// 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 #include #include "base/command_line.h" #include "base/debug/trace_event.h" #include "base/environment.h" #include "base/file_util.h" #include "base/logging.h" #include "base/memory/scoped_ptr.h" #include "base/rand_util.h" // For PreRead experiment. #include "base/sha1.h" // For PreRead experiment. #include "base/string_util.h" #include "base/utf_string_conversions.h" #include "base/version.h" #include "base/win/registry.h" #include "chrome/app/breakpad_win.h" #include "chrome/app/client_util.h" #include "chrome/common/chrome_constants.h" #include "chrome/common/chrome_result_codes.h" #include "chrome/common/chrome_switches.h" #include "chrome/installer/util/browser_distribution.h" #include "chrome/installer/util/channel_info.h" #include "chrome/installer/util/install_util.h" #include "chrome/installer/util/google_chrome_sxs_distribution.h" // PreRead. #include "chrome/installer/util/google_update_constants.h" #include "chrome/installer/util/google_update_settings.h" #include "chrome/installer/util/util_constants.h" namespace { // The entry point signature of chrome.dll. typedef int (*DLL_MAIN)(HINSTANCE, sandbox::SandboxInterfaceInfo*); typedef void (*RelaunchChromeBrowserWithNewCommandLineIfNeededFunc)(); // Gets chrome version according to the load path. |exe_path| must be the // backslash terminated directory of the current chrome.exe. bool GetVersion(const wchar_t* exe_path, const wchar_t* key_path, std::wstring* version) { HKEY reg_root = InstallUtil::IsPerUserInstall(exe_path) ? HKEY_CURRENT_USER : HKEY_LOCAL_MACHINE; bool success = false; base::win::RegKey key(reg_root, key_path, KEY_QUERY_VALUE); if (key.Valid()) { // If 'new_chrome.exe' is present it means chrome was auto-updated while // running. We need to consult the opv value so we can load the old dll. // TODO(cpu) : This is solving the same problem as the environment variable // so one of them will eventually be deprecated. std::wstring new_chrome_exe(exe_path); new_chrome_exe.append(installer::kChromeNewExe); if (::PathFileExistsW(new_chrome_exe.c_str()) && key.ReadValue(google_update::kRegOldVersionField, version) == ERROR_SUCCESS) { success = true; } else { success = (key.ReadValue(google_update::kRegVersionField, version) == ERROR_SUCCESS); } } return success; } // Gets the path of the current exe with a trailing backslash. std::wstring GetExecutablePath() { wchar_t path[MAX_PATH]; ::GetModuleFileNameW(NULL, path, MAX_PATH); if (!::PathRemoveFileSpecW(path)) return std::wstring(); std::wstring exe_path(path); return exe_path.append(L"\\"); } // Not generic, we only handle strings up to 128 chars. bool EnvQueryStr(const wchar_t* key_name, std::wstring* value) { wchar_t out[128]; DWORD count = sizeof(out)/sizeof(out[0]); DWORD rv = ::GetEnvironmentVariableW(key_name, out, count); if ((rv == 0) || (rv >= count)) return false; *value = out; return true; } #if defined(OS_WIN) #if defined(GOOGLE_CHROME_BUILD) // These constants are used by the PreRead experiment. const wchar_t kPreReadRegistryValue[] = L"PreReadExperimentGroup"; const int kPreReadExpiryYear = 2012; const int kPreReadExpiryMonth = 1; const int kPreReadExpiryDay = 1; bool PreReadShouldRun() { base::Time::Exploded exploded = { 0 }; exploded.year = kPreReadExpiryYear; exploded.month = kPreReadExpiryMonth; exploded.day_of_month = kPreReadExpiryDay; base::Time expiration_time = base::Time::FromLocalExploded(exploded); // Get the build time. This code is copied from // base::FieldTrial::GetBuildTime. We can't use MetricsLogBase::GetBuildTime // because that's in seconds since Unix epoch, which base::Time can't use. base::Time build_time; const char* kDateTime = __DATE__ " " __TIME__; bool result = base::Time::FromString(kDateTime, &build_time); DCHECK(result); // If the experiment is expired, don't run it. if (build_time > expiration_time) return false; // The experiment should only run on canary and dev. BrowserDistribution* dist = BrowserDistribution::GetDistribution(); std::wstring channel; if (!dist->GetChromeChannel(&channel)) return false; return channel == GoogleChromeSxSDistribution::ChannelName() || channel == L"dev"; return true; } // Checks to see if the experiment is running. If so, either tosses a coin // and persists it, or gets the already persistent coin-toss value. Returns // the coin-toss via |pre_read|. Returns true if the experiment is running and // pre_read has been written, false otherwise. |pre_read| is only written to // when this function returns true. |key| must be open with read-write access, // and be valid. bool