/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim:set ts=2 sw=2 sts=2 et cindent: */ /* 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/. */ #include "mozilla/DebugOnly.h" #include "MediaResource.h" #include "RtspMediaResource.h" #include "mozilla/Mutex.h" #include "nsDebug.h" #include "MediaDecoder.h" #include "nsNetUtil.h" #include "nsThreadUtils.h" #include "nsIFile.h" #include "nsIFileChannel.h" #include "nsIHttpChannel.h" #include "nsISeekableStream.h" #include "nsIInputStream.h" #include "nsIRequestObserver.h" #include "nsIStreamListener.h" #include "nsIScriptSecurityManager.h" #include "nsCrossSiteListenerProxy.h" #include "mozilla/dom/HTMLMediaElement.h" #include "nsError.h" #include "nsICachingChannel.h" #include "nsIAsyncVerifyRedirectCallback.h" #include "nsContentUtils.h" #include "nsHostObjectProtocolHandler.h" #include #include "nsProxyRelease.h" #ifdef PR_LOGGING PRLogModuleInfo* gMediaResourceLog; #define RESOURCE_LOG(msg, ...) PR_LOG(gMediaResourceLog, PR_LOG_DEBUG, \ (msg, ##__VA_ARGS__)) // Debug logging macro with object pointer and class name. #define CMLOG(msg, ...) \ RESOURCE_LOG("%p [ChannelMediaResource]: " msg, this, ##__VA_ARGS__) #else #define RESOURCE_LOG(msg, ...) #define CMLOG(msg, ...) #endif static const uint32_t HTTP_OK_CODE = 200; static const uint32_t HTTP_PARTIAL_RESPONSE_CODE = 206; namespace mozilla { void MediaResource::Destroy() { // If we're being destroyed on a non-main thread, we AddRef again and // use a proxy to release the MediaResource on the main thread, where // the MediaResource is deleted. This ensures we only delete the // MediaResource on the main thread. if (!NS_IsMainThread()) { nsCOMPtr mainThread = do_GetMainThread(); NS_ENSURE_TRUE_VOID(mainThread); nsRefPtr doomed(this); if (NS_FAILED(NS_ProxyRelease(mainThread, doomed, true))) { NS_WARNING("Failed to proxy release to main thread!"); } } else { delete this; } } NS_IMPL_ADDREF(MediaResource) NS_IMPL_RELEASE_WITH_DESTROY(MediaResource, Destroy()) NS_IMPL_QUERY_INTERFACE0(MediaResource) ChannelMediaResource::ChannelMediaResource(MediaDecoder* aDecoder, nsIChannel* aChannel, nsIURI* aURI, const nsACString& aContentType) : BaseMediaResource(aDecoder, aChannel, aURI, aContentType), mOffset(0), mSuspendCount(0), mReopenOnError(false), mIgnoreClose(false), mCacheStream(MOZ_THIS_IN_INITIALIZER_LIST()), mLock("ChannelMediaResource.mLock"), mIgnoreResume(false), mSeekingForMetadata(false), mIsTransportSeekable(true) { #ifdef PR_LOGGING if (!gMediaResourceLog) { gMediaResourceLog = PR_NewLogModule("MediaResource"); } #endif } ChannelMediaResource::~ChannelMediaResource() { if (mListener) { // Kill its reference to us since we're going away mListener->Revoke(); } } // ChannelMediaResource::Listener just observes the channel and // forwards notifications to the ChannelMediaResource. We use multiple // listener objects so that when we open a new stream for a seek we can // disconnect the old listener from the ChannelMediaResource and hook up // a new listener, so notifications from the old channel are discarded // and don't confuse us. NS_IMPL_ISUPPORTS(ChannelMediaResource::Listener, nsIRequestObserver, nsIStreamListener, nsIChannelEventSink, nsIInterfaceRequestor) nsresult ChannelMediaResource::Listener::OnStartRequest(nsIRequest* aRequest, nsISupports* aContext) { if (!mResource) return NS_OK; return mResource->OnStartRequest(aRequest); } nsresult ChannelMediaResource::Listener::OnStopRequest(nsIRequest* aRequest, nsISupports* aContext, nsresult aStatus) { if (!mResource) return NS_OK; return mResource->OnStopRequest(aRequest, aStatus); } nsresult ChannelMediaResource::Listener::OnDataAvailable(nsIRequest* aRequest, nsISupports* aContext, nsIInputStream* aStream, uint64_t aOffset, uint32_t aCount) { if (!mResource) return NS_OK; return mResource->OnDataAvailable(aRequest, aStream, aCount); } nsresult ChannelMediaResource::Listener::AsyncOnChannelRedirect(nsIChannel* aOldChannel, nsIChannel* aNewChannel, uint32_t aFlags, nsIAsyncVerifyRedirectCallback* cb) { nsresult rv = NS_OK; if (mResource) rv = mResource->OnChannelRedirect(aOldChannel, aNewChannel, aFlags); if (NS_FAILED(rv)) return rv; cb->OnRedirectVerifyCallback(NS_OK); return NS_OK; } nsresult ChannelMediaResource::Listener::GetInterface(const nsIID & aIID, void **aResult) { return QueryInterface(aIID, aResult); } nsresult ChannelMediaResource::OnStartRequest(nsIRequest* aRequest) { NS_ASSERTION(mChannel.get() == aRequest, "Wrong channel!"); MediaDecoderOwner* owner = mDecoder->GetMediaOwner(); NS_ENSURE_TRUE(owner, NS_ERROR_FAILURE); dom::HTMLMediaElement* element = owner->GetMediaElement(); NS_ENSURE_TRUE(element, NS_ERROR_FAILURE); nsresult status; nsresult rv = aRequest->GetStatus(&status); NS_ENSURE_SUCCESS(rv, rv); if (status == NS_BINDING_ABORTED) { // Request was aborted before we had a chance to receive any data, or // even an OnStartRequest(). Close the channel. This is important, as // we don't want to mess up our state, as if we're cloned that would // cause the clone to copy incorrect metadata (like whether we're // infinite for example). CloseChannel(); return status; } if (element->ShouldCheckAllowOrigin()) { // If the request was cancelled by nsCORSListenerProxy due to failing // the CORS security check, send an error through to the media element. if (status == NS_ERROR_DOM_BAD_URI) { mDecoder->NetworkError(); return NS_ERROR_DOM_BAD_URI; } } nsCOMPtr hc = do_QueryInterface(aRequest); bool seekable = false; if (hc) { uint32_t responseStatus = 0; hc->GetResponseStatus(&responseStatus); bool succeeded = false; hc->GetRequestSucceeded(&succeeded); if (!succeeded && NS_SUCCEEDED(status)) { // HTTP-level error (e.g. 4xx); treat this as a