/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim: set ts=8 sts=2 et sw=2 tw=80: */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #ifndef ProfiledThreadData_h #define ProfiledThreadData_h #include "platform.h" #include "ProfileBuffer.h" #include "ProfileBufferEntry.h" #include "mozilla/FailureLatch.h" #include "mozilla/Maybe.h" #include "mozilla/NotNull.h" #include "mozilla/ProfileJSONWriter.h" #include "mozilla/ProfilerThreadRegistrationInfo.h" #include "mozilla/RefPtr.h" #include "mozilla/TimeStamp.h" #include "mozilla/UniquePtr.h" #include "mozilla/Vector.h" #include "nsStringFwd.h" class nsIEventTarget; class ProfilerCodeAddressService; struct JSContext; struct ThreadStreamingContext; // This class contains information about a thread that is only relevant while // the profiler is running, for any threads (both alive and dead) whose thread // name matches the "thread filter" in the current profiler run. // ProfiledThreadData objects may be kept alive even after the thread is // unregistered, as long as there is still data for that thread in the profiler // buffer. // // Accesses to this class are protected by the profiler state lock. // // Created as soon as the following are true for the thread: // - The profiler is running, and // - the thread matches the profiler's thread filter, and // - the thread is registered with the profiler. // So it gets created in response to either (1) the profiler being started (for // an existing registered thread) or (2) the thread being registered (if the // profiler is already running). // // The thread may be unregistered during the lifetime of ProfiledThreadData. // If that happens, NotifyUnregistered() is called. // // This class is the right place to store buffer positions. Profiler buffer // positions become invalid if the profiler buffer is destroyed, which happens // when the profiler is stopped. class ProfiledThreadData final { public: explicit ProfiledThreadData( const mozilla::profiler::ThreadRegistrationInfo& aThreadInfo); explicit ProfiledThreadData( mozilla::profiler::ThreadRegistrationInfo&& aThreadInfo); ~ProfiledThreadData(); void NotifyUnregistered(uint64_t aBufferPosition) { mLastSample = mozilla::Nothing(); MOZ_ASSERT(!mBufferPositionWhenReceivedJSContext, "JSContext should have been cleared before the thread was " "unregistered"); mUnregisterTime = mozilla::TimeStamp::Now(); mBufferPositionWhenUnregistered = mozilla::Some(aBufferPosition); mPreviousThreadRunningTimes.Clear(); } mozilla::Maybe BufferPositionWhenUnregistered() { return mBufferPositionWhenUnregistered; } mozilla::Maybe& LastSample() { return mLastSample; } mozilla::NotNull> PrepareUniqueStacks( const ProfileBuffer& aBuffer, JSContext* aCx, mozilla::FailureLatch& aFailureLatch, ProfilerCodeAddressService* aService, mozilla::ProgressLogger aProgressLogger); void StreamJSON(const ProfileBuffer& aBuffer, JSContext* aCx, SpliceableJSONWriter& aWriter, const nsACString& aProcessName, const nsACString& aETLDplus1, const mozilla::TimeStamp& aProcessStartTime, double aSinceTime, ProfilerCodeAddressService* aService, mozilla::ProgressLogger aProgressLogger); void StreamJSON(ThreadStreamingContext&& aThreadStreamingContext, SpliceableJSONWriter& aWriter, const nsACString& aProcessName, const nsACString& aETLDplus1, const mozilla::TimeStamp& aProcessStartTime, ProfilerCodeAddressService* aService, mozilla::ProgressLogger aProgressLogger); const mozilla::profiler::ThreadRegistrationInfo& Info() const { return mThreadInfo; } void NotifyReceivedJSContext(uint64_t aCurrentBufferPosition) { mBufferPositionWhenReceivedJSContext = mozilla::Some(aCurrentBufferPosition); } // Call this method when the JS entries inside the buffer are about to // become invalid, i.e., just before JS shutdown. void NotifyAboutToLoseJSContext(JSContext* aCx, const mozilla::TimeStamp& aProcessStartTime, ProfileBuffer& aBuffer); RunningTimes& PreviousThreadRunningTimesRef() { return mPreviousThreadRunningTimes; } private: // Group A: // The following fields are interesting for the entire lifetime of a // ProfiledThreadData object. // This thread's thread info. Local copy because the one in ThreadRegistration // may be destroyed while ProfiledThreadData stays alive. const mozilla::profiler::ThreadRegistrationInfo mThreadInfo; // Contains JSON for JIT frames from any JSContexts that were used for this // thread in the past. // Null if this thread has never lost a JSContext or if all samples from // previous JSContexts have