/* -*- 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/. */ #include "ImageFactory.h" #include #include "mozilla/Likely.h" #include "nsIChannel.h" #include "nsIFileChannel.h" #include "nsIObserverService.h" #include "nsIFile.h" #include "nsMimeTypes.h" #include "nsIRequest.h" #include "MultipartImage.h" #include "RasterImage.h" #include "VectorImage.h" #include "Image.h" #include "nsMediaFragmentURIParser.h" #include "nsContentUtils.h" #include "mozilla/SchedulerGroup.h" #include "mozilla/StaticPrefs_image.h" #include "mozilla/ProfilerMarkers.h" namespace mozilla { namespace image { /*static*/ void ImageFactory::Initialize() {} static uint32_t ComputeImageFlags(nsIURI* uri, const nsCString& aMimeType, bool isMultiPart) { // We default to the static globals. bool isDiscardable = StaticPrefs::image_mem_discardable(); bool doDecodeImmediately = StaticPrefs::image_decode_immediately_enabled(); // We want UI to be as snappy as possible and not to flicker. Disable // discarding for chrome URLS. if (uri->SchemeIs("chrome")) { isDiscardable = false; } // We don't want resources like the "loading" icon to be discardable either. if (uri->SchemeIs("resource")) { isDiscardable = false; } // For multipart/x-mixed-replace, we basically want a direct channel to the // decoder. Disable everything for this case. if (isMultiPart) { isDiscardable = false; } // We have all the information we need. uint32_t imageFlags = Image::INIT_FLAG_NONE; if (isDiscardable) { imageFlags |= Image::INIT_FLAG_DISCARDABLE; } if (doDecodeImmediately) { imageFlags |= Image::INIT_FLAG_DECODE_IMMEDIATELY; } if (isMultiPart) { imageFlags |= Image::INIT_FLAG_TRANSIENT; } // Synchronously decode metadata (including size) if we have a data URI since // the data is immediately available. if (uri->SchemeIs("data")) { imageFlags |= Image::INIT_FLAG_SYNC_LOAD; } return imageFlags; } #ifdef DEBUG static void NotifyImageLoading(nsIURI* aURI) { if (!NS_IsMainThread()) { nsCOMPtr uri(aURI); nsCOMPtr ev = NS_NewRunnableFunction( "NotifyImageLoading", [uri]() -> void { NotifyImageLoading(uri); }); SchedulerGroup::Dispatch(TaskCategory::Other, ev.forget()); return; } nsCOMPtr obs = services::GetObserverService(); NS_WARNING_ASSERTION(obs, "Can't get an observer service handle"); if (obs) { nsAutoCString spec; aURI->GetSpec(spec); obs->NotifyObservers(nullptr, "image-loading", NS_ConvertUTF8toUTF16(spec).get()); } } #endif /* static */ already_AddRefed ImageFactory::CreateImage( nsIRequest* aRequest, ProgressTracker* aProgressTracker, const nsCString& aMimeType, nsIURI* aURI, bool aIsMultiPart, uint64_t aInnerWindowId) { // Compute the image's initialization flags. uint32_t imageFlags = ComputeImageFlags(aURI, aMimeType, aIsMultiPart); #ifdef DEBUG // Record the image load for startup performance testing. if (aURI->SchemeIs("resource") || aURI->SchemeIs("chrome")) { NotifyImageLoading(aURI); } #endif if (profiler_thread_is_being_profiled_for_markers()) { static const size_t sMaxTruncatedLength = 1024; PROFILER_MARKER_TEXT( "Image Load", GRAPHICS, MarkerInnerWindowId(aInnerWindowId), nsContentUtils::TruncatedURLForDisplay(aURI, sMaxTruncatedLength)); } // Select the type of image to create based on MIME type. if (aMimeType.EqualsLiteral(IMAGE_SVG_XML)) { return CreateVectorImage(aRequest, aProgressTracker, aMimeType, aURI, imageFlags, aInnerWindowId); } else { return CreateRasterImage(aRequest, aProgressTracker, aMimeType, aURI, imageFlags, aInnerWindowId); } } // Marks