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5367461411
These new macros provide a standard way to delegate `delete` to the main thread, and can be used to avoid using bespoke _WITH_DESTROY implementations. Differential Revision: https://phabricator.services.mozilla.com/D97826
284 lines
13 KiB
C++
284 lines
13 KiB
C++
/* vim:set ts=2 sw=2 sts=2 et cindent: */
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/* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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#if !defined(MediaResource_h_)
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# define MediaResource_h_
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# include "DecoderDoctorLogger.h"
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# include "Intervals.h"
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# include "MediaData.h"
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# include "mozilla/Attributes.h"
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# include "mozilla/UniquePtr.h"
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# include "nsISeekableStream.h"
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# include "nsThreadUtils.h"
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namespace mozilla {
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// Represents a section of contiguous media, with a start and end offset.
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// Used to denote ranges of data which are cached.
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typedef media::Interval<int64_t> MediaByteRange;
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typedef media::IntervalSet<int64_t> MediaByteRangeSet;
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DDLoggedTypeDeclName(MediaResource);
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/**
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* Provides a thread-safe, seek/read interface to resources
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* loaded from a URI. Uses MediaCache to cache data received over
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* Necko's async channel API, thus resolving the mismatch between clients
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* that need efficient random access to the data and protocols that do not
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* support efficient random access, such as HTTP.
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*
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* Instances of this class must be created on the main thread.
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* Most methods must be called on the main thread only. Read, Seek and
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* Tell must only be called on non-main threads. In the case of the Ogg
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* Decoder they are called on the Decode thread for example. You must
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* ensure that no threads are calling these methods once Close is called.
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*
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* Instances of this class are reference counted. Use nsRefPtr for
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* managing the lifetime of instances of this class.
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*
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* The generic implementation of this class is ChannelMediaResource, which can
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* handle any URI for which Necko supports AsyncOpen.
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* The 'file:' protocol can be implemented efficiently with direct random
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* access, so the FileMediaResource implementation class bypasses the cache.
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* For cross-process blob URL, CloneableWithRangeMediaResource is used.
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* MediaResource::Create automatically chooses the best implementation class.
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*/
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class MediaResource : public DecoderDoctorLifeLogger<MediaResource> {
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public:
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// Our refcounting is threadsafe, and when our refcount drops to zero
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// we dispatch an event to the main thread to delete the MediaResource.
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// Note that this means it's safe for references to this object to be
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// released on a non main thread, but the destructor will always run on
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// the main thread.
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NS_INLINE_DECL_THREADSAFE_REFCOUNTING_WITH_DELETE_ON_MAIN_THREAD(
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MediaResource)
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// Close the resource, stop any listeners, channels, etc.
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// Cancels any currently blocking Read request and forces that request to
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// return an error. This must be called (and resolve) before the MediaResource
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// is deleted.
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virtual RefPtr<GenericPromise> Close() {
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return GenericPromise::CreateAndResolve(true, __func__);
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}
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// These methods are called off the main thread.
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// Read up to aCount bytes from the stream. The read starts at
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// aOffset in the stream, seeking to that location initially if
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// it is not the current stream offset. The remaining arguments,
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// results and requirements are the same as per the Read method.
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virtual nsresult ReadAt(int64_t aOffset, char* aBuffer, uint32_t aCount,
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uint32_t* aBytes) = 0;
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// Indicate whether caching data in advance of reads is worth it.
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// E.g. Caching lockless and memory-based MediaResource subclasses would be a
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// waste, but caching lock/IO-bound resources means reducing the impact of
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// each read.
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virtual bool ShouldCacheReads() = 0;
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// These can be called on any thread.
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// Cached blocks associated with this stream will not be evicted
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// while the stream is pinned.
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virtual void Pin() = 0;
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virtual void Unpin() = 0;
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// Get the length of the stream in bytes. Returns -1 if not known.
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// This can change over time; after a seek operation, a misbehaving
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// server may give us a resource of a different length to what it had
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// reported previously --- or it may just lie in its Content-Length
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// header and give us more or less data than it reported. We will adjust
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// the result of GetLength to reflect the data that's actually arriving.
