// 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 "chrome/common/sandbox_policy.h" #include #include "base/command_line.h" #include "base/debug/debugger.h" #include "base/debug/trace_event.h" #include "base/file_util.h" #include "base/logging.h" #include "base/path_service.h" #include "base/process_util.h" #include "base/stringprintf.h" #include "base/string_number_conversions.h" #include "base/string_util.h" #include "base/win/windows_version.h" #include "chrome/common/chrome_constants.h" #include "chrome/common/chrome_paths.h" #include "chrome/common/chrome_switches.h" #include "content/common/child_process_info.h" #include "content/common/debug_flags.h" #include "sandbox/src/sandbox.h" static sandbox::BrokerServices* g_broker_services = NULL; 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. const wchar_t* const kTroublesomeDlls[] = { L"adialhk.dll", // Kaspersky Internet Security. L"acpiz.dll", // Unknown. L"avgrsstx.dll", // AVG 8. L"babylonchromepi.dll", // Babylon translator. L"btkeyind.dll", // Widcomm Bluetooth. L"cmcsyshk.dll", // CMC Internet Security. L"cooliris.dll", // CoolIris. L"dockshellhook.dll", // Stardock Objectdock. 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"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"npdivx32.dll", // DivX. L"npggNT.des", // GameGuard 2008. L"npggNT.dll", // GameGuard (older). L"oawatch.dll", // Online Armor. L"pavhook.dll", // Panda Internet Security. L"pavshook.dll", // Panda Antivirus. L"pavshookwow.dll", // Panda Antivirus. L"pctavhook.dll", // PC Tools Antivirus. L"pctgmhk.dll", // PC Tools Spyware Doctor. L"prntrack.dll", // Pharos Systems. 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"rpchromebrowserrecordhelper.dll", // RealPlayer. L"rpmainbrowserrecordplugin.dll", // RealPlayer. L"r3hook.dll", // Kaspersky Internet Security. L"sahook.dll", // McAfee Site Advisor. L"sbrige.dll", // Unknown. L"sc2hook.dll", // Supercopier 2. 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"ycwebcamerasource.ax", // Cyberlink Camera helper. L"wblind.dll", // Stardock Object desktop. L"wbhelp.dll", // Stardock Object desktop. L"winstylerthemehelper.dll" // Tuneup utilities 2006. }; enum PluginPolicyCategory { PLUGIN_GROUP_TRUSTED, PLUGIN_GROUP_UNTRUSTED, }; // Returns the policy category for the plugin dll. PluginPolicyCategory GetPolicyCategoryForPlugin( const std::wstring& dll, const std::wstring& list) { std::wstring filename = FilePath(dll).BaseName().value(); std::wstring plugin_dll = StringToLowerASCII(filename); std::wstring trusted_plugins = StringToLowerASCII(list); size_t pos = 0; size_t end_item = 0; while (end_item != std::wstring::npos) { end_item = list.find(L",", pos); size_t size_item = (end_item == std::wstring::npos) ? end_item : end_item - pos; std::wstring item = list.substr(pos, size_item); if (!item.empty() && item == plugin_dll) return PLUGIN_GROUP_TRUSTED; pos = end_item + 1; } return PLUGIN_GROUP_UNTRUSTED; } // 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) { FilePath directory; if (!PathService::Get(path, &directory)) return false; if (sub_dir) { directory = directory.Append(sub_dir); file_util::AbsolutePath(&directory); } 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; } // Adds the policy rules for the path and path\* with the semantic |access|. // We need to add the wildcard rules to also apply the rule to the subkeys. bool AddKeyAndSubkeys(std::wstring key, sandbox::TargetPolicy::Semantics access, sandbox::TargetPolicy* policy) { sandbox::ResultCode result; result = policy->AddRule(sandbox::TargetPolicy::SUBSYS_REGISTRY, access, key.c_str()); if (result != sandbox::SBOX_ALL_OK) return false; key += L"\\*"; result = policy->AddRule(sandbox::TargetPolicy::SUBSYS_REGISTRY, access, key.c_str()); if (result != sandbox::SBOX_ALL_OK) return false; return true; } // 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; FilePath fname(path); return (fname.BaseName().value() == module_name); } // Adds a single dll by |module_name| into the |policy| blacklist. // To minimize the list we only add an unload policy only if the dll is // also loaded in this process. All the injected dlls of interest do this. void BlacklistAddOneDll(const wchar_t* module_name, sandbox::TargetPolicy* policy) { HMODULE module = ::GetModuleHandleW(module_name); if (!module) { // The module could have been loaded with a 8.3 short name. We use // the most common case: 'thelongname.dll' becomes 'thelon~1.