The Tor Browser: image/src/RasterImage.cpp@6474c204b198 (annotated)

image/src/RasterImage.cpp@6474c204b198 (annotated)

image/src/RasterImage.cpp

Wed, 31 Dec 2014 06:09:35 +0100

author: Michael Schloh von Bennewitz <michael@schloh.com>
date: Wed, 31 Dec 2014 06:09:35 +0100
changeset 0: 6474c204b198
permissions: -rw-r--r--

Cloned upstream origin tor-browser at tor-browser-31.3.0esr-4.5-1-build1
revision ID fc1c9ff7c1b2defdbc039f12214767608f46423f for hacking purpose.

 /* -*- 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/. */
 // Must #include ImageLogging.h before any IPDL-generated files or other files that #include prlog.h
 #include "ImageLogging.h"
 #include "RasterImage.h"
 #include "base/histogram.h"
 #include "gfxPlatform.h"
 #include "nsComponentManagerUtils.h"
 #include "imgDecoderObserver.h"
 #include "nsError.h"
 #include "Decoder.h"
 #include "nsAutoPtr.h"
 #include "prenv.h"
 #include "prsystem.h"
 #include "ImageContainer.h"
 #include "Layers.h"
 #include "nsPresContext.h"
 #include "nsIThreadPool.h"
 #include "nsXPCOMCIDInternal.h"
 #include "nsIObserverService.h"
 #include "FrameAnimator.h"
 #include "nsPNGDecoder.h"
 #include "nsGIFDecoder2.h"
 #include "nsJPEGDecoder.h"
 #include "nsBMPDecoder.h"
 #include "nsICODecoder.h"
 #include "nsIconDecoder.h"
 #include "gfxContext.h"
 #include "mozilla/gfx/2D.h"
 #include "mozilla/RefPtr.h"
 #include "mozilla/MemoryReporting.h"
 #include "mozilla/Services.h"
 #include "mozilla/Preferences.h"
 #include <stdint.h>
 #include "mozilla/Telemetry.h"
 #include "mozilla/TimeStamp.h"
 #include "mozilla/ClearOnShutdown.h"
 #include "mozilla/gfx/Scale.h"
 #include "GeckoProfiler.h"
 #include "gfx2DGlue.h"
 #include <algorithm>
 #ifdef MOZ_NUWA_PROCESS
 #include "ipc/Nuwa.h"
 #endif
 using namespace mozilla;
 using namespace mozilla::gfx;
 using namespace mozilla::image;
 using namespace mozilla::layers;
 // a mask for flags that will affect the decoding
 #define DECODE_FLAGS_MASK (imgIContainer::FLAG_DECODE_NO_PREMULTIPLY_ALPHA | imgIContainer::FLAG_DECODE_NO_COLORSPACE_CONVERSION)
 #define DECODE_FLAGS_DEFAULT 0
 /* Accounting for compressed data */
 #if defined(PR_LOGGING)
 static PRLogModuleInfo *
 GetCompressedImageAccountingLog()
 {
   static PRLogModuleInfo *sLog;
   if (!sLog)
     sLog = PR_NewLogModule("CompressedImageAccounting");
   return sLog;
 }
 #else
 #define GetCompressedImageAccountingLog()
 #endif
 // Tweakable progressive decoding parameters.  These are initialized to 0 here
 // because otherwise, we have to initialize them in a static initializer, which
 // makes us slower to start up.
 static uint32_t gDecodeBytesAtATime = 0;
 static uint32_t gMaxMSBeforeYield = 0;
 static bool gHQDownscaling = false;
 // This is interpreted as a floating-point value / 1000
 static uint32_t gHQDownscalingMinFactor = 1000;
 static bool gMultithreadedDecoding = true;
 static int32_t gDecodingThreadLimit = -1;
 // The number of pixels in a 5 megapixel decoded image.
 // Equivalent to an example 3125x1600 resolution.
 static uint32_t gHQUpscalingMaxSize = 20971520;
 // The maximum number of times any one RasterImage was decoded.  This is only
 // used for statistics.
 static int32_t sMaxDecodeCount = 0;
 static void
 InitPrefCaches()
 {
   Preferences::AddUintVarCache(&gDecodeBytesAtATime,
                                "image.mem.decode_bytes_at_a_time", 200000);
   Preferences::AddUintVarCache(&gMaxMSBeforeYield,
                                "image.mem.max_ms_before_yield", 400);
   Preferences::AddBoolVarCache(&gHQDownscaling,
                                "image.high_quality_downscaling.enabled", false);
   Preferences::AddUintVarCache(&gHQDownscalingMinFactor,
                                "image.high_quality_downscaling.min_factor", 1000);
   Preferences::AddBoolVarCache(&gMultithreadedDecoding,
                                "image.multithreaded_decoding.enabled", true);
   Preferences::AddIntVarCache(&gDecodingThreadLimit,
                               "image.multithreaded_decoding.limit", -1);
   Preferences::AddUintVarCache(&gHQUpscalingMaxSize,
                                "image.high_quality_upscaling.max_size", 20971520);
 }
 /* We define our own error checking macros here for 2 reasons:
  *
  * 1) Most of the failures we encounter here will (hopefully) be
  * the result of decoding failures (ie, bad data) and not code
  * failures. As such, we don't want to clutter up debug consoles
  * with spurious messages about NS_ENSURE_SUCCESS failures.
  *
  * 2) We want to set the internal error flag, shutdown properly,
  * and end up in an error state.
  *
  * So this macro should be called when the desired failure behavior
  * is to put the container into an error state and return failure.
  * It goes without saying that macro won't compile outside of a
  * non-static RasterImage method.
