// 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. // chrome_tab.cc : Implementation of DLL Exports. // Need to include this before the ATL headers below. #include "chrome_frame/chrome_tab.h" #include #include #include "base/at_exit.h" #include "base/command_line.h" #include "base/file_util.h" #include "base/file_version_info.h" #include "base/logging.h" #include "base/logging_win.h" #include "base/metrics/field_trial.h" #include "base/path_service.h" #include "base/string16.h" #include "base/string_number_conversions.h" #include "base/string_piece.h" #include "base/string_util.h" #include "base/sys_string_conversions.h" #include "base/utf_string_conversions.h" #include "base/win/registry.h" #include "base/win/windows_version.h" #include "chrome/common/chrome_constants.h" #include "chrome/common/chrome_switches.h" #include "chrome/common/metrics/entropy_provider.h" #include "chrome/installer/util/google_update_settings.h" #include "chrome_frame/bho.h" #include "chrome_frame/chrome_active_document.h" #include "chrome_frame/chrome_frame_activex.h" #include "chrome_frame/chrome_frame_automation.h" #include "chrome_frame/chrome_frame_reporting.h" #include "chrome_frame/chrome_launcher_utils.h" #include "chrome_frame/chrome_protocol.h" #include "chrome_frame/dll_redirector.h" #include "chrome_frame/exception_barrier.h" #include "chrome_frame/metrics_service.h" #include "chrome_frame/resource.h" #include "chrome_frame/utils.h" #include "googleurl/src/url_util.h" #include "grit/chrome_frame_resources.h" using base::win::RegKey; namespace { // This function has the side effect of initializing an unprotected // vector pointer inside GoogleUrl. If this is called during DLL loading, // it has the effect of avoiding an initialization race on that pointer. // TODO(siggi): fix GoogleUrl. void InitGoogleUrl() { static const char kDummyUrl[] = "http://www.google.com"; url_util::IsStandard(kDummyUrl, url_parse::MakeRange(0, arraysize(kDummyUrl))); } const wchar_t kInternetSettings[] = L"Software\\Microsoft\\Windows\\CurrentVersion\\Internet Settings"; const wchar_t kProtocolHandlers[] = L"Software\\Classes\\Protocols\\Handler"; const wchar_t kRunOnce[] = L"Software\\Microsoft\\Windows\\CurrentVersion\\RunOnce"; const wchar_t kRunKeyName[] = L"ChromeFrameHelper"; const wchar_t kChromeFrameHelperExe[] = L"chrome_frame_helper.exe"; const wchar_t kChromeFrameHelperStartupArg[] = L"--startup"; // Window class and window names. // TODO(robertshield): These and other constants need to be refactored into // a common chrome_frame_constants.h|cc and built into a separate lib // (either chrome_frame_utils or make another one). const wchar_t kChromeFrameHelperWindowClassName[] = L"ChromeFrameHelperWindowClass"; const wchar_t kChromeFrameHelperWindowName[] = L"ChromeFrameHelperWindowName"; // {0562BFC3-2550-45b4-BD8E-A310583D3A6F} static const GUID kChromeFrameProvider = { 0x562bfc3, 0x2550, 0x45b4, { 0xbd, 0x8e, 0xa3, 0x10, 0x58, 0x3d, 0x3a, 0x6f } }; const wchar_t kPostPlatformUAKey[] = L"Software\\Microsoft\\Windows\\CurrentVersion\\Internet Settings\\" L"User Agent\\Post Platform"; const wchar_t kChromeFramePrefix[] = L"chromeframe/"; // See comments in DllGetClassObject. LPFNGETCLASSOBJECT g_dll_get_class_object_redir_ptr = NULL; class ChromeTabModule : public CAtlDllModuleT { public: typedef CAtlDllModuleT ParentClass; ChromeTabModule() : do_system_registration_(true) {} DECLARE_LIBID(LIBID_ChromeTabLib) DECLARE_REGISTRY_APPID_RESOURCEID(IDR_CHROMETAB, "{FD9B1B31-F4D8-436A-8F4F-D3C2E36733D3}") // Override to