an image as having an error before returning it. template static already_AddRefed BadImage(const char* aMessage, RefPtr& aImage) { aImage->SetHasError(); return aImage.forget(); } /* static */ already_AddRefed ImageFactory::CreateAnonymousImage( const nsCString& aMimeType, uint32_t aSizeHint /* = 0 */) { nsresult rv; RefPtr newImage = new RasterImage(); RefPtr newTracker = new ProgressTracker(); newTracker->SetImage(newImage); newImage->SetProgressTracker(newTracker); rv = newImage->Init(aMimeType.get(), Image::INIT_FLAG_SYNC_LOAD); if (NS_FAILED(rv)) { return BadImage("RasterImage::Init failed", newImage); } rv = newImage->SetSourceSizeHint(aSizeHint); if (NS_FAILED(rv)) { return BadImage("RasterImage::SetSourceSizeHint failed", newImage); } return newImage.forget(); } /* static */ already_AddRefed ImageFactory::CreateMultipartImage( Image* aFirstPart, ProgressTracker* aProgressTracker) { MOZ_ASSERT(aFirstPart); MOZ_ASSERT(aProgressTracker); RefPtr newImage = new MultipartImage(aFirstPart); aProgressTracker->SetImage(newImage); newImage->SetProgressTracker(aProgressTracker); newImage->Init(); return newImage.forget(); } int32_t SaturateToInt32(int64_t val) { if (val > INT_MAX) { return INT_MAX; } if (val < INT_MIN) { return INT_MIN; } return static_cast(val); } uint32_t GetContentSize(nsIRequest* aRequest) { nsCOMPtr channel(do_QueryInterface(aRequest)); if (channel) { int64_t size; nsresult rv = channel->GetContentLength(&size); if (NS_SUCCEEDED(rv)) { return std::max(SaturateToInt32(size), 0); } } // Use the file size as a size hint for file channels. nsCOMPtr fileChannel(do_QueryInterface(aRequest)); if (fileChannel) { nsCOMPtr file; nsresult rv = fileChannel->GetFile(getter_AddRefs(file)); if (NS_SUCCEEDED(rv)) { int64_t filesize; rv = file->GetFileSize(&filesize); if (NS_SUCCEEDED(rv)) { return std::max(SaturateToInt32(filesize), 0); } } } // Fallback - neither http nor file. We'll use dynamic allocation. return 0; } /* static */ already_AddRefed ImageFactory::CreateRasterImage( nsIRequest* aRequest, ProgressTracker* aProgressTracker, const nsCString& aMimeType, nsIURI* aURI, uint32_t aImageFlags, uint64_t aInnerWindowId) { MOZ_ASSERT(aProgressTracker); nsresult rv; RefPtr newImage = new RasterImage(aURI); aProgressTracker->SetImage(newImage); newImage->SetProgressTracker(aProgressTracker); rv = newImage->Init(aMimeType.get(), aImageFlags); if (NS_FAILED(rv)) { return BadImage("RasterImage::Init failed", newImage); } newImage->SetInnerWindowID(aInnerWindowId); rv = newImage->SetSourceSizeHint(GetContentSize(aRequest)); if (NS_FAILED(rv)) { return BadImage("RasterImage::SetSourceSizeHint failed", newImage); } return newImage.forget(); } /* static */ already_AddRefed ImageFactory::CreateVectorImage( nsIRequest* aRequest, ProgressTracker* aProgressTracker, const nsCString& aMimeType, nsIURI* aURI, uint32_t aImageFlags, uint64_t aInnerWindowId) { MOZ_ASSERT(aProgressTracker); nsresult rv; RefPtr newImage = new VectorImage(aURI); aProgressTracker->SetImage(newImage); newImage->SetProgressTracker(aProgressTracker); rv = newImage->Init(aMimeType.get(), aImageFlags); if (NS_FAILED(rv)) { return BadImage("VectorImage::Init failed", newImage); } newImage->SetInnerWindowID(aInnerWindowId); rv = newImage->OnStartRequest(aRequest); if (NS_FAILED(rv)) { return BadImage("VectorImage::OnStartRequest failed", newImage); } return newImage.forget(); } } // namespace image } // namespace mozilla