GetPreReadExperimentGroup(DWORD* pre_read) { DCHECK(pre_read != NULL); // Experiment expired, or running on wrong channel? if (!PreReadShouldRun()) return false; // Get the MetricsId of the installation. This is only set if the user has // opted in to reporting. Doing things this way ensures that we only enable // the experiment if its results are actually going to be reported. std::wstring metrics_id; if (!GoogleUpdateSettings::GetMetricsId(&metrics_id) || metrics_id.empty()) return false; // We use the same technique as FieldTrial::HashClientId. unsigned char sha1_hash[base::kSHA1Length]; base::SHA1HashBytes( reinterpret_cast(metrics_id.c_str()), metrics_id.size() * sizeof(metrics_id[0]), sha1_hash); COMPILE_ASSERT(sizeof(uint64) < sizeof(sha1_hash), need_more_data); uint64* bits = reinterpret_cast(&sha1_hash[0]); double rand_unit = base::BitsToOpenEndedUnitInterval(*bits); DWORD coin_toss = rand_unit > 0.5 ? 1 : 0; *pre_read = coin_toss; return true; } #endif // if defined(GOOGLE_CHROME_BUILD) #endif // if defined(OS_WIN) // Expects that |dir| has a trailing backslash. |dir| is modified so it // contains the full path that was tried. Caller must check for the return // value not being null to determine if this path contains a valid dll. HMODULE LoadChromeWithDirectory(std::wstring* dir) { ::SetCurrentDirectoryW(dir->c_str()); const CommandLine& cmd_line = *CommandLine::ForCurrentProcess(); dir->append(installer::kChromeDll); #ifndef WIN_DISABLE_PREREAD #ifdef NDEBUG // Experimental pre-reading optimization // The idea is to pre-read a significant portion of chrome.dll in advance // so that subsequent hard page faults are avoided. // // Pre-read may be disabled at compile time by defining WIN_DISABLE_PREREAD, // but by default it is enabled in release builds. The ability to disable it // is useful for evaluating competing optimization techniques. if (!cmd_line.HasSwitch(switches::kProcessType)) { // The kernel brings in 8 pages for the code section at a time and 4 pages // for other sections. We can skip over these pages to avoid a soft page // fault which may not occur during code execution. However skipping 4K at // a time still has better performance over 32K and 16K according to data. // TODO(ananta): Investigate this and tune. const size_t kStepSize = 4 * 1024; DWORD pre_read_size = 0; DWORD pre_read_step_size = kStepSize; DWORD pre_read = 1; // TODO(chrisha): This path should not be ChromeFrame specific, and it // should not be hard-coded with 'Google' in the path. Rather, it should // use the product name. base::win::RegKey key(HKEY_CURRENT_USER, L"Software\\Google\\ChromeFrame", KEY_QUERY_VALUE); if (key.Valid()) { key.ReadValueDW(L"PreReadSize", &pre_read_size); key.ReadValueDW(L"PreReadStepSize", &pre_read_step_size); key.ReadValueDW(L"PreRead", &pre_read); key.Close(); } #if defined(OS_WIN) #if defined(GOOGLE_CHROME_BUILD) // The PreRead experiment is unable to use the standard FieldTrial // mechanism as pre-reading happens in chrome.exe prior to loading // chrome.dll. As such, we use a custom approach. If the experiment is // running (not expired, and we're running a version of chrome from an // appropriate channel) then we look to the registry for the BreakPad/UMA // metricsid. We use this to seed a coin-toss, which is then communicated // to chrome.dll via an environment variable, which indicates to chrome.dll // that the experiment is running, causing it to report sub-histogram // results. // If the experiment is running, indicate it to chrome.dll via an // environment variable. if (GetPreReadExperimentGroup(&pre_read)) { DCHECK(pre_read == 0 || pre_read == 1); scoped_ptr env(base::Environment::Create()); env->SetVar(chrome::kPreReadEnvironmentVariable, pre_read ? "1" : "0"); } #endif // if defined(GOOGLE_CHROME_BUILD) #endif // if defined(OS_WIN) if (pre_read) { TRACE_EVENT_BEGIN_ETW("PreReadImage", 0, ""); file_util::PreReadImage(dir->c_str(), pre_read_size, pre_read_step_size); TRACE_EVENT_END_ETW("PreReadImage", 0, ""); } } #endif // NDEBUG #endif // WIN_DISABLE_PREREAD return ::LoadLibraryExW(dir->c_str(), NULL, LOAD_WITH_ALTERED_SEARCH_PATH); } void RecordDidRun(const std::wstring& dll_path) { bool system_level = !InstallUtil::IsPerUserInstall(dll_path.c_str()); GoogleUpdateSettings::UpdateDidRunState(true, system_level); } void ClearDidRun(const std::wstring& dll_path) { bool system_level = !InstallUtil::IsPerUserInstall(dll_path.c_str()); GoogleUpdateSettings::UpdateDidRunState(false, system_level); } } // namespace //============================================================================= MainDllLoader::MainDllLoader() : dll_(NULL) { } MainDllLoader::~MainDllLoader() { } // Loading