add our SYSTIME binary value to registry scripts. // See chrome_frame_activex.rgs for usage. virtual HRESULT AddCommonRGSReplacements(IRegistrarBase* registrar) throw() { HRESULT hr = ParentClass::AddCommonRGSReplacements(registrar); if (SUCCEEDED(hr)) { SYSTEMTIME local_time; ::GetSystemTime(&local_time); std::string hex(base::HexEncode(&local_time, sizeof(local_time))); base::StringPiece sp_hex(hex); hr = registrar->AddReplacement(L"SYSTIME", base::SysNativeMBToWide(sp_hex).c_str()); DCHECK(SUCCEEDED(hr)); } if (SUCCEEDED(hr)) { base::FilePath app_path = chrome_launcher::GetChromeExecutablePath().DirName(); hr = registrar->AddReplacement(L"CHROME_APPPATH", app_path.value().c_str()); DCHECK(SUCCEEDED(hr)); } if (SUCCEEDED(hr)) { hr = registrar->AddReplacement(L"CHROME_APPNAME", chrome::kBrowserProcessExecutableName); DCHECK(SUCCEEDED(hr)); // Fill in VERSION from the VERSIONINFO stored in the DLL's resources. scoped_ptr module_version_info( FileVersionInfo::CreateFileVersionInfoForCurrentModule()); DCHECK(module_version_info != NULL); std::wstring file_version(module_version_info->file_version()); hr = registrar->AddReplacement(L"VERSION", file_version.c_str()); DCHECK(SUCCEEDED(hr)); } if (SUCCEEDED(hr)) { // Add the directory of chrome_launcher.exe. This will be the same // as the directory for the current DLL. std::wstring module_dir; base::FilePath module_path; if (PathService::Get(base::FILE_MODULE, &module_path)) { module_dir = module_path.DirName().value(); } else { NOTREACHED(); } hr = registrar->AddReplacement(L"CHROME_LAUNCHER_APPPATH", module_dir.c_str()); DCHECK(SUCCEEDED(hr)); } if (SUCCEEDED(hr)) { // Add the filename of chrome_launcher.exe hr = registrar->AddReplacement(L"CHROME_LAUNCHER_APPNAME", chrome_launcher::kLauncherExeBaseName); DCHECK(SUCCEEDED(hr)); } if (SUCCEEDED(hr)) { // Add the registry hive to use. // Note: This is ugly as hell. I'd rather use the pMapEntries parameter // to CAtlModule::UpdateRegistryFromResource, unfortunately we have a // few components that are registered by calling their // static T::UpdateRegistry() methods directly, which doesn't allow // pMapEntries to be passed through :-( if (do_system_registration_) { hr = registrar->AddReplacement(L"HIVE", L"HKLM"); } else { hr = registrar->AddReplacement(L"HIVE", L"HKCU"); } DCHECK(SUCCEEDED(hr)); } if (SUCCEEDED(hr)) { // Add the Chrome Frame CLSID. wchar_t cf_clsid[64]; StringFromGUID2(CLSID_ChromeFrame, &cf_clsid[0], arraysize(cf_clsid)); hr = registrar->AddReplacement(L"CHROME_FRAME_CLSID", &cf_clsid[0]); } return hr; } // See comments in AddCommonRGSReplacements bool do_system_registration_; }; ChromeTabModule _AtlModule; base::AtExitManager* g_exit_manager = NULL; base::FieldTrialList* g_field_trial_list = NULL; HRESULT RefreshElevationPolicy() { const wchar_t kIEFrameDll[] = L"ieframe.dll"; const char kIERefreshPolicy[] = "IERefreshElevationPolicy"; HRESULT hr = E_NOTIMPL; // Stick an SEH in the chain to prevent the VEH from picking up on first // chance exceptions caused by loading ieframe.dll. Use the vanilla // ExceptionBarrier to report any exceptions that do make their way to us // though. ExceptionBarrier barrier; HMODULE ieframe_module = LoadLibrary(kIEFrameDll); if (ieframe_module) { typedef HRESULT (__stdcall *IERefreshPolicy)(); IERefreshPolicy ie_refresh_policy = reinterpret_cast( GetProcAddress(ieframe_module, kIERefreshPolicy)); if (ie_refresh_policy) { hr = ie_refresh_policy(); } else { hr = HRESULT_FROM_WIN32(GetLastError()); } FreeLibrary(ieframe_module); } else { hr = HRESULT_FROM_WIN32(GetLastError()); } return hr; } // Experimental boot prefetch optimization for Chrome Frame // // If chrome is warmed up during a single reboot, it gets paged // in for subsequent reboots and the cold startup times essentially // look like warm times thereafter! The 'warm up' is done by // setting up a 'RunOnce' key during DLLRegisterServer of // npchrome_frame.dll. // // This works because chrome prefetch becomes part of boot // prefetch file ntosboot-b00dfaad.pf and paged in on subsequent // reboots. As long as the sytem does not undergo significant // memory pressure those pages remain in memory and we get pretty // amazing startup times, down to about 300 ms from 1200 ms // // The downside is: // - Whether chrome frame is used or not, there's a read penalty // (1200-300 =) 900 ms for every boot. // - Heavy system memory usage after reboot will nullify the benefits // but the user will still pay the cost. // - Overall the time saved will always be less than total time spent // paging in chrome // - We are not sure when the chrome 'warm up' will age out from the // boot prefetch file. // // The idea here is to try this out on chrome frame dev channel // and see if it produces a significant drift in startup numbers. HRESULT SetupRunOnce() { HRESULT result = E_FAIL; string16 channel_name; if (base::win::GetVersion() < base::win::VERSION_VISTA && GoogleUpdateSettings::GetChromeChannelAndModifiers(true, &channel_name)) { std::transform(channel_name.begin(), channel_name.end(), channel_name.begin(), tolower); // Use this only for the dev channel. if (channel_name.find(L"dev") != string16::npos) { HKEY hive = HKEY_CURRENT_USER; if (IsSystemProcess()) { // For system installs, our updates will be running as SYSTEM which // makes writing to a RunOnce key under HKCU not so terribly useful. hive = HKEY_LOCAL_MACHINE; } RegKey run_once; LONG ret = run_once.Create(hive, kRunOnce, KEY_READ | KEY_WRITE); if (ret == ERROR_SUCCESS) { CommandLine run_once_cmd(chrome_launcher::GetChromeExecutablePath()); run_once_cmd.AppendSwitchASCII(switches::kAutomationClientChannelID, "0"); run_once_cmd.AppendSwitch(switches::kChromeFrame); ret = run_once.WriteValue(L"A", run_once_cmd.GetCommandLineString().c_str()); } result = HRESULT_FROM_WIN32(ret); } else { result = S_FALSE; } } else { // We're on a non-XP version of Windows or on a stable channel. Nothing // needs doing. result = S_FALSE; } return result; } // Helper method called for user-level installs where we don't have admin // permissions. Starts up the long running process and registers it to get it // started at next boot. HRESULT SetupUserLevelHelper() { HRESULT hr = S_OK; // Remove existing run-at-startup entry. base::win::RemoveCommandFromAutoRun(HKEY_CURRENT_USER, kRunKeyName); // Build the chrome_frame_helper command line. base::FilePath module_path; base::FilePath helper_path; if (PathService::Get(base::FILE_MODULE, &module_path)) { module_path = module_path.DirName(); helper_path = module_path.Append(kChromeFrameHelperExe); if (!file_util::PathExists(helper_path)) { // If we can't find the helper in the current directory, try looking // one up (this is the layout in the build output folder). module_path = module_path.DirName(); helper_path = module_path.Append(kChromeFrameHelperExe); DCHECK(file_util::PathExists(helper_path)) << "Could not find chrome_frame_helper.exe."; } // Find window handle of existing instance. HWND old_window = FindWindow(kChromeFrameHelperWindowClassName, kChromeFrameHelperWindowName); if (file_util::PathExists(helper_path)) { std::wstring