// Copyright (c) 2012 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 "content/common/sandbox_win.h" #include #include "base/base_switches.h" #include "base/command_line.h" #include "base/debug/profiler.h" #include "base/files/file_util.h" #include "base/hash.h" #include "base/logging.h" #include "base/memory/shared_memory.h" #include "base/metrics/sparse_histogram.h" #include "base/path_service.h" #include "base/process/launch.h" #include "base/strings/string_number_conversions.h" #include "base/strings/string_util.h" #include "base/strings/stringprintf.h" #include "base/trace_event/trace_event.h" #include "base/win/iat_patch_function.h" #include "base/win/scoped_handle.h" #include "base/win/scoped_process_information.h" #include "base/win/windows_version.h" #include "content/common/content_switches_internal.h" #include "content/public/common/content_client.h" #include "content/public/common/content_switches.h" #include "content/public/common/dwrite_font_platform_win.h" #include "content/public/common/sandbox_init.h" #include "content/public/common/sandboxed_process_launcher_delegate.h" #include "sandbox/win/src/process_mitigations.h" #include "sandbox/win/src/sandbox.h" #include "sandbox/win/src/sandbox_nt_util.h" #include "sandbox/win/src/sandbox_policy_base.h" #include "sandbox/win/src/win_utils.h" #include "ui/gfx/win/direct_write.h" static sandbox::BrokerServices* g_broker_services = NULL; static sandbox::TargetServices* g_target_services = NULL; namespace content { namespace { // The DLLs listed here are known (or under strong suspicion) of causing crashes // when they are loaded in the renderer. Note: at runtime we generate short // versions of the dll name only if the dll has an extension. // For more information about how this list is generated, and how to get off // of it, see: // https://sites.google.com/a/chromium.org/dev/Home/third-party-developers const wchar_t* const kTroublesomeDlls[] = { L"adialhk.dll", // Kaspersky Internet Security. L"acpiz.dll", // Unknown. L"activedetect32.dll", // Lenovo One Key Theater (crbug.com/536056). L"activedetect64.dll", // Lenovo One Key Theater (crbug.com/536056). L"airfoilinject3.dll", // Airfoil. L"akinsofthook32.dll", // Akinsoft Software Engineering. L"assistant_x64.dll", // Unknown. L"avcuf64.dll", // Bit Defender Internet Security x64. L"avgrsstx.dll", // AVG 8. L"babylonchromepi.dll", // Babylon translator. L"btkeyind.dll", // Widcomm Bluetooth. L"cmcsyshk.dll", // CMC Internet Security. L"cmsetac.dll", // Unknown (suspected malware). L"cooliris.dll", // CoolIris. L"cplushook.dll", // Unknown (suspected malware). L"dockshellhook.dll", // Stardock Objectdock. L"easyhook32.dll", // GDIPP and others. L"esspd.dll", // Samsung Smart Security ESCORT. L"googledesktopnetwork3.dll", // Google Desktop Search v5. L"fwhook.dll", // PC Tools Firewall Plus. L"hookprocesscreation.dll", // Blumentals Program protector. L"hookterminateapis.dll", // Blumentals and Cyberprinter. L"hookprintapis.dll", // Cyberprinter. L"imon.dll", // NOD32 Antivirus. L"icatcdll.dll", // Samsung Smart Security ESCORT. L"icdcnl.dll", // Samsung Smart Security ESCORT. L"ioloHL.dll", // Iolo (System Mechanic). L"kloehk.dll", // Kaspersky Internet Security. L"lawenforcer.dll", // Spyware-Browser AntiSpyware (Spybro). L"libdivx.dll", // DivX. L"lvprcinj01.dll", // Logitech QuickCam. L"madchook.dll", // Madshi (generic hooking library). L"mdnsnsp.dll", // Bonjour. L"moonsysh.dll", // Moon Secure Antivirus. L"mpk.dll", // KGB Spy. L"npdivx32.dll", // DivX. L"npggNT.des", // GameGuard 2008. L"npggNT.dll", // GameGuard (older). L"oawatch.dll", // Online Armor. L"pastali32.dll", // PastaLeads. L"pavhook.dll", // Panda Internet Security. L"pavlsphook.dll", // Panda