/* * libjingle * Copyright 2003-2008, Google Inc. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * 3. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO * EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ // Registry configuration wrapers class implementation // // Change made by S. Ganesh - ganesh@google.com: // Use SHQueryValueEx instead of RegQueryValueEx throughout. // A call to the SHLWAPI function is essentially a call to the standard // function but with post-processing: // * to fix REG_SZ or REG_EXPAND_SZ data that is not properly null-terminated; // * to expand REG_EXPAND_SZ data. #include "talk/base/win32regkey.h" #include #include "talk/base/common.h" #include "talk/base/logging.h" #include "talk/base/scoped_ptr.h" namespace talk_base { RegKey::RegKey() { h_key_ = NULL; } RegKey::~RegKey() { Close(); } HRESULT RegKey::Create(HKEY parent_key, const wchar_t* key_name) { return Create(parent_key, key_name, REG_NONE, REG_OPTION_NON_VOLATILE, KEY_ALL_ACCESS, NULL, NULL); } HRESULT RegKey::Open(HKEY parent_key, const wchar_t* key_name) { return Open(parent_key, key_name, KEY_ALL_ACCESS); } bool RegKey::HasValue(const TCHAR* value_name) const { return (ERROR_SUCCESS == ::RegQueryValueEx(h_key_, value_name, NULL, NULL, NULL, NULL)); } HRESULT RegKey::SetValue(const wchar_t* full_key_name, const wchar_t* value_name, DWORD value) { ASSERT(full_key_name != NULL); return SetValueStaticHelper(full_key_name, value_name, REG_DWORD, &value); } HRESULT RegKey::SetValue(const wchar_t* full_key_name, const wchar_t* value_name, DWORD64 value) { ASSERT(full_key_name != NULL); return SetValueStaticHelper(full_key_name, value_name, REG_QWORD, &value); } HRESULT RegKey::SetValue(const wchar_t* full_key_name, const wchar_t* value_name, float value) { ASSERT(full_key_name != NULL); return SetValueStaticHelper(full_key_name, value_name, REG_BINARY, &value, sizeof(value)); } HRESULT RegKey::SetValue(const wchar_t* full_key_name, const wchar_t* value_name, double value) { ASSERT(full_key_name != NULL); return SetValueStaticHelper(full_key_name, value_name, REG_BINARY, &value, sizeof(value)); } HRESULT RegKey::SetValue(const wchar_t* full_key_name, const wchar_t* value_name, const TCHAR* value) { ASSERT(full_key_name != NULL); ASSERT(value != NULL); return SetValueStaticHelper(full_key_name, value_name, REG_SZ, const_cast(value)); } HRESULT RegKey::SetValue(const wchar_t* full_key_name, const wchar_t* value_name, const uint8* value, DWORD byte_count) { ASSERT(full_key_name != NULL); return SetValueStaticHelper(full_key_name, value_name, REG_BINARY, const_cast(value), byte_count); } HRESULT RegKey::SetValueMultiSZ(const wchar_t* full_key_name, const wchar_t* value_name, const uint8* value, DWORD byte_count) { ASSERT(full_key_name != NULL); return SetValueStaticHelper(full_key_name, value_name, REG_MULTI_SZ, const_cast(value), byte_count); } HRESULT RegKey::GetValue(const wchar_t* full_key_name, const wchar_t* value_name, DWORD* value) { ASSERT(full_key_name != NULL); ASSERT(value != NULL); return GetValueStaticHelper(full_key_name, value_name, REG_DWORD, value); } HRESULT RegKey::GetValue(const wchar_t* full_key_name, const wchar_t* value_name, DWORD64* value) { ASSERT(full_key_name != NULL); ASSERT(value != NULL); return GetValueStaticHelper(full_key_name, value_name, REG_QWORD, value); } HRESULT RegKey::GetValue(const wchar_t* full_key_name, const wchar_t* value_name, float* value) { ASSERT(value != NULL); ASSERT(full_key_name != NULL); DWORD byte_count = 0; scoped_ptr buffer; HRESULT hr = GetValueStaticHelper(full_key_name, value_name, REG_BINARY, buffer.accept(), &byte_count); if (SUCCEEDED(hr)) { ASSERT(byte_count == sizeof(*value)); if (byte_count == sizeof(*value)) { *value = *reinterpret_cast(buffer.get()); } } return hr; } HRESULT RegKey::GetValue(const wchar_t* full_key_name, const wchar_t* value_name, double* value) { ASSERT(value != NULL); ASSERT(full_key_name != NULL); DWORD byte_count = 0; scoped_ptr buffer; HRESULT hr = GetValueStaticHelper(full_key_name, value_name, REG_BINARY, buffer.accept(), &byte_count); if (SUCCEEDED(hr)) { ASSERT(byte_count == sizeof(*value)); if (byte_count == sizeof(*value)) { *value = *reinterpret_cast(buffer.get()); } } return hr; } HRESULT RegKey::GetValue(const wchar_t* full_key_name, const wchar_t* value_name, wchar_t** value) { ASSERT(full_key_name != NULL); ASSERT(value != NULL); return GetValueStaticHelper(full_key_name, value_name, REG_SZ, value); } HRESULT RegKey::GetValue(const wchar_t* full_key_name, const wchar_t* value_name, std::wstring* value) { ASSERT(full_key_name != NULL); ASSERT(value != NULL); scoped_ptr buffer; HRESULT hr = RegKey::GetValue(full_key_name, value_name, buffer.accept()); if (SUCCEEDED(hr)) { value->assign(buffer.get()); } return hr; } HRESULT RegKey::GetValue(const wchar_t* full_key_name, const wchar_t* value_name, std::vector* value) { ASSERT(full_key_name != NULL); ASSERT(value != NULL); return GetValueStaticHelper(full_key_name, value_name, REG_MULTI_SZ, value); } HRESULT RegKey::GetValue(const wchar_t* full_key_name, const wchar_t* value_name, uint8** value, DWORD* byte_count) { ASSERT(full_key_name != NULL); ASSERT(value != NULL); ASSERT(byte_count != NULL); return GetValueStaticHelper(full_key_name, value_name, REG_BINARY, value, byte_count); } HRESULT RegKey::DeleteSubKey(const wchar_t* key_name) { ASSERT(key_name != NULL); ASSERT(h_key_ != NULL); LONG res = ::RegDeleteKey(h_key_, key_name); HRESULT hr = HRESULT_FROM_WIN32(res); if (hr == HRESULT_FROM_WIN32(ERROR_FILE_NOT_FOUND) || hr == HRESULT_FROM_WIN32(ERROR_PATH_NOT_FOUND)) { hr = S_FALSE; } return hr; } HRESULT RegKey::DeleteValue(const wchar_t* value_name) { ASSERT(h_key_ != NULL); LONG res = ::RegDeleteValue(h_key_, value_name); HRESULT hr = HRESULT_FROM_WIN32(res); if (hr == HRESULT_FROM_WIN32(ERROR_FILE_NOT_FOUND) || hr == HRESULT_FROM_WIN32(ERROR_PATH_NOT_FOUND)) { hr = S_FALSE; } return hr; } HRESULT RegKey::Close() { HRESULT hr = S_OK; if (h_key_ != NULL) { LONG res = ::RegCloseKey(h_key_); hr = HRESULT_FROM_WIN32(res); h_key_ = NULL; } return hr; } HRESULT RegKey::Create(HKEY parent_key, const wchar_t* key_name, wchar_t* lpszClass, DWORD options, REGSAM sam_desired, LPSECURITY_ATTRIBUTES lpSecAttr, LPDWORD lpdwDisposition) { ASSERT(key_name != NULL); ASSERT(parent_key != NULL); DWORD dw = 0; HKEY h_key = NULL; LONG res = ::RegCreateKeyEx(parent_key, key_name, 0, lpszClass, options, sam_desired, lpSecAttr, &h_key, &dw); HRESULT