  */
 #define LOG_CONTAINER_ERROR                      \
   PR_BEGIN_MACRO                                 \
   PR_LOG (GetImgLog(), PR_LOG_ERROR,             \
           ("RasterImage: [this=%p] Error "      \
            "detected at line %u for image of "   \
            "type %s\n", this, __LINE__,          \
            mSourceDataMimeType.get()));          \
   PR_END_MACRO
 #define CONTAINER_ENSURE_SUCCESS(status)      \
   PR_BEGIN_MACRO                              \
   nsresult _status = status; /* eval once */  \
   if (NS_FAILED(_status)) {                   \
     LOG_CONTAINER_ERROR;                      \
     DoError();                                \
     return _status;                           \
   }                                           \
  PR_END_MACRO
 #define CONTAINER_ENSURE_TRUE(arg, rv)  \
   PR_BEGIN_MACRO                        \
   if (!(arg)) {                         \
     LOG_CONTAINER_ERROR;                \
     DoError();                          \
     return rv;                          \
   }                                     \
   PR_END_MACRO
 static int num_containers;
 static int num_discardable_containers;
 static int64_t total_source_bytes;
 static int64_t discardable_source_bytes;
 /* Are we globally disabling image discarding? */
 static bool
 DiscardingEnabled()
 {
   static bool inited;
   static bool enabled;
   if (!inited) {
     inited = true;
     enabled = (PR_GetEnv("MOZ_DISABLE_IMAGE_DISCARD") == nullptr);
   }
   return enabled;
 }
 class ScaleRequest
 {
 public:
   ScaleRequest(RasterImage* aImage, const gfxSize& aScale, imgFrame* aSrcFrame)
     : scale(aScale)
     , dstLocked(false)
     , done(false)
     , stopped(false)
   {
     MOZ_ASSERT(!aSrcFrame->GetIsPaletted());
     MOZ_ASSERT(aScale.width > 0 && aScale.height > 0);
     weakImage = aImage->asWeakPtr();
     srcRect = aSrcFrame->GetRect();
     nsIntRect dstRect = srcRect;
     dstRect.ScaleRoundOut(scale.width, scale.height);
     dstSize = dstRect.Size();
   }
   // This can only be called on the main thread.
   bool GetSurfaces(imgFrame* srcFrame)
   {
     MOZ_ASSERT(NS_IsMainThread());
     nsRefPtr<RasterImage> image = weakImage.get();
     if (!image) {
       return false;
     }
     bool success = false;
     if (!dstLocked) {
       // We need to hold a lock onto the RasterImage object itself so that
       // it (and its associated imgFrames) aren't marked as discardable.
       bool imgLocked = NS_SUCCEEDED(image->LockImage());
       bool srcLocked = NS_SUCCEEDED(srcFrame->LockImageData());
       dstLocked = NS_SUCCEEDED(dstFrame->LockImageData());
       nsRefPtr<gfxASurface> dstASurf;
       nsRefPtr<gfxASurface> srcASurf;
       success = srcLocked && NS_SUCCEEDED(srcFrame->GetSurface(getter_AddRefs(srcASurf)));
       success = success && dstLocked && NS_SUCCEEDED(dstFrame->GetSurface(getter_AddRefs(dstASurf)));
       success = success && imgLocked && srcLocked && dstLocked && srcASurf && dstASurf;
       if (success) {
         srcSurface = srcASurf->GetAsImageSurface();
         dstSurface = dstASurf->GetAsImageSurface();
         srcData = srcSurface->Data();
         dstData = dstSurface->Data();
         srcStride = srcSurface->Stride();
         dstStride = dstSurface->Stride();
         srcFormat = mozilla::gfx::ImageFormatToSurfaceFormat(srcFrame->GetFormat());
       }
       // We have references to the Thebes surfaces, so we don't need to leave
       // the source frame (that we don't own) locked. We'll unlock the
       // destination frame in ReleaseSurfaces(), below.
       if (srcLocked) {
         success = NS_SUCCEEDED(srcFrame->UnlockImageData()) && success;
       }
       success = success && srcSurface && dstSurface;
     }
     return success;
   }
   // This can only be called on the main thread.
   bool ReleaseSurfaces()
   {
     MOZ_ASSERT(NS_IsMainThread());
     nsRefPtr<RasterImage> image = weakImage.get();
     if (!image) {
       return false;
     }
     bool success = false;
     if (dstLocked) {
       if (DiscardingEnabled())
         dstFrame->SetDiscardable();
       success = NS_SUCCEEDED(dstFrame->UnlockImageData());
       success = success && NS_SUCCEEDED(image->UnlockImage());
       dstLocked = false;
       srcData = nullptr;
       dstData = nullptr;
       srcSurface = nullptr;
       dstSurface = nullptr;
     }
     return success;
   }
   // These values may only be touched on the main thread.
   WeakPtr<RasterImage> weakImage;
   nsAutoPtr<imgFrame> dstFrame;
   nsRefPtr<gfxImageSurface> srcSurface;
   nsRefPtr<gfxImageSurface> dstSurface;
   // Below are the values that may be touched on the scaling thread.
   gfxSize scale;
   uint8_t* srcData;
   uint8_t* dstData;
   nsIntRect srcRect;
   gfxIntSize dstSize;
   uint32_t srcStride;
   uint32_t dstStride;
   mozilla::gfx::SurfaceFormat srcFormat;
   bool dstLocked;
   bool done;
   // This boolean is accessed from both threads simultaneously without locking.