helper_path_cmd(L"\""); helper_path_cmd += helper_path.value(); helper_path_cmd += L"\" "; helper_path_cmd += kChromeFrameHelperStartupArg; // Add new run-at-startup entry. if (!base::win::AddCommandToAutoRun(HKEY_CURRENT_USER, kRunKeyName, helper_path_cmd)) { hr = E_FAIL; LOG(ERROR) << "Could not add helper process to auto run key."; } // Start new instance. base::LaunchOptions options; options.start_hidden = true; bool launched = base::LaunchProcess(helper_path.value(), options, NULL); if (!launched) { hr = E_FAIL; PLOG(DFATAL) << "Could not launch helper process."; } // Kill old instance using window handle. if (IsWindow(old_window)) { BOOL result = PostMessage(old_window, WM_CLOSE, 0, 0); if (!result) { PLOG(ERROR) << "Failed to post close message to old helper process: "; } } } else { hr = HRESULT_FROM_WIN32(ERROR_FILE_NOT_FOUND); } } else { hr = E_UNEXPECTED; NOTREACHED(); } return hr; } // To delete the user agent, set value to NULL. // The is_system parameter indicates whether this is a per machine or a per // user installation. HRESULT SetChromeFrameUA(bool is_system, const wchar_t* value) { HRESULT hr = E_FAIL; HKEY parent_hive = is_system ? HKEY_LOCAL_MACHINE : HKEY_CURRENT_USER; RegKey ua_key; LONG reg_result = ua_key.Create(parent_hive, kPostPlatformUAKey, KEY_READ | KEY_WRITE); if (reg_result == ERROR_SUCCESS) { // Make sure that we unregister ChromeFrame UA strings registered previously wchar_t value_name[MAX_PATH + 1] = {}; wchar_t value_data[MAX_PATH + 1] = {}; DWORD value_index = 0; while (value_index < ua_key.GetValueCount()) { DWORD name_size = arraysize(value_name); DWORD value_size = arraysize(value_data); DWORD type = 0; LRESULT ret = ::RegEnumValue(ua_key.Handle(), value_index, value_name, &name_size, NULL, &type, reinterpret_cast(value_data), &value_size); if (ret == ERROR_SUCCESS) { if (StartsWith(value_name, kChromeFramePrefix, false)) { ua_key.DeleteValue(value_name); } else { ++value_index; } } else { break; } } std::wstring chrome_frame_ua_value_name = kChromeFramePrefix; chrome_frame_ua_value_name += GetCurrentModuleVersion(); if (value) { ua_key.WriteValue(chrome_frame_ua_value_name.c_str(), value); } hr = S_OK; } else { DLOG(ERROR) << __FUNCTION__ << ": " << kPostPlatformUAKey << ", error code = " << reg_result; hr = HRESULT_FROM_WIN32(reg_result); } return hr; } class SecurityDescBackup { public: explicit SecurityDescBackup(const std::wstring& backup_key) : backup_key_name_(backup_key) {} ~SecurityDescBackup() {} // Save given security descriptor to the backup key. bool SaveSecurity(const CSecurityDesc& sd) { CString str; if (!sd.ToString(&str)) return false; RegKey backup_key(HKEY_LOCAL_MACHINE, backup_key_name_.c_str(), KEY_READ | KEY_WRITE); if (backup_key.Valid()) { return backup_key.WriteValue(NULL, str.GetString()) == ERROR_SUCCESS; } return false; } // Restore security descriptor from backup key to given key name. bool RestoreSecurity(const wchar_t* key_name) { std::wstring sddl; if (!ReadBackupKey(&sddl)) return false; // Create security descriptor from string. CSecurityDesc sd; if (!sd.FromString(sddl.c_str())) return false; bool result = true; // Restore DACL and Owner of the key from saved security descriptor. CDacl dacl; CSid owner; sd.GetDacl(&dacl); sd.GetOwner(&owner); DWORD error = ::SetNamedSecurityInfo(const_cast(key_name), SE_REGISTRY_KEY, OWNER_SECURITY_INFORMATION | DACL_SECURITY_INFORMATION, const_cast(owner.GetPSID()), NULL, const_cast(dacl.GetPACL()), NULL); DeleteBackupKey(); return (error == ERROR_SUCCESS); } private: // Read SDDL string from backup key bool ReadBackupKey(std::wstring* sddl) { RegKey backup_key(HKEY_LOCAL_MACHINE, backup_key_name_.c_str(), KEY_READ); if (!backup_key.Valid()) return false; DWORD len = 0; DWORD reg_type = REG_NONE; if (backup_key.ReadValue(NULL, NULL, &len, ®_type) != ERROR_SUCCESS) return false; DCHECK_EQ(0u, len % sizeof(wchar_t)); if ((len == 0) || (reg_type != REG_SZ)) return false; size_t wchar_count = 1 + len / sizeof(wchar_t); if (backup_key.ReadValue(NULL, WriteInto(sddl, wchar_count), &len, ®_type) != ERROR_SUCCESS) { return false; } return true; } void DeleteBackupKey() { ::RegDeleteKey(HKEY_LOCAL_MACHINE, backup_key_name_.c_str()); } std::wstring backup_key_name_; }; struct TokenWithPrivileges { TokenWithPrivileges() { token_.GetEffectiveToken(TOKEN_ADJUST_PRIVILEGES | TOKEN_QUERY); token_.GetUser(&user_); } ~TokenWithPrivileges() { token_.EnableDisablePrivileges(take_ownership_); token_.EnableDisablePrivileges(restore_); } bool EnablePrivileges() { if (take_ownership_.GetCount() == 0) if (!token_.EnablePrivilege(L"SeTakeOwnershipPrivilege", &take_ownership_)) return false; if (restore_.GetCount() == 0) if (!token_.EnablePrivilege(L"SeRestorePrivilege", &restore_)) return false; return true; } const CSid& GetUser() const { return user_; } private: CAccessToken token_; CTokenPrivileges take_ownership_; CTokenPrivileges restore_; CSid user_; }; HRESULT SetOrDeleteMimeHandlerKey(bool set, HKEY root_key) { std::wstring key_name = kInternetSettings; key_name.append(L"\\Secure Mime Handlers"); RegKey key(root_key, key_name.c_str(), KEY_READ | KEY_WRITE); if (!key.Valid()) return false; LONG result1 = ERROR_SUCCESS; LONG result2 = ERROR_SUCCESS; if (set) { result1 = key.WriteValue(L"ChromeTab.ChromeActiveDocument", 1); result2 = key.WriteValue(L"ChromeTab.ChromeActiveDocument.1", 1); } else { result1 = key.DeleteValue(L"ChromeTab.ChromeActiveDocument"); result2 = key.DeleteValue(L"ChromeTab.ChromeActiveDocument.1"); } return result1 != ERROR_SUCCESS ? HRESULT_FROM_WIN32(result1) : HRESULT_FROM_WIN32(result2); } // Chrome Frame registration functions. //----------------------------------------------------------------------------- HRESULT RegisterSecuredMimeHandler(bool enable, bool is_system) { if (!is_system) { return SetOrDeleteMimeHandlerKey(enable, HKEY_CURRENT_USER); } else if (base::win::GetVersion() < base::win::VERSION_VISTA) { return SetOrDeleteMimeHandlerKey(enable, HKEY_LOCAL_MACHINE); } std::wstring mime_key = kInternetSettings; mime_key.append(L"\\Secure Mime Handlers"); std::wstring backup_key = kInternetSettings; backup_key.append(L"\\__backup_SMH__"); std::wstring object_name = L"MACHINE\\"; object_name.append(mime_key); TokenWithPrivileges token_; if (!token_.EnablePrivileges()) return E_ACCESSDENIED; // If there is a backup key - something bad happened; try to restore // security on "Secure Mime Handlers" from the backup. SecurityDescBackup backup(backup_key); backup.RestoreSecurity(object_name.c_str()); // Read old security descriptor of the Mime key first. CSecurityDesc sd; if (!AtlGetSecurityDescriptor(object_name.c_str(), SE_REGISTRY_KEY, &sd)) { return E_FAIL; } backup.SaveSecurity(sd); HRESULT hr = E_FAIL; // set new owner if (AtlSetOwnerSid(object_name.c_str(), SE_REGISTRY_KEY, token_.GetUser())) { // set new dacl CDacl new_dacl; sd.GetDacl(&new_dacl); new_dacl.AddAllowedAce(token_.GetUser(), GENERIC_WRITE | GENERIC_READ); if (AtlSetDacl(object_name.c_str(), SE_REGISTRY_KEY, new_dacl)) { hr = SetOrDeleteMimeHandlerKey(enable, HKEY_LOCAL_MACHINE); } } backup.RestoreSecurity(object_name.c_str()); return hr; } HRESULT RegisterActiveDoc(bool reg, bool is_system) { // We have to call the static T::UpdateRegistry function instead of // _AtlModule.UpdateRegistryFromResourceS(IDR_CHROMEFRAME_ACTIVEDOC, reg) // because there is specific OLEMISC replacement. return ChromeActiveDocument::UpdateRegistry(reg); } HRESULT RegisterActiveX(bool reg, bool is_system) { // We have to call the static T::UpdateRegistry function instead of // _AtlModule.UpdateRegistryFromResourceS(IDR_CHROMEFRAME_ACTIVEX, reg) // because there is specific OLEMISC replacement. return ChromeFrameActivex::UpdateRegistry(reg); } HRESULT RegisterElevationPolicy(bool reg, bool is_system) { HRESULT hr = S_OK; if (base::win::GetVersion() >= base::win::VERSION_VISTA) { // Register the elevation policy. This must succeed for Chrome Frame to // be able launch Chrome when running in low-integrity IE. hr = _AtlModule.UpdateRegistryFromResourceS(IDR_CHROMEFRAME_ELEVATION, reg); if (SUCCEEDED(hr)) { // Ignore failures since old versions of IE 7 (e.g., 7.0.6000.16386, which // shipped with Vista RTM) do not export IERefreshElevationPolicy. RefreshElevationPolicy(); } } return hr; } HRESULT RegisterProtocol(bool reg, bool is_system) { return _AtlModule.UpdateRegistryFromResourceS(IDR_CHROMEPROTOCOL, reg); } HRESULT RegisterBhoClsid(bool reg, bool is_system) { return Bho::UpdateRegistry(reg); } HRESULT RegisterBhoIE(bool reg, bool is_system) { if (is_system) { return _AtlModule.UpdateRegistryFromResourceS(IDR_REGISTER_BHO, reg); } else { if (reg) { // Setup the long running process: return SetupUserLevelHelper(); } else { // Unschedule the user-level helper. Note that we don't kill it here // so that during updates we don't have a time window with no running // helper. Uninstalls and updates will explicitly kill the helper from // within the installer. Unregister existing run-at-startup entry. return base::win::RemoveCommandFromAutoRun(HKEY_CURRENT_USER, kRunKeyName) ? S_OK : E_FAIL; } } } HRESULT RegisterTypeLib(bool reg, bool is_system) { if (reg && !is_system) { // Enables the RegisterTypeLib Function function to override default // registry mappings under Windows Vista Service Pack 1 (SP1), // Windows Server 2008, and later operating system versions typedef void (WINAPI* OaEnablePerUserTypeLibReg)(void); OaEnablePerUserTypeLibReg per_user_typelib_func = reinterpret_cast( GetProcAddress(GetModuleHandle(L"oleaut32.dll"), "OaEnablePerUserTLibRegistration")); if (per_user_typelib_func) { (*per_user_typelib_func)(); } } return reg ? UtilRegisterTypeLib(_AtlComModule.m_hInstTypeLib, NULL, !is_system) : UtilUnRegisterTypeLib(_AtlComModule.m_hInstTypeLib, NULL, !is_system); } HRESULT RegisterLegacyNPAPICleanup(bool reg, bool is_system) { if (!reg) { _AtlModule.UpdateRegistryFromResourceS(IDR_CHROMEFRAME_NPAPI, reg); UtilRemovePersistentNPAPIMarker(); } // Ignore failures. return S_OK; } HRESULT RegisterAppId(bool reg, bool is_system) { return _AtlModule.UpdateRegistryAppId(reg); } HRESULT RegisterUserAgent(bool reg, bool is_system) { if (reg) { return SetChromeFrameUA(is_system, L"1"); } else { return SetChromeFrameUA(is_system, NULL); } } enum RegistrationStepId { kStepSecuredMimeHandler = 0, kStepActiveDoc = 1, kStepActiveX = 2, kStepElevationPolicy = 3, kStepProtocol = 4, kStepBhoClsid = 5, kStepBhoRegistration = 6, kStepRegisterTypeLib = 7, kStepNpapiCleanup = 8, kStepAppId = 9, kStepUserAgent = 10, kStepEnd = 11 }; enum RegistrationFlags { ACTIVEX = 0x0001, ACTIVEDOC = 0x0002, GCF_PROTOCOL = 0x0004, BHO_CLSID = 0x0008, BHO_REGISTRATION = 0x0010, TYPELIB = 0x0020, ALL = 0xFFFF }; // Mux the failure step into the hresult. We take only the first four bits // and stick those into the top four bits of the facility code. We also set the // Customer bit to be polite. Graphically, we write our error code to the // bits marked with ^: // 3 3 2 2 2 2 2 2 2 2 2 2 1 1 1 1 1 1 1 1 1 1 // 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 // +---+-+-+-----------------------+-------------------------------+ // |Sev|C|R| Facility | Code | // +---+-+-+-----------------------+-------------------------------+ // ^ ^ ^ ^ ^ // See http://msdn.microsoft.com/en-us/library/cc231198(PROT.10).aspx for // more details on HRESULTS. // // The resulting error can be extracted by: // error_code = (fiddled_hr & 0x07800000) >> 23 HRESULT MuxErrorIntoHRESULT(HRESULT hr, int error_code) { DCHECK_GE(error_code, 0); DCHECK_LT(error_code, kStepEnd); COMPILE_ASSERT(kStepEnd <= 0xF, update_error_muxing_too_many_steps); // Check that our four desired bits are clear. // 0xF87FFFFF == 11111000011111111111111111111111 DCHECK_EQ(static_cast(hr & 0xF87FFFFF), hr); HRESULT fiddled_hr = ((error_code & 0xF) << 23) | hr; fiddled_hr |= 1 << 29; // Set the customer bit. return fiddled_hr; } HRESULT CustomRegistration(uint16 reg_flags, bool reg, bool is_system) { if (reg && (reg_flags & (ACTIVEDOC | ACTIVEX))) reg_flags |= (TYPELIB | GCF_PROTOCOL); // Set the flag that gets checked in AddCommonRGSReplacements before doing // registration work. _AtlModule.do_system_registration_ = is_system; typedef HRESULT (*RegistrationFn)(bool reg, bool is_system); struct RegistrationStep { RegistrationStepId id; uint16 condition; RegistrationFn func; }; static const RegistrationStep registration_steps[] = { { kStepSecuredMimeHandler, ACTIVEDOC, &RegisterSecuredMimeHandler }, { kStepActiveDoc, ACTIVEDOC, &RegisterActiveDoc }, { kStepActiveX, ACTIVEX, &RegisterActiveX }, { kStepElevationPolicy, (ACTIVEDOC | ACTIVEX), &RegisterElevationPolicy }, { kStepProtocol, GCF_PROTOCOL, &RegisterProtocol }, { kStepBhoClsid, BHO_CLSID, &RegisterBhoClsid }, { kStepBhoRegistration, BHO_REGISTRATION, &RegisterBhoIE }, { kStepRegisterTypeLib, TYPELIB, &RegisterTypeLib }, { kStepNpapiCleanup, ALL, &RegisterLegacyNPAPICleanup }, { kStepAppId, ALL, &RegisterAppId }, { kStepUserAgent, ALL, &RegisterUserAgent } }; HRESULT hr = S_OK; bool rollback = false; int failure_step = 0; HRESULT step_hr = S_OK; for (int step = 0; step < arraysize(registration_steps); ++step) { if ((reg_flags & registration_steps[step].condition) != 0) { step_hr = registration_steps[step].func(reg, is_system); if (FAILED(step_hr)) { // Store only the first failing HRESULT with the step value muxed in. if (hr == S_OK) { hr = MuxErrorIntoHRESULT(step_hr, step); } // On registration if a step fails, we abort and rollback. if (reg) { rollback = true; failure_step = step; break; } } } } if (rollback) { DCHECK(reg); // Rollback the failing action and all preceding ones. for (int step = failure_step; step >= 0; --step) { registration_steps[step].func(!reg, is_system); } } return hr; } } // namespace // DLL Entry Point extern "C" BOOL WINAPI DllMain(HINSTANCE instance, DWORD reason, LPVOID reserved) { UNREFERENCED_PARAMETER(instance); if (reason == DLL_PROCESS_ATTACH) { #ifndef NDEBUG // Silence traces from the ATL registrar to reduce the log noise. ATL::CTrace::s_trace.ChangeCategory(atlTraceRegistrar, 0, ATLTRACESTATUS_DISABLED); #endif InitGoogleUrl(); g_exit_manager = new