hr = HRESULT_FROM_WIN32(res); if (lpdwDisposition) { *lpdwDisposition = dw; } // we have to close the currently opened key // before replacing it with the new one if (hr == S_OK) { hr = Close(); ASSERT(hr == S_OK); h_key_ = h_key; } return hr; } HRESULT RegKey::Open(HKEY parent_key, const wchar_t* key_name, REGSAM sam_desired) { ASSERT(key_name != NULL); ASSERT(parent_key != NULL); HKEY h_key = NULL; LONG res = ::RegOpenKeyEx(parent_key, key_name, 0, sam_desired, &h_key); HRESULT hr = HRESULT_FROM_WIN32(res); // we have to close the currently opened key // before replacing it with the new one if (hr == S_OK) { // close the currently opened key if any hr = Close(); ASSERT(hr == S_OK); h_key_ = h_key; } return hr; } // save the key and all of its subkeys and values to a file HRESULT RegKey::Save(const wchar_t* full_key_name, const wchar_t* file_name) { ASSERT(full_key_name != NULL); ASSERT(file_name != NULL); std::wstring key_name(full_key_name); HKEY h_key = GetRootKeyInfo(&key_name); if (!h_key) { return E_FAIL; } RegKey key; HRESULT hr = key.Open(h_key, key_name.c_str(), KEY_READ); if (FAILED(hr)) { return hr; } AdjustCurrentProcessPrivilege(SE_BACKUP_NAME, true); LONG res = ::RegSaveKey(key.h_key_, file_name, NULL); AdjustCurrentProcessPrivilege(SE_BACKUP_NAME, false); return HRESULT_FROM_WIN32(res); } // restore the key and all of its subkeys and values which are saved into a file HRESULT RegKey::Restore(const wchar_t* full_key_name, const wchar_t* file_name) { ASSERT(full_key_name != NULL); ASSERT(file_name != NULL); std::wstring key_name(full_key_name); HKEY h_key = GetRootKeyInfo(&key_name); if (!h_key) { return E_FAIL; } RegKey key; HRESULT hr = key.Open(h_key, key_name.c_str(), KEY_WRITE); if (FAILED(hr)) { return hr; } AdjustCurrentProcessPrivilege(SE_RESTORE_NAME, true); LONG res = ::RegRestoreKey(key.h_key_, file_name, REG_FORCE_RESTORE); AdjustCurrentProcessPrivilege(SE_RESTORE_NAME, false); return HRESULT_FROM_WIN32(res); } // check if the current key has the specified subkey bool RegKey::HasSubkey(const wchar_t* key_name) const { ASSERT(key_name != NULL); RegKey key; HRESULT hr = key.Open(h_key_, key_name, KEY_READ); key.Close(); return hr == S_OK; } // static flush key HRESULT RegKey::FlushKey(const wchar_t* full_key_name) { ASSERT(full_key_name != NULL); HRESULT hr = HRESULT_FROM_WIN32(ERROR_PATH_NOT_FOUND); // get the root HKEY std::wstring key_name(full_key_name); HKEY h_key = GetRootKeyInfo(&key_name); if (h_key != NULL) { LONG res = ::RegFlushKey(h_key); hr = HRESULT_FROM_WIN32(res); } return hr; } // static SET helper HRESULT RegKey::SetValueStaticHelper(const wchar_t* full_key_name, const wchar_t* value_name, DWORD type, LPVOID value, DWORD byte_count) { ASSERT(full_key_name != NULL); HRESULT hr = HRESULT_FROM_WIN32(ERROR_PATH_NOT_FOUND); // get the root HKEY std::wstring key_name(full_key_name); HKEY h_key = GetRootKeyInfo(&key_name); if (h_key != NULL) { RegKey key; hr = key.Create(h_key, key_name.c_str()); if (hr == S_OK) { switch (type) { case REG_DWORD: hr = key.SetValue(value_name, *(static_cast(value))); break; case REG_QWORD: hr = key.SetValue(value_name, *(static_cast(value))); break; case REG_SZ: hr = key.SetValue(value_name, static_cast(value)); break; case