fatal network-level error. // We might get this on a seek. // (Note that lower-level errors indicated by NS_FAILED(status) are // handled in OnStopRequest.) // A 416 error should treated as EOF here... it's possible // that we don't get Content-Length, we read N bytes, then we // suspend and resume, the resume reopens the channel and we seek to // offset N, but there are no more bytes, so we get a 416 // "Requested Range Not Satisfiable". if (responseStatus == HTTP_REQUESTED_RANGE_NOT_SATISFIABLE_CODE) { // OnStopRequest will not be fired, so we need to do some of its // work here. mCacheStream.NotifyDataEnded(status); } else { mDecoder->NetworkError(); } // This disconnects our listener so we don't get any more data. We // certainly don't want an error page to end up in our cache! CloseChannel(); return NS_OK; } nsAutoCString ranges; hc->GetResponseHeader(NS_LITERAL_CSTRING("Accept-Ranges"), ranges); bool acceptsRanges = ranges.EqualsLiteral("bytes"); // True if this channel will not return an unbounded amount of data bool dataIsBounded = false; int64_t contentLength = -1; hc->GetContentLength(&contentLength); if (contentLength >= 0 && responseStatus == HTTP_OK_CODE) { // "OK" status means Content-Length is for the whole resource. // Since that's bounded, we know we have a finite-length resource. dataIsBounded = true; } if (mOffset == 0) { // Look for duration headers from known Ogg content systems. // In the case of multiple options for obtaining the duration // the order of precedence is: // 1) The Media resource metadata if possible (done by the decoder itself). // 2) Content-Duration message header. // 3) X-AMZ-Meta-Content-Duration. // 4) X-Content-Duration. // 5) Perform a seek in the decoder to find the value. nsAutoCString durationText; nsresult ec = NS_OK; rv = hc->GetResponseHeader(NS_LITERAL_CSTRING("Content-Duration"), durationText); if (NS_FAILED(rv)) { rv = hc->GetResponseHeader(NS_LITERAL_CSTRING("X-AMZ-Meta-Content-Duration"), durationText); } if (NS_FAILED(rv)) { rv = hc->GetResponseHeader(NS_LITERAL_CSTRING("X-Content-Duration"), durationText); } // If there is a Content-Duration header with a valid value, record // the duration. if (NS_SUCCEEDED(rv)) { double duration = durationText.ToDouble(&ec); if (ec == NS_OK && duration >= 0) { mDecoder->SetDuration(duration); // We know the resource must be bounded. dataIsBounded = true; } } } // Assume Range requests have a bounded upper limit unless the // Content-Range header tells us otherwise. bool boundedSeekLimit = true; // Check response code for byte-range requests (seeking, chunk requests). if (!mByteRange.IsNull() && (responseStatus == HTTP_PARTIAL_RESPONSE_CODE)) { // Parse Content-Range header. int64_t rangeStart = 0; int64_t rangeEnd = 0; int64_t rangeTotal = 0; rv = ParseContentRangeHeader(hc, rangeStart, rangeEnd, rangeTotal); if (NS_FAILED(rv)) { // Content-Range header text should be parse-able. CMLOG("Error processing \'Content-Range' for " "HTTP_PARTIAL_RESPONSE_CODE: rv[%x] channel[%p] decoder[%p]", rv, hc.get(), mDecoder); mDecoder->NetworkError(); CloseChannel(); return NS_OK; } // Give some warnings if the ranges are unexpected. // XXX These could be error conditions. NS_WARN_IF_FALSE(mByteRange.mStart == rangeStart, "response range start does not match request"); NS_WARN_IF_FALSE(mOffset == rangeStart, "response range start does not match current offset"); NS_WARN_IF_FALSE(mByteRange.mEnd == rangeEnd, "response range end does not match request"); // Notify media cache about the length and start offset of data received. // Note: If aRangeTotal == -1, then the total bytes is unknown at this stage. // For now, tell the decoder that the stream is infinite. if (rangeTotal == -1) { boundedSeekLimit = false; } else { mCacheStream.NotifyDataLength(rangeTotal); } mCacheStream.NotifyDataStarted(rangeStart); mOffset = rangeStart; // We received 'Content-Range', so the server accepts range requests. acceptsRanges = true; } else if (((mOffset > 0) || !mByteRange.IsNull()) && (responseStatus == HTTP_OK_CODE)) { // If we get an OK response but we were seeking, or requesting a byte // range, then we have to assume that seeking doesn't work. We also need // to tell the cache that it's getting data for the start of the stream. mCacheStream.NotifyDataStarted(0); mOffset = 0; // The server claimed it supported range requests. It lied. acceptsRanges = false; } else if (mOffset == 0 && (responseStatus == HTTP_OK_CODE || responseStatus == HTTP_PARTIAL_RESPONSE_CODE)) { if (contentLength >= 0) { mCacheStream.NotifyDataLength(contentLength); } } // XXX we probably should examine the Content-Range header in case // the server gave us a range which is not quite what we asked for // If we get an HTTP_OK_CODE response to our byte range request, // and the server isn't sending Accept-Ranges:bytes then we don't // support seeking. seekable = responseStatus == HTTP_PARTIAL_RESPONSE_CODE || acceptsRanges; if (seekable && boundedSeekLimit) { // If range requests are supported, and we did not see an unbounded // upper range limit, we assume the resource is bounded. dataIsBounded = true; } mDecoder->SetInfinite(!dataIsBounded); } mDecoder->SetTransportSeekable(seekable); mCacheStream.SetTransportSeekable(seekable); { MutexAutoLock lock(mLock); mIsTransportSeekable = seekable; mChannelStatistics->Start(); } mReopenOnError = false; // If we are seeking to get metadata, because we are playing an OGG file, // ignore if the channel gets closed without us suspending it explicitly. We // don't want to tell the element that the download has finished whereas we // just happended to have reached the end of the media while seeking. mIgnoreClose = mSeekingForMetadata; if (mSuspendCount > 0) { // Re-suspend the channel if it needs to be suspended // No need to call PossiblySuspend here since the channel is // definitely in the right state for us in OnStartRequest. mChannel->Suspend(); mIgnoreResume = false; } // Fires an initial progress event and sets up the stall counter so stall events // fire if no download occurs within the required time frame. mDecoder->Progress(false); return NS_OK; } bool ChannelMediaResource::IsTransportSeekable() { MutexAutoLock lock(mLock); return mIsTransportSeekable; } nsresult ChannelMediaResource::ParseContentRangeHeader(nsIHttpChannel * aHttpChan, int64_t& aRangeStart, int64_t& aRangeEnd, int64_t& aRangeTotal) { NS_ENSURE_ARG(aHttpChan); nsAutoCString rangeStr; nsresult rv = aHttpChan->GetResponseHeader(NS_LITERAL_CSTRING("Content-Range"), rangeStr); NS_ENSURE_SUCCESS(rv, rv); NS_ENSURE_FALSE(rangeStr.IsEmpty(), NS_ERROR_ILLEGAL_VALUE); // Parse the range header: e.g. Content-Range: bytes 7000-7999/8000. int32_t spacePos = rangeStr.Find(NS_LITERAL_CSTRING(" ")); int32_t dashPos = rangeStr.Find(NS_LITERAL_CSTRING("-"), true, spacePos); int32_t slashPos = rangeStr.Find(NS_LITERAL_CSTRING("/"), true, dashPos); nsAutoCString aRangeStartText; rangeStr.Mid(aRangeStartText, spacePos+1, dashPos-(spacePos+1)); aRangeStart = aRangeStartText.ToInteger64(&rv); NS_ENSURE_SUCCESS(rv, rv); NS_ENSURE_TRUE(0 <= aRangeStart, NS_ERROR_ILLEGAL_VALUE); nsAutoCString aRangeEndText; rangeStr.Mid(aRangeEndText, dashPos+1, slashPos-(dashPos+1)); aRangeEnd = aRangeEndText.ToInteger64(&rv); NS_ENSURE_SUCCESS(rv, rv); NS_ENSURE_TRUE(aRangeStart < aRangeEnd, NS_ERROR_ILLEGAL_VALUE); nsAutoCString aRangeTotalText; rangeStr.Right(aRangeTotalText, rangeStr.Length()-(slashPos+1)); if (aRangeTotalText[0] == '*') { aRangeTotal = -1; } else { aRangeTotal = aRangeTotalText.ToInteger64(&rv); NS_ENSURE_TRUE(aRangeEnd < aRangeTotal, NS_ERROR_ILLEGAL_VALUE); NS_ENSURE_SUCCESS(rv, rv); } CMLOG("Received bytes [%lld] to [%lld] of [%lld] for decoder[%p]", aRangeStart, aRangeEnd, aRangeTotal, mDecoder); return NS_OK; } nsresult ChannelMediaResource::OnStopRequest(nsIRequest* aRequest, nsresult aStatus) { NS_ASSERTION(mChannel.get() == aRequest, "Wrong channel!"); NS_ASSERTION(mSuspendCount == 0, "How can OnStopRequest fire while we're suspended?"); { MutexAutoLock lock(mLock); mChannelStatistics->Stop(); } // Note that aStatus might have succeeded --- this might be a normal close // --- even in situations where the server cut us off because we were // suspended. So we need to "reopen on error" in that case too. The only // cases where we don't need to reopen are when *we* closed the stream. // But don't reopen if we need to seek and we don't think we can... that would // cause us to just re-read the stream, which would be really bad. if (mReopenOnError && aStatus != NS_ERROR_PARSED_DATA_CACHED && aStatus != NS_BINDING_ABORTED && (mOffset == 0 || mCacheStream.IsTransportSeekable())) { // If the stream did close normally, then if the server is seekable we'll // just seek to the end of the resource and get an HTTP 416 error because // there's nothing there, so this isn't bad. nsresult rv = CacheClientSeek(mOffset, false); if (NS_SUCCEEDED(rv)) return rv; // If the reopen/reseek fails, just fall through and treat this // error as fatal. } if (!mIgnoreClose) { mCacheStream.NotifyDataEnded(aStatus); // Move this request back into the foreground. This is necessary for // requests owned by video documents to ensure the load group fires // OnStopRequest when restoring from session history. nsLoadFlags loadFlags; DebugOnly rv = mChannel->GetLoadFlags(&loadFlags); NS_ASSERTION(NS_SUCCEEDED(rv), "GetLoadFlags() failed!"); if (loadFlags & nsIRequest::LOAD_BACKGROUND) { ModifyLoadFlags(loadFlags & ~nsIRequest::LOAD_BACKGROUND); } } return NS_OK; } nsresult ChannelMediaResource::OnChannelRedirect(nsIChannel* aOld, nsIChannel* aNew, uint32_t aFlags) { mChannel = aNew; return SetupChannelHeaders(); } struct CopySegmentClosure { nsCOMPtr mPrincipal; ChannelMediaResource* mResource; }; NS_METHOD ChannelMediaResource::CopySegmentToCache(nsIInputStream *aInStream, void *aClosure, const char *aFromSegment, uint32_t aToOffset, uint32_t aCount, uint32_t *aWriteCount) { CopySegmentClosure* closure = static_cast(aClosure); closure->mResource->mDecoder->NotifyDataArrived(aFromSegment, aCount, closure->mResource->mOffset); // Keep track of where we're up to. RESOURCE_LOG("%p [ChannelMediaResource]: CopySegmentToCache at mOffset [%lld] add " "[%d] bytes for decoder[%p]", closure->mResource, closure->mResource->mOffset, aCount, closure->mResource->mDecoder); closure->mResource->mOffset += aCount; closure->mResource->mCacheStream.NotifyDataReceived(aCount, aFromSegment, closure->mPrincipal); *aWriteCount = aCount; return NS_OK; } nsresult ChannelMediaResource::OnDataAvailable(nsIRequest* aRequest, nsIInputStream* aStream, uint32_t aCount) { NS_ASSERTION(mChannel.get() == aRequest, "Wrong channel!"); { MutexAutoLock lock(mLock); mChannelStatistics->AddBytes(aCount); } CopySegmentClosure closure; nsIScriptSecurityManager* secMan = nsContentUtils::GetSecurityManager(); if (secMan && mChannel) { secMan->GetChannelPrincipal(mChannel, getter_AddRefs(closure.mPrincipal)); } closure.mResource = this; uint32_t count = aCount; while (count > 0) { uint32_t read; nsresult rv = aStream->ReadSegments(CopySegmentToCache, &closure, count, &read); if (NS_FAILED(rv)) return rv; NS_ASSERTION(read > 0, "Read 0 bytes while data was available?"); count -= read; } return NS_OK; } nsresult ChannelMediaResource::Open(nsIStreamListener **aStreamListener) { NS_ASSERTION(NS_IsMainThread(), "Only call on main thread"); if (!mChannelStatistics) { mChannelStatistics = new