   // That's safe because stopping a ScaleRequest is strictly an optimization;
   // if we're not cache-coherent, at worst we'll do extra work.
   bool stopped;
 };
 class DrawRunner : public nsRunnable
 {
 public:
   DrawRunner(ScaleRequest* request)
    : mScaleRequest(request)
   {}
   NS_IMETHOD Run()
   {
     // ScaleWorker is finished with this request, so we can unlock the data now.
     mScaleRequest->ReleaseSurfaces();
     nsRefPtr<RasterImage> image = mScaleRequest->weakImage.get();
     if (image) {
       RasterImage::ScaleStatus status;
       if (mScaleRequest->done) {
         status = RasterImage::SCALE_DONE;
       } else {
         status = RasterImage::SCALE_INVALID;
       }
       image->ScalingDone(mScaleRequest, status);
     }
     return NS_OK;
   }
 private: /* members */
   nsAutoPtr<ScaleRequest> mScaleRequest;
 };
 class ScaleRunner : public nsRunnable
 {
 public:
   ScaleRunner(RasterImage* aImage, const gfxSize& aScale, imgFrame* aSrcFrame)
   {
     nsAutoPtr<ScaleRequest> request(new ScaleRequest(aImage, aScale, aSrcFrame));
     // Destination is unconditionally ARGB32 because that's what the scaler
     // outputs.
     request->dstFrame = new imgFrame();
     nsresult rv = request->dstFrame->Init(0, 0, request->dstSize.width, request->dstSize.height,
                                           gfxImageFormat::ARGB32);
     if (NS_FAILED(rv) || !request->GetSurfaces(aSrcFrame)) {
       return;
     }
     aImage->ScalingStart(request);
     mScaleRequest = request;
   }
   NS_IMETHOD Run()
   {
     // An alias just for ease of typing
     ScaleRequest* request = mScaleRequest;
     if (!request->stopped) {
       request->done = mozilla::gfx::Scale(request->srcData, request->srcRect.width, request->srcRect.height, request->srcStride,
                                           request->dstData, request->dstSize.width, request->dstSize.height, request->dstStride,
                                           request->srcFormat);
     } else {
       request->done = false;
     }
     // OK, we've got a new scaled image. Let's get the main thread to unlock and
     // redraw it.
     nsRefPtr<DrawRunner> runner = new DrawRunner(mScaleRequest.forget());
     NS_DispatchToMainThread(runner, NS_DISPATCH_NORMAL);
     return NS_OK;
   }
   bool IsOK() const { return !!mScaleRequest; }
 private:
   nsAutoPtr<ScaleRequest> mScaleRequest;
 };
 namespace mozilla {
 namespace image {
 /* static */ StaticRefPtr<RasterImage::DecodePool> RasterImage::DecodePool::sSingleton;
 static nsCOMPtr<nsIThread> sScaleWorkerThread = nullptr;
 #ifndef DEBUG
 NS_IMPL_ISUPPORTS(RasterImage, imgIContainer, nsIProperties)
 #else
 NS_IMPL_ISUPPORTS(RasterImage, imgIContainer, nsIProperties,
                   imgIContainerDebug)
 #endif
 //******************************************************************************
 RasterImage::RasterImage(imgStatusTracker* aStatusTracker,
                          ImageURL* aURI /* = nullptr */) :
   ImageResource(aURI), // invoke superclass's constructor
   mSize(0,0),
   mFrameDecodeFlags(DECODE_FLAGS_DEFAULT),
   mMultipartDecodedFrame(nullptr),
   mAnim(nullptr),
   mLockCount(0),
   mDecodeCount(0),
   mRequestedSampleSize(0),
 #ifdef DEBUG
   mFramesNotified(0),
 #endif
   mDecodingMonitor("RasterImage Decoding Monitor"),
   mDecoder(nullptr),
   mBytesDecoded(0),
   mInDecoder(false),
   mStatusDiff(ImageStatusDiff::NoChange()),
   mNotifying(false),
   mHasSize(false),
   mDecodeOnDraw(false),
   mMultipart(false),
   mDiscardable(false),
   mHasSourceData(false),
   mDecoded(false),
   mHasBeenDecoded(false),
   mAnimationFinished(false),
   mFinishing(false),
   mInUpdateImageContainer(false),
   mWantFullDecode(false),
   mPendingError(false),
   mScaleRequest(nullptr)
 {
   mStatusTrackerInit = new imgStatusTrackerInit(this, aStatusTracker);
   // Set up the discard tracker node.
   mDiscardTrackerNode.img = this;
   Telemetry::GetHistogramById(Telemetry::IMAGE_DECODE_COUNT)->Add(0);
   // Statistics
   num_containers++;
 }
 //******************************************************************************
 RasterImage::~RasterImage()
 {
   // Discardable statistics
   if (mDiscardable) {
     num_discardable_containers--;
     discardable_source_bytes -= mSourceData.Length();
     PR_LOG (GetCompressedImageAccountingLog(), PR_LOG_DEBUG,
             ("CompressedImageAccounting: destroying RasterImage %p.  "
              "Total Containers: %d, Discardable containers: %d, "
              "Total source bytes: %lld, Source bytes for discardable containers %lld",
              this,
              num_containers,
              num_discardable_containers,
              total_source_bytes,
              discardable_source_bytes));
   }
   if (mDecoder) {
     // Kill off our decode request, if it's pending.  (If not, this call is
     // harmless.)
     ReentrantMonitorAutoEnter lock(mDecodingMonitor);
     DecodePool::StopDecoding(this);
     mDecoder = nullptr;
     // Unlock the last frame (if we have any). Our invariant is that, while we
     // have a decoder open, the last frame is always locked.
     // This would be done in ShutdownDecoder, but since mDecoder is non-null,
     // we didn't call ShutdownDecoder and we need to do it manually.
     if (GetNumFrames() > 0) {
       imgFrame *curframe = mFrameBlender.RawGetFrame(GetNumFrames() - 1);
       curframe->UnlockImageData();
     }
   }
   delete mAnim;
   mAnim = nullptr;
   delete mMultipartDecodedFrame;
   // Total statistics
   num_containers--;
   total_source_bytes -= mSourceData.Length();
   if (NS_IsMainThread()) {
     DiscardTracker::Remove(&mDiscardTrackerNode);
   }
 }
 /* static */ void
 RasterImage::Initialize()
 {
   InitPrefCaches();
   // Create our singletons now, so we don't have to worry about what thread
   // they're created on.