REG_BINARY: hr = key.SetValue(value_name, static_cast(value), byte_count); break; case REG_MULTI_SZ: hr = key.SetValue(value_name, static_cast(value), byte_count, type); break; default: ASSERT(false); hr = HRESULT_FROM_WIN32(ERROR_DATATYPE_MISMATCH); break; } // close the key after writing HRESULT temp_hr = key.Close(); if (hr == S_OK) { hr = temp_hr; } } } return hr; } // static GET helper HRESULT RegKey::GetValueStaticHelper(const wchar_t* full_key_name, const wchar_t* value_name, DWORD type, LPVOID value, DWORD* byte_count) { ASSERT(full_key_name != NULL); HRESULT hr = HRESULT_FROM_WIN32(ERROR_PATH_NOT_FOUND); // get the root HKEY std::wstring key_name(full_key_name); HKEY h_key = GetRootKeyInfo(&key_name); if (h_key != NULL) { RegKey key; hr = key.Open(h_key, key_name.c_str(), KEY_READ); if (hr == S_OK) { switch (type) { case REG_DWORD: hr = key.GetValue(value_name, reinterpret_cast(value)); break; case REG_QWORD: hr = key.GetValue(value_name, reinterpret_cast(value)); break; case REG_SZ: hr = key.GetValue(value_name, reinterpret_cast(value)); break; case REG_MULTI_SZ: hr = key.GetValue(value_name, reinterpret_cast< std::vector*>(value)); break; case REG_BINARY: hr = key.GetValue(value_name, reinterpret_cast(value), byte_count); break; default: ASSERT(false); hr = HRESULT_FROM_WIN32(ERROR_DATATYPE_MISMATCH); break; } // close the key after writing HRESULT temp_hr = key.Close(); if (hr == S_OK) { hr = temp_hr; } } } return hr; } // GET helper HRESULT RegKey::GetValueHelper(const wchar_t* value_name, DWORD* type, uint8** value, DWORD* byte_count) const { ASSERT(byte_count != NULL); ASSERT(value != NULL); ASSERT(type != NULL); // init return buffer *value = NULL; // get the size of the return data buffer LONG res = ::SHQueryValueEx(h_key_, value_name, NULL, type, NULL, byte_count); HRESULT hr = HRESULT_FROM_WIN32(res); if (hr == S_OK) { // if the value length is 0, nothing to do if (*byte_count != 0) { // allocate the buffer *value = new byte[*byte_count]; ASSERT(*value != NULL); // make the call again to get the data res = ::SHQueryValueEx(h_key_, value_name, NULL, type, *value, byte_count); hr = HRESULT_FROM_WIN32(res); ASSERT(hr == S_OK); } } return hr; } // Int32 Get HRESULT RegKey::GetValue(const wchar_t* value_name, DWORD* value) const { ASSERT(value != NULL); DWORD type = 0; DWORD byte_count = sizeof(DWORD); LONG res = ::SHQueryValueEx(h_key_, value_name, NULL, &type, value, &byte_count); HRESULT hr = HRESULT_FROM_WIN32(res); ASSERT((hr != S_OK) || (type == REG_DWORD)); ASSERT((hr != S_OK) || (byte_count == sizeof(DWORD))); return hr; } // Int64 Get HRESULT RegKey::GetValue(const wchar_t* value_name, DWORD64* value) const { ASSERT(value != NULL); DWORD type = 0; DWORD byte_count = sizeof(DWORD64); LONG res = ::SHQueryValueEx(h_key_, value_name, NULL, &type, value, &byte_count); HRESULT hr = HRESULT_FROM_WIN32(res); ASSERT((hr != S_OK) || (type == REG_QWORD)); ASSERT((hr != S_OK) || (byte_count == sizeof(DWORD64))); return hr; } // String Get HRESULT RegKey::GetValue(const wchar_t* value_name, wchar_t** value) const { ASSERT(value != NULL); DWORD byte_count = 0; DWORD type = 0; // first get the size of the string buffer LONG res = ::SHQueryValueEx(h_key_, value_name, NULL, &type, NULL, &byte_count); HRESULT hr = HRESULT_FROM_WIN32(res); if (hr == S_OK) { // allocate room for the string and a terminating \0 *value = new wchar_t[(byte_count / sizeof(wchar_t)) + 1]; if ((*value) != NULL) { if (byte_count != 0) { // make the call again res = ::SHQueryValueEx(h_key_, value_name, NULL, &type, *value, &byte_count); hr = HRESULT_FROM_WIN32(res); } else { (*value)[0] = L'\0'; } ASSERT((hr != S_OK) || (type == REG_SZ) || (type == REG_MULTI_SZ) || (type == REG_EXPAND_SZ)); } else { hr = E_OUTOFMEMORY; } } return hr; } // get a string value HRESULT RegKey::GetValue(const wchar_t* value_name, std::wstring* value) const { ASSERT(value != NULL); DWORD byte_count = 0; DWORD type = 0; // first get the size of the string buffer LONG res = ::SHQueryValueEx(h_key_, value_name, NULL, &type, NULL, &byte_count); HRESULT hr = HRESULT_FROM_WIN32(res); if (hr == S_OK) { if (byte_count != 0) { // Allocate some memory and make the call again value->resize(byte_count / sizeof(wchar_t) + 1); res = ::SHQueryValueEx(h_key_, value_name, NULL, &type, &value->at(0), &byte_count); hr = HRESULT_FROM_WIN32(res); value->resize(wcslen(value->data())); } else { value->clear(); } ASSERT((hr != S_OK) || (type == REG_SZ) || (type == REG_MULTI_SZ) || (type == REG_EXPAND_SZ)); } return hr; } // convert REG_MULTI_SZ bytes to string array HRESULT RegKey::MultiSZBytesToStringArray(const uint8* buffer, DWORD byte_count, std::vector* value) { ASSERT(buffer != NULL); ASSERT(value != NULL); const wchar_t* data = reinterpret_cast(buffer); DWORD data_len = byte_count / sizeof(wchar_t); value->clear(); if (data_len > 1) { // must be terminated by two null characters if (data[data_len - 1] != 0 || data[data_len - 2] != 0) { return E_INVALIDARG; } // put null-terminated strings into arrays while (*data) { std::wstring str(data); value->push_back(str); data += str.length() + 1; } } return S_OK; } // get a std::vector value from REG_MULTI_SZ type HRESULT RegKey::GetValue(const wchar_t* value_name, std::vector* value) const { ASSERT(value != NULL); DWORD byte_count = 0; DWORD type = 0; uint8* buffer = 0; // first get the size of the buffer HRESULT hr = GetValueHelper(value_name, &type, &buffer, &byte_count); ASSERT((hr != S_OK) || (type == REG_MULTI_SZ)); if (SUCCEEDED(hr)) { hr = MultiSZBytesToStringArray(buffer, byte_count, value); } return hr; } // Binary data Get HRESULT RegKey::GetValue(const wchar_t* value_name, uint8** value, DWORD* byte_count) const { ASSERT(byte_count != NULL); ASSERT(value != NULL); DWORD type = 0; HRESULT hr = GetValueHelper(value_name, &type, value, byte_count); ASSERT((hr != S_OK) || (type == REG_MULTI_SZ) || (type == REG_BINARY)); return hr; } // Raw data get HRESULT RegKey::GetValue(const wchar_t* value_name, uint8** value, DWORD* byte_count, DWORD*type) const { ASSERT(type != NULL); ASSERT(byte_count != NULL); ASSERT(value != NULL); return GetValueHelper(value_name, type, value, byte_count); } // Int32 set HRESULT RegKey::SetValue(const wchar_t* value_name, DWORD value) const { ASSERT(h_key_ != NULL); LONG res = ::RegSetValueEx(h_key_, value_name, NULL, REG_DWORD, reinterpret_cast(&value), sizeof(DWORD)); return HRESULT_FROM_WIN32(res); } // Int64 set HRESULT RegKey::SetValue(const