chrome is an interesting affair. First we try loading from the // current directory to support run-what-you-compile and other development // scenarios. // If that fails then we look at the --chrome-version command line flag followed // by the 'CHROME_VERSION' env variable to determine if we should stick with an // older dll version even if a new one is available to support upgrade-in-place // scenarios. // If that fails then finally we look at the registry which should point us // to the latest version. This is the expected path for the first chrome.exe // browser instance in an installed build. HMODULE MainDllLoader::Load(std::wstring* out_version, std::wstring* out_file) { std::wstring dir(GetExecutablePath()); *out_file = dir; HMODULE dll = LoadChromeWithDirectory(out_file); if (dll) return dll; std::wstring version_string; scoped_ptr version; const CommandLine& cmd_line = *CommandLine::ForCurrentProcess(); if (cmd_line.HasSwitch(switches::kChromeVersion)) { version_string = cmd_line.GetSwitchValueNative(switches::kChromeVersion); version.reset(Version::GetVersionFromString(WideToASCII(version_string))); if (!version.get()) { // If a bogus command line flag was given, then abort. LOG(ERROR) << "Invalid version string received on command line: " << version_string; return NULL; } } if (!version.get()) { if (EnvQueryStr(ASCIIToWide(chrome::kChromeVersionEnvVar).c_str(), &version_string)) { version.reset(Version::GetVersionFromString(WideToASCII(version_string))); } } if (!version.get()) { std::wstring reg_path(GetRegistryPath()); // Look into the registry to find the latest version. We don't validate // this by building a Version object to avoid harming normal case startup // time. version_string.clear(); GetVersion(dir.c_str(), reg_path.c_str(), &version_string); } if (version.get() || !version_string.empty()) { *out_file = dir; *out_version = version_string; out_file->append(*out_version).append(L"\\"); dll = LoadChromeWithDirectory(out_file); if (!dll) { LOG(ERROR) << "Failed to load Chrome DLL from " << out_file; } return dll; } else { LOG(ERROR) << "Could not get Chrome DLL version."; return NULL; } } // Launching is a matter of loading the right dll, setting the CHROME_VERSION // environment variable and just calling the entry point. Derived classes can // add custom code in the OnBeforeLaunch callback. int MainDllLoader::Launch(HINSTANCE instance, sandbox::SandboxInterfaceInfo* sbox_info) { std::wstring version; std::wstring file; dll_ = Load(&version, &file); if (!dll_) return chrome::RESULT_CODE_MISSING_DATA; scoped_ptr env(base::Environment::Create()); env->SetVar(chrome::kChromeVersionEnvVar, WideToUTF8(version)); InitCrashReporterWithDllPath(file); OnBeforeLaunch(file); DLL_MAIN entry_point = reinterpret_cast(::GetProcAddress(dll_, "ChromeMain")); if (!entry_point) return chrome::RESULT_CODE_BAD_PROCESS_TYPE; int rc = entry_point(instance, sbox_info); return OnBeforeExit(rc, file); } void MainDllLoader::RelaunchChromeBrowserWithNewCommandLineIfNeeded() { RelaunchChromeBrowserWithNewCommandLineIfNeededFunc relaunch_function = reinterpret_cast( ::GetProcAddress(dll_, "RelaunchChromeBrowserWithNewCommandLineIfNeeded")); if (!relaunch_function) { LOG(ERROR) << "Could not find exported function " << "RelaunchChromeBrowserWithNewCommandLineIfNeeded"; } else { relaunch_function(); } } //============================================================================= class ChromeDllLoader : public MainDllLoader { public: virtual std::wstring GetRegistryPath() { std::wstring key(google_update::kRegPathClients); BrowserDistribution* dist = BrowserDistribution::GetDistribution(); key.append(L"\\").append(dist->GetAppGuid()); return key; } virtual void OnBeforeLaunch(const std::wstring& dll_path) { RecordDidRun(dll_path); } virtual int OnBeforeExit(int return_code, const std::wstring& dll_path) { // NORMAL_EXIT_CANCEL is used for experiments when the user cancels // so we need to reset the did_run signal so omaha does not count // this run as active usage. if (chrome::RESULT_CODE_NORMAL_EXIT_CANCEL == return_code) { ClearDidRun(dll_path); } return return_code; } }; //============================================================================= class ChromiumDllLoader : public MainDllLoader { public: virtual std::wstring GetRegistryPath() { BrowserDistribution* dist = BrowserDistribution::GetDistribution(); return dist->GetVersionKey(); } }; MainDllLoader* MakeMainDllLoader() { #if defined(GOOGLE_CHROME_BUILD) return new ChromeDllLoader(); #else return new ChromiumDllLoader(); #endif }