   DecodePool::Singleton();
 }
 nsresult
 RasterImage::Init(const char* aMimeType,
                   uint32_t aFlags)
 {
   // We don't support re-initialization
   if (mInitialized)
     return NS_ERROR_ILLEGAL_VALUE;
   // Not sure an error can happen before init, but be safe
   if (mError)
     return NS_ERROR_FAILURE;
   NS_ENSURE_ARG_POINTER(aMimeType);
   // We must be non-discardable and non-decode-on-draw for
   // multipart channels
   NS_ABORT_IF_FALSE(!(aFlags & INIT_FLAG_MULTIPART) ||
                     (!(aFlags & INIT_FLAG_DISCARDABLE) &&
                      !(aFlags & INIT_FLAG_DECODE_ON_DRAW)),
                     "Can't be discardable or decode-on-draw for multipart");
   // Store initialization data
   mSourceDataMimeType.Assign(aMimeType);
   mDiscardable = !!(aFlags & INIT_FLAG_DISCARDABLE);
   mDecodeOnDraw = !!(aFlags & INIT_FLAG_DECODE_ON_DRAW);
   mMultipart = !!(aFlags & INIT_FLAG_MULTIPART);
   // Statistics
   if (mDiscardable) {
     num_discardable_containers++;
     discardable_source_bytes += mSourceData.Length();
   }
   // Instantiate the decoder
   nsresult rv = InitDecoder(/* aDoSizeDecode = */ true);
   CONTAINER_ENSURE_SUCCESS(rv);
   // If we aren't storing source data, we want to switch from a size decode to
   // a full decode as soon as possible.
   if (!StoringSourceData()) {
     mWantFullDecode = true;
   }
   // Mark us as initialized
   mInitialized = true;
   return NS_OK;
 }
 //******************************************************************************
 // [notxpcom] void requestRefresh ([const] in TimeStamp aTime);
 NS_IMETHODIMP_(void)
 RasterImage::RequestRefresh(const mozilla::TimeStamp& aTime)
 {
   EvaluateAnimation();
   if (!mAnimating) {
     return;
   }
   FrameAnimator::RefreshResult res;
   if (mAnim) {
     res = mAnim->RequestRefresh(aTime);
   }
   if (res.frameAdvanced) {
     // Notify listeners that our frame has actually changed, but do this only
     // once for all frames that we've now passed (if AdvanceFrame() was called
     // more than once).
     #ifdef DEBUG
       mFramesNotified++;
     #endif
     UpdateImageContainer();
     // Explicitly call this on mStatusTracker so we're sure to not interfere
     // with the decoding process
     if (mStatusTracker)
       mStatusTracker->FrameChanged(&res.dirtyRect);
   }
   if (res.animationFinished) {
     mAnimationFinished = true;
     EvaluateAnimation();
   }
 }
 //******************************************************************************
 /* readonly attribute int32_t width; */
 NS_IMETHODIMP
 RasterImage::GetWidth(int32_t *aWidth)
 {
   NS_ENSURE_ARG_POINTER(aWidth);
   if (mError) {
     *aWidth = 0;
     return NS_ERROR_FAILURE;
   }
   *aWidth = mSize.width;
   return NS_OK;
 }
 //******************************************************************************
 /* readonly attribute int32_t height; */
 NS_IMETHODIMP
 RasterImage::GetHeight(int32_t *aHeight)
 {
   NS_ENSURE_ARG_POINTER(aHeight);
   if (mError) {
     *aHeight = 0;
     return NS_ERROR_FAILURE;
   }
   *aHeight = mSize.height;
   return NS_OK;
 }
 //******************************************************************************
 /* [noscript] readonly attribute nsSize intrinsicSize; */
 NS_IMETHODIMP
 RasterImage::GetIntrinsicSize(nsSize* aSize)
 {
   if (mError)
     return NS_ERROR_FAILURE;
   *aSize = nsSize(nsPresContext::CSSPixelsToAppUnits(mSize.width),
                   nsPresContext::CSSPixelsToAppUnits(mSize.height));
   return NS_OK;
 }
 //******************************************************************************
 /* [noscript] readonly attribute nsSize intrinsicRatio; */
 NS_IMETHODIMP
 RasterImage::GetIntrinsicRatio(nsSize* aRatio)
 {
   if (mError)
     return NS_ERROR_FAILURE;
   *aRatio = nsSize(mSize.width, mSize.height);
   return NS_OK;
 }
 NS_IMETHODIMP_(Orientation)
 RasterImage::GetOrientation()
 {
   return mOrientation;
 }
 //******************************************************************************
 /* unsigned short GetType(); */
 NS_IMETHODIMP
 RasterImage::GetType(uint16_t *aType)
 {
   NS_ENSURE_ARG_POINTER(aType);
   *aType = GetType();
   return NS_OK;
 }
 //******************************************************************************
 /* [noscript, notxpcom] uint16_t GetType(); */
 NS_IMETHODIMP_(uint16_t)
 RasterImage::GetType()
 {
   return imgIContainer::TYPE_RASTER;
 }
 imgFrame*
 RasterImage::GetImgFrameNoDecode(uint32_t framenum)
 {
   if (!mAnim) {
     NS_ASSERTION(framenum == 0, "Don't ask for a frame > 0 if we're not animated!");
     return mFrameBlender.GetFrame(0);
   }
   return mFrameBlender.GetFrame(framenum);
 }
 imgFrame*
 RasterImage::GetImgFrame(uint32_t framenum)
 {
   nsresult rv = WantDecodedFrames();
   CONTAINER_ENSURE_TRUE(NS_SUCCEEDED(rv), nullptr);
   return GetImgFrameNoDecode(framenum);
 }
 imgFrame*
 RasterImage::GetDrawableImgFrame(uint32_t framenum)
 {
   imgFrame* frame = nullptr;
   if (mMultipart && framenum == GetCurrentImgFrameIndex()) {
     // In the multipart case we prefer to use mMultipartDecodedFrame, which is
     // the most recent one we completely decoded, rather than display the real
     // current frame and risk severe tearing.