wchar_t* value_name, DWORD64 value) const { ASSERT(h_key_ != NULL); LONG res = ::RegSetValueEx(h_key_, value_name, NULL, REG_QWORD, reinterpret_cast(&value), sizeof(DWORD64)); return HRESULT_FROM_WIN32(res); } // String set HRESULT RegKey::SetValue(const wchar_t* value_name, const wchar_t* value) const { ASSERT(value != NULL); ASSERT(h_key_ != NULL); LONG res = ::RegSetValueEx(h_key_, value_name, NULL, REG_SZ, reinterpret_cast(value), (lstrlen(value) + 1) * sizeof(wchar_t)); return HRESULT_FROM_WIN32(res); } // Binary data set HRESULT RegKey::SetValue(const wchar_t* value_name, const uint8* value, DWORD byte_count) const { ASSERT(h_key_ != NULL); // special case - if 'value' is NULL make sure byte_count is zero if (value == NULL) { byte_count = 0; } LONG res = ::RegSetValueEx(h_key_, value_name, NULL, REG_BINARY, value, byte_count); return HRESULT_FROM_WIN32(res); } // Raw data set HRESULT RegKey::SetValue(const wchar_t* value_name, const uint8* value, DWORD byte_count, DWORD type) const { ASSERT(value != NULL); ASSERT(h_key_ != NULL); LONG res = ::RegSetValueEx(h_key_, value_name, NULL, type, value, byte_count); return HRESULT_FROM_WIN32(res); } bool RegKey::HasKey(const wchar_t* full_key_name) { ASSERT(full_key_name != NULL); // get the root HKEY std::wstring key_name(full_key_name); HKEY h_key = GetRootKeyInfo(&key_name); if (h_key != NULL) { RegKey key; HRESULT hr = key.Open(h_key, key_name.c_str(), KEY_READ); key.Close(); return S_OK == hr; } return false; } // static version of HasValue bool RegKey::HasValue(const wchar_t* full_key_name, const wchar_t* value_name) { ASSERT(full_key_name != NULL); bool has_value = false; // get the root HKEY std::wstring key_name(full_key_name); HKEY h_key = GetRootKeyInfo(&key_name); if (h_key != NULL) { RegKey key; if (key.Open(h_key, key_name.c_str(), KEY_READ) == S_OK) { has_value = key.HasValue(value_name); key.Close(); } } return has_value; } HRESULT RegKey::GetValueType(const wchar_t* full_key_name, const wchar_t* value_name, DWORD* value_type) { ASSERT(full_key_name != NULL); ASSERT(value_type != NULL); *value_type = REG_NONE; std::wstring key_name(full_key_name); HKEY h_key = GetRootKeyInfo(&key_name); RegKey key; HRESULT hr = key.Open(h_key, key_name.c_str(), KEY_READ); if (SUCCEEDED(hr)) { LONG res = ::SHQueryValueEx(key.h_key_, value_name, NULL, value_type, NULL, NULL); if (res != ERROR_SUCCESS) { hr = HRESULT_FROM_WIN32(res); } } return hr; } HRESULT RegKey::DeleteKey(const wchar_t* full_key_name) { ASSERT(full_key_name != NULL); return DeleteKey(full_key_name, true); } HRESULT RegKey::DeleteKey(const wchar_t* full_key_name, bool recursively) { ASSERT(full_key_name != NULL); // need to open the parent key first // get the root HKEY std::wstring key_name(full_key_name); HKEY h_key = GetRootKeyInfo(&key_name); // get the parent key std::wstring parent_key(GetParentKeyInfo(&key_name)); RegKey key; HRESULT hr = key.Open(h_key, parent_key.c_str()); if (hr == S_OK) { hr = recursively ? key.RecurseDeleteSubKey(key_name.c_str()) : key.DeleteSubKey(key_name.c_str()); } else if (hr == HRESULT_FROM_WIN32(ERROR_FILE_NOT_FOUND) || hr == HRESULT_FROM_WIN32(ERROR_PATH_NOT_FOUND)) { hr = S_FALSE; } key.Close(); return hr; } HRESULT