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; std::wstring alt_name = name.substr(0, 6) + L"~1"; alt_name += name.substr(period, name.size()); 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); VLOG(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 AddDllEvictionPolicy(sandbox::TargetPolicy* policy) { for (int ix = 0; ix != arraysize(kTroublesomeDlls); ++ix) BlacklistAddOneDll(kTroublesomeDlls[ix], policy); } // Adds the generic policy rules to a sandbox TargetPolicy. bool AddGenericPolicy(sandbox::TargetPolicy* policy) { sandbox::ResultCode result; // Add the policy for the pipes result = policy->AddRule(sandbox::TargetPolicy::SUBSYS_FILES, sandbox::TargetPolicy::FILES_ALLOW_ANY, L"\\??\\pipe\\chrome.*"); if (result != sandbox::SBOX_ALL_OK) return false; 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; // Add the policy for debug message only in debug #ifndef NDEBUG FilePath app_dir; if (!PathService::Get(chrome::DIR_APP, &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; string16 debug_message(long_path_buf); file_util::AppendToPath(&debug_message, L"debug_message.exe"); result = policy->AddRule(sandbox::TargetPolicy::SUBSYS_PROCESS, sandbox::TargetPolicy::PROCESS_MIN_EXEC, debug_message.c_str()); if (result != sandbox::SBOX_ALL_OK) return false; #endif // NDEBUG return true; } // Creates a sandbox without any restriction. bool ApplyPolicyForTrustedPlugin(sandbox::TargetPolicy* policy) { policy->SetJobLevel(sandbox::JOB_UNPROTECTED, 0); policy->SetTokenLevel(sandbox::USER_UNPROTECTED, sandbox::USER_UNPROTECTED); return true; } // Creates a sandbox with the plugin running in a restricted environment. // Only the "Users" and "Everyone" groups are enabled in the token. The User SID // is disabled. bool ApplyPolicyForUntrustedPlugin(sandbox::TargetPolicy* policy) { policy->SetJobLevel(sandbox::JOB_UNPROTECTED, 0); 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_LIMITED); policy->SetDelayedIntegrityLevel(sandbox::INTEGRITY_LEVEL_LOW); if (!AddDirectory(base::DIR_TEMP, NULL, true, sandbox::TargetPolicy::FILES_ALLOW_ANY, policy)) return false; if (!AddDirectory(base::DIR_IE_INTERNET_CACHE, NULL, true, sandbox::TargetPolicy::FILES_ALLOW_ANY, policy)) return false; if (!AddDirectory(base::DIR_APP_DATA, NULL, true, sandbox::TargetPolicy::FILES_ALLOW_READONLY, policy)) return false; if (!AddDirectory(base::DIR_PROFILE, NULL, false, /*not recursive*/ sandbox::TargetPolicy::FILES_ALLOW_READONLY, policy)) return false; if (!AddDirectory(base::DIR_APP_DATA, L"Adobe", true, sandbox::TargetPolicy::FILES_ALLOW_ANY, policy)) return false; if (!AddDirectory(base::DIR_APP_DATA, L"Macromedia", true, sandbox::TargetPolicy::FILES_ALLOW_ANY, policy)) return false; if (!AddDirectory(base::DIR_LOCAL_APP_DATA, NULL, true, sandbox::TargetPolicy::FILES_ALLOW_READONLY, policy)) return false; if (!AddKeyAndSubkeys(L"HKEY_CURRENT_USER\\SOFTWARE\\ADOBE", sandbox::TargetPolicy::REG_ALLOW_ANY, policy)) return false; if (!AddKeyAndSubkeys(L"HKEY_CURRENT_USER\\SOFTWARE\\MACROMEDIA", sandbox::TargetPolicy::REG_ALLOW_ANY, policy)) return false; if (base::win::GetVersion() >= base::win::VERSION_VISTA) { if (!AddKeyAndSubkeys(L"HKEY_CURRENT_USER\\SOFTWARE\\AppDataLow", sandbox::TargetPolicy::REG_ALLOW_ANY, policy)) return false; if (!AddDirectory(base::DIR_LOCAL_APP_DATA_LOW, NULL, true, sandbox::TargetPolicy::FILES_ALLOW_ANY, policy)) return false; // DIR_APP_DATA is AppData\Roaming, but Adobe needs to do a directory // listing