Antivirus. L"pavshook.dll", // Panda Antivirus. L"pavshookwow.dll", // Panda Antivirus. L"pctavhook.dll", // PC Tools Antivirus. L"pctgmhk.dll", // PC Tools Spyware Doctor. L"picrmi32.dll", // PicRec. L"picrmi64.dll", // PicRec. L"prntrack.dll", // Pharos Systems. L"protector.dll", // Unknown (suspected malware). L"radhslib.dll", // Radiant Naomi Internet Filter. L"radprlib.dll", // Radiant Naomi Internet Filter. L"rapportnikko.dll", // Trustware Rapport. L"rlhook.dll", // Trustware Bufferzone. L"rooksdol.dll", // Trustware Rapport. L"rndlpepperbrowserrecordhelper.dll", // RealPlayer. L"rpchromebrowserrecordhelper.dll", // RealPlayer. L"r3hook.dll", // Kaspersky Internet Security. L"sahook.dll", // McAfee Site Advisor. L"sbrige.dll", // Unknown. L"sc2hook.dll", // Supercopier 2. L"sdhook32.dll", // Spybot - Search & Destroy Live Protection. L"sguard.dll", // Iolo (System Guard). L"smum32.dll", // Spyware Doctor version 6. L"smumhook.dll", // Spyware Doctor version 5. L"ssldivx.dll", // DivX. L"syncor11.dll", // SynthCore Midi interface. L"systools.dll", // Panda Antivirus. L"tfwah.dll", // Threatfire (PC tools). L"wblind.dll", // Stardock Object desktop. L"wbhelp.dll", // Stardock Object desktop. L"windowsapihookdll32.dll", // Lenovo One Key Theater (crbug.com/536056). L"windowsapihookdll64.dll", // Lenovo One Key Theater (crbug.com/536056). L"winstylerthemehelper.dll" // Tuneup utilities 2006. }; #if !defined(NACL_WIN64) // Adds the policy rules for the path and path\ with the semantic |access|. // If |children| is set to true, we need to add the wildcard rules to also // apply the rule to the subfiles and subfolders. bool AddDirectory(int path, const wchar_t* sub_dir, bool children, sandbox::TargetPolicy::Semantics access, sandbox::TargetPolicy* policy) { base::FilePath directory; if (!PathService::Get(path, &directory)) return false; if (sub_dir) directory = base::MakeAbsoluteFilePath(directory.Append(sub_dir)); sandbox::ResultCode result; result = policy->AddRule(sandbox::TargetPolicy::SUBSYS_FILES, access, directory.value().c_str()); if (result != sandbox::SBOX_ALL_OK) return false; std::wstring directory_str = directory.value() + L"\\"; if (children) directory_str += L"*"; // Otherwise, add the version of the path that ends with a separator. result = policy->AddRule(sandbox::TargetPolicy::SUBSYS_FILES, access, directory_str.c_str()); if (result != sandbox::SBOX_ALL_OK) return false; return true; } #endif // !defined(NACL_WIN64) // Compares the loaded |module| file name matches |module_name|. bool IsExpandedModuleName(HMODULE module, const wchar_t* module_name) { wchar_t path[MAX_PATH]; DWORD sz = ::GetModuleFileNameW(module, path, arraysize(path)); if ((sz == arraysize(path)) || (sz == 0)) { // XP does not set the last error properly, so we bail out anyway. return false; } if (!::GetLongPathName(path, path, arraysize(path))) return false; base::FilePath fname(path); return (fname.BaseName().value() == module_name); } // Adds a single dll by |module_name| into the |policy| blacklist. // If |check_in_browser| is true we only add an unload policy only if the dll // is also loaded in this process. void BlacklistAddOneDll(const wchar_t* module_name, bool check_in_browser, sandbox::TargetPolicy* policy) { HMODULE module = check_in_browser ? ::GetModuleHandleW(module_name) : NULL; if (!module) { // The module could have been loaded with a 8.3 short name. We check // the three most common cases: 'thelongname.dll' becomes // 'thelon~1.dll', 'thelon~2.dll' and 'thelon~3.dll'. std::wstring name(module_name); size_t period = name.rfind(L'.'); DCHECK_NE(std::string::npos, period); DCHECK_LE(3U, (name.size() - period)); if (period <= 8) return; for (wchar_t ix = '1'; ix <= '3'; ++ix) { const wchar_t