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virtual int64_t GetLength() = 0;
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// Returns the offset of the first byte of cached data at or after aOffset,
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// or -1 if there is no such cached data.
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virtual int64_t GetNextCachedData(int64_t aOffset) = 0;
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// Returns the end of the bytes starting at the given offset which are in
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// cache. Returns aOffset itself if there are zero bytes available there.
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virtual int64_t GetCachedDataEnd(int64_t aOffset) = 0;
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// Returns true if all the data from aOffset to the end of the stream
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// is in cache. If the end of the stream is not known, we return false.
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virtual bool IsDataCachedToEndOfResource(int64_t aOffset) = 0;
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// Reads only data which is cached in the media cache. If you try to read
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// any data which overlaps uncached data, or if aCount bytes otherwise can't
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// be read, this function will return failure. This function be called from
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// any thread, and it is the only read operation which is safe to call on
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// the main thread, since it's guaranteed to be non blocking.
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virtual nsresult ReadFromCache(char* aBuffer, int64_t aOffset,
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uint32_t aCount) = 0;
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/**
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* Fills aRanges with MediaByteRanges representing the data which is cached
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* in the media cache. Stream should be pinned during call and while
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* aRanges is being used.
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*/
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virtual nsresult GetCachedRanges(MediaByteRangeSet& aRanges) = 0;
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protected:
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virtual ~MediaResource() = default;
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};
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/**
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* RAII class that handles pinning and unpinning for MediaResource and derived.
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* This should be used when making calculations that involve potentially-cached
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* MediaResource data, so that the state of the world can't change out from
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* under us.
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*/
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template <class T>
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class MOZ_RAII AutoPinned {
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public:
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explicit AutoPinned(T* aResource) : mResource(aResource) {
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MOZ_ASSERT(mResource);
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mResource->Pin();
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}
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~AutoPinned() { mResource->Unpin(); }
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operator T*() const { return mResource; }
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T* operator->() const MOZ_NO_ADDREF_RELEASE_ON_RETURN { return mResource; }
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private:
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T* mResource;
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};
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DDLoggedTypeDeclName(MediaResourceIndex);
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/*
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* MediaResourceIndex provides a way to access MediaResource objects.
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* Read, Seek and Tell must only be called on non-main threads.
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* In the case of the Ogg Decoder they are called on the Decode thread for
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* example. You must ensure that no threads are calling these methods once
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* the MediaResource has been Closed.
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*/
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class MediaResourceIndex : public DecoderDoctorLifeLogger<MediaResourceIndex> {
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public:
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explicit MediaResourceIndex(MediaResource* aResource);
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// Read up to aCount bytes from the stream. The buffer must have
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// enough room for at least aCount bytes. Stores the number of
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// actual bytes read in aBytes (0 on end of file).
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// May read less than aCount bytes if the number of
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// available bytes is less than aCount. Always check *aBytes after
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// read, and call again if necessary.
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nsresult Read(char* aBuffer, uint32_t aCount, uint32_t* aBytes);
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// Seek to the given bytes offset in the stream. aWhence can be
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// one of:
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// nsISeekableStream::NS_SEEK_SET
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// nsISeekableStream::NS_SEEK_CUR
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// nsISeekableStream::NS_SEEK_END
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//
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// In the Http strategy case the cancel will cause the http
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// channel's listener to close the pipe, forcing an i/o error on any
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// blocked read. This will allow the decode thread to complete the
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// event.
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//
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// In the case of a seek in progress, the byte range request creates
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// a new listener. This is done on the main thread via seek
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// synchronously dispatching an event. This avoids the issue of us
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// closing the listener but an outstanding byte range request
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// creating a new one. They run on the same thread so no explicit
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// synchronisation is required. The byte range request checks for
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// the cancel flag and does not create a new channel or listener if
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// we are cancelling.
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//
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// The default strategy does not do any seeking - the only issue is
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// a blocked read which it handles by causing the listener to close
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// the pipe, as per the http case.
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//
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// The file strategy doesn't block for any great length of time so
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// is fine for a no-op cancel.
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nsresult Seek(int32_t aWhence, int64_t aOffset);
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// Report the current offset in bytes from the start of the stream.
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int64_t Tell() const { return mOffset; }
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// Return the underlying MediaResource.
