   }
    866   return hr;
    867 }
    868 
    869 HRESULT RegKey::RecurseDeleteSubKey(const wchar_t* key_name) {
    870   ASSERT(key_name != NULL);
    871 
    872   RegKey key;
    873   HRESULT hr = key.Open(h_key_, key_name);
    874 
    875   if (hr == S_OK) {
    876     // enumerate all subkeys of this key and recursivelly delete them
    877     FILETIME time = {0};
    878     wchar_t key_name_buf[kMaxKeyNameChars] = {0};
    879     DWORD key_name_buf_size = kMaxKeyNameChars;
    880     while (hr == S_OK &&
    881         ::RegEnumKeyEx(key.h_key_, 0, key_name_buf, &key_name_buf_size,
    882                        NULL, NULL, NULL,  &time) == ERROR_SUCCESS) {
    883       hr = key.RecurseDeleteSubKey(key_name_buf);
    884 
    885       // restore the buffer size
    886       key_name_buf_size = kMaxKeyNameChars;
    887     }
    888     // close the top key
    889     key.Close();
    890   }
    891 
    892   if (hr == S_OK) {
    893     // the key has no more children keys
    894     // delete the key and all of its values
    895     hr = DeleteSubKey(key_name);
    896   }
    897 
    898   return hr;
    899 }
    900 
    901 HKEY RegKey::GetRootKeyInfo(std::wstring* full_key_name) {
    902   ASSERT(full_key_name != NULL);
    903 
    904   HKEY h_key = NULL;
    905   // get the root HKEY
    906   size_t index = full_key_name->find(L'\\');
    907   std::wstring root_key;
    908 
    909   if (index == -1) {
    910     root_key = *full_key_name;
    911     *full_key_name = L"";
    912   } else {
    913     root_key = full_key_name->substr(0, index);
    914     *full_key_name = full_key_name->substr(index + 1,
    915                                            full_key_name->length() - index - 1);
    916   }
    917 
    918   for (std::wstring::iterator iter = root_key.begin();
    919        iter != root_key.end(); ++iter) {
    920     *iter = toupper(*iter);
    921   }
    922 
    923   if (!root_key.compare(L"HKLM") ||
    924       !root_key.compare(L"HKEY_LOCAL_MACHINE")) {
    925     h_key = HKEY_LOCAL_MACHINE;
    926   } else if (!root_key.compare(L"HKCU") ||
    927              !root_key.compare(L"HKEY_CURRENT_USER")) {
    928     h_key = HKEY_CURRENT_USER;
    929   } else if (!root_key.compare(L"HKU") ||
    930              !root_key.compare(L"HKEY_USERS")) {
    931     h_key = HKEY_USERS;
    932   } else if (!root_key.compare(L"HKCR") ||
    933              !root_key.compare(L"HKEY_CLASSES_ROOT")) {
    934     h_key = HKEY_CLASSES_ROOT;
    935   }
    936 
    937   return h_key;
    938 }
    939 
    940 
    941 // Returns true if this key name is 'safe' for deletion
    942 // (doesn't specify a key root)
    943 bool RegKey::SafeKeyNameForDeletion(const wchar_t* key_name) {
    944   ASSERT(key_name != NULL);
    945   std::wstring key(key_name);
    946 
    947   HKEY root_key = GetRootKeyInfo(&key);
    948 
    949   if (!root_key) {
    950     key = key_name;
    951   }
    952   if (key.empty()) {
    953     return false;
    954   }
    955   bool found_subkey = false, backslash_found = false;
    956   for (size_t i = 0 ; i < key.length() ; ++i) {
    957     if (key[i] == L'\\') {
    958       backslash_found = true;
    959     } else if (backslash_found) {
    960       found_subkey = true;
    961       break;
    962     }
    963   }
    964   return (root_key == HKEY_USERS) ? found_subkey : true;
    965 }
    966 
    967 std::wstring RegKey::GetParentKeyInfo(std::wstring* key_name) {
    968   ASSERT(key_name != NULL);
    969 
    970   // get the parent key
    971   size_t index = key_name->rfind(L'\\');
    972   std::wstring parent_key;
    973   if (index == -1) {
    974     parent_key = L"";
    975   } else {
    976     parent_key = key_name->substr(0, index);
    977     *key_name = key_name->substr(index + 1, key_name->length() - index - 1);
    978   }
    979 
    980   return parent_key;
    981 }
    982 
    983 // get the number of values for this key
    984 uint32 RegKey::GetValueCount() {
    985   DWORD num_values = 0;
    986 
    987   LONG res = ::RegQueryInfoKey(
    988         h_key_,                  // key handle
    989         NULL,                    // buffer for class name
    990         NULL,                    // size of class string
    991         NULL,                    // reserved
    992         NULL,                    // number of subkeys
    993         NULL,                    // longest subkey size
    994         NULL,                    // longest class string
    995         &num_values,             // number of values for this key
    996         NULL,                    // longest value name