suffix[] = {'~', ix, 0}; std::wstring alt_name = name.substr(0, 6) + suffix; alt_name += name.substr(period, name.size()); if (check_in_browser) { module = ::GetModuleHandleW(alt_name.c_str()); if (!module) return; // We found it, but because it only has 6 significant letters, we // want to make sure it is the right one. if (!IsExpandedModuleName(module, module_name)) return; } // Found a match. We add both forms to the policy. policy->AddDllToUnload(alt_name.c_str()); } } policy->AddDllToUnload(module_name); DVLOG(1) << "dll to unload found: " << module_name; return; } // Adds policy rules for unloaded the known dlls that cause chrome to crash. // Eviction of injected DLLs is done by the sandbox so that the injected module // does not get a chance to execute any code. void AddGenericDllEvictionPolicy(sandbox::TargetPolicy* policy) { for (int ix = 0; ix != arraysize(kTroublesomeDlls); ++ix) BlacklistAddOneDll(kTroublesomeDlls[ix], true, policy); } // Returns the object path prepended with the current logon session. base::string16 PrependWindowsSessionPath(const base::char16* object) { // Cache this because it can't change after process creation. static uintptr_t s_session_id = 0; if (s_session_id == 0) { HANDLE token; DWORD session_id_length; DWORD session_id = 0; CHECK(::OpenProcessToken(::GetCurrentProcess(), TOKEN_QUERY, &token)); CHECK(::GetTokenInformation(token, TokenSessionId, &session_id, sizeof(session_id), &session_id_length)); CloseHandle(token); if (session_id) s_session_id = session_id; } return base::StringPrintf(L"\\Sessions\\%d%ls", s_session_id, object); } // Checks if the sandbox should be let to run without a job object assigned. bool ShouldSetJobLevel(const base::CommandLine& cmd_line) { if (!cmd_line.HasSwitch(switches::kAllowNoSandboxJob)) return true; // Windows 8 allows nested jobs so we don't need to check if we are in other // job. if (base::win::GetVersion() >= base::win::VERSION_WIN8) return true; BOOL in_job = true; // Either there is no job yet associated so we must add our job, if (!::IsProcessInJob(::GetCurrentProcess(), NULL, &in_job)) NOTREACHED() << "IsProcessInJob failed. " << GetLastError(); if (!in_job) return true; // ...or there is a job but the JOB_OBJECT_LIMIT_BREAKAWAY_OK limit is set. JOBOBJECT_EXTENDED_LIMIT_INFORMATION job_info = {}; if (!::QueryInformationJobObject(NULL, JobObjectExtendedLimitInformation, &job_info, sizeof(job_info), NULL)) { NOTREACHED() << "QueryInformationJobObject failed. " << GetLastError(); return true; } if (job_info.BasicLimitInformation.LimitFlags & JOB_OBJECT_LIMIT_BREAKAWAY_OK) return true; return false; } // Adds the generic policy rules to a sandbox TargetPolicy. bool AddGenericPolicy(sandbox::TargetPolicy* policy) { sandbox::ResultCode result; // Renderers need to copy sections for plugin DIBs and GPU. // GPU needs to copy sections to renderers. result = policy->AddRule(sandbox::TargetPolicy::SUBSYS_HANDLES, sandbox::TargetPolicy::HANDLES_DUP_ANY, L"Section"); if (result != sandbox::SBOX_ALL_OK) return false; // Add the policy for the client side of a pipe. It is just a file // in the \pipe\ namespace. We restrict it to pipes that start with // "chrome." so the sandboxed process cannot connect to system services. result = policy->AddRule(sandbox::TargetPolicy::SUBSYS_FILES, sandbox::TargetPolicy::FILES_ALLOW_ANY, L"\\??\\pipe\\chrome.*"); if (result != sandbox::SBOX_ALL_OK) return false; // Add the policy for the server side of nacl pipe. It is just a file // in the \pipe\ namespace. We restrict it to pipes that start with // "chrome.nacl" so the sandboxed process cannot connect to // system services. result = policy->AddRule(sandbox::TargetPolicy::SUBSYS_NAMED_PIPES, sandbox::TargetPolicy::NAMEDPIPES_ALLOW_ANY, L"\\\\.