been evicted from the profiler buffer. mozilla::UniquePtr mJITFrameInfoForPreviousJSContexts; // Group B: // The following fields are only used while this thread is alive and // registered. They become Nothing() or empty once the thread is unregistered. // When sampling, this holds the position in ActivePS::mBuffer of the most // recent sample for this thread, or Nothing() if there is no sample for this // thread in the buffer. mozilla::Maybe mLastSample; // Only non-Nothing() if the thread currently has a JSContext. mozilla::Maybe mBufferPositionWhenReceivedJSContext; // RunningTimes at the previous sample if any, or empty. RunningTimes mPreviousThreadRunningTimes; // Group C: // The following fields are only used once this thread has been unregistered. mozilla::Maybe mBufferPositionWhenUnregistered; mozilla::TimeStamp mUnregisterTime; }; // This class will be used when outputting the profile data for one thread. struct ThreadStreamingContext { ProfiledThreadData& mProfiledThreadData; JSContext* mJSContext; SpliceableChunkedJSONWriter mSamplesDataWriter; SpliceableChunkedJSONWriter mMarkersDataWriter; mozilla::NotNull> mUniqueStacks; // These are updated when writing samples, and reused for "same-sample"s. enum PreviousStackState { eNoStackYet, eStackWasNotEmpty, eStackWasEmpty }; PreviousStackState mPreviousStackState = eNoStackYet; uint32_t mPreviousStack = 0; ThreadStreamingContext(ProfiledThreadData& aProfiledThreadData, const ProfileBuffer& aBuffer, JSContext* aCx, mozilla::FailureLatch& aFailureLatch, ProfilerCodeAddressService* aService, mozilla::ProgressLogger aProgressLogger); void FinalizeWriter(); }; // This class will be used when outputting the profile data for all threads. class ProcessStreamingContext final : public mozilla::FailureLatch { public: // Pre-allocate space for `aThreadCount` threads. ProcessStreamingContext(size_t aThreadCount, mozilla::FailureLatch& aFailureLatch, const mozilla::TimeStamp& aProcessStartTime, double aSinceTime); ~ProcessStreamingContext(); // Add the streaming context corresponding to each profiled thread. This // should be called exactly the number of times specified in the constructor. void AddThreadStreamingContext(ProfiledThreadData& aProfiledThreadData, const ProfileBuffer& aBuffer, JSContext* aCx, ProfilerCodeAddressService* aService, mozilla::ProgressLogger aProgressLogger); // Retrieve the ThreadStreamingContext for a given thread id. // Returns null if that thread id doesn't correspond to any profiled thread. ThreadStreamingContext* GetThreadStreamingContext( const ProfilerThreadId& aThreadId) { for (size_t i = 0; i < mTIDList.length(); ++i) { if (mTIDList[i] == aThreadId) { return &mThreadStreamingContextList[i]; } } return nullptr; } const mozilla::TimeStamp& ProcessStartTime() const { return mProcessStartTime; } double GetSinceTime() const { return mSinceTime; } ThreadStreamingContext* begin() { return mThreadStreamingContextList.begin(); }; ThreadStreamingContext* end() { return mThreadStreamingContextList.end(); }; FAILURELATCH_IMPL_PROXY(mFailureLatch) private: // Separate list of thread ids, it's much faster to do a linear search // here than a vector of bigger items like mThreadStreamingContextList. mozilla::Vector mTIDList; // Contexts corresponding to the thread id at the same indexes. mozilla::Vector mThreadStreamingContextList; mozilla::FailureLatch& mFailureLatch; const mozilla::TimeStamp mProcessStartTime; const double mSinceTime; }; // Stream all samples and markers from aBuffer with the given aThreadId (or 0 // for everything, which is assumed to be a single backtrace sample.) // Returns the thread id of the output sample(s), or 0 if none was present. ProfilerThreadId StreamSamplesAndMarkers( const char* aName, ProfilerThreadId aThreadId, const ProfileBuffer& aBuffer, SpliceableJSONWriter& aWriter, const nsACString& aProcessName, const nsACString& aETLDplus1, const mozilla::TimeStamp& aProcessStartTime, const mozilla::TimeStamp& aRegisterTime, const mozilla::TimeStamp& aUnregisterTime, double aSinceTime, UniqueStacks& aUniqueStacks, mozilla::ProgressLogger aProgressLogger); void StreamSamplesAndMarkers(const char* aName, ThreadStreamingContext& aThreadData, SpliceableJSONWriter& aWriter, const nsACString& aProcessName, const nsACString& aETLDplus1, const mozilla::TimeStamp& aProcessStartTime, const mozilla::TimeStamp& aRegisterTime, const mozilla::TimeStamp& aUnregisterTime, mozilla::ProgressLogger aProgressLogger); #endif // ProfiledThreadData_h