// Copyright (c) 2011 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "sandbox/win/src/win_utils.h" #include #include "base/memory/scoped_ptr.h" #include "base/strings/string_util.h" #include "base/win/pe_image.h" #include "sandbox/win/src/internal_types.h" #include "sandbox/win/src/nt_internals.h" #include "sandbox/win/src/sandbox_nt_util.h" namespace { // Holds the information about a known registry key. struct KnownReservedKey { const wchar_t* name; HKEY key; }; // Contains all the known registry key by name and by handle. const KnownReservedKey kKnownKey[] = { { L"HKEY_CLASSES_ROOT", HKEY_CLASSES_ROOT }, { L"HKEY_CURRENT_USER", HKEY_CURRENT_USER }, { L"HKEY_LOCAL_MACHINE", HKEY_LOCAL_MACHINE}, { L"HKEY_USERS", HKEY_USERS}, { L"HKEY_PERFORMANCE_DATA", HKEY_PERFORMANCE_DATA}, { L"HKEY_PERFORMANCE_TEXT", HKEY_PERFORMANCE_TEXT}, { L"HKEY_PERFORMANCE_NLSTEXT", HKEY_PERFORMANCE_NLSTEXT}, { L"HKEY_CURRENT_CONFIG", HKEY_CURRENT_CONFIG}, { L"HKEY_DYN_DATA", HKEY_DYN_DATA} }; } // namespace namespace sandbox { // Returns true if the provided path points to a pipe. bool IsPipe(const base::string16& path) { base::string16 lower_path = base::StringToLowerASCII(path); size_t start = 0; if (0 == lower_path.compare(0, sandbox::kNTPrefixLen, sandbox::kNTPrefix)) start = sandbox::kNTPrefixLen; const wchar_t kPipe[] = L"pipe\\"; return (0 == lower_path.compare(start, arraysize(kPipe) - 1, kPipe)); } HKEY GetReservedKeyFromName(const base::string16& name) { for (size_t i = 0; i < arraysize(kKnownKey); ++i) { if (name == kKnownKey[i].name) return kKnownKey[i].key; } return NULL; } bool ResolveRegistryName(base::string16 name, base::string16* resolved_name) { for (size_t i = 0; i < arraysize(kKnownKey); ++i) { if (name.find(kKnownKey[i].name) == 0) { HKEY key; DWORD disposition; if (ERROR_SUCCESS != ::RegCreateKeyEx(kKnownKey[i].key, L"", 0, NULL, 0, MAXIMUM_ALLOWED, NULL, &key, &disposition)) return false; bool result = GetPathFromHandle(key, resolved_name); ::RegCloseKey(key); if (!result) return false; *resolved_name += name.substr(wcslen(kKnownKey[i].name)); return true; } } return false; } DWORD IsReparsePoint(const base::string16& full_path, bool* result) { base::string16 path = full_path; // Remove the nt prefix. if (0 == path.compare(0, kNTPrefixLen, kNTPrefix)) path = path.substr(kNTPrefixLen); // Check if it's a pipe. We can't query the attributes of a pipe. if (IsPipe(path)) { *result = FALSE; return ERROR_SUCCESS; } base::string16::size_type last_pos = base::string16::npos; do { path = path.substr(0, last_pos); DWORD attributes = ::GetFileAttributes(path.c_str()); if (INVALID_FILE_ATTRIBUTES == attributes) { DWORD error = ::GetLastError(); if (error != ERROR_FILE_NOT_FOUND && error != ERROR_PATH_NOT_FOUND && error != ERROR_INVALID_NAME) { // Unexpected error. NOTREACHED_NT(); return error; } } else if (FILE_ATTRIBUTE_REPARSE_POINT & attributes) { // This is a reparse point. *result = true; return ERROR_SUCCESS; } last_pos = path.rfind(L'\\'); } while (last_pos > 2); // Skip root dir. *result = false; return ERROR_SUCCESS; } // We get a |full_path| of the form \??\c:\some\foo\bar, and the name that // we'll get from |handle| will be \device\harddiskvolume1\some\foo\bar. bool SameObject(HANDLE handle, const wchar_t* full_path) { base::string16 path(full_path); DCHECK_NT(!path.empty()); // Check if it's a pipe. if (IsPipe(path)) return true; base::string16 actual_path; if (!GetPathFromHandle(handle, &actual_path)) return false; // This may end with a backslash. const wchar_t kBackslash = '\\'; if (path[path.length() - 1] == kBackslash) path = path.substr(0, path.length() - 1); // Perfect match (case-insesitive check). if (0 == _wcsicmp(actual_path.c_str(), path.c_str())) return true; // Look for the drive letter. size_t colon_pos = path.find(L':'); if (colon_pos == 0 || colon_pos == base::string16::npos) return false; // Only one character for the drive. if (colon_pos > 1 && path[colon_pos - 2] != kBackslash) return false; // We only need 3 chars, but let's alloc a buffer for four. wchar_t drive[4] = {0}; wchar_t vol_name[MAX_PATH]; memcpy(drive, &path[colon_pos - 1], 2 * sizeof(*drive)); // We'll get a double null terminated string. DWORD vol_length = ::QueryDosDeviceW(drive, vol_name, MAX_PATH); if (vol_length < 2 || vol_length == MAX_PATH) return false; // Ignore the nulls at the end. vol_length = static_cast(wcslen(vol_name)); // The two paths should be the same length. if (vol_length + path.size() - (colon_pos + 1) != actual_path.size()) return false; // Check up to the drive letter. if (0 != _wcsnicmp(actual_path.c_str(), vol_name, vol_length)) return false; // Check the path after the drive letter. if (0 != _wcsicmp(&actual_path[vol_length], &path[colon_pos + 1])) return false; return true; } bool ConvertToLongPath(const base::string16& short_path, base::string16* long_path) { // Check if the path is a NT path. bool is_nt_path = false; base::string16 path = short_path; if (0 == path.compare(0, kNTPrefixLen, kNTPrefix)) { path = path.substr(kNTPrefixLen); is_nt_path = true; } DWORD size = MAX_PATH; scoped_ptr long_path_buf(new wchar_t[size]); DWORD return_value = ::GetLongPathName(path.c_str(), long_path_buf.get(), size); while (return_value >= size) { size *= 2; long_path_buf.reset(new wchar_t[size]); return_value = ::GetLongPathName(path.c_str(), long_path_buf.get(), size); } DWORD last_error = ::GetLastError(); if (0 == return_value && (ERROR_FILE_NOT_FOUND == last_error || ERROR_PATH_NOT_FOUND == last_error || ERROR_INVALID_NAME == last_error)) { // The file does not exist, but maybe a sub path needs to be expanded. base::string16::size_type last_slash = path.rfind(L'\\'); if (base::string16::npos == last_slash) return false; base::string16 begin = path.substr(0, last_slash); base::string16 end = path.substr(last_slash); if (!ConvertToLongPath(begin, &begin)) return false; // Ok, it worked. Let's reset the return value. path = begin + end; return_value = 1; } else if (0 != return_value) { path = long_path_buf.get(); } if (return_value != 0) { if (is_nt_path) { *long_path = kNTPrefix; *long_path += path; } else { *long_path = path; } return true; } return false; } bool GetPathFromHandle(HANDLE handle, base::string16* path) { NtQueryObjectFunction NtQueryObject = NULL; ResolveNTFunctionPtr("NtQueryObject", &NtQueryObject); OBJECT_NAME_INFORMATION initial_buffer; OBJECT_NAME_INFORMATION* name = &initial_buffer; ULONG size = sizeof(initial_buffer); // Query the name information a first time to get the size of the name. NTSTATUS status = NtQueryObject(handle, ObjectNameInformation, name, size, &size); scoped_ptr name_ptr; if (size) { name = reinterpret_cast(new BYTE[size]); name_ptr.reset(name); // Query the name information a second time to get the name of the // object referenced by the handle. status = NtQueryObject(handle, ObjectNameInformation, name, size, &size); } if (STATUS_SUCCESS != status) return false; path->assign(name->ObjectName.Buffer, name->ObjectName.Length / sizeof(name->ObjectName.Buffer[0])); return true; } bool GetNtPathFromWin32Path(const base::string16& path, base::string16* nt_path) { HANDLE file = ::CreateFileW(path.c_str(), 0, FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE, NULL, OPEN_EXISTING, FILE_FLAG_BACKUP_SEMANTICS, NULL); if (file == INVALID_HANDLE_VALUE) return false; bool rv = GetPathFromHandle(file, nt_path); ::CloseHandle(file); return rv; } bool WriteProtectedChildMemory(HANDLE child_process, void* address, const void* buffer, size_t length) { // First, remove the protections. DWORD old_protection; if (!::VirtualProtectEx(child_process, address, length, PAGE_WRITECOPY, &old_protection)) return false; SIZE_T written; bool ok = ::WriteProcessMemory(child_process, address, buffer, length, &written) && (length == written); // Always attempt to restore the original protection. if (!::VirtualProtectEx(child_process, address, length, old_protection, &old_protection)) return false; return ok; } }; // namespace sandbox void ResolveNTFunctionPtr(const char* name, void* ptr) { static volatile HMODULE ntdll = NULL; if (!ntdll) { HMODULE ntdll_local = ::GetModuleHandle(sandbox::kNtdllName); // Use PEImage to sanity-check that we have a valid ntdll handle. base::win::PEImage ntdll_peimage(ntdll_local); CHECK_NT(ntdll_peimage.VerifyMagic()); // Race-safe way to set static ntdll. ::InterlockedCompareExchangePointer( reinterpret_cast(&ntdll), ntdll_local, NULL); } CHECK_NT(ntdll); FARPROC* function_ptr = reinterpret_cast(ptr); *function_ptr = ::GetProcAddress(ntdll, name); CHECK_NT(*function_ptr); }