// Copyright 2015 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 BASE_TRACE_EVENT_TRACE_BUFFER_H_ #define BASE_TRACE_EVENT_TRACE_BUFFER_H_ #include #include #include "base/base_export.h" #include "base/trace_event/trace_event.h" #include "base/trace_event/trace_event_impl.h" namespace base { namespace trace_event { // TraceBufferChunk is the basic unit of TraceBuffer. class BASE_EXPORT TraceBufferChunk { public: explicit TraceBufferChunk(uint32_t seq); ~TraceBufferChunk(); void Reset(uint32_t new_seq); TraceEvent* AddTraceEvent(size_t* event_index); bool IsFull() const { return next_free_ == kTraceBufferChunkSize; } uint32_t seq() const { return seq_; } size_t capacity() const { return kTraceBufferChunkSize; } size_t size() const { return next_free_; } TraceEvent* GetEventAt(size_t index) { DCHECK(index < size()); return &chunk_[index]; } const TraceEvent* GetEventAt(size_t index) const { DCHECK(index < size()); return &chunk_[index]; } void EstimateTraceMemoryOverhead(TraceEventMemoryOverhead* overhead); // These values must be kept consistent with the numbers of bits of // chunk_index and event_index fields in TraceEventHandle // (in trace_event_impl.h). static const size_t kMaxChunkIndex = (1u << 26) - 1; static const size_t kTraceBufferChunkSize = 64; private: size_t next_free_; std::unique_ptr cached_overhead_estimate_; TraceEvent chunk_[kTraceBufferChunkSize]; uint32_t seq_; }; // TraceBuffer holds the events as they are collected. class BASE_EXPORT TraceBuffer { public: virtual ~TraceBuffer() {} virtual std::unique_ptr GetChunk(size_t* index) = 0; virtual void ReturnChunk(size_t index, std::unique_ptr chunk) = 0; virtual bool IsFull() const = 0; virtual size_t Size() const = 0; virtual size_t Capacity() const = 0; virtual TraceEvent* GetEventByHandle(TraceEventHandle handle) = 0; // For iteration. Each TraceBuffer can only be iterated once. virtual const TraceBufferChunk* NextChunk() = 0; // Computes an estimate of the size of the buffer, including all the retained // objects. virtual void EstimateTraceMemoryOverhead( TraceEventMemoryOverhead* overhead) = 0; static TraceBuffer* CreateTraceBufferRingBuffer(size_t max_chunks); static TraceBuffer* CreateTraceBufferVectorOfSize(size_t max_chunks); }; // TraceResultBuffer collects and converts trace fragments returned by TraceLog // to JSON output. class BASE_EXPORT TraceResultBuffer { public: typedef base::Callback OutputCallback; // If you don't need to stream JSON chunks out efficiently, and just want to // get a complete JSON string after calling Finish, use this struct to collect // JSON trace output. struct BASE_EXPORT SimpleOutput { OutputCallback GetCallback(); void Append(const std::string& json_string); // Do what you want with the json_output_ string after calling // TraceResultBuffer::Finish. std::string json_output; }; TraceResultBuffer(); ~TraceResultBuffer(); // Set callback. The callback will be called during Start with the initial // JSON output and during AddFragment and Finish with following JSON output // chunks. The callback target must live past the last calls to // TraceResultBuffer::Start/AddFragment/Finish. void SetOutputCallback(const OutputCallback& json_chunk_callback); // Start JSON output. This resets all internal state, so you can reuse // the TraceResultBuffer by calling Start. void Start(); // Call AddFragment 0 or more times to add trace fragments from TraceLog. void AddFragment(const std::string& trace_fragment); // When all fragments have been added, call Finish to complete the JSON // formatted output. void Finish(); private: OutputCallback output_callback_; bool append_comma_; }; } // namespace trace_event } // namespace base #endif // BASE_TRACE_EVENT_TRACE_BUFFER_H_