     frame = mMultipartDecodedFrame;
   }
   if (!frame) {
     frame = GetImgFrame(framenum);
   }
   // We will return a paletted frame if it's not marked as compositing failed
   // so we can catch crashes for reasons we haven't investigated.
   if (frame && frame->GetCompositingFailed())
     return nullptr;
   if (frame) {
     frame->ApplyDirtToSurfaces();
   }
   return frame;
 }
 uint32_t
 RasterImage::GetCurrentImgFrameIndex() const
 {
   if (mAnim)
     return mAnim->GetCurrentAnimationFrameIndex();
   return 0;
 }
 imgFrame*
 RasterImage::GetCurrentImgFrame()
 {
   return GetImgFrame(GetCurrentImgFrameIndex());
 }
 //******************************************************************************
 /* [notxpcom] boolean frameIsOpaque(in uint32_t aWhichFrame); */
 NS_IMETHODIMP_(bool)
 RasterImage::FrameIsOpaque(uint32_t aWhichFrame)
 {
   if (aWhichFrame > FRAME_MAX_VALUE) {
     NS_WARNING("aWhichFrame outside valid range!");
     return false;
   }
   if (mError)
     return false;
   // See if we can get an image frame.
   imgFrame* frame = aWhichFrame == FRAME_FIRST ? GetImgFrameNoDecode(0)
                                                : GetImgFrameNoDecode(GetCurrentImgFrameIndex());
   // If we don't get a frame, the safe answer is "not opaque".
   if (!frame)
     return false;
   // Other, the frame is transparent if either:
   //  1. It needs a background.
   //  2. Its size doesn't cover our entire area.
   nsIntRect framerect = frame->GetRect();
   return !frame->GetNeedsBackground() &&
          framerect.IsEqualInterior(nsIntRect(0, 0, mSize.width, mSize.height));
 }
 nsIntRect
 RasterImage::FrameRect(uint32_t aWhichFrame)
 {
   if (aWhichFrame > FRAME_MAX_VALUE) {
     NS_WARNING("aWhichFrame outside valid range!");
     return nsIntRect();
   }
   // Get the requested frame.
   imgFrame* frame = aWhichFrame == FRAME_FIRST ? GetImgFrameNoDecode(0)
                                                : GetImgFrameNoDecode(GetCurrentImgFrameIndex());
   // If we have the frame, use that rectangle.
   if (frame) {
     return frame->GetRect();
   }
   // If the frame doesn't exist, we return the empty rectangle. It's not clear
   // whether this is appropriate in general, but at the moment the only
   // consumer of this method is imgStatusTracker (when it wants to figure out
   // dirty rectangles to send out batched observer updates). This should
   // probably be revisited when we fix bug 503973.
   return nsIntRect();
 }
 uint32_t
 RasterImage::GetCurrentFrameIndex()
 {
   return GetCurrentImgFrameIndex();
 }
 uint32_t
 RasterImage::GetNumFrames() const
 {
   return mFrameBlender.GetNumFrames();
 }
 //******************************************************************************
 /* readonly attribute boolean animated; */
 NS_IMETHODIMP
 RasterImage::GetAnimated(bool *aAnimated)
 {
   if (mError)
     return NS_ERROR_FAILURE;
   NS_ENSURE_ARG_POINTER(aAnimated);
   // If we have mAnim, we can know for sure
   if (mAnim) {
     *aAnimated = true;
     return NS_OK;
   }
   // Otherwise, we need to have been decoded to know for sure, since if we were
   // decoded at least once mAnim would have been created for animated images
   if (!mHasBeenDecoded)
     return NS_ERROR_NOT_AVAILABLE;
   // We know for sure
   *aAnimated = false;
   return NS_OK;
 }
 //******************************************************************************
 /* [notxpcom] int32_t getFirstFrameDelay (); */
 NS_IMETHODIMP_(int32_t)
 RasterImage::GetFirstFrameDelay()
 {
   if (mError)
     return -1;
   bool animated = false;
   if (NS_FAILED(GetAnimated(&animated)) || !animated)
     return -1;
   return mFrameBlender.GetTimeoutForFrame(0);
 }
 nsresult
 RasterImage::CopyFrame(uint32_t aWhichFrame,
                        uint32_t aFlags,
                        gfxImageSurface **_retval)
 {
   if (aWhichFrame > FRAME_MAX_VALUE)
     return NS_ERROR_INVALID_ARG;
   if (mError)
     return NS_ERROR_FAILURE;
   // Disallowed in the API
   if (mInDecoder && (aFlags & imgIContainer::FLAG_SYNC_DECODE))
     return NS_ERROR_FAILURE;
   nsresult rv;
   if (!ApplyDecodeFlags(aFlags, aWhichFrame))
     return NS_ERROR_NOT_AVAILABLE;
   // If requested, synchronously flush any data we have lying around to the decoder
   if (aFlags & FLAG_SYNC_DECODE) {
     rv = SyncDecode();
     CONTAINER_ENSURE_SUCCESS(rv);
   }
   NS_ENSURE_ARG_POINTER(_retval);
   // Get the frame. If it's not there, it's probably the caller's fault for
   // not waiting for the data to be loaded from the network or not passing
   // FLAG_SYNC_DECODE
   uint32_t frameIndex = (aWhichFrame == FRAME_FIRST) ?