base::AtExitManager(); CommandLine::Init(0, NULL); InitializeCrashReporting(); logging::InitLogging( NULL, logging::LOG_ONLY_TO_SYSTEM_DEBUG_LOG, logging::LOCK_LOG_FILE, logging::DELETE_OLD_LOG_FILE, logging::DISABLE_DCHECK_FOR_NON_OFFICIAL_RELEASE_BUILDS); // Log the same items as Chrome. logging::SetLogItems(true, // enable_process_id true, // enable_thread_id false, // enable_timestamp true); // enable_tickcount DllRedirector* dll_redirector = DllRedirector::GetInstance(); DCHECK(dll_redirector); if (!dll_redirector->RegisterAsFirstCFModule()) { // Someone else was here first, try and get a pointer to their // DllGetClassObject export: g_dll_get_class_object_redir_ptr = dll_redirector->GetDllGetClassObjectPtr(); DCHECK(g_dll_get_class_object_redir_ptr != NULL) << "Found CF module with no DllGetClassObject export."; } // Enable trace control and transport through event tracing for Windows. logging::LogEventProvider::Initialize(kChromeFrameProvider); // Initialize the field test infrastructure. Must be done somewhere that // can only get called once. For Chrome Frame, that is here. g_field_trial_list = new base::FieldTrialList( new metrics::SHA1EntropyProvider(MetricsService::GetClientID())); } else if (reason == DLL_PROCESS_DETACH) { delete g_field_trial_list; g_field_trial_list = NULL; DllRedirector* dll_redirector = DllRedirector::GetInstance(); DCHECK(dll_redirector); dll_redirector->UnregisterAsFirstCFModule(); g_patch_helper.UnpatchIfNeeded(); delete g_exit_manager; g_exit_manager = NULL; ShutdownCrashReporting(); } return _AtlModule.DllMain(reason, reserved); } // Used to determine whether the DLL can be unloaded by OLE STDAPI DllCanUnloadNow() { return _AtlModule.DllCanUnloadNow(); } // Returns a class factory to create an object of the requested type STDAPI DllGetClassObject(REFCLSID rclsid, REFIID riid, LPVOID* ppv) { // If we found another module present when we were loaded, then delegate to // that: if (g_dll_get_class_object_redir_ptr) { return g_dll_get_class_object_redir_ptr(rclsid, riid, ppv); } // Enable sniffing and switching only if asked for BHO // (we use BHO to get loaded in IE). if (rclsid == CLSID_ChromeFrameBHO) { g_patch_helper.InitializeAndPatchProtocolsIfNeeded(); } return _AtlModule.DllGetClassObject(rclsid, riid, ppv); } // DllRegisterServer - Adds entries to the system registry STDAPI DllRegisterServer() { uint16 flags = ACTIVEX | ACTIVEDOC | TYPELIB | GCF_PROTOCOL | BHO_CLSID | BHO_REGISTRATION; HRESULT hr = CustomRegistration(flags, true, true); if (SUCCEEDED(hr)) { SetupRunOnce(); } return hr; } // DllUnregisterServer - Removes entries from the system registry STDAPI DllUnregisterServer() { HRESULT hr = CustomRegistration(ALL, false, true); return hr; } // DllRegisterUserServer - Adds entries to the HKCU hive in the registry. STDAPI DllRegisterUserServer() { UINT flags = ACTIVEX | ACTIVEDOC | TYPELIB | GCF_PROTOCOL | BHO_CLSID | BHO_REGISTRATION; HRESULT hr = CustomRegistration(flags, TRUE, false); if (SUCCEEDED(hr)) { SetupRunOnce(); } return hr; } // DllUnregisterUserServer - Removes entries from the HKCU hive in the registry. STDAPI DllUnregisterUserServer() { HRESULT hr = CustomRegistration(ALL, FALSE, false); return hr; } // Object entries go here instead of with each object, so that we can move // the objects to a lib. Also reduces magic. OBJECT_ENTRY_AUTO(CLSID_ChromeFrameBHO, Bho) OBJECT_ENTRY_AUTO(__uuidof(ChromeActiveDocument), ChromeActiveDocument) OBJECT_ENTRY_AUTO(__uuidof(ChromeFrame), ChromeFrameActivex) OBJECT_ENTRY_AUTO(__uuidof(ChromeProtocol), ChromeProtocol)