in AppData directly, so we add a non-recursive policy for // AppData itself. if (!AddDirectory(base::DIR_APP_DATA, L"..", false, sandbox::TargetPolicy::FILES_ALLOW_READONLY, policy)) return false; } return true; } // Launches the privileged flash broker, used when flash is sandboxed. // The broker is the same flash dll, except that it uses a different // entrypoint (BrokerMain) and it is hosted in windows' generic surrogate // process rundll32. After launching the broker we need to pass to // the flash plugin the process id of the broker via the command line // using --flash-broker=pid. // More info about rundll32 at http://support.microsoft.com/kb/164787. bool LoadFlashBroker(const FilePath& plugin_path, CommandLine* cmd_line) { FilePath rundll; if (!PathService::Get(base::DIR_SYSTEM, &rundll)) return false; rundll = rundll.AppendASCII("rundll32.exe"); // Rundll32 cannot handle paths with spaces, so we use the short path. wchar_t short_path[MAX_PATH]; if (0 == ::GetShortPathNameW(plugin_path.value().c_str(), short_path, arraysize(short_path))) return false; // Here is the kicker, if the user has disabled 8.3 (short path) support // on the volume GetShortPathNameW does not fail but simply returns the // input path. In this case if the path had any spaces then rundll32 will // incorrectly interpret its parameters. So we quote the path, even though // the kb/164787 says you should not. std::wstring cmd_final = base::StringPrintf(L"%ls \"%ls\",BrokerMain browser=chrome", rundll.value().c_str(), short_path); base::ProcessHandle process; if (!base::LaunchApp(cmd_final, false, true, &process)) return false; cmd_line->AppendSwitchASCII("flash-broker", base::Int64ToString(::GetProcessId(process))); // The flash broker, unders some circumstances can linger beyond the lifetime // of the flash player, so we put it in a job object, when the browser // terminates the job object is destroyed (by the OS) and the flash broker // is terminated. HANDLE job = ::CreateJobObjectW(NULL, NULL); JOBOBJECT_EXTENDED_LIMIT_INFORMATION job_limits = {0}; job_limits.BasicLimitInformation.LimitFlags = JOB_OBJECT_LIMIT_KILL_ON_JOB_CLOSE; if (::SetInformationJobObject(job, JobObjectExtendedLimitInformation, &job_limits, sizeof(job_limits))) { ::AssignProcessToJobObject(job, process); // Yes, we are leaking the object here. Read comment above. } else { ::CloseHandle(job); return false; } ::CloseHandle(process); return true; } // Creates a sandbox for the built-in flash plugin running in a restricted // environment. This policy is in continual flux as flash changes // capabilities. For more information see bug 50796. bool ApplyPolicyForBuiltInFlashPlugin(sandbox::TargetPolicy* policy) { policy->SetJobLevel(sandbox::JOB_UNPROTECTED, 0); // Vista and Win7 get a weaker token but have low integrity. if (base::win::GetVersion() > base::win::VERSION_XP) { policy->SetTokenLevel(sandbox::USER_RESTRICTED_SAME_ACCESS, sandbox::USER_INTERACTIVE); policy->SetDelayedIntegrityLevel(sandbox::INTEGRITY_LEVEL_LOW); } else { policy->SetTokenLevel(sandbox::USER_UNPROTECTED, sandbox::USER_LIMITED); if (!AddKeyAndSubkeys(L"HKEY_LOCAL_MACHINE\\SOFTWARE", sandbox::TargetPolicy::REG_ALLOW_READONLY, policy)) return false; if (!AddKeyAndSubkeys(L"HKEY_LOCAL_MACHINE\\SYSTEM", sandbox::TargetPolicy::REG_ALLOW_READONLY, policy)) return false; if (!AddKeyAndSubkeys(L"HKEY_CURRENT_USER\\SOFTWARE", sandbox::TargetPolicy::REG_ALLOW_READONLY, policy)) return false; } AddDllEvictionPolicy(policy); return true; } // Returns true of the plugin specified in |cmd_line| is the built-in // flash plugin and optionally returns its full path in |flash_path| bool IsBuiltInFlash(const CommandLine* cmd_line, FilePath* flash_path) { std::wstring plugin_dll = cmd_line-> GetSwitchValueNative(switches::kPluginPath); FilePath builtin_flash; if (!PathService::Get(chrome::FILE_FLASH_PLUGIN, &builtin_flash)) return false; FilePath plugin_path(plugin_dll); if (plugin_path != builtin_flash) return