 : GetCurrentImgFrameIndex();
   imgFrame *frame = GetDrawableImgFrame(frameIndex);
   if (!frame) {
     *_retval = nullptr;
     return NS_ERROR_FAILURE;
   }
   nsRefPtr<gfxPattern> pattern;
   frame->GetPattern(getter_AddRefs(pattern));
   nsIntRect intframerect = frame->GetRect();
   gfxRect framerect(intframerect.x, intframerect.y, intframerect.width, intframerect.height);
   // Create a 32-bit image surface of our size, but draw using the frame's
   // rect, implicitly padding the frame out to the image's size.
   nsRefPtr<gfxImageSurface> imgsurface = new gfxImageSurface(gfxIntSize(mSize.width, mSize.height),
                                                              gfxImageFormat::ARGB32);
   gfxContext ctx(imgsurface);
   ctx.SetOperator(gfxContext::OPERATOR_SOURCE);
   ctx.Rectangle(framerect);
   ctx.Translate(framerect.TopLeft());
   ctx.SetPattern(pattern);
   ctx.Fill();
   imgsurface.forget(_retval);
   return NS_OK;
 }
 //******************************************************************************
 /* [noscript] SourceSurface getFrame(in uint32_t aWhichFrame,
  *                                   in uint32_t aFlags); */
 NS_IMETHODIMP_(TemporaryRef<SourceSurface>)
 RasterImage::GetFrame(uint32_t aWhichFrame,
                       uint32_t aFlags)
 {
   MOZ_ASSERT(aWhichFrame <= FRAME_MAX_VALUE);
   if (aWhichFrame > FRAME_MAX_VALUE)
     return nullptr;
   if (mError)
     return nullptr;
   // Disallowed in the API
   if (mInDecoder && (aFlags & imgIContainer::FLAG_SYNC_DECODE))
     return nullptr;
   if (!ApplyDecodeFlags(aFlags, aWhichFrame))
     return nullptr;
   // If the caller requested a synchronous decode, do it
   if (aFlags & FLAG_SYNC_DECODE) {
     nsresult rv = SyncDecode();
     CONTAINER_ENSURE_TRUE(NS_SUCCEEDED(rv), nullptr);
   }
   // Get the frame. If it's not there, it's probably the caller's fault for
   // not waiting for the data to be loaded from the network or not passing
   // FLAG_SYNC_DECODE
   uint32_t frameIndex = (aWhichFrame == FRAME_FIRST) ?
 : GetCurrentImgFrameIndex();
   imgFrame *frame = GetDrawableImgFrame(frameIndex);
   if (!frame) {
     return nullptr;
   }
   nsRefPtr<gfxASurface> framesurf;
   // If this frame covers the entire image, we can just reuse its existing
   // surface.
   nsIntRect framerect = frame->GetRect();
   if (framerect.x == 0 && framerect.y == 0 &&
       framerect.width == mSize.width &&
       framerect.height == mSize.height) {
     frame->GetSurface(getter_AddRefs(framesurf));
     if (!framesurf && !frame->IsSinglePixel()) {
       // No reason to be optimized away here - the OS threw out the data
       if (!(aFlags & FLAG_SYNC_DECODE))
         return nullptr;
       // Unconditionally call ForceDiscard() here because GetSurface can only
       // return null when we can forcibly discard and redecode. There are two
       // other cases where GetSurface() can return null - when it is a single
       // pixel image, which we check before getting here, or when this is an
       // indexed image, in which case we shouldn't be in this function at all.
       // The only remaining possibility is that SetDiscardable() was called on
       // this imgFrame, which implies the image can be redecoded.
       ForceDiscard();
       return GetFrame(aWhichFrame, aFlags);
     }
   }
   // The image doesn't have a surface because it's been optimized away. Create
   // one.
   if (!framesurf) {
     nsRefPtr<gfxImageSurface> imgsurf;
     CopyFrame(aWhichFrame, aFlags, getter_AddRefs(imgsurf));
     framesurf = imgsurf;
   }
   RefPtr<SourceSurface> result;
   // As far as Moz2D is concerned, SourceSurface contains premultiplied alpha.
   // If we're abusing it to contain non-premultiplied alpha then we want to
   // avoid having Moz2D do any conversions on it (like copy to another
   // surface). Hence why we try to wrap framesurf's data here for
   // FLAG_DECODE_NO_PREMULTIPLY_ALPHA.
   if ((aFlags & FLAG_WANT_DATA_SURFACE) != 0 ||
       (aFlags & FLAG_DECODE_NO_PREMULTIPLY_ALPHA) != 0) {
     result = gfxPlatform::GetPlatform()->GetWrappedDataSourceSurface(framesurf);
   }
   if (!result) {
     result = gfxPlatform::GetPlatform()->GetSourceSurfaceForSurface(nullptr,
                                                                     framesurf);
   }
   return result.forget();
 }
 already_AddRefed<layers::Image>
 RasterImage::GetCurrentImage()
 {
   if (!mDecoded) {
     // We can't call StartDecoding because that can synchronously notify
     // which can cause DOM modification
     RequestDecodeCore(ASYNCHRONOUS);
     return nullptr;
   }
   RefPtr<SourceSurface> surface = GetFrame(FRAME_CURRENT, FLAG_NONE);
   if (!surface) {
     // The OS threw out some or all of our buffer. Start decoding again.
     // GetFrame will only return null in the case that the image was
     // discarded. We already checked that the image is decoded, so other
     // error paths are not possible.