    997         NULL,                    // longest value data
    998         NULL,                    // security descriptor
    999         NULL);                   // last write time
   1000 
   1001   ASSERT(res == ERROR_SUCCESS);
   1002   return num_values;
   1003 }
   1004 
   1005 // Enumerators for the value_names for this key
   1006 
   1007 // Called to get the value name for the given value name index
   1008 // Use GetValueCount() to get the total value_name count for this key
   1009 // Returns failure if no key at the specified index
   1010 HRESULT RegKey::GetValueNameAt(int index, std::wstring* value_name,
   1011                                DWORD* type) {
   1012   ASSERT(value_name != NULL);
   1013 
   1014   LONG res = ERROR_SUCCESS;
   1015   wchar_t value_name_buf[kMaxValueNameChars] = {0};
   1016   DWORD value_name_buf_size = kMaxValueNameChars;
   1017   res = ::RegEnumValue(h_key_, index, value_name_buf, &value_name_buf_size,
   1018                        NULL, type, NULL, NULL);
   1019 
   1020   if (res == ERROR_SUCCESS) {
   1021     value_name->assign(value_name_buf);
   1022   }
   1023 
   1024   return HRESULT_FROM_WIN32(res);
   1025 }
   1026 
   1027 uint32 RegKey::GetSubkeyCount() {
   1028   // number of values for key
   1029   DWORD num_subkeys = 0;
   1030 
   1031   LONG res = ::RegQueryInfoKey(
   1032     h_key_,                  // key handle
   1033     NULL,                    // buffer for class name
   1034     NULL,                    // size of class string
   1035     NULL,                    // reserved
   1036     &num_subkeys,            // number of subkeys
   1037     NULL,                    // longest subkey size
   1038     NULL,                    // longest class string
   1039     NULL,                    // number of values for this key
   1040     NULL,                    // longest value name
   1041     NULL,                    // longest value data
   1042     NULL,                    // security descriptor
   1043     NULL);                   // last write time
   1044 
   1045   ASSERT(res == ERROR_SUCCESS);
   1046   return num_subkeys;
   1047 }
   1048 
   1049 HRESULT RegKey::GetSubkeyNameAt(int index, std::wstring* key_name) {
   1050   ASSERT(key_name != NULL);
   1051 
   1052   LONG res = ERROR_SUCCESS;
   1053   wchar_t key_name_buf[kMaxKeyNameChars] = {0};
   1054   DWORD key_name_buf_size = kMaxKeyNameChars;
   1055 
   1056   res = ::RegEnumKeyEx(h_key_, index, key_name_buf, &key_name_buf_size,
   1057                        NULL, NULL, NULL, NULL);
   1058 
   1059   if (res == ERROR_SUCCESS) {
   1060     key_name->assign(key_name_buf);
   1061   }
   1062 
   1063   return HRESULT_FROM_WIN32(res);
   1064 }
   1065 
   1066 // Is the key empty: having no sub-keys and values
   1067 bool RegKey::IsKeyEmpty(const wchar_t* full_key_name) {
   1068   ASSERT(full_key_name != NULL);
   1069 
   1070   bool is_empty = true;
   1071 
   1072   // Get the root HKEY
   1073   std::wstring key_name(full_key_name);
   1074   HKEY h_key = GetRootKeyInfo(&key_name);
   1075 
   1076   // Open the key to check
   1077   if (h_key != NULL) {
   1078     RegKey key;
   1079     HRESULT hr = key.Open(h_key, key_name.c_str(), KEY_READ);
   1080     if (SUCCEEDED(hr)) {
   1081       is_empty = key.GetSubkeyCount() == 0 && key.GetValueCount() == 0;
   1082       key.Close();
   1083     }
   1084   }
   1085 
   1086   return is_empty;
   1087 }
   1088 
   1089 bool AdjustCurrentProcessPrivilege(const TCHAR* privilege, bool to_enable) {
   1090   ASSERT(privilege != NULL);
   1091 
   1092   bool ret = false;
   1093   HANDLE token;
   1094   if (::OpenProcessToken(::GetCurrentProcess(),
   1095                          TOKEN_ADJUST_PRIVILEGES | TOKEN_QUERY, &token)) {
   1096     LUID luid;
   1097     memset(&luid, 0, sizeof(luid));
   1098     if (::LookupPrivilegeValue(NULL, privilege, &luid)) {
   1099       TOKEN_PRIVILEGES privs;
   1100       privs.PrivilegeCount = 1;
   1101       privs.Privileges[0].Luid = luid;
   1102       privs.Privileges[0].Attributes = to_enable ? SE_PRIVILEGE_ENABLED : 0;
   1103       if (::AdjustTokenPrivileges(token, FALSE, &privs, 0, NULL, 0)) {
   1104         ret = true;
   1105       } else {
   1106         LOG_GLE(LS_ERROR) << "AdjustTokenPrivileges failed";
   1107       }
   1108     } else {
   1109       LOG_GLE(LS_ERROR) << "LookupPrivilegeValue failed";
   1110     }
   1111     CloseHandle(token);
   1112   } else {
   1113     LOG_GLE(LS_ERROR) << "OpenProcessToken(GetCurrentProcess) failed";
   1114   }
   1115 
   1116   return ret;
   1117 }
   1118 
   1119 }  // namespace talk_base
   1120