MediaChannelStatistics(); } nsresult rv = mCacheStream.Init(); if (NS_FAILED(rv)) return rv; NS_ASSERTION(mOffset == 0, "Who set mOffset already?"); if (!mChannel) { // When we're a clone, the decoder might ask us to Open even though // we haven't established an mChannel (because we might not need one) NS_ASSERTION(!aStreamListener, "Should have already been given a channel if we're to return a stream listener"); return NS_OK; } return OpenChannel(aStreamListener); } nsresult ChannelMediaResource::OpenChannel(nsIStreamListener** aStreamListener) { NS_ASSERTION(NS_IsMainThread(), "Only call on main thread"); NS_ENSURE_TRUE(mChannel, NS_ERROR_NULL_POINTER); NS_ASSERTION(!mListener, "Listener should have been removed by now"); if (aStreamListener) { *aStreamListener = nullptr; } if (mByteRange.IsNull()) { // We're not making a byte range request, so set the content length, // if it's available as an HTTP header. This ensures that MediaResource // wrapping objects for platform libraries that expect to know // the length of a resource can get it before OnStartRequest() fires. nsCOMPtr hc = do_QueryInterface(mChannel); if (hc) { int64_t cl = -1; if (NS_SUCCEEDED(hc->GetContentLength(&cl)) && cl != -1) { mCacheStream.NotifyDataLength(cl); } } } mListener = new Listener(this); NS_ENSURE_TRUE(mListener, NS_ERROR_OUT_OF_MEMORY); if (aStreamListener) { *aStreamListener = mListener; NS_ADDREF(*aStreamListener); } else { nsresult rv = mChannel->SetNotificationCallbacks(mListener.get()); NS_ENSURE_SUCCESS(rv, rv); nsCOMPtr listener = mListener.get(); // Ensure that if we're loading cross domain, that the server is sending // an authorizing Access-Control header. MediaDecoderOwner* owner = mDecoder->GetMediaOwner(); NS_ENSURE_TRUE(owner, NS_ERROR_FAILURE); dom::HTMLMediaElement* element = owner->GetMediaElement(); NS_ENSURE_TRUE(element, NS_ERROR_FAILURE); if (element->ShouldCheckAllowOrigin()) { nsRefPtr crossSiteListener = new nsCORSListenerProxy(mListener, element->NodePrincipal(), false); NS_ENSURE_TRUE(crossSiteListener, NS_ERROR_OUT_OF_MEMORY); rv = crossSiteListener->Init(mChannel); NS_ENSURE_SUCCESS(rv, rv); listener = crossSiteListener; } else { rv = nsContentUtils::GetSecurityManager()-> CheckLoadURIWithPrincipal(element->NodePrincipal(), mURI, nsIScriptSecurityManager::STANDARD); NS_ENSURE_SUCCESS(rv, rv); } rv = SetupChannelHeaders(); NS_ENSURE_SUCCESS(rv, rv); rv = mChannel->AsyncOpen(listener, nullptr); NS_ENSURE_SUCCESS(rv, rv); // Tell the media element that we are fetching data from a channel. element->DownloadResumed(true); } return NS_OK; } nsresult ChannelMediaResource::SetupChannelHeaders() { // Always use a byte range request even if we're reading from the start // of the resource. // This enables us to detect if the stream supports byte range // requests, and therefore seeking, early. nsCOMPtr hc = do_QueryInterface(mChannel); if (hc) { // Use |mByteRange| for a specific chunk, or |mOffset| if seeking in a // complete file download. nsAutoCString rangeString("bytes="); if (!mByteRange.IsNull()) { rangeString.AppendInt(mByteRange.mStart); mOffset = mByteRange.mStart; } else { rangeString.AppendInt(mOffset); } rangeString.Append("-"); if (!mByteRange.IsNull()) { rangeString.AppendInt(mByteRange.mEnd); } nsresult rv = hc->SetRequestHeader(NS_LITERAL_CSTRING("Range"), rangeString, false); NS_ENSURE_SUCCESS(rv, rv); // Send Accept header for video and audio types only (Bug 489071) NS_ASSERTION(NS_IsMainThread(), "Don't call on non-main thread"); MediaDecoderOwner* owner = mDecoder->GetMediaOwner(); NS_ENSURE_TRUE(owner, NS_ERROR_FAILURE); dom::HTMLMediaElement* element = owner->GetMediaElement(); NS_ENSURE_TRUE(element, NS_ERROR_FAILURE); element->SetRequestHeaders(hc); } else { NS_ASSERTION(mOffset == 0, "Don't know how to seek on this channel type"); return NS_ERROR_FAILURE; } return NS_OK; } nsresult ChannelMediaResource::Close() { NS_ASSERTION(NS_IsMainThread(), "Only call on main thread"); mCacheStream.Close(); CloseChannel(); return NS_OK; } already_AddRefed ChannelMediaResource::GetCurrentPrincipal() { NS_ASSERTION(NS_IsMainThread(), "Only call on main thread"); nsCOMPtr principal = mCacheStream.GetCurrentPrincipal(); return principal.forget(); } bool ChannelMediaResource::CanClone() { return mCacheStream.IsAvailableForSharing(); } already_AddRefed ChannelMediaResource::CloneData(MediaDecoder* aDecoder) { NS_ASSERTION(NS_IsMainThread(), "Only call on main thread"); NS_ASSERTION(mCacheStream.IsAvailableForSharing(), "Stream can't be cloned"); nsRefPtr resource = new ChannelMediaResource(aDecoder, nullptr, mURI, GetContentType()); if (resource) { // Initially the clone is treated as suspended by the cache, because // we don't have a channel. If the cache needs to read data from the clone // it will call CacheClientResume (or CacheClientSeek with aResume true) // which will recreate the channel. This way, if all of the media data // is already in the cache we don't create an unnecessary HTTP channel // and perform a useless HTTP transaction. resource->mSuspendCount = 1; resource->mCacheStream.InitAsClone(&mCacheStream); resource->mChannelStatistics = new MediaChannelStatistics(mChannelStatistics); resource->mChannelStatistics->Stop(); } return resource.forget(); } void ChannelMediaResource::CloseChannel() { NS_ASSERTION(NS_IsMainThread(), "Only call on main thread"); { MutexAutoLock lock(mLock); mChannelStatistics->Stop(); } if (mListener) { mListener->Revoke(); mListener = nullptr; } if (mChannel) { if (mSuspendCount > 0) { // Resume the channel before we cancel it PossiblyResume(); } // The status we use here won't be passed to the decoder, since // we've already revoked the listener. It can however be passed // to nsDocumentViewer::LoadComplete if our channel is the one // that kicked off creation of a video document. We don't want that // document load to think there was an error. // NS_ERROR_PARSED_DATA_CACHED is the best thing we have for that // at the moment. mChannel->Cancel(NS_ERROR_PARSED_DATA_CACHED); mChannel = nullptr; } } nsresult ChannelMediaResource::ReadFromCache(char* aBuffer, int64_t aOffset, uint32_t aCount) { return mCacheStream.ReadFromCache(aBuffer, aOffset, aCount); } nsresult ChannelMediaResource::Read(char* aBuffer, uint32_t aCount, uint32_t* aBytes) { NS_ASSERTION(!NS_IsMainThread(), "Don't call on main thread"); int64_t offset = mCacheStream.Tell(); nsresult rv = mCacheStream.Read(aBuffer, aCount, aBytes); if (NS_SUCCEEDED(rv)) { DispatchBytesConsumed(*aBytes, offset); } return rv; } nsresult ChannelMediaResource::ReadAt(int64_t aOffset, char* aBuffer, uint32_t aCount, uint32_t* aBytes) { NS_ASSERTION(!NS_IsMainThread(), "Don't call on main thread"); nsresult rv = mCacheStream.ReadAt(aOffset, aBuffer, aCount, aBytes); if (NS_SUCCEEDED(rv)) { DispatchBytesConsumed(*aBytes, aOffset); } return rv; } nsresult ChannelMediaResource::Seek(int32_t aWhence, int64_t aOffset) { NS_ASSERTION(!NS_IsMainThread(), "Don't call on main thread"); CMLOG("Seek requested for aOffset [%lld] for decoder [%p]", aOffset, mDecoder); return mCacheStream.Seek(aWhence, aOffset); } void ChannelMediaResource::StartSeekingForMetadata() { mSeekingForMetadata = true; } void ChannelMediaResource::EndSeekingForMetadata() { mSeekingForMetadata = false; } int64_t ChannelMediaResource::Tell() { NS_ASSERTION(!NS_IsMainThread(), "Don't call on main thread"); return mCacheStream.Tell(); } nsresult ChannelMediaResource::GetCachedRanges(nsTArray& aRanges) { return mCacheStream.GetCachedRanges(aRanges); } void ChannelMediaResource::Suspend(bool aCloseImmediately) { NS_ASSERTION(NS_IsMainThread(), "Don't call on non-main thread"); MediaDecoderOwner* owner = mDecoder->GetMediaOwner(); if (!owner) { // Shutting down; do nothing. return; } dom::HTMLMediaElement* element = owner->GetMediaElement(); if (!element) { // Shutting down; do nothing. return; } if (mChannel) { if (aCloseImmediately && mCacheStream.IsTransportSeekable()) { // Kill off our channel right now, but don't tell anyone about it. mIgnoreClose = true; CloseChannel(); element->DownloadSuspended(); } else if (mSuspendCount == 0) { { MutexAutoLock lock(mLock); mChannelStatistics->Stop(); } PossiblySuspend(); element->DownloadSuspended(); } } ++mSuspendCount; } void ChannelMediaResource::Resume() { NS_ASSERTION(NS_IsMainThread(), "Don't call on non-main thread"); NS_ASSERTION(mSuspendCount > 0, "Too many resumes!"); MediaDecoderOwner* owner = mDecoder->GetMediaOwner(); if (!owner) { // Shutting down; do nothing. return; } dom::HTMLMediaElement* element = owner->GetMediaElement(); if (!element) { // Shutting down; do nothing. return; } NS_ASSERTION(mSuspendCount > 0, "Resume without previous Suspend!"); --mSuspendCount; if (mSuspendCount == 0) { if (mChannel) { // Just wake up our existing channel { MutexAutoLock lock(mLock); mChannelStatistics->Start(); } // if an error occurs after Resume, assume it's because the server // timed out the connection and we should reopen it. mReopenOnError = true; PossiblyResume(); element->DownloadResumed(); } else { int64_t totalLength = mCacheStream.GetLength(); // If mOffset is at the end of the stream, then we shouldn't try to // seek to it. The seek will fail and be wasted anyway. We can leave // the channel dead; if the media cache wants to read some other data // in the future, it will call CacheClientSeek itself which will reopen the // channel. if (totalLength < 0 || mOffset < totalLength) { // There is (or may be) data to read at mOffset, so start reading it. // Need to recreate the channel. CacheClientSeek(mOffset, false); } element->DownloadResumed(); } } } nsresult ChannelMediaResource::RecreateChannel() { nsLoadFlags loadFlags = nsICachingChannel::LOAD_BYPASS_LOCAL_CACHE_IF_BUSY | (mLoadInBackground ? nsIRequest::LOAD_BACKGROUND : 0); MediaDecoderOwner* owner = mDecoder->GetMediaOwner(); if (!owner) { // The decoder is being shut down, so don't bother opening a new channel return NS_OK; } dom::HTMLMediaElement* element = owner->GetMediaElement(); if (!element) { // The decoder is being shut down, so don't bother opening a new channel return NS_OK; } nsCOMPtr loadGroup = element->GetDocumentLoadGroup(); NS_ENSURE_TRUE(loadGroup, NS_ERROR_NULL_POINTER); nsresult rv = NS_NewChannel(getter_AddRefs(mChannel), mURI, nullptr, loadGroup, nullptr, loadFlags); // We have cached the Content-Type, which should not change. Give a hint to // the channel to avoid a sniffing failure, which would be expected because we // are probably seeking in the middle of the bitstream, and sniffing relies // on the presence of a magic number at the beginning of the stream. NS_ASSERTION(!GetContentType().IsEmpty(), "When recreating a channel, we should know the Content-Type."); mChannel->SetContentType(GetContentType()); // Tell the cache to reset the download status when the channel is reopened. mCacheStream.NotifyChannelRecreated(); return rv; } void ChannelMediaResource::DoNotifyDataReceived() { mDataReceivedEvent.Revoke(); mDecoder->NotifyBytesDownloaded(); } void ChannelMediaResource::CacheClientNotifyDataReceived() { NS_ASSERTION(NS_IsMainThread(), "Don't call on non-main thread"); // NOTE: this can be called with the media cache lock held, so don't // block or do anything which might try to acquire a lock! if (mDataReceivedEvent.IsPending()) return; mDataReceivedEvent = NS_NewNonOwningRunnableMethod(this, &ChannelMediaResource::DoNotifyDataReceived); NS_DispatchToMainThread(mDataReceivedEvent.get(), NS_DISPATCH_NORMAL); } class