/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* 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 MOZILLA_MEDIASEGMENT_H_ #define MOZILLA_MEDIASEGMENT_H_ #include "nsTArray.h" #include "nsIPrincipal.h" #include "nsProxyRelease.h" #ifdef MOZILLA_INTERNAL_API #include "mozilla/TimeStamp.h" #endif #include #include "Latency.h" namespace mozilla { /** * Track or graph rate in Hz. Maximum 1 << TRACK_RATE_MAX_BITS Hz. This * maximum avoids overflow in conversions between track rates and conversions * from seconds. */ typedef int32_t TrackRate; const int64_t TRACK_RATE_MAX_BITS = 20; const TrackRate TRACK_RATE_MAX = 1 << TRACK_RATE_MAX_BITS; /** * A number of ticks at a rate determined by some underlying track (e.g. * audio sample rate). We want to make sure that multiplying TrackTicks by * a TrackRate doesn't overflow, so we set its max accordingly. * StreamTime should be used instead when we're working with MediaStreamGraph's * rate, but TrackTicks can be used outside MediaStreams when we have data * at a different rate. */ typedef int64_t TrackTicks; const int64_t TRACK_TICKS_MAX = INT64_MAX >> TRACK_RATE_MAX_BITS; /** * We represent media times in 64-bit audio frame counts or ticks. * All tracks in a MediaStreamGraph have the same rate. */ typedef int64_t MediaTime; const int64_t MEDIA_TIME_MAX = TRACK_TICKS_MAX; /** * Media time relative to the start of a StreamTracks. */ typedef MediaTime StreamTime; const StreamTime STREAM_TIME_MAX = MEDIA_TIME_MAX; /** * Media time relative to the start of the graph timeline. */ typedef MediaTime GraphTime; const GraphTime GRAPH_TIME_MAX = MEDIA_TIME_MAX; /** * We pass the principal through the MediaStreamGraph by wrapping it in a thread * safe nsMainThreadPtrHandle, since it cannot be used directly off the main * thread. We can compare two PrincipalHandles to each other on any thread, but * they can only be created and converted back to nsIPrincipal* on main thread. */ typedef nsMainThreadPtrHandle PrincipalHandle; inline PrincipalHandle MakePrincipalHandle(nsIPrincipal* aPrincipal) { RefPtr> holder = new nsMainThreadPtrHolder(aPrincipal); return PrincipalHandle(holder); } #define PRINCIPAL_HANDLE_NONE nullptr inline nsIPrincipal* GetPrincipalFromHandle(PrincipalHandle& aPrincipalHandle) { MOZ_ASSERT(NS_IsMainThread()); return aPrincipalHandle.get(); } inline bool PrincipalHandleMatches(PrincipalHandle& aPrincipalHandle, nsIPrincipal* aOther) { if (!aOther) { return false; } nsIPrincipal* principal = GetPrincipalFromHandle(aPrincipalHandle); if (!principal) { return false; } bool result; if (NS_FAILED(principal->Equals(aOther, &result))) { NS_ERROR("Principal check failed"); return false; } return result; } /** * A MediaSegment is a chunk of media data sequential in time. Different * types of data have different subclasses of MediaSegment, all inheriting * from MediaSegmentBase. * All MediaSegment data is timed using StreamTime. The actual tick rate * is defined on a per-track basis. For some track types, this can be * a fixed constant for all tracks of that type (e.g. 1MHz for video). * * Each media segment defines a concept of "null media data" (e.g. silence * for audio or "no video frame" for video), which can be efficiently * represented. This is used for padding. */ class MediaSegment { public: virtual ~MediaSegment() { MOZ_COUNT_DTOR(MediaSegment); } enum Type { AUDIO, VIDEO, TYPE_COUNT }; /** * Gets the total duration of the segment. */ StreamTime GetDuration() const { return mDuration; } Type GetType() const { return mType; } /** * Gets the last principal id that was appended to this segment. */ PrincipalHandle GetLastPrincipalHandle() const { return mLastPrincipalHandle; } /** * Called by the MediaStreamGraph as it appends a chunk with a different * principal id than the current one. */ void SetLastPrincipalHandle(PrincipalHandle aLastPrincipalHandle) { mLastPrincipalHandle = aLastPrincipalHandle; } /** * Create a MediaSegment of the same type. */ virtual MediaSegment* CreateEmptyClone() const = 0; /** * Moves contents of aSource to the end of this segment. */ virtual void AppendFrom(MediaSegment* aSource) = 0; /** * Append a slice of aSource to this segment. */ virtual void