RegKey::DeleteValue(const wchar_t* full_key_name, const wchar_t* value_name) { ASSERT(full_key_name != NULL); HRESULT hr = HRESULT_FROM_WIN32(ERROR_PATH_NOT_FOUND); // get the root HKEY std::wstring key_name(full_key_name); HKEY h_key = GetRootKeyInfo(&key_name); if (h_key != NULL) { RegKey key; hr = key.Open(h_key, key_name.c_str()); if (hr == S_OK) { hr = key.DeleteValue(value_name); key.Close(); } } return hr; } HRESULT RegKey::RecurseDeleteSubKey(const wchar_t* key_name) { ASSERT(key_name != NULL); RegKey key; HRESULT hr = key.Open(h_key_, key_name); if (hr == S_OK) { // enumerate all subkeys of this key and recursivelly delete them FILETIME time = {0}; wchar_t key_name_buf[kMaxKeyNameChars] = {0}; DWORD key_name_buf_size = kMaxKeyNameChars; while (hr == S_OK && ::RegEnumKeyEx(key.h_key_, 0, key_name_buf, &key_name_buf_size, NULL, NULL, NULL, &time) == ERROR_SUCCESS) { hr = key.RecurseDeleteSubKey(key_name_buf); // restore the buffer size key_name_buf_size = kMaxKeyNameChars; } // close the top key key.Close(); } if (hr == S_OK) { // the key has no more children keys // delete the key and all of its values hr = DeleteSubKey(key_name); } return hr; } HKEY RegKey::GetRootKeyInfo(std::wstring* full_key_name) { ASSERT(full_key_name != NULL); HKEY h_key = NULL; // get the root HKEY size_t index = full_key_name->find(L'\\'); std::wstring root_key; if (index == -1) { root_key = *full_key_name; *full_key_name = L""; } else { root_key = full_key_name->substr(0, index); *full_key_name = full_key_name->substr(index + 1, full_key_name->length() - index - 1); } for (std::wstring::iterator iter = root_key.begin(); iter != root_key.end(); ++iter) { *iter = toupper(*iter); } if (!root_key.compare(L"HKLM") || !root_key.compare(L"HKEY_LOCAL_MACHINE")) { h_key = HKEY_LOCAL_MACHINE; } else if (!root_key.compare(L"HKCU") || !root_key.compare(L"HKEY_CURRENT_USER")) { h_key = HKEY_CURRENT_USER; } else if (!root_key.compare(L"HKU") || !root_key.compare(L"HKEY_USERS")) { h_key = HKEY_USERS; } else if (!root_key.compare(L"HKCR") || !root_key.compare(L"HKEY_CLASSES_ROOT")) { h_key = HKEY_CLASSES_ROOT; } return h_key; } // Returns true if this key name is 'safe' for deletion // (doesn't specify a key root) bool RegKey::SafeKeyNameForDeletion(const wchar_t* key_name) { ASSERT(key_name != NULL); std::wstring key(key_name); HKEY root_key = GetRootKeyInfo(&key); if (!root_key) { key = key_name; } if (key.empty()) { return false; } bool found_subkey = false, backslash_found = false; for (size_t i = 0 ; i < key.length() ; ++i) { if (key[i] == L'\\') { backslash_found = true; } else if (backslash_found) { found_subkey = true; break; } } return (root_key == HKEY_USERS) ? found_subkey : true; } std::wstring RegKey::GetParentKeyInfo(std::wstring* key_name) { ASSERT(key_name != NULL); // get the parent key size_t index = key_name->rfind(L'\\'); std::wstring parent_key; if (index == -1) { parent_key = L""; } else { parent_key = key_name->substr(0, index); *key_name = key_name->substr(index + 1, key_name->length() - index - 1); } return parent_key; } // get the number of values for this key uint32 RegKey::GetValueCount() { DWORD num_values = 0; if (ERROR_SUCCESS != ::RegQueryInfoKey( h_key_, // key handle NULL, // buffer for