     ForceDiscard();
     RequestDecodeCore(ASYNCHRONOUS);
     return nullptr;
   }
   if (!mImageContainer) {
     mImageContainer = LayerManager::CreateImageContainer();
   }
   CairoImage::Data cairoData;
   GetWidth(&cairoData.mSize.width);
   GetHeight(&cairoData.mSize.height);
   cairoData.mSourceSurface = surface;
   nsRefPtr<layers::Image> image = mImageContainer->CreateImage(ImageFormat::CAIRO_SURFACE);
   NS_ASSERTION(image, "Failed to create Image");
   static_cast<CairoImage*>(image.get())->SetData(cairoData);
   return image.forget();
 }
 NS_IMETHODIMP
 RasterImage::GetImageContainer(LayerManager* aManager, ImageContainer **_retval)
 {
   int32_t maxTextureSize = aManager->GetMaxTextureSize();
   if (mSize.width > maxTextureSize || mSize.height > maxTextureSize) {
     *_retval = nullptr;
     return NS_OK;
   }
   if (IsUnlocked() && mStatusTracker) {
     mStatusTracker->OnUnlockedDraw();
   }
   if (!mImageContainer) {
     mImageContainer = mImageContainerCache;
   }
   if (mImageContainer) {
     *_retval = mImageContainer;
     NS_ADDREF(*_retval);
     return NS_OK;
   }
   nsRefPtr<layers::Image> image = GetCurrentImage();
   if (!image) {
     return NS_ERROR_NOT_AVAILABLE;
   }
   mImageContainer->SetCurrentImageInTransaction(image);
   *_retval = mImageContainer;
   NS_ADDREF(*_retval);
   // We only need to be careful about holding on to the image when it is
   // discardable by the OS.
   if (CanForciblyDiscardAndRedecode()) {
     mImageContainerCache = mImageContainer->asWeakPtr();
     mImageContainer = nullptr;
   }
   return NS_OK;
 }
 void
 RasterImage::UpdateImageContainer()
 {
   if (!mImageContainer || IsInUpdateImageContainer()) {
     return;
   }
   SetInUpdateImageContainer(true);
   nsRefPtr<layers::Image> image = GetCurrentImage();
   if (!image) {
     return;
   }
   mImageContainer->SetCurrentImage(image);
   SetInUpdateImageContainer(false);
 }
 size_t
 RasterImage::HeapSizeOfSourceWithComputedFallback(MallocSizeOf aMallocSizeOf) const
 {
   // n == 0 is possible for two reasons.
   // - This is a zero-length image.
   // - We're on a platform where moz_malloc_size_of always returns 0.
   // In either case the fallback works appropriately.
   size_t n = mSourceData.SizeOfExcludingThis(aMallocSizeOf);
   if (n == 0) {
     n = mSourceData.Length();
   }
   return n;
 }
 size_t
 RasterImage::SizeOfDecodedWithComputedFallbackIfHeap(gfxMemoryLocation aLocation,
                                                      MallocSizeOf aMallocSizeOf) const
 {
   size_t n = mFrameBlender.SizeOfDecodedWithComputedFallbackIfHeap(aLocation, aMallocSizeOf);
   if (mScaleResult.status == SCALE_DONE) {
     n += mScaleResult.frame->SizeOfExcludingThisWithComputedFallbackIfHeap(aLocation, aMallocSizeOf);
   }
   return n;
 }
 size_t
 RasterImage::HeapSizeOfDecodedWithComputedFallback(MallocSizeOf aMallocSizeOf) const
 {
   return SizeOfDecodedWithComputedFallbackIfHeap(gfxMemoryLocation::IN_PROCESS_HEAP,
                                                  aMallocSizeOf);
 }
 size_t
 RasterImage::NonHeapSizeOfDecoded() const
 {
   return SizeOfDecodedWithComputedFallbackIfHeap(gfxMemoryLocation::IN_PROCESS_NONHEAP,
                                                  nullptr);
 }
 size_t
 RasterImage::OutOfProcessSizeOfDecoded() const
 {
   return SizeOfDecodedWithComputedFallbackIfHeap(gfxMemoryLocation::OUT_OF_PROCESS,
                                                  nullptr);
 }
 void
 RasterImage::EnsureAnimExists()
 {
   if (!mAnim) {
     // Create the animation context
     mAnim = new FrameAnimator(mFrameBlender, mAnimationMode);
     // We don't support discarding animated images (See bug 414259).
     // Lock the image and throw away the key.
     //
     // Note that this is inefficient, since we could get rid of the source
     // data too. However, doing this is actually hard, because we're probably
     // calling ensureAnimExists mid-decode, and thus we're decoding out of
     // the source buffer. Since we're going to fix this anyway later, and
     // since we didn't kill the source data in the old world either, locking
     // is acceptable for the moment.
     LockImage();
     // Notify our observers that we are starting animation.
     nsRefPtr<imgStatusTracker> statusTracker = CurrentStatusTracker();
     statusTracker->RecordImageIsAnimated();
   }
 }
 nsresult
 RasterImage::InternalAddFrameHelper(uint32_t framenum, imgFrame *aFrame,
                                     uint8_t **imageData, uint32_t *imageLength,
                                     uint32_t **paletteData, uint32_t *paletteLength,
                                     imgFrame** aRetFrame)
 {
   NS_ABORT_IF_FALSE(framenum <= GetNumFrames(), "Invalid frame index!");
   if (framenum > GetNumFrames())
     return NS_ERROR_INVALID_ARG;
   nsAutoPtr<imgFrame> frame(aFrame);
   // We are in the middle of decoding. This will be unlocked when we finish
   // decoding or switch to another frame.
   frame->LockImageData();
   if (paletteData && paletteLength)
     frame->GetPaletteData(paletteData, paletteLength);
   frame->GetImageData(imageData, imageLength);
   *aRetFrame = frame;
   mFrameBlender.InsertFrame(framenum, frame.forget());
   return NS_OK;
 }
 nsresult
 RasterImage::InternalAddFrame(uint32_t framenum,
                               int32_t aX, int32_t aY,
                               int32_t aWidth, int32_t aHeight,
                               gfxImageFormat aFormat,
                               uint8_t aPaletteDepth,
                               uint8_t **imageData,
                               uint32_t *imageLength,
                               uint32_t **paletteData,
                               uint32_t *paletteLength,
                               imgFrame** aRetFrame)
 {
   // We assume that we're in the middle of decoding because we unlock the
   // previous frame when we create a new frame, and only when decoding do we
   // lock frames.
