// Copyright 2013 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. #ifndef CONTENT_PUBLIC_BROWSER_TRACING_CONTROLLER_H_ #define CONTENT_PUBLIC_BROWSER_TRACING_CONTROLLER_H_ #include #include #include "base/callback.h" #include "base/memory/ref_counted.h" #include "base/trace_event/trace_event.h" #include "content/common/content_export.h" namespace content { class TracingController; // TracingController is used on the browser processes to enable/disable // trace status and collect trace data. Only the browser UI thread is allowed // to interact with the TracingController object. All callbacks are called on // the UI thread. class TracingController { public: CONTENT_EXPORT static TracingController* GetInstance(); // An interface for trace data consumer. An implemnentation of this interface // is passed to either DisableTracing() or CaptureMonitoringSnapshot() and // receives the trace data followed by a notification that all child processes // have completed tracing and the data collection is over. // All methods are called on the UI thread. // Close method will be called exactly once and no methods will be // called after that. class CONTENT_EXPORT TraceDataSink : public base::RefCountedThreadSafe { public: virtual void AddTraceChunk(const std::string& chunk) {} virtual void SetSystemTrace(const std::string& data) {} virtual void Close() {} protected: friend class base::RefCountedThreadSafe; virtual ~TraceDataSink() {} }; // An implementation of this interface is passed when constructing a // TraceDataSink, and receives chunks of the final trace data as it's being // constructed. // Methods may be called from any thread. class CONTENT_EXPORT TraceDataEndpoint : public base::RefCountedThreadSafe { public: virtual void ReceiveTraceChunk(const std::string& chunk) {} virtual void ReceiveTraceFinalContents(const std::string& contents) {} protected: friend class base::RefCountedThreadSafe; virtual ~TraceDataEndpoint() {} }; // Create a trace sink that may be supplied to DisableRecording or // CaptureMonitoringSnapshot to capture the trace data as a string. CONTENT_EXPORT static scoped_refptr CreateStringSink( const base::Callback& callback); CONTENT_EXPORT static scoped_refptr CreateCompressedStringSink( scoped_refptr endpoint); // Create a trace sink that may be supplied to DisableRecording or // CaptureMonitoringSnapshot to dump the trace data to a file. CONTENT_EXPORT static scoped_refptr CreateFileSink( const base::FilePath& file_path, const base::Closure& callback); // Get a set of category groups. The category groups can change as // new code paths are reached. // // Once all child processes have acked to the GetCategories request, // GetCategoriesDoneCallback is called back with a set of category // groups. typedef base::Callback&)> GetCategoriesDoneCallback; virtual bool GetCategories( const GetCategoriesDoneCallback& callback) = 0; // Start recording on all processes. // // Recording begins immediately locally, and asynchronously on child processes // as soon as they receive the EnableRecording request. // // Once all child processes have acked to the EnableRecording request, // EnableRecordingDoneCallback will be called back. // // |category_filter| is a filter to control what category groups should be // traced. A filter can have an optional '-' prefix to exclude category groups // that contain a matching category. Having both included and excluded // category patterns in the same list would not be supported. // // Examples: "test_MyTest*", // "test_MyTest*,test_OtherStuff", // "-excluded_category1,-excluded_category2" // // |options| controls what kind of tracing is enabled. typedef base::Callback EnableRecordingDoneCallback; virtual bool EnableRecording( const base::trace_event::CategoryFilter& category_filter, const base::trace_event::TraceOptions& trace_options, const EnableRecordingDoneCallback& callback) = 0; // Stop recording on all processes. // // Child processes typically are caching trace data and only rarely flush // and send trace data back to the browser process. That is because it may be // an expensive operation to send the trace data over IPC, and we would like // to avoid much runtime overhead of tracing. So, to end tracing, we must // asynchronously ask all child processes to flush any pending trace data. // // Once all child processes have acked to the DisableRecording request, // TracingFileResultCallback will be called back with a file that contains // the traced data. // // If |trace_data_sink| is not null, it will receive chunks of trace data // as a comma-separated sequences of JSON-stringified events, followed by // a notification that the trace collection is finished. // virtual bool DisableRecording( const scoped_refptr& trace_data_sink) = 0; // Start monitoring on all processes. // // Monitoring begins immediately locally, and asynchronously on child // processes as soon as they receive the EnableMonitoring request. // // Once all child processes have acked to the EnableMonitoring request, // EnableMonitoringDoneCallback will be called back. // // |category_filter| is a filter to control what category groups should be // traced. // // |options| controls what kind of tracing is enabled. typedef base::Callback EnableMonitoringDoneCallback; virtual bool EnableMonitoring( const base::trace_event::CategoryFilter& category_filter, const base::trace_event::TraceOptions& trace_options, const EnableMonitoringDoneCallback& callback) = 0; // Stop monitoring on all processes. // // Once all child processes have acked to the DisableMonitoring request, // DisableMonitoringDoneCallback is called back. typedef base::Callback DisableMonitoringDoneCallback; virtual bool DisableMonitoring( const DisableMonitoringDoneCallback& callback) = 0; // Get the current monitoring configuration. virtual void GetMonitoringStatus( bool* out_enabled, base::trace_event::CategoryFilter* out_category_filter, base::trace_event::TraceOptions* out_trace_options) = 0; // Get the current monitoring traced data. // // Child processes typically are caching trace data and only rarely flush // and send trace data back to the browser process. That is because it may be // an expensive operation to send the trace data over IPC, and we would like // to avoid much runtime overhead of tracing. So, to end tracing, we must // asynchronously ask all child processes to flush any pending trace data. // // Once all child processes have acked to the CaptureMonitoringSnapshot // request, TracingFileResultCallback will be called back with a file that // contains the traced data. // // If |trace_data_sink| is not null, it will receive chunks of trace data // as a comma-separated sequences of JSON-stringified events, followed by // a notification that the trace collection is finished. virtual bool CaptureMonitoringSnapshot( const scoped_refptr& trace_data_sink) = 0; // Get the maximum across processes of trace buffer percent full state. // When the TraceBufferUsage value is determined, the callback is // called. typedef base::Callback GetTraceBufferUsageCallback; virtual bool GetTraceBufferUsage( const GetTraceBufferUsageCallback& callback) = 0; // |callback| will will be called every time the given event occurs on any // process. typedef base::Callback WatchEventCallback; virtual bool SetWatchEvent(const std::string& category_name, const std::string& event_name, const WatchEventCallback& callback) = 0; // Cancel the watch event. If tracing is enabled, this may race with the // watch event callback. virtual bool CancelWatchEvent() = 0; protected: virtual ~TracingController() {} }; } // namespace content #endif // CONTENT_PUBLIC_BROWSER_TRACING_CONTROLLER_H_