DataEnded : public nsRunnable { public: DataEnded(MediaDecoder* aDecoder, nsresult aStatus) : mDecoder(aDecoder), mStatus(aStatus) {} NS_IMETHOD Run() { mDecoder->NotifyDownloadEnded(mStatus); return NS_OK; } private: nsRefPtr mDecoder; nsresult mStatus; }; void ChannelMediaResource::CacheClientNotifyDataEnded(nsresult aStatus) { NS_ASSERTION(NS_IsMainThread(), "Don't call on non-main thread"); // NOTE: this can be called with the media cache lock held, so don't // block or do anything which might try to acquire a lock! nsCOMPtr event = new DataEnded(mDecoder, aStatus); NS_DispatchToMainThread(event, NS_DISPATCH_NORMAL); } void ChannelMediaResource::CacheClientNotifyPrincipalChanged() { NS_ASSERTION(NS_IsMainThread(), "Don't call on non-main thread"); mDecoder->NotifyPrincipalChanged(); } nsresult ChannelMediaResource::CacheClientSeek(int64_t aOffset, bool aResume) { NS_ASSERTION(NS_IsMainThread(), "Don't call on non-main thread"); CMLOG("CacheClientSeek requested for aOffset [%lld] for decoder [%p]", aOffset, mDecoder); CloseChannel(); if (aResume) { NS_ASSERTION(mSuspendCount > 0, "Too many resumes!"); // No need to mess with the channel, since we're making a new one --mSuspendCount; } mOffset = aOffset; if (mSuspendCount > 0) { // Close the existing channel to force the channel to be recreated at // the correct offset upon resume. if (mChannel) { mIgnoreClose = true; CloseChannel(); } return NS_OK; } nsresult rv = RecreateChannel(); if (NS_FAILED(rv)) return rv; return OpenChannel(nullptr); } void ChannelMediaResource::FlushCache() { NS_ASSERTION(NS_IsMainThread(), "Should be on main thread."); // Ensure that data in the cache's partial block is written to disk. mCacheStream.FlushPartialBlock(); } void ChannelMediaResource::NotifyLastByteRange() { NS_ASSERTION(NS_IsMainThread(), "Should be on main thread."); // Tell media cache that the last data has been downloaded. // Note: subsequent seeks will require re-opening the channel etc. mCacheStream.NotifyDataEnded(NS_OK); } nsresult ChannelMediaResource::CacheClientSuspend() { Suspend(false); mDecoder->NotifySuspendedStatusChanged(); return NS_OK; } nsresult ChannelMediaResource::CacheClientResume() { Resume(); mDecoder->NotifySuspendedStatusChanged(); return NS_OK; } int64_t ChannelMediaResource::GetNextCachedData(int64_t aOffset) { return mCacheStream.GetNextCachedData(aOffset); } int64_t ChannelMediaResource::GetCachedDataEnd(int64_t aOffset) { return mCacheStream.GetCachedDataEnd(aOffset); } bool ChannelMediaResource::IsDataCachedToEndOfResource(int64_t aOffset) { return mCacheStream.IsDataCachedToEndOfStream(aOffset); } void ChannelMediaResource::EnsureCacheUpToDate() { mCacheStream.EnsureCacheUpdate(); } bool ChannelMediaResource::IsSuspendedByCache() { return mCacheStream.AreAllStreamsForResourceSuspended(); } bool ChannelMediaResource::IsSuspended() { MutexAutoLock lock(mLock); return mSuspendCount > 0; } void ChannelMediaResource::SetReadMode(MediaCacheStream::ReadMode aMode) { mCacheStream.SetReadMode(aMode); } void ChannelMediaResource::SetPlaybackRate(uint32_t aBytesPerSecond) { mCacheStream.SetPlaybackRate(aBytesPerSecond); } void ChannelMediaResource::Pin() { mCacheStream.Pin(); } void ChannelMediaResource::Unpin() { mCacheStream.Unpin(); } double ChannelMediaResource::GetDownloadRate(bool* aIsReliable) { MutexAutoLock lock(mLock); return mChannelStatistics->GetRate(aIsReliable); } int64_t ChannelMediaResource::GetLength() { return mCacheStream.GetLength(); } void ChannelMediaResource::PossiblySuspend() { bool isPending = false; nsresult rv = mChannel->IsPending(&isPending); if (NS_SUCCEEDED(rv) && isPending) { mChannel->Suspend(); mIgnoreResume = false; } else { mIgnoreResume = true; } } void ChannelMediaResource::PossiblyResume() { if (!mIgnoreResume) { mChannel->Resume(); } else { mIgnoreResume = false; } } class FileMediaResource : public BaseMediaResource { public: FileMediaResource(MediaDecoder* aDecoder, nsIChannel* aChannel, nsIURI* aURI, const nsACString& aContentType) : BaseMediaResource(aDecoder, aChannel, aURI, aContentType), mSize(-1), mLock("FileMediaResource.mLock"), mSizeInitialized(false) { } ~FileMediaResource() { } // Main thread virtual nsresult Open(nsIStreamListener** aStreamListener); virtual nsresult Close(); virtual void Suspend(bool aCloseImmediately) {} virtual void Resume() {} virtual already_AddRefed GetCurrentPrincipal(); virtual bool CanClone(); virtual already_AddRefed CloneData(MediaDecoder* aDecoder); virtual nsresult ReadFromCache(char* aBuffer, int64_t aOffset, uint32_t aCount); // These methods are called off the main thread. // Other thread virtual void SetReadMode(MediaCacheStream::ReadMode aMode) {} virtual void SetPlaybackRate(uint32_t aBytesPerSecond) {} virtual nsresult Read(char* aBuffer, uint32_t aCount, uint32_t* aBytes); virtual nsresult ReadAt(int64_t aOffset, char* aBuffer, uint32_t aCount, uint32_t* aBytes); virtual nsresult Seek(int32_t aWhence, int64_t aOffset); virtual void StartSeekingForMetadata() {}; virtual void EndSeekingForMetadata() {}; virtual int64_t Tell(); // Any thread virtual void Pin() {} virtual void Unpin() {} virtual double GetDownloadRate(bool* aIsReliable) { // The data's all already here *aIsReliable = true; return 100*1024*1024; // arbitray, use 100MB/s } virtual int64_t GetLength() { MutexAutoLock lock(mLock); EnsureSizeInitialized(); return mSizeInitialized ? mSize : 0; } virtual int64_t GetNextCachedData(int64_t aOffset) { MutexAutoLock lock(mLock); EnsureSizeInitialized(); return (aOffset < mSize) ? aOffset : -1; } virtual int64_t GetCachedDataEnd(int64_t aOffset) { MutexAutoLock lock(mLock); EnsureSizeInitialized(); return