AppendSlice(const MediaSegment& aSource, StreamTime aStart, StreamTime aEnd) = 0; /** * Replace all contents up to aDuration with null data. */ virtual void ForgetUpTo(StreamTime aDuration) = 0; /** * Forget all data buffered after a given point */ virtual void FlushAfter(StreamTime aNewEnd) = 0; /** * Insert aDuration of null data at the start of the segment. */ virtual void InsertNullDataAtStart(StreamTime aDuration) = 0; /** * Insert aDuration of null data at the end of the segment. */ virtual void AppendNullData(StreamTime aDuration) = 0; /** * Replace contents with disabled data of the same duration */ virtual void ReplaceWithDisabled() = 0; /** * Remove all contents, setting duration to 0. */ virtual void Clear() = 0; virtual size_t SizeOfExcludingThis(MallocSizeOf aMallocSizeOf) const { return 0; } virtual size_t SizeOfIncludingThis(MallocSizeOf aMallocSizeOf) const { return aMallocSizeOf(this) + SizeOfExcludingThis(aMallocSizeOf); } protected: explicit MediaSegment(Type aType) : mDuration(0), mType(aType), mLastPrincipalHandle(PRINCIPAL_HANDLE_NONE) { MOZ_COUNT_CTOR(MediaSegment); } StreamTime mDuration; // total of mDurations of all chunks Type mType; // The latest principal handle that the MediaStreamGraph has processed for // this segment. PrincipalHandle mLastPrincipalHandle; }; /** * C is the implementation class subclassed from MediaSegmentBase. * C must contain a Chunk class. */ template class MediaSegmentBase : public MediaSegment { public: MediaSegment* CreateEmptyClone() const override { return new C(); } void AppendFrom(MediaSegment* aSource) override { NS_ASSERTION(aSource->GetType() == C::StaticType(), "Wrong type"); AppendFromInternal(static_cast(aSource)); } void AppendFrom(C* aSource) { AppendFromInternal(aSource); } void AppendSlice(const MediaSegment& aSource, StreamTime aStart, StreamTime aEnd) override { NS_ASSERTION(aSource.GetType() == C::StaticType(), "Wrong type"); AppendSliceInternal(static_cast(aSource), aStart, aEnd); } void AppendSlice(const C& aOther, StreamTime aStart, StreamTime aEnd) { AppendSliceInternal(aOther, aStart, aEnd); } /** * Replace the first aDuration ticks with null media data, because the data * will not be required again. */ void ForgetUpTo(StreamTime aDuration) override { if (mChunks.IsEmpty() || aDuration <= 0) { return; } if (mChunks[0].IsNull()) { StreamTime extraToForget = std::min(aDuration, mDuration) - mChunks[0].GetDuration(); if (extraToForget > 0) { RemoveLeading(extraToForget, 1); mChunks[0].mDuration += extraToForget; mDuration += extraToForget; } return; } RemoveLeading(aDuration, 0); mChunks.InsertElementAt(0)->SetNull(aDuration); mDuration += aDuration; } void FlushAfter(StreamTime aNewEnd) override { if (mChunks.IsEmpty()) { return; } if (mChunks[0].IsNull()) { StreamTime extraToKeep = aNewEnd - mChunks[0].GetDuration(); if (extraToKeep < 0) { // reduce the size of the Null, get rid of everthing else mChunks[0].SetNull(aNewEnd); extraToKeep = 0; } RemoveTrailing(extraToKeep, 1); } else { if (aNewEnd > mDuration) { NS_ASSERTION(aNewEnd <= mDuration, "can't add data in FlushAfter"); return; } RemoveTrailing(aNewEnd, 0); } mDuration = aNewEnd; } void InsertNullDataAtStart(StreamTime aDuration) override { if (aDuration <= 0) { return; } if (!mChunks.IsEmpty() && mChunks[0].IsNull()) { mChunks[0].mDuration += aDuration; } else { mChunks.InsertElementAt(0)->SetNull(aDuration); } #ifdef MOZILLA_INTERNAL_API mChunks[0].mTimeStamp = mozilla::TimeStamp::Now(); #endif mDuration += aDuration; } void AppendNullData(StreamTime aDuration) override { if (aDuration <= 0) { return; } if (!mChunks.IsEmpty() && mChunks[mChunks.Length() - 1].IsNull()) { mChunks[mChunks.Length() - 1].mDuration += aDuration; } else { mChunks.AppendElement()->SetNull(aDuration); } mDuration += aDuration; } void ReplaceWithDisabled() override { if (GetType() != AUDIO) { MOZ_CRASH("Disabling unknown segment type"); } StreamTime duration = GetDuration(); Clear(); AppendNullData(duration); } void Clear() override { mDuration = 0; mChunks.Clear(); } class ChunkIterator { public: explicit ChunkIterator(MediaSegmentBase& aSegment) : mSegment(aSegment), mIndex(0) {} bool IsEnded() { return mIndex >= mSegment.mChunks.Length(); } void Next() { ++mIndex; } Chunk& operator*() { return mSegment.mChunks[mIndex]; } Chunk* operator->() { return &mSegment.mChunks[mIndex]; } private: MediaSegmentBase& mSegment; uint32_t mIndex; }; class ConstChunkIterator { public: explicit ConstChunkIterator(const MediaSegmentBase& aSegment) : mSegment(aSegment), mIndex(0) {} bool IsEnded() { return mIndex >= mSegment.mChunks.Length(); } void Next() { ++mIndex; } const Chunk& operator*() { return mSegment.mChunks[mIndex]; } const Chunk* operator->() { return &mSegment.mChunks[mIndex]; } private: const MediaSegmentBase& mSegment; uint32_t mIndex; }; Chunk* FindChunkContaining(StreamTime aOffset, StreamTime* aStart = nullptr) { if (aOffset < 0) { return nullptr; } StreamTime offset = 0; for (uint32_t i = 0; i < mChunks.Length(); ++i) { Chunk& c = mChunks[i]; StreamTime nextOffset = offset + c.GetDuration(); if (aOffset < nextOffset) { if (aStart) { *aStart = offset; } return &c; } offset = nextOffset; } return nullptr; } void RemoveLeading(StreamTime aDuration) { RemoveLeading(aDuration, 0); } #ifdef MOZILLA_INTERNAL_API void GetStartTime(TimeStamp &aTime) { aTime = mChunks[0].mTimeStamp; } #endif size_t SizeOfExcludingThis(MallocSizeOf aMallocSizeOf) const override { size_t amount = mChunks.ShallowSizeOfExcludingThis(aMallocSizeOf); for (size_t i = 0; i < mChunks.Length(); i++) { amount += mChunks[i].SizeOfExcludingThisIfUnshared(aMallocSizeOf); } return amount; } size_t SizeOfIncludingThis(MallocSizeOf aMallocSizeOf) const override { return aMallocSizeOf(this) + SizeOfExcludingThis(aMallocSizeOf); } protected: explicit MediaSegmentBase(Type aType) : MediaSegment(aType) {} /** * Appends the contents of aSource to this segment, clearing aSource. */ void AppendFromInternal(MediaSegmentBase* aSource) { MOZ_ASSERT(aSource->mDuration >= 0); mDuration += aSource->mDuration; aSource->mDuration = 0; if (!mChunks.IsEmpty() && !aSource->mChunks.IsEmpty() && mChunks[mChunks.Length() - 1].CanCombineWithFollowing(aSource->mChunks[0])) { mChunks[mChunks.Length() - 1].mDuration += aSource->mChunks[0].mDuration; aSource->mChunks.RemoveElementAt(0); } mChunks.AppendElements(Move(aSource->mChunks)); } void AppendSliceInternal(const MediaSegmentBase& aSource, StreamTime aStart, StreamTime aEnd) { MOZ_ASSERT(aStart <= aEnd, "Endpoints inverted"); NS_ASSERTION(aStart >= 0 && aEnd <= aSource.mDuration, "Slice out of range"); mDuration += aEnd - aStart; StreamTime offset = 0; for (uint32_t i = 0; i < aSource.mChunks.Length() && offset < aEnd; ++i) { const Chunk& c = aSource.mChunks[i]; StreamTime start = std::max(aStart, offset); StreamTime nextOffset = offset + c.GetDuration(); StreamTime end = std::min(aEnd, nextOffset); if (start < end) { mChunks.AppendElement(c)->SliceTo(start - offset, end - offset); } offset = nextOffset; } } Chunk* AppendChunk(StreamTime aDuration) { MOZ_ASSERT(aDuration >= 0); Chunk* c = mChunks.AppendElement(); c->mDuration = aDuration; mDuration += aDuration; return c; } Chunk* GetLastChunk() { if (mChunks.IsEmpty()) { return nullptr; } return &mChunks[mChunks.Length() - 1]; } void RemoveLeading(StreamTime aDuration, uint32_t aStartIndex) { NS_ASSERTION(aDuration >= 0, "Can't remove negative duration"); StreamTime t = aDuration; uint32_t chunksToRemove = 0; for (uint32_t i = aStartIndex; i < mChunks.Length() && t > 0; ++i) { Chunk* c = &mChunks[i]; if (c->GetDuration() > t) { c->SliceTo(t, c->GetDuration()); t = 0; break; } t -= c->GetDuration(); chunksToRemove = i + 1 - aStartIndex; } mChunks.RemoveElementsAt(aStartIndex, chunksToRemove); mDuration -= aDuration - t; } void RemoveTrailing(StreamTime aKeep, uint32_t aStartIndex) { NS_ASSERTION(aKeep >= 0, "Can't keep negative duration"); StreamTime t = aKeep; uint32_t i; for (i = aStartIndex; i < mChunks.Length(); ++i) { Chunk* c = &mChunks[i]; if (c->GetDuration() > t) { c->SliceTo(0, t); break; } t -= c->GetDuration(); if (t == 0) { break; } } if (i+1 < mChunks.Length()) { mChunks.RemoveElementsAt(i+1, mChunks.Length() - (i+1)); } // Caller must adjust mDuration } nsTArray mChunks; #ifdef MOZILLA_INTERNAL_API mozilla::TimeStamp mTimeStamp; #endif }; } // namespace mozilla #endif /* MOZILLA_MEDIASEGMENT_H_ */