\\pipe\\chrome.nacl.*"); if (result != sandbox::SBOX_ALL_OK) return false; // Allow the server side of sync sockets, which are pipes that have // the "chrome.sync" namespace and a randomly generated suffix. result = policy->AddRule(sandbox::TargetPolicy::SUBSYS_NAMED_PIPES, sandbox::TargetPolicy::NAMEDPIPES_ALLOW_ANY, L"\\\\.\\pipe\\chrome.sync.*"); if (result != sandbox::SBOX_ALL_OK) return false; // Add the policy for debug message only in debug #ifndef NDEBUG base::FilePath app_dir; if (!PathService::Get(base::DIR_MODULE, &app_dir)) return false; wchar_t long_path_buf[MAX_PATH]; DWORD long_path_return_value = GetLongPathName(app_dir.value().c_str(), long_path_buf, MAX_PATH); if (long_path_return_value == 0 || long_path_return_value >= MAX_PATH) return false; base::FilePath debug_message(long_path_buf); debug_message = debug_message.AppendASCII("debug_message.exe"); result = policy->AddRule(sandbox::TargetPolicy::SUBSYS_PROCESS, sandbox::TargetPolicy::PROCESS_MIN_EXEC, debug_message.value().c_str()); if (result != sandbox::SBOX_ALL_OK) return false; #endif // NDEBUG // Add the policy for read-only PDB file access for stack traces. #if !defined(OFFICIAL_BUILD) base::FilePath exe; if (!PathService::Get(base::FILE_EXE, &exe)) return false; base::FilePath pdb_path = exe.DirName().Append(L"*.pdb"); result = policy->AddRule(sandbox::TargetPolicy::SUBSYS_FILES, sandbox::TargetPolicy::FILES_ALLOW_READONLY, pdb_path.value().c_str()); if (result != sandbox::SBOX_ALL_OK) return false; #endif #if defined(SANITIZER_COVERAGE) DWORD coverage_dir_size = ::GetEnvironmentVariable(L"SANITIZER_COVERAGE_DIR", NULL, 0); if (coverage_dir_size == 0) { LOG(WARNING) << "SANITIZER_COVERAGE_DIR was not set, coverage won't work."; } else { std::wstring coverage_dir; wchar_t* coverage_dir_str = base::WriteInto(&coverage_dir, coverage_dir_size); coverage_dir_size = ::GetEnvironmentVariable( L"SANITIZER_COVERAGE_DIR", coverage_dir_str, coverage_dir_size); CHECK(coverage_dir.size() == coverage_dir_size); base::FilePath sancov_path = base::FilePath(coverage_dir).Append(L"*.sancov"); result = policy->AddRule(sandbox::TargetPolicy::SUBSYS_FILES, sandbox::TargetPolicy::FILES_ALLOW_ANY, sancov_path.value().c_str()); if (result != sandbox::SBOX_ALL_OK) return false; } #endif AddGenericDllEvictionPolicy(policy); return true; } bool AddPolicyForSandboxedProcess(sandbox::TargetPolicy* policy) { sandbox::ResultCode result; // Renderers need to share events with plugins. result = policy->AddRule(sandbox::TargetPolicy::SUBSYS_HANDLES, sandbox::TargetPolicy::HANDLES_DUP_ANY, L"Event"); if (result != sandbox::SBOX_ALL_OK) return false; // Win8+ adds a device DeviceApi that we don't need. if (base::win::GetVersion() > base::win::VERSION_WIN7) result = policy->AddKernelObjectToClose(L"File", L"\\Device\\DeviceApi"); if (result != sandbox::SBOX_ALL_OK) return false; // Close the proxy settings on XP. if (base::win::GetVersion() <= base::win::VERSION_SERVER_2003) result = policy->AddKernelObjectToClose(L"Key", L"HKEY_CURRENT_USER\\Software\\Microsoft\\Windows\\" \ L"CurrentVersion\\Internet Settings"); if (result != sandbox::SBOX_ALL_OK) return false; sandbox::TokenLevel initial_token = sandbox::USER_UNPROTECTED; if (base::win::GetVersion() > base::win::VERSION_XP) { // On 2003/Vista the initial token has to be restricted if the main // token is restricted. initial_token = sandbox::USER_RESTRICTED_SAME_ACCESS; } policy->SetTokenLevel(initial_token, sandbox::USER_LOCKDOWN); // Prevents the renderers from manipulating low-integrity processes. policy->SetDelayedIntegrityLevel(sandbox::INTEGRITY_LEVEL_UNTRUSTED); policy->SetIntegrityLevel(sandbox::INTEGRITY_LEVEL_LOW); if (sandbox::SBOX_ALL_OK != policy->SetAlternateDesktop(true)) { DLOG(WARNING) << "Failed