std::max(aOffset, mSize); } virtual bool IsDataCachedToEndOfResource(int64_t aOffset) { return true; } virtual bool IsSuspendedByCache() { return false; } virtual bool IsSuspended() { return false; } virtual bool IsTransportSeekable() MOZ_OVERRIDE { return true; } nsresult GetCachedRanges(nsTArray& aRanges); virtual size_t SizeOfExcludingThis( MallocSizeOf aMallocSizeOf) const MOZ_OVERRIDE { // Might be useful to track in the future: // - mInput return BaseMediaResource::SizeOfExcludingThis(aMallocSizeOf); } virtual size_t SizeOfIncludingThis( MallocSizeOf aMallocSizeOf) const MOZ_OVERRIDE { return aMallocSizeOf(this) + SizeOfExcludingThis(aMallocSizeOf); } protected: // These Unsafe variants of Read and Seek perform their operations // without acquiring mLock. The caller must obtain the lock before // calling. The implmentation of Read, Seek and ReadAt obtains the // lock before calling these Unsafe variants to read or seek. nsresult UnsafeRead(char* aBuffer, uint32_t aCount, uint32_t* aBytes); nsresult UnsafeSeek(int32_t aWhence, int64_t aOffset); private: // Ensures mSize is initialized, if it can be. // mLock must be held when this is called, and mInput must be non-null. void EnsureSizeInitialized(); // The file size, or -1 if not known. Immutable after Open(). // Can be used from any thread. int64_t mSize; // This lock handles synchronisation between calls to Close() and // the Read, Seek, etc calls. Close must not be called while a // Read or Seek is in progress since it resets various internal // values to null. // This lock protects mSeekable, mInput, mSize, and mSizeInitialized. Mutex mLock; // Seekable stream interface to file. This can be used from any // thread. nsCOMPtr mSeekable; // Input stream for the media data. This can be used from any // thread. nsCOMPtr mInput; // Whether we've attempted to initialize mSize. Note that mSize can be -1 // when mSizeInitialized is true if we tried and failed to get the size // of the file. bool mSizeInitialized; }; void FileMediaResource::EnsureSizeInitialized() { mLock.AssertCurrentThreadOwns(); NS_ASSERTION(mInput, "Must have file input stream"); if (mSizeInitialized) { return; } mSizeInitialized = true; // Get the file size and inform the decoder. uint64_t size; nsresult res = mInput->Available(&size); if (NS_SUCCEEDED(res) && size <= INT64_MAX) { mSize = (int64_t)size; nsCOMPtr event = new DataEnded(mDecoder, NS_OK); NS_DispatchToMainThread(event, NS_DISPATCH_NORMAL); } } nsresult FileMediaResource::GetCachedRanges(nsTArray& aRanges) { MutexAutoLock lock(mLock); EnsureSizeInitialized(); if (mSize == -1) { return NS_ERROR_FAILURE; } aRanges.AppendElement(MediaByteRange(0, mSize)); return NS_OK; } nsresult FileMediaResource::Open(nsIStreamListener** aStreamListener) { NS_ASSERTION(NS_IsMainThread(), "Only call on main thread"); if (aStreamListener) { *aStreamListener = nullptr; } nsresult rv = NS_OK; if (aStreamListener) { // The channel is already open. We need a synchronous stream that // implements nsISeekableStream, so we have to find the underlying // file and reopen it nsCOMPtr fc(do_QueryInterface(mChannel)); if (fc) { nsCOMPtr file; rv = fc->GetFile(getter_AddRefs(file)); NS_ENSURE_SUCCESS(rv, rv); rv = NS_NewLocalFileInputStream(getter_AddRefs(mInput), file); } else if (IsBlobURI(mURI)) { rv = NS_GetStreamForBlobURI(mURI, getter_AddRefs(mInput)); } } else { // Ensure that we never load a local file from some page on a // web server. MediaDecoderOwner* owner = mDecoder->GetMediaOwner(); NS_ENSURE_TRUE(owner, NS_ERROR_FAILURE); dom::HTMLMediaElement* element = owner->GetMediaElement(); NS_ENSURE_TRUE(element, NS_ERROR_FAILURE); rv = nsContentUtils::GetSecurityManager()-> CheckLoadURIWithPrincipal(element->NodePrincipal(), mURI, nsIScriptSecurityManager::STANDARD); NS_ENSURE_SUCCESS(rv, rv); rv = mChannel->Open(getter_AddRefs(mInput)); } NS_ENSURE_SUCCESS(rv, rv); mSeekable = do_QueryInterface(mInput); if (!mSeekable) { // XXX The file may just be a .url or similar // shortcut that points to a Web site. We need to fix this by // doing an async open and waiting until we locate the real resource, // then using that (if it's still a file!). return NS_ERROR_FAILURE; } return NS_OK; } nsresult FileMediaResource::Close() { NS_ASSERTION(NS_IsMainThread(), "Only call on main thread"); // Since mChennel is only accessed by main thread, there is no necessary to // take the lock. if (mChannel) { mChannel->Cancel(NS_ERROR_PARSED_DATA_CACHED); mChannel = nullptr; } return NS_OK; } already_AddRefed FileMediaResource::GetCurrentPrincipal() { NS_ASSERTION(NS_IsMainThread(), "Only call on main thread"); nsCOMPtr principal; nsIScriptSecurityManager* secMan = nsContentUtils::GetSecurityManager(); if (!secMan || !mChannel) return nullptr; secMan->GetChannelPrincipal(mChannel, getter_AddRefs(principal)); return principal.forget(); } bool FileMediaResource::CanClone() { return true; } already_AddRefed FileMediaResource::CloneData(MediaDecoder* aDecoder) { NS_ASSERTION(NS_IsMainThread(), "Only call on main thread"); MediaDecoderOwner* owner = mDecoder->GetMediaOwner(); if (!owner) { // The decoder is being shut down, so we can't clone return nullptr; } dom::HTMLMediaElement* element = owner->GetMediaElement(); if (!element) { // The decoder is being shut down, so we can't clone return nullptr; } nsCOMPtr loadGroup = element->GetDocumentLoadGroup(); NS_ENSURE_TRUE(loadGroup, nullptr); nsCOMPtr channel; nsresult rv = NS_NewChannel(getter_AddRefs(channel), mURI, nullptr, loadGroup, nullptr, 0); if (NS_FAILED(rv)) return nullptr; nsRefPtr resource(new FileMediaResource(aDecoder, channel, mURI, GetContentType())); return resource.forget(); } nsresult