class name NULL, // size of class string NULL, // reserved NULL, // number of subkeys NULL, // longest subkey size NULL, // longest class string &num_values, // number of values for this key NULL, // longest value name NULL, // longest value data NULL, // security descriptor NULL)) { // last write time ASSERT(false); } return num_values; } // Enumerators for the value_names for this key // Called to get the value name for the given value name index // Use GetValueCount() to get the total value_name count for this key // Returns failure if no key at the specified index HRESULT RegKey::GetValueNameAt(int index, std::wstring* value_name, DWORD* type) { ASSERT(value_name != NULL); LONG res = ERROR_SUCCESS; wchar_t value_name_buf[kMaxValueNameChars] = {0}; DWORD value_name_buf_size = kMaxValueNameChars; res = ::RegEnumValue(h_key_, index, value_name_buf, &value_name_buf_size, NULL, type, NULL, NULL); if (res == ERROR_SUCCESS) { value_name->assign(value_name_buf); } return HRESULT_FROM_WIN32(res); } uint32 RegKey::GetSubkeyCount() { // number of values for key DWORD num_subkeys = 0; if (ERROR_SUCCESS != ::RegQueryInfoKey( h_key_, // key handle NULL, // buffer for class name NULL, // size of class string NULL, // reserved &num_subkeys, // number of subkeys NULL, // longest subkey size NULL, // longest class string NULL, // number of values for this key NULL, // longest value name NULL, // longest value data NULL, // security descriptor NULL)) { // last write time ASSERT(false); } return num_subkeys; } HRESULT RegKey::GetSubkeyNameAt(int index, std::wstring* key_name) { ASSERT(key_name != NULL); LONG res = ERROR_SUCCESS; wchar_t key_name_buf[kMaxKeyNameChars] = {0}; DWORD key_name_buf_size = kMaxKeyNameChars; res = ::RegEnumKeyEx(h_key_, index, key_name_buf, &key_name_buf_size, NULL, NULL, NULL, NULL); if (res == ERROR_SUCCESS) { key_name->assign(key_name_buf); } return HRESULT_FROM_WIN32(res); } // Is the key empty: having no sub-keys and values bool RegKey::IsKeyEmpty(const wchar_t* full_key_name) { ASSERT(full_key_name != NULL); bool is_empty = true; // Get the root HKEY std::wstring key_name(full_key_name); HKEY h_key = GetRootKeyInfo(&key_name); // Open the key to check if (h_key != NULL) { RegKey key; HRESULT hr = key.Open(h_key, key_name.c_str(), KEY_READ); if (SUCCEEDED(hr)) { is_empty = key.GetSubkeyCount() == 0 && key.GetValueCount() == 0; key.Close(); } } return is_empty; } bool AdjustCurrentProcessPrivilege(const TCHAR* privilege, bool to_enable) { ASSERT(privilege != NULL); bool ret = false; HANDLE token; if (::OpenProcessToken(::GetCurrentProcess(), TOKEN_ADJUST_PRIVILEGES | TOKEN_QUERY, &token)) { LUID luid; memset(&luid, 0, sizeof(luid)); if (::LookupPrivilegeValue(NULL, privilege, &luid)) { TOKEN_PRIVILEGES privs; privs.PrivilegeCount = 1; privs.Privileges[0].Luid = luid; privs.Privileges[0].Attributes = to_enable ? SE_PRIVILEGE_ENABLED : 0; if (::AdjustTokenPrivileges(token, FALSE, &privs, 0, NULL, 0)) { ret = true; } else { LOG_GLE(LS_ERROR) << "AdjustTokenPrivileges failed"; } } else { LOG_GLE(LS_ERROR) << "LookupPrivilegeValue failed"; } CloseHandle(token); } else { LOG_GLE(LS_ERROR) << "OpenProcessToken(GetCurrentProcess) failed"; } return ret; } } // namespace talk_base