false; if (flash_path) *flash_path = plugin_path; return true; } // Adds the custom policy rules for a given plugin. |trusted_plugins| contains // the comma separate list of plugin dll names that should not be sandboxed. bool AddPolicyForPlugin(CommandLine* cmd_line, sandbox::TargetPolicy* policy) { std::wstring plugin_dll = cmd_line-> GetSwitchValueNative(switches::kPluginPath); std::wstring trusted_plugins = CommandLine::ForCurrentProcess()-> GetSwitchValueNative(switches::kTrustedPlugins); // Add the policy for the pipes. sandbox::ResultCode result = sandbox::SBOX_ALL_OK; result = policy->AddRule(sandbox::TargetPolicy::SUBSYS_NAMED_PIPES, sandbox::TargetPolicy::NAMEDPIPES_ALLOW_ANY, L"\\\\.\\pipe\\chrome.*"); if (result != sandbox::SBOX_ALL_OK) { NOTREACHED(); return false; } // The built-in flash gets a custom, more restricted sandbox. FilePath flash_path; if (IsBuiltInFlash(cmd_line, &flash_path)) { // Spawn the flash broker and apply sandbox policy. if (!LoadFlashBroker(flash_path, cmd_line)) { // Could not start the broker, use a very weak policy instead. DLOG(WARNING) << "Failed to start flash broker"; return ApplyPolicyForTrustedPlugin(policy); } return ApplyPolicyForBuiltInFlashPlugin(policy); } PluginPolicyCategory policy_category = GetPolicyCategoryForPlugin(plugin_dll, trusted_plugins); switch (policy_category) { case PLUGIN_GROUP_TRUSTED: return ApplyPolicyForTrustedPlugin(policy); case PLUGIN_GROUP_UNTRUSTED: return ApplyPolicyForUntrustedPlugin(policy); default: NOTREACHED(); break; } return false; } // For the GPU process we gotten as far as USER_LIMITED. The next level // which is USER_RESTRICTED breaks both the DirectX backend and the OpenGL // backend. Note that the GPU process is connected to the interactive // desktop. // TODO(cpu): Lock down the sandbox more if possible. // TODO(apatrick): Use D3D9Ex to render windowless. bool AddPolicyForGPU(CommandLine*, sandbox::TargetPolicy* policy) { policy->SetJobLevel(sandbox::JOB_UNPROTECTED, 0); if (base::win::GetVersion() > base::win::VERSION_XP) { policy->SetTokenLevel(sandbox::USER_RESTRICTED_SAME_ACCESS, sandbox::USER_LIMITED); policy->SetDelayedIntegrityLevel(sandbox::INTEGRITY_LEVEL_LOW); } else { policy->SetTokenLevel(sandbox::USER_UNPROTECTED, sandbox::USER_LIMITED); } AddDllEvictionPolicy(policy); return true; } void AddPolicyForRenderer(sandbox::TargetPolicy* policy, bool* on_sandbox_desktop) { policy->SetJobLevel(sandbox::JOB_LOCKDOWN, 0); 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); policy->SetDelayedIntegrityLevel(sandbox::INTEGRITY_LEVEL_LOW); bool use_winsta = !CommandLine::ForCurrentProcess()->HasSwitch( switches::kDisableAltWinstation); if (sandbox::SBOX_ALL_OK == policy->SetAlternateDesktop(use_winsta)) { *on_sandbox_desktop = true; } else { *on_sandbox_desktop = false; DLOG(WARNING) << "Failed to apply desktop security to the renderer"; } AddDllEvictionPolicy(policy); } } // namespace namespace sandbox { void InitBrokerServices(sandbox::BrokerServices* broker_services) { // TODO(abarth): DCHECK(CalledOnValidThread()); // See . CHECK(broker_services); CHECK(!g_broker_services); broker_services->Init(); g_broker_services = broker_services; } base::ProcessHandle StartProcessWithAccess(CommandLine* cmd_line, const FilePath& exposed_dir) { base::ProcessHandle process = 0; const CommandLine& browser_command_line = *CommandLine::ForCurrentProcess(); ChildProcessInfo::ProcessType type; std::string type_str = cmd_line->GetSwitchValueASCII(switches::kProcessType); if (type_str == switches::kRendererProcess) { type = ChildProcessInfo::RENDER_PROCESS; } else if (type_str == switches::kExtensionProcess) { // Extensions are just renderers with another name. type = ChildProcessInfo::RENDER_PROCESS; } else if (type_str == switches::kPluginProcess) { type = ChildProcessInfo::PLUGIN_PROCESS; } else if (type_str == switches::kWorkerProcess) { type = ChildProcessInfo::WORKER_PROCESS; } else if (type_str == switches::kNaClLoaderProcess) { type = ChildProcessInfo::NACL_LOADER_PROCESS; } else if (type_str == switches::kUtilityProcess) { type = ChildProcessInfo::UTILITY_PROCESS; } else if (type_str == switches::kNaClBrokerProcess) { type = ChildProcessInfo::NACL_BROKER_PROCESS; } else if (type_str == switches::kGpuProcess) { type = ChildProcessInfo::GPU_PROCESS; } else if (type_str == switches::kPpapiPluginProcess) { type = ChildProcessInfo::PPAPI_PLUGIN_PROCESS; } else { NOTREACHED(); return 0; } TRACE_EVENT_BEGIN("StartProcessWithAccess", 0, type_str); // To decide if the process is going to be sandboxed we have two cases. // First case: all process types except the nacl broker, and the plugin // process are sandboxed by default. bool in_sandbox = (type != ChildProcessInfo::NACL_BROKER_PROCESS) && (type != ChildProcessInfo::PLUGIN_PROCESS); // Second case: If it is the plugin process then it depends on it being // the built-in flash, the user forcing plugins into sandbox or the // the user explicitly excluding flash from the sandbox. if (!in_sandbox && (type == ChildProcessInfo::PLUGIN_PROCESS)) { in_sandbox = browser_command_line.HasSwitch(switches::kSafePlugins) || (IsBuiltInFlash(cmd_line, NULL) && (base::win::GetVersion() > base::win::VERSION_XP) && !browser_command_line.HasSwitch(switches::kDisableFlashSandbox)); } // Third case: If it is the GPU process then it can be disabled by a // command line flag. if ((type == ChildProcessInfo::GPU_PROCESS) && (browser_command_line.HasSwitch(switches::kDisableGpuSandbox))) { in_sandbox = false; VLOG(1) << "GPU sandbox is disabled"; } if (browser_command_line.HasSwitch(switches::kNoSandbox)) { // The user has explicity opted-out from all sandboxing. in_sandbox = false; } #if !defined (GOOGLE_CHROME_BUILD) if (browser_command_line.HasSwitch(switches::kInProcessPlugins)) { // In process plugins won't work if the sandbox is enabled. in_sandbox = false; } #endif if (!browser_command_line.HasSwitch(switches::kDisable3DAPIs) && !browser_command_line.HasSwitch(switches::kDisableExperimentalWebGL) && browser_command_line.HasSwitch(switches::kInProcessWebGL)) { // In process WebGL won't work if the sandbox is enabled. in_sandbox = false; } // Propagate the Chrome Frame flag to sandboxed processes if present. if (browser_command_line.HasSwitch(switches::kChromeFrame)) { if (!cmd_line->HasSwitch(switches::kChromeFrame)) { cmd_line->AppendSwitch(switches::kChromeFrame); } } bool child_needs_help = DebugFlags::ProcessDebugFlags(cmd_line, type, in_sandbox); // 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", type)); if (!in_sandbox) { base::LaunchApp(*cmd_line, false, false, &process); return process; } sandbox::ResultCode result; PROCESS_INFORMATION target = {0}; sandbox::TargetPolicy* policy = g_broker_services->CreatePolicy(); bool on_sandbox_desktop = false; if (type == ChildProcessInfo::PLUGIN_PROCESS) { if (!AddPolicyForPlugin(cmd_line, policy)) return 0; } else if (type == ChildProcessInfo::GPU_PROCESS) { if (!AddPolicyForGPU(cmd_line, policy)) return 0; } else { AddPolicyForRenderer(policy, &on_sandbox_desktop); 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 "); } } 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 0; 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 0; } if (!AddGenericPolicy(policy)) { NOTREACHED(); return 0; } TRACE_EVENT_BEGIN("StartProcessWithAccess::LAUNCHPROCESS", 0, 0); result = g_broker_services->SpawnTarget( cmd_line->GetProgram().value().c_str(), cmd_line->command_line_string().c_str(), policy, &target); policy->Release(); TRACE_EVENT_END("StartProcessWithAccess::LAUNCHPROCESS", 0, 0); if (sandbox::SBOX_ALL_OK != result) return 0; ResumeThread(target.hThread); CloseHandle(target.hThread); process = target.hProcess; // Help the process a little. It can't start the debugger by itself if // the process is in a sandbox. if (child_needs_help) base::debug::SpawnDebuggerOnProcess(target.dwProcessId); return process; } } // namespace sandbox