FileMediaResource::ReadFromCache(char* aBuffer, int64_t aOffset, uint32_t aCount) { MutexAutoLock lock(mLock); EnsureSizeInitialized(); int64_t offset = 0; nsresult res = mSeekable->Tell(&offset); NS_ENSURE_SUCCESS(res,res); res = mSeekable->Seek(nsISeekableStream::NS_SEEK_SET, aOffset); NS_ENSURE_SUCCESS(res,res); uint32_t bytesRead = 0; do { uint32_t x = 0; uint32_t bytesToRead = aCount - bytesRead; res = mInput->Read(aBuffer, bytesToRead, &x); bytesRead += x; } while (bytesRead != aCount && res == NS_OK); // Reset read head to original position so we don't disturb any other // reading thread. nsresult seekres = mSeekable->Seek(nsISeekableStream::NS_SEEK_SET, offset); // If a read failed in the loop above, we want to return its failure code. NS_ENSURE_SUCCESS(res,res); // Else we succeed if the reset-seek succeeds. return seekres; } nsresult FileMediaResource::Read(char* aBuffer, uint32_t aCount, uint32_t* aBytes) { nsresult rv; int64_t offset = 0; { MutexAutoLock lock(mLock); mSeekable->Tell(&offset); rv = UnsafeRead(aBuffer, aCount, aBytes); } if (NS_SUCCEEDED(rv)) { DispatchBytesConsumed(*aBytes, offset); } return rv; } nsresult FileMediaResource::UnsafeRead(char* aBuffer, uint32_t aCount, uint32_t* aBytes) { EnsureSizeInitialized(); return mInput->Read(aBuffer, aCount, aBytes); } nsresult FileMediaResource::ReadAt(int64_t aOffset, char* aBuffer, uint32_t aCount, uint32_t* aBytes) { NS_ASSERTION(!NS_IsMainThread(), "Don't call on main thread"); nsresult rv; { MutexAutoLock lock(mLock); rv = UnsafeSeek(nsISeekableStream::NS_SEEK_SET, aOffset); if (NS_FAILED(rv)) return rv; rv = UnsafeRead(aBuffer, aCount, aBytes); } if (NS_SUCCEEDED(rv)) { DispatchBytesConsumed(*aBytes, aOffset); } return rv; } nsresult FileMediaResource::Seek(int32_t aWhence, int64_t aOffset) { NS_ASSERTION(!NS_IsMainThread(), "Don't call on main thread"); MutexAutoLock lock(mLock); return UnsafeSeek(aWhence, aOffset); } nsresult FileMediaResource::UnsafeSeek(int32_t aWhence, int64_t aOffset) { NS_ASSERTION(!NS_IsMainThread(), "Don't call on main thread"); if (!mSeekable) return NS_ERROR_FAILURE; EnsureSizeInitialized(); return mSeekable->Seek(aWhence, aOffset); } int64_t FileMediaResource::Tell() { NS_ASSERTION(!NS_IsMainThread(), "Don't call on main thread"); MutexAutoLock lock(mLock); if (!mSeekable) return 0; EnsureSizeInitialized(); int64_t offset = 0; mSeekable->Tell(&offset); return offset; } already_AddRefed MediaResource::Create(MediaDecoder* aDecoder, nsIChannel* aChannel) { NS_ASSERTION(NS_IsMainThread(), "MediaResource::Open called on non-main thread"); // If the channel was redirected, we want the post-redirect URI; // but if the URI scheme was expanded, say from chrome: to jar:file:, // we want the original URI. nsCOMPtr uri; nsresult rv = NS_GetFinalChannelURI(aChannel, getter_AddRefs(uri)); NS_ENSURE_SUCCESS(rv, nullptr); nsAutoCString contentType; aChannel->GetContentType(contentType); nsCOMPtr fc = do_QueryInterface(aChannel); nsRefPtr resource; if (fc || IsBlobURI(uri)) { resource = new FileMediaResource(aDecoder, aChannel, uri, contentType); } else if (IsRtspURI(uri)) { resource = new RtspMediaResource(aDecoder, aChannel, uri, contentType); } else { resource = new ChannelMediaResource(aDecoder, aChannel, uri, contentType); } return resource.forget(); } void BaseMediaResource::MoveLoadsToBackground() { NS_ASSERTION(!mLoadInBackground, "Why are you calling this more than once?"); mLoadInBackground = true; if (!mChannel) { // No channel, resource is probably already loaded. return; } MediaDecoderOwner* owner = mDecoder->GetMediaOwner(); if (!owner) { NS_WARNING("Null owner in MediaResource::MoveLoadsToBackground()"); return; } dom::HTMLMediaElement* element = owner->GetMediaElement(); if (!element) { NS_WARNING("Null element in MediaResource::MoveLoadsToBackground()"); return; } bool isPending = false; if (NS_SUCCEEDED(mChannel->IsPending(&isPending)) && isPending) { nsLoadFlags loadFlags; DebugOnly rv = mChannel->GetLoadFlags(&loadFlags); NS_ASSERTION(NS_SUCCEEDED(rv), "GetLoadFlags() failed!"); loadFlags |= nsIRequest::LOAD_BACKGROUND; ModifyLoadFlags(loadFlags); } } void BaseMediaResource::ModifyLoadFlags(nsLoadFlags aFlags) { nsCOMPtr loadGroup; DebugOnly rv = mChannel->GetLoadGroup(getter_AddRefs(loadGroup)); NS_ASSERTION(NS_SUCCEEDED(rv), "GetLoadGroup() failed!"); nsresult status; mChannel->GetStatus(&status); // Note: if (NS_FAILED(status)), the channel won't be in the load group. if (loadGroup && NS_SUCCEEDED(status)) { rv = loadGroup->RemoveRequest(mChannel, nullptr, status); NS_ASSERTION(NS_SUCCEEDED(rv), "RemoveRequest() failed!"); } rv = mChannel->SetLoadFlags(aFlags); NS_ASSERTION(NS_SUCCEEDED(rv), "SetLoadFlags() failed!"); if (loadGroup && NS_SUCCEEDED(status)) { rv = loadGroup->AddRequest(mChannel, nullptr); NS_ASSERTION(NS_SUCCEEDED(rv), "AddRequest() failed!"); } } class DispatchBytesConsumedEvent : public nsRunnable { public: DispatchBytesConsumedEvent(MediaDecoder* aDecoder, int64_t aNumBytes, int64_t aOffset) : mDecoder(aDecoder), mNumBytes(aNumBytes), mOffset(aOffset) { MOZ_COUNT_CTOR(DispatchBytesConsumedEvent); } ~DispatchBytesConsumedEvent() { MOZ_COUNT_DTOR(DispatchBytesConsumedEvent); } NS_IMETHOD Run() { mDecoder->NotifyBytesConsumed(mNumBytes, mOffset); // Drop ref to decoder on main thread, just in case this reference // ends up being the last owning reference somehow. mDecoder = nullptr; return NS_OK; } RefPtr mDecoder; int64_t mNumBytes; int64_t mOffset; }; void BaseMediaResource::DispatchBytesConsumed(int64_t aNumBytes, int64_t aOffset) { if (aNumBytes <= 0) { return; } RefPtr event(new DispatchBytesConsumedEvent(mDecoder, aNumBytes, aOffset)); NS_DispatchToMainThread(event, NS_DISPATCH_NORMAL); } } // namespace mozilla