to apply desktop security to the renderer"; } return true; } // Updates the command line arguments with debug-related flags. If debug flags // have been used with this process, they will be filtered and added to // command_line as needed. void ProcessDebugFlags(base::CommandLine* command_line) { const base::CommandLine& current_cmd_line = *base::CommandLine::ForCurrentProcess(); std::string type = command_line->GetSwitchValueASCII(switches::kProcessType); if (current_cmd_line.HasSwitch(switches::kWaitForDebuggerChildren)) { // Look to pass-on the kWaitForDebugger flag. std::string value = current_cmd_line.GetSwitchValueASCII( switches::kWaitForDebuggerChildren); if (value.empty() || value == type) { command_line->AppendSwitch(switches::kWaitForDebugger); } command_line->AppendSwitchASCII(switches::kWaitForDebuggerChildren, value); } } // This code is test only, and attempts to catch unsafe uses of // DuplicateHandle() that copy privileged handles into sandboxed processes. #ifndef OFFICIAL_BUILD base::win::IATPatchFunction g_iat_patch_duplicate_handle; typedef BOOL (WINAPI *DuplicateHandleFunctionPtr)(HANDLE source_process_handle, HANDLE source_handle, HANDLE target_process_handle, LPHANDLE target_handle, DWORD desired_access, BOOL inherit_handle, DWORD options); DuplicateHandleFunctionPtr g_iat_orig_duplicate_handle; NtQueryObject g_QueryObject = NULL; static const char* kDuplicateHandleWarning = "You are attempting to duplicate a privileged handle into a sandboxed" " process.\n Please use the sandbox::BrokerDuplicateHandle API or" " contact security@chromium.org for assistance."; void CheckDuplicateHandle(HANDLE handle) { // Get the object type (32 characters is safe; current max is 14). BYTE buffer[sizeof(OBJECT_TYPE_INFORMATION) + 32 * sizeof(wchar_t)]; OBJECT_TYPE_INFORMATION* type_info = reinterpret_cast(buffer); ULONG size = sizeof(buffer) - sizeof(wchar_t); NTSTATUS error; error = g_QueryObject(handle, ObjectTypeInformation, type_info, size, &size); CHECK(NT_SUCCESS(error)); type_info->Name.Buffer[type_info->Name.Length / sizeof(wchar_t)] = L'\0'; // Get the object basic information. OBJECT_BASIC_INFORMATION basic_info; size = sizeof(basic_info); error = g_QueryObject(handle, ObjectBasicInformation, &basic_info, size, &size); CHECK(NT_SUCCESS(error)); CHECK(!(basic_info.GrantedAccess & WRITE_DAC)) << kDuplicateHandleWarning; if (0 == _wcsicmp(type_info->Name.Buffer, L"Process")) { const ACCESS_MASK kDangerousMask = ~static_cast(PROCESS_QUERY_LIMITED_INFORMATION | SYNCHRONIZE); CHECK(!(basic_info.GrantedAccess & kDangerousMask)) << kDuplicateHandleWarning; } } BOOL WINAPI DuplicateHandlePatch(HANDLE source_process_handle, HANDLE source_handle, HANDLE target_process_handle, LPHANDLE target_handle, DWORD desired_access, BOOL inherit_handle, DWORD options) { // Duplicate the handle so we get the final access mask. if (!g_iat_orig_duplicate_handle(source_process_handle, source_handle, target_process_handle, target_handle, desired_access, inherit_handle, options)) return FALSE; // We're not worried about broker handles or not crossing process boundaries. if (source_process_handle == target_process_handle || target_process_handle == ::GetCurrentProcess()) return TRUE; // Only sandboxed children are placed in jobs, so just check them. BOOL is_in_job = FALSE; if (!::IsProcessInJob(target_process_handle, NULL, &is_in_job)) { // We need a handle with permission to check the job object. if (ERROR_ACCESS_DENIED == ::GetLastError()) { HANDLE temp_handle; CHECK(g_iat_orig_duplicate_handle(::GetCurrentProcess(), target_process_handle, ::GetCurrentProcess(), &temp_handle, PROCESS_QUERY_INFORMATION, FALSE, 0)); base::win::ScopedHandle process(temp_handle); CHECK(::IsProcessInJob(process.Get(), NULL, &is_in_job)); } } if (is_in_job) { // We never allow inheritable child handles. CHECK(!inherit_handle) << kDuplicateHandleWarning; // Duplicate the handle again, to get the final permissions. HANDLE temp_handle; CHECK(g_iat_orig_duplicate_handle(target_process_handle, *target_handle, ::GetCurrentProcess(), &temp_handle, 0, FALSE, DUPLICATE_SAME_ACCESS)); base::win::ScopedHandle handle(temp_handle); // Callers use CHECK macro to make sure we get the right stack. CheckDuplicateHandle(handle.Get()); } return TRUE; } #endif } // namespace void SetJobLevel(const base::CommandLine& cmd_line, sandbox::JobLevel job_level, uint32 ui_exceptions, sandbox::TargetPolicy* policy) { if (ShouldSetJobLevel(cmd_line)) { #ifdef _WIN64 policy->SetJobMemoryLimit(4ULL * 1024 * 1024 * 1024); #endif policy->SetJobLevel(job_level, ui_exceptions); } else { policy->SetJobLevel(sandbox::JOB_NONE, 0); } } // TODO(jschuh): Need get these restrictions applied to NaCl and Pepper. // Just have to figure out what needs to be warmed up first. void AddBaseHandleClosePolicy(sandbox::TargetPolicy* policy) { // TODO(cpu): Add back the BaseNamedObjects policy. base::string16 object_path = PrependWindowsSessionPath( L"\\BaseNamedObjects\\windows_shell_global_counters"); policy->AddKernelObjectToClose(L"Section", object_path.data()); } void AddAppContainerPolicy(sandbox::TargetPolicy* policy, const wchar_t* sid) { if (base::win::GetVersion() == base::win::VERSION_WIN8 || base::win::GetVersion() == base::win::VERSION_WIN8_1) { const base::CommandLine& command_line = *base::CommandLine::ForCurrentProcess(); if (command_line.HasSwitch(switches::kEnableAppContainer)) { policy->SetLowBox(sid); } } } bool AddWin32kLockdownPolicy(sandbox::TargetPolicy* policy) { #if !defined(NACL_WIN64) if (!IsWin32kRendererLockdownEnabled()) return true; // Enable win32k lockdown if not already. sandbox::MitigationFlags flags = policy->GetProcessMitigations(); if ((flags & sandbox::MITIGATION_WIN32K_DISABLE) == sandbox::MITIGATION_WIN32K_DISABLE) return true; sandbox::ResultCode result = policy->AddRule(sandbox::TargetPolicy::SUBSYS_WIN32K_LOCKDOWN, sandbox::TargetPolicy::FAKE_USER_GDI_INIT, nullptr); if (result != sandbox::SBOX_ALL_OK) return false; flags |= sandbox::MITIGATION_WIN32K_DISABLE; result = policy->SetProcessMitigations(flags); if (result != sandbox::SBOX_ALL_OK) return false; #endif return true; } bool InitBrokerServices(sandbox::BrokerServices* broker_services) { // TODO(abarth): DCHECK(CalledOnValidThread()); // See . DCHECK(broker_services); DCHECK(!g_broker_services); sandbox::ResultCode result = broker_services->Init(); g_broker_services = broker_services; // In non-official builds warn about dangerous uses of DuplicateHandle. #ifndef OFFICIAL_BUILD BOOL is_in_job = FALSE; CHECK(::IsProcessInJob(::GetCurrentProcess(), NULL, &is_in_job)); // In a Syzygy-profiled binary, instrumented for import profiling, this // patch will end in infinite recursion on the attempted delegation to the // original function. if (!base::debug::IsBinaryInstrumented() && !is_in_job && !g_iat_patch_duplicate_handle.is_patched()) { HMODULE module = NULL; wchar_t module_name[MAX_PATH]; CHECK(::GetModuleHandleEx(GET_MODULE_HANDLE_EX_FLAG_FROM_ADDRESS, reinterpret_cast(InitBrokerServices), &module)); DWORD result = ::GetModuleFileNameW(module, module_name, MAX_PATH); if (result && (result != MAX_PATH)) { ResolveNTFunctionPtr("NtQueryObject", &g_QueryObject); result = g_iat_patch_duplicate_handle.Patch( module_name, "kernel32.dll", "DuplicateHandle", DuplicateHandlePatch); CHECK(result == 0); g_iat_orig_duplicate_handle = reinterpret_cast( g_iat_patch_duplicate_handle.original_function()); } } #endif return sandbox::SBOX_ALL_OK == result; } bool