// 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. //------------------------------------------------------------------------------ // Description of the life cycle of a instance of MetricsService. // // OVERVIEW // // A MetricsService instance is created at ChromeFrame startup in // the IE process. It is the central controller for the UMA log data. // Its major job is to manage logs, prepare them for transmission. // Currently only histogram data is tracked in log. When MetricsService // prepares log for submission it snapshots the current stats of histograms, // translates log to a protocol buffer. Transmission includes submitting a // compressed log as data in a URL-get, and is performed using functionality // provided by Urlmon // The actual transmission is performed using a windows timer procedure which // basically means that the thread on which the MetricsService object is // instantiated needs a message pump. Also on IE7 where every tab is created // on its own thread we would have a case where the timer procedures can // compete for sending histograms. // // When preparing log for submission we acquire a list of all local histograms // that have been flagged for upload to the UMA server. // // When ChromeFrame shuts down, there will typically be a fragment of an ongoing // log that has not yet been transmitted. Currently this data is ignored. // // With the above overview, we can now describe the state machine's various // stats, based on the State enum specified in the state_ member. Those states // are: // // INITIALIZED, // Constructor was called. // ACTIVE, // Accumalating log data. // STOPPED, // Service has stopped. // //----------------------------------------------------------------------------- #include "chrome_frame/metrics_service.h" #include #include #include #include #include "base/metrics/statistics_recorder.h" #include "base/strings/string16.h" #include "base/strings/string_number_conversions.h" #include "base/strings/string_util.h" #include "base/strings/stringprintf.h" #include "base/strings/utf_string_conversions.h" #include "base/synchronization/lock.h" #include "base/win/scoped_comptr.h" #include "chrome/common/chrome_version_info.h" #include "chrome/common/metrics/metrics_log_base.h" #include "chrome/common/metrics/metrics_log_manager.h" #include "chrome/installer/util/browser_distribution.h" #include "chrome/installer/util/google_update_settings.h" #include "chrome_frame/bind_status_callback_impl.h" #include "chrome_frame/crash_reporting/crash_metrics.h" #include "chrome_frame/html_utils.h" #include "chrome_frame/utils.h" using base::Time; using base::TimeDelta; using base::win::ScopedComPtr; // The first UMA upload occurs after this interval. static const int kInitialUMAUploadTimeoutMilliSeconds = 30000; // Default to one UMA upload per 10 mins. static const int kMinMilliSecondsPerUMAUpload = 600000; base::LazyInstance > MetricsService::g_metrics_instance_ = LAZY_INSTANCE_INITIALIZER; std::string MetricsService::client_id_; base::Lock MetricsService::metrics_service_lock_; // This class provides functionality to upload the ChromeFrame UMA data to the // server. An instance of this class is created whenever we have data to be // uploaded to the server. class ChromeFrameMetricsDataUploader : public BSCBImpl { public: ChromeFrameMetricsDataUploader() : cache_stream_(NULL), upload_data_size_(0) { DVLOG(1) << __FUNCTION__; } ~ChromeFrameMetricsDataUploader() { DVLOG(1) << __FUNCTION__; } static HRESULT ChromeFrameMetricsDataUploader::UploadDataHelper( const std::string& upload_data, const std::string& server_url, const std::string& mime_type) { CComObject* data_uploader = NULL; CComObject::CreateInstance(&data_uploader); DCHECK(data_uploader != NULL); data_uploader->AddRef(); HRESULT hr = data_uploader->UploadData(upload_data, server_url, mime_type); if (FAILED(hr)) { DLOG(ERROR) << "Failed to initialize ChromeFrame UMA data uploader: Err" << hr; } data_uploader->Release(); return hr; } HRESULT UploadData(const std::string& upload_data, const std::string& server_url, const std::string& mime_type) { if (upload_data.empty()) { NOTREACHED() << "Invalid upload data"; return E_INVALIDARG; } DCHECK(cache_stream_.get() == NULL); upload_data_size_ = upload_data.size() + 1; HRESULT hr = CreateStreamOnHGlobal(NULL, TRUE, cache_stream_.Receive()); if (FAILED(hr)) { NOTREACHED() << "Failed to create stream. Error:" << hr; return hr; } DCHECK(cache_stream_.get()); unsigned long written = 0; cache_stream_->Write(upload_data.c_str(), upload_data_size_, &written); DCHECK(written == upload_data_size_); RewindStream(cache_stream_); server_url_ = ASCIIToWide(server_url); mime_type_ = mime_type; DCHECK(!server_url_.empty()); DCHECK(!mime_type_.empty()); hr = CreateURLMoniker(NULL, server_url_.c_str(), upload_moniker_.Receive()); if (FAILED(hr)) { DLOG(ERROR) << "Failed to create url moniker for url:" << server_url_.c_str() << " Error:" << hr; } else { ScopedComPtr context; hr = CreateAsyncBindCtx(0, this, NULL, context.Receive()); DCHECK(SUCCEEDED(hr)); DCHECK(context); ScopedComPtr stream; hr = upload_moniker_->BindToStorage( context, NULL, IID_IStream, reinterpret_cast(stream.Receive())); if (FAILED(hr)) { NOTREACHED(); DLOG(ERROR) << "Failed to bind to upload data moniker. Error:" << hr; } } return hr; } STDMETHOD(BeginningTransaction)(LPCWSTR url, LPCWSTR headers, DWORD reserved, LPWSTR* additional_headers) { std::string new_headers; new_headers = base::StringPrintf( "Content-Length: %s\r\n" "Content-Type: %s\r\n" "%s\r\n", base::Int64ToString(upload_data_size_).c_str(), mime_type_.c_str(), http_utils::GetDefaultUserAgentHeaderWithCFTag().c_str()); *additional_headers = reinterpret_cast( CoTaskMemAlloc((new_headers.size() + 1) * sizeof(wchar_t))); lstrcpynW(*additional_headers, ASCIIToWide(new_headers).c_str(), new_headers.size()); return BSCBImpl::BeginningTransaction(url, headers, reserved, additional_headers); } STDMETHOD(GetBindInfo)(DWORD* bind_flags, BINDINFO* bind_info) { if ((bind_info == NULL) || (bind_info->cbSize == 0) || (bind_flags == NULL)) return E_INVALIDARG; *bind_flags = BINDF_ASYNCHRONOUS | BINDF_ASYNCSTORAGE | BINDF_PULLDATA; // Bypass caching proxies on POSTs and PUTs and avoid writing responses to // these requests to the browser's cache *bind_flags |= BINDF_GETNEWESTVERSION | BINDF_PRAGMA_NO_CACHE; DCHECK(cache_stream_.get()); // Initialize the STGMEDIUM. memset(&bind_info->stgmedData, 0, sizeof(STGMEDIUM)); bind_info->grfBindInfoF = 0; bind_info->szCustomVerb = NULL; bind_info->dwBindVerb = BINDVERB_POST; bind_info->stgmedData.tymed = TYMED_ISTREAM; bind_info->stgmedData.pstm = cache_stream_.get(); bind_info->stgmedData.pstm->AddRef(); return BSCBImpl::GetBindInfo(bind_flags, bind_info); } STDMETHOD(OnResponse)(DWORD response_code, LPCWSTR response_headers, LPCWSTR request_headers, LPWSTR* additional_headers) { DVLOG(1) << __FUNCTION__ << " headers: \n" << response_headers; return BSCBImpl::OnResponse(response_code, response_headers, request_headers, additional_headers); } private: std::wstring server_url_; std::string mime_type_; size_t upload_data_size_; ScopedComPtr cache_stream_; ScopedComPtr upload_moniker_; }; MetricsService* MetricsService::GetInstance() { if (g_metrics_instance_.Pointer()->Get()) return g_metrics_instance_.Pointer()->Get(); g_metrics_instance_.Pointer()->Set(new MetricsService); return g_metrics_instance_.Pointer()->Get(); } MetricsService::MetricsService() : recording_active_(false), reporting_active_(false), user_permits_upload_(false), state_(INITIALIZED), thread_(NULL), initial_uma_upload_(true), transmission_timer_id_(0) { } MetricsService::~MetricsService() { SetRecording(false); } void MetricsService::InitializeMetricsState() { DCHECK(state_ == INITIALIZED); thread_ = base::PlatformThread::CurrentId(); user_permits_upload_ = GoogleUpdateSettings::GetCollectStatsConsent(); // Update session ID session_id_ = CrashMetricsReporter::GetInstance()->IncrementMetric( CrashMetricsReporter::SESSION_ID); base::StatisticsRecorder::Initialize(); CrashMetricsReporter::GetInstance()->set_active(true); } // static void MetricsService::Start() { base::AutoLock lock(metrics_service_lock_); if (GetInstance()->state_ == ACTIVE) return; GetInstance()->InitializeMetricsState(); GetInstance()->SetRecording(true); GetInstance()->SetReporting(true); } // static void MetricsService::Stop() { base::AutoLock lock(metrics_service_lock_); GetInstance()->SetReporting(false); GetInstance()->SetRecording(false); } void MetricsService::SetRecording(bool enabled) { DCHECK_EQ(thread_, base::PlatformThread::CurrentId()); if (enabled == recording_active_) return; if (enabled) { StartRecording(); } else { state_ = STOPPED; } recording_active_ = enabled; } // static const std::string& MetricsService::GetClientID() { // TODO(robertshield): Chrome Frame shouldn't generate a new ID on every run // as this apparently breaks some assumptions during metric analysis. // See http://crbug.com/117188 if (client_id_.empty()) { const int kGUIDSize = 39; GUID guid; HRESULT guid_result = CoCreateGuid(&guid); DCHECK(SUCCEEDED(guid_result)); string16 guid_string; int result = StringFromGUID2(guid, WriteInto(&guid_string, kGUIDSize), kGUIDSize); DCHECK(result == kGUIDSize); client_id_ = WideToUTF8(guid_string.substr(1, guid_string.length() - 2)); } return client_id_; } // static void CALLBACK MetricsService::TransmissionTimerProc(HWND window, unsigned int message, unsigned int event_id, unsigned int time) { DVLOG(1) << "Transmission timer notified"; DCHECK(GetInstance() != NULL); GetInstance()->UploadData(); if (GetInstance()->initial_uma_upload_) { // If this is the first uma upload by this process then subsequent uma // uploads should occur once every 10 minutes(default). GetInstance()->initial_uma_upload_ = false; DCHECK(GetInstance()->transmission_timer_id_ != 0); SetTimer(NULL, GetInstance()->transmission_timer_id_, kMinMilliSecondsPerUMAUpload, reinterpret_cast(TransmissionTimerProc)); } } void MetricsService::SetReporting(bool enable) { static const int kChromeFrameMetricsTimerId = 0xFFFFFFFF; DCHECK_EQ(thread_, base::PlatformThread::CurrentId()); if (reporting_active_ != enable) { reporting_active_ = enable; if (reporting_active_) { transmission_timer_id_ = SetTimer(NULL, kChromeFrameMetricsTimerId, kInitialUMAUploadTimeoutMilliSeconds, reinterpret_cast(TransmissionTimerProc)); } else { UploadData(); } } } //------------------------------------------------------------------------------ // Recording control methods void MetricsService::StartRecording() { DCHECK_EQ(thread_, base::PlatformThread::CurrentId()); if (log_manager_.current_log()) return; MetricsLogManager::LogType log_type = (state_ == INITIALIZED) ? MetricsLogManager::INITIAL_LOG : MetricsLogManager::ONGOING_LOG; log_manager_.BeginLoggingWithLog(new MetricsLogBase(GetClientID(), session_id_, GetVersionString()), log_type); if (state_ == INITIALIZED) state_ = ACTIVE; } void MetricsService::StopRecording(bool save_log) { DCHECK_EQ(thread_, base::PlatformThread::CurrentId()); if (!log_manager_.current_log()) return; // Put incremental histogram deltas at the end of all log transmissions. // Don't bother if we're going to discard current_log. if (save_log) { CrashMetricsReporter::GetInstance()->RecordCrashMetrics(); RecordCurrentHistograms(); } if (save_log) { log_manager_.FinishCurrentLog(); log_manager_.StageNextLogForUpload(); } else { log_manager_.DiscardCurrentLog(); } } void MetricsService::MakePendingLog() { DCHECK_EQ(thread_, base::PlatformThread::CurrentId()); if (log_manager_.has_staged_log()) return; if (state_ != ACTIVE) { NOTREACHED(); return; } StopRecording(true); StartRecording(); } bool MetricsService::TransmissionPermitted() const { // If the user forbids uploading that's their business, and we don't upload // anything. return user_permits_upload_; } bool MetricsService::UploadData() { DCHECK_EQ(thread_, base::PlatformThread::CurrentId()); if (!GetInstance()->TransmissionPermitted()) return false; static long currently_uploading = 0; if (InterlockedCompareExchange(¤tly_uploading, 1, 0)) { DVLOG(1) << "Contention for uploading metrics data. Backing off"; return false; } MakePendingLog(); bool ret = true; if (log_manager_.has_staged_log()) { HRESULT hr = ChromeFrameMetricsDataUploader::UploadDataHelper( log_manager_.staged_log_text(), kServerUrl, kMimeType); DCHECK(SUCCEEDED(hr)); log_manager_.DiscardStagedLog(); } else { NOTREACHED(); ret = false; } currently_uploading = 0; return ret; } // static std::string MetricsService::GetVersionString() { chrome::VersionInfo version_info; if (version_info.is_valid()) { std::string version = version_info.Version(); // Add the -F extensions to ensure that UMA data uploaded by ChromeFrame // lands in the ChromeFrame bucket. version += "-F"; if (!version_info.IsOfficialBuild()) version.append("-devel"); return version; } else { NOTREACHED() << "Unable to retrieve version string."; } return std::string(); }