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MediaResource* GetResource() const { return mResource; }
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// Read up to aCount bytes from the stream. The read starts at
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// aOffset in the stream, seeking to that location initially if
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// it is not the current stream offset.
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// Unlike MediaResource::ReadAt, ReadAt only returns fewer bytes than
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// requested if end of stream or an error is encountered. There is no need to
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// call it again to get more data.
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// If the resource has cached data past the end of the request, it will be
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// used to fill a local cache, which should speed up consecutive ReadAt's
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// (mostly by avoiding using the resource's IOs and locks.)
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// *aBytes will contain the number of bytes copied, even if an error occurred.
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// ReadAt doesn't have an impact on the offset returned by Tell().
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nsresult ReadAt(int64_t aOffset, char* aBuffer, uint32_t aCount,
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uint32_t* aBytes);
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// Same as ReadAt, but doesn't try to cache around the read.
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// Useful if you know that you will not read again from the same area.
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nsresult UncachedReadAt(int64_t aOffset, char* aBuffer, uint32_t aCount,
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uint32_t* aBytes) const;
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// Similar to ReadAt, but doesn't try to cache around the read.
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// Useful if you know that you will not read again from the same area.
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// Will attempt to read aRequestedCount+aExtraCount, repeatedly calling
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// MediaResource/ ReadAt()'s until a read returns 0 bytes (so we may actually
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// get less than aRequestedCount bytes), or until we get at least
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// aRequestedCount bytes (so we may not get any/all of the aExtraCount bytes.)
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nsresult UncachedRangedReadAt(int64_t aOffset, char* aBuffer,
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uint32_t aRequestedCount, uint32_t aExtraCount,
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uint32_t* aBytes) const;
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// This method returns nullptr if anything fails.
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// Otherwise, it returns an owned buffer.
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// MediaReadAt may return fewer bytes than requested if end of stream is
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// encountered. There is no need to call it again to get more data.
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// Note this method will not update mOffset.
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already_AddRefed<MediaByteBuffer> MediaReadAt(int64_t aOffset,
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uint32_t aCount) const;
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already_AddRefed<MediaByteBuffer> CachedMediaReadAt(int64_t aOffset,
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uint32_t aCount) const;
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// Get the length of the stream in bytes. Returns -1 if not known.
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// This can change over time; after a seek operation, a misbehaving
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// server may give us a resource of a different length to what it had
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// reported previously --- or it may just lie in its Content-Length
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// header and give us more or less data than it reported. We will adjust
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// the result of GetLength to reflect the data that's actually arriving.
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int64_t GetLength() const;
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private:
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// If the resource has cached data past the requested range, try to grab it
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// into our local cache.
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// If there is no cached data, or attempting to read it fails, fallback on
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// a (potentially-blocking) read of just what was requested, so that we don't
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// get unexpected side-effects by trying to read more than intended.
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nsresult CacheOrReadAt(int64_t aOffset, char* aBuffer, uint32_t aCount,
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uint32_t* aBytes);
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// Maps a file offset to a mCachedBlock index.
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uint32_t IndexInCache(int64_t aOffsetInFile) const;
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// Starting file offset of the cache block that contains a given file offset.
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int64_t CacheOffsetContaining(int64_t aOffsetInFile) const;
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RefPtr<MediaResource> mResource;
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int64_t mOffset;
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// Local cache used by ReadAt().
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// mCachedBlock is valid when mCachedBytes != 0, in which case it contains
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// data of length mCachedBytes, starting at offset `mCachedOffset` in the
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// resource, located at index `IndexInCache(mCachedOffset)` in mCachedBlock.
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//
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// resource: |------------------------------------------------------|
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// <----------> mCacheBlockSize
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// <---------------------------------> mCachedOffset
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// <--> mCachedBytes
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// mCachedBlock: |..----....|
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// CacheOffsetContaining(mCachedOffset) <--> IndexInCache(mCachedOffset)
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// <------------------------------>
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const uint32_t mCacheBlockSize;
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int64_t mCachedOffset;
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uint32_t mCachedBytes;
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UniquePtr<char[]> mCachedBlock;
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};
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} // namespace mozilla
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#endif
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