InitTargetServices(sandbox::TargetServices* target_services) { DCHECK(target_services); DCHECK(!g_target_services); sandbox::ResultCode result = target_services->Init(); g_target_services = target_services; return sandbox::SBOX_ALL_OK == result; } base::Process StartSandboxedProcess( SandboxedProcessLauncherDelegate* delegate, base::CommandLine* cmd_line) { const base::CommandLine& browser_command_line = *base::CommandLine::ForCurrentProcess(); std::string type_str = cmd_line->GetSwitchValueASCII(switches::kProcessType); TRACE_EVENT_BEGIN_ETW("StartProcessWithAccess", 0, type_str); // Propagate the --allow-no-job flag if present. if (browser_command_line.HasSwitch(switches::kAllowNoSandboxJob) && !cmd_line->HasSwitch(switches::kAllowNoSandboxJob)) { cmd_line->AppendSwitch(switches::kAllowNoSandboxJob); } ProcessDebugFlags(cmd_line); // Prefetch hints on windows: // Using a different prefetch profile per process type will allow Windows // to create separate pretetch settings for browser, renderer etc. cmd_line->AppendArg(base::StringPrintf("/prefetch:%d", base::Hash(type_str))); if ((delegate && !delegate->ShouldSandbox()) || browser_command_line.HasSwitch(switches::kNoSandbox) || cmd_line->HasSwitch(switches::kNoSandbox)) { base::Process process = base::LaunchProcess(*cmd_line, base::LaunchOptions()); // TODO(rvargas) crbug.com/417532: Don't share a raw handle. g_broker_services->AddTargetPeer(process.Handle()); return process.Pass(); } sandbox::TargetPolicy* policy = g_broker_services->CreatePolicy(); sandbox::MitigationFlags mitigations = sandbox::MITIGATION_HEAP_TERMINATE | sandbox::MITIGATION_BOTTOM_UP_ASLR | sandbox::MITIGATION_DEP | sandbox::MITIGATION_DEP_NO_ATL_THUNK | sandbox::MITIGATION_SEHOP; if (policy->SetProcessMitigations(mitigations) != sandbox::SBOX_ALL_OK) return base::Process(); #if !defined(NACL_WIN64) if (type_str == switches::kRendererProcess && IsWin32kRendererLockdownEnabled()) { if (!AddWin32kLockdownPolicy(policy)) return base::Process(); } #endif mitigations = sandbox::MITIGATION_STRICT_HANDLE_CHECKS | sandbox::MITIGATION_DLL_SEARCH_ORDER; if (policy->SetDelayedProcessMitigations(mitigations) != sandbox::SBOX_ALL_OK) return base::Process(); SetJobLevel(*cmd_line, sandbox::JOB_LOCKDOWN, 0, policy); bool disable_default_policy = false; base::FilePath exposed_dir; if (delegate) delegate->PreSandbox(&disable_default_policy, &exposed_dir); if (!disable_default_policy && !AddPolicyForSandboxedProcess(policy)) return base::Process(); #if !defined(NACL_WIN64) if (type_str == switches::kRendererProcess || type_str == switches::kPpapiPluginProcess) { if (gfx::win::ShouldUseDirectWrite()) { AddDirectory(base::DIR_WINDOWS_FONTS, NULL, true, sandbox::TargetPolicy::FILES_ALLOW_READONLY, policy); // If DirectWrite is enabled for font rendering then open the font cache // section which is created by the browser and pass the handle to the // renderer process. This is needed because renderer processes on // Windows 8+ may be running in an AppContainer sandbox and hence their // kernel object namespace may be partitioned. std::string name(content::kFontCacheSharedSectionName); name.append(base::UintToString(base::GetCurrentProcId())); base::SharedMemory direct_write_font_cache_section; if (direct_write_font_cache_section.Open(name, true)) { void* shared_handle = policy->AddHandleToShare( direct_write_font_cache_section.handle().GetHandle()); cmd_line->AppendSwitchASCII(switches::kFontCacheSharedHandle, base::UintToString(reinterpret_cast(shared_handle))); } } } #endif if (type_str != switches::kRendererProcess) { // Hack for Google Desktop crash. Trick GD into not injecting its DLL into // this subprocess. See // http://code.google.com/p/chromium/issues/detail?id=25580 cmd_line->AppendSwitchASCII("ignored", " --type=renderer "); } sandbox::ResultCode result; if (!exposed_dir.empty()) { result = policy->AddRule(sandbox::TargetPolicy::SUBSYS_FILES, sandbox::TargetPolicy::FILES_ALLOW_ANY, exposed_dir.value().c_str()); if (result != sandbox::SBOX_ALL_OK) return base::Process(); base::FilePath exposed_files = exposed_dir.AppendASCII("*"); result = policy->AddRule(sandbox::TargetPolicy::SUBSYS_FILES, sandbox::TargetPolicy::FILES_ALLOW_ANY, exposed_files.value().c_str()); if (result != sandbox::SBOX_ALL_OK) return base::Process(); } if (!AddGenericPolicy(policy)) { NOTREACHED(); return base::Process(); } // Allow the renderer and gpu processes to access the log file. if (type_str == switches::kRendererProcess || type_str == switches::kGpuProcess) { if (logging::IsLoggingToFileEnabled()) { DCHECK(base::FilePath(logging::GetLogFileFullPath()).IsAbsolute()); policy->AddRule(sandbox::TargetPolicy::SUBSYS_FILES, sandbox::TargetPolicy::FILES_ALLOW_ANY, logging::GetLogFileFullPath().c_str()); } } #if !defined(OFFICIAL_BUILD) // If stdout/stderr point to a Windows console, these calls will // have no effect. policy->SetStdoutHandle(GetStdHandle(STD_OUTPUT_HANDLE)); policy->SetStderrHandle(GetStdHandle(STD_ERROR_HANDLE)); #endif if (delegate) { bool success = true; delegate->PreSpawnTarget(policy, &success); if (!success) return base::Process(); } TRACE_EVENT_BEGIN_ETW("StartProcessWithAccess::LAUNCHPROCESS", 0, 0); PROCESS_INFORMATION temp_process_info = {}; result = g_broker_services->SpawnTarget( cmd_line->GetProgram().value().c_str(), cmd_line->GetCommandLineString().c_str(), policy, &temp_process_info); DWORD last_error = ::GetLastError(); base::win::ScopedProcessInformation target(temp_process_info); TRACE_EVENT_END_ETW("StartProcessWithAccess::LAUNCHPROCESS", 0, 0); if (sandbox::SBOX_ALL_OK != result) { if (result == sandbox::SBOX_ERROR_GENERIC) DPLOG(ERROR) << "Failed to launch process"; else if (result == sandbox::SBOX_ERROR_CREATE_PROCESS) { // TODO(shrikant): Remove this special case handling after determining // cause for lowbox/createprocess errors. sandbox::PolicyBase* policy_base = static_cast(policy); UMA_HISTOGRAM_SPARSE_SLOWLY(policy_base->GetLowBoxSid() ? "Process.Sandbox.Lowbox.Launch.Error" : "Process.Sandbox.Launch.Error", last_error); } else DLOG(ERROR) << "Failed to launch process. Error: " << result; policy->Release(); return base::Process(); } policy->Release(); if (delegate) delegate->PostSpawnTarget(target.process_handle()); CHECK(ResumeThread(target.thread_handle()) != -1); TRACE_EVENT_END_ETW("StartProcessWithAccess", 0, type_str); return base::Process(target.TakeProcessHandle()); } bool BrokerDuplicateHandle(HANDLE source_handle, DWORD target_process_id, HANDLE* target_handle, DWORD desired_access, DWORD options) { // If our process is the target just duplicate the handle. if (::GetCurrentProcessId() == target_process_id) { return !!::DuplicateHandle(::GetCurrentProcess(), source_handle, ::GetCurrentProcess(), target_handle, desired_access, FALSE, options); } // Try the broker next if (g_target_services && g_target_services->DuplicateHandle(source_handle, target_process_id, target_handle, desired_access, options) == sandbox::SBOX_ALL_OK) { return true; } // Finally, see if we already have access to the process. base::win::ScopedHandle target_process; target_process.Set(::OpenProcess(PROCESS_DUP_HANDLE, FALSE, target_process_id)); if (target_process.IsValid()) { return !!::DuplicateHandle(::GetCurrentProcess(), source_handle, target_process.Get(), target_handle, desired_access, FALSE, options); } return false; } bool BrokerAddTargetPeer(HANDLE peer_process) { return g_broker_services->AddTargetPeer(peer_process) == sandbox::SBOX_ALL_OK; } } // namespace content