   NS_ABORT_IF_FALSE(mDecoder, "Only decoders may add frames!");
   NS_ABORT_IF_FALSE(framenum <= GetNumFrames(), "Invalid frame index!");
   if (framenum > GetNumFrames())
     return NS_ERROR_INVALID_ARG;
   nsAutoPtr<imgFrame> frame(new imgFrame());
   nsresult rv = frame->Init(aX, aY, aWidth, aHeight, aFormat, aPaletteDepth);
   if (!(mSize.width > 0 && mSize.height > 0))
     NS_WARNING("Shouldn't call InternalAddFrame with zero size");
   if (!NS_SUCCEEDED(rv))
     NS_WARNING("imgFrame::Init should succeed");
   NS_ENSURE_SUCCESS(rv, rv);
   // We know we are in a decoder. Therefore, we must unlock the previous frame
   // when we move on to decoding into the next frame.
   if (GetNumFrames() > 0) {
     imgFrame *prevframe = mFrameBlender.RawGetFrame(GetNumFrames() - 1);
     prevframe->UnlockImageData();
   }
   if (GetNumFrames() == 0) {
     return InternalAddFrameHelper(framenum, frame.forget(), imageData, imageLength,
                                   paletteData, paletteLength, aRetFrame);
   }
   if (GetNumFrames() == 1) {
     // Since we're about to add our second frame, initialize animation stuff
     EnsureAnimExists();
     // If we dispose of the first frame by clearing it, then the
     // First Frame's refresh area is all of itself.
     // RESTORE_PREVIOUS is invalid (assumed to be DISPOSE_CLEAR)
     int32_t frameDisposalMethod = mFrameBlender.RawGetFrame(0)->GetFrameDisposalMethod();
     if (frameDisposalMethod == FrameBlender::kDisposeClear ||
         frameDisposalMethod == FrameBlender::kDisposeRestorePrevious)
       mAnim->SetFirstFrameRefreshArea(mFrameBlender.RawGetFrame(0)->GetRect());
   }
   // Calculate firstFrameRefreshArea
   // Some gifs are huge but only have a small area that they animate
   // We only need to refresh that small area when Frame 0 comes around again
   mAnim->UnionFirstFrameRefreshArea(frame->GetRect());
   rv = InternalAddFrameHelper(framenum, frame.forget(), imageData, imageLength,
                               paletteData, paletteLength, aRetFrame);
   return rv;
 }
 bool
 RasterImage::ApplyDecodeFlags(uint32_t aNewFlags, uint32_t aWhichFrame)
 {
   if (mFrameDecodeFlags == (aNewFlags & DECODE_FLAGS_MASK))
     return true; // Not asking very much of us here.
   if (mDecoded) {
     // If the requested frame is opaque and the current and new decode flags
     // only differ in the premultiply alpha bit then we can use the existing
     // frame, we don't need to discard and re-decode.
     uint32_t currentNonAlphaFlags =
       (mFrameDecodeFlags & DECODE_FLAGS_MASK) & ~FLAG_DECODE_NO_PREMULTIPLY_ALPHA;
     uint32_t newNonAlphaFlags =
       (aNewFlags & DECODE_FLAGS_MASK) & ~FLAG_DECODE_NO_PREMULTIPLY_ALPHA;
     if (currentNonAlphaFlags == newNonAlphaFlags && FrameIsOpaque(aWhichFrame)) {
       return true;
     }
     // if we can't discard, then we're screwed; we have no way
     // to re-decode.  Similarly if we aren't allowed to do a sync
     // decode.
     if (!(aNewFlags & FLAG_SYNC_DECODE))
       return false;
     if (!CanForciblyDiscardAndRedecode())
       return false;
     ForceDiscard();
   }
   mFrameDecodeFlags = aNewFlags & DECODE_FLAGS_MASK;
   return true;
 }
 nsresult
 RasterImage::SetSize(int32_t aWidth, int32_t aHeight, Orientation aOrientation)
 {
   MOZ_ASSERT(NS_IsMainThread());
   mDecodingMonitor.AssertCurrentThreadIn();
   if (mError)
     return NS_ERROR_FAILURE;
   // Ensure that we have positive values
   // XXX - Why isn't the size unsigned? Should this be changed?
   if ((aWidth < 0) || (aHeight < 0))
     return NS_ERROR_INVALID_ARG;
   // if we already have a size, check the new size against the old one
   if (!mMultipart && mHasSize &&
       ((aWidth != mSize.width) ||
        (aHeight != mSize.height) ||
        (aOrientation != mOrientation))) {
     NS_WARNING("Image changed size on redecode! This should not happen!");
     // Make the decoder aware of the error so that it doesn't try to call
     // FinishInternal during ShutdownDecoder.
     if (mDecoder)
       mDecoder->PostResizeError();
     DoError();
     return NS_ERROR_UNEXPECTED;
   }
   // Set the size and flag that we have it
   mSize.SizeTo(aWidth, aHeight);
   mOrientation = aOrientation;
   mHasSize = true;
   mFrameBlender.SetSize(mSize);
   return NS_OK;
 }
 nsresult
 RasterImage::EnsureFrame(uint32_t aFrameNum, int32_t aX, int32_t aY,
                          int32_t aWidth, int32_t aHeight,
                          gfxImageFormat aFormat,
                          uint8_t aPaletteDepth,
                          uint8_t **imageData, uint32_t *imageLength,
                          uint32_t **paletteData, uint32_t *paletteLength,
                          imgFrame** aRetFrame)
 {
   if (mError)
     return NS_ERROR_FAILURE;
   NS_ENSURE_ARG_POINTER(imageData);
   NS_ENSURE_ARG_POINTER(imageLength);
   NS_ENSURE_ARG_POINTER(aRetFrame);
   NS_ABORT_IF_FALSE(aFrameNum <= GetNumFrames(), "Invalid frame index!");
   if (aPaletteDepth > 0) {
     NS_ENSURE_ARG_POINTER(paletteData);
     NS_ENSURE_ARG_POINTER(paletteLength);
   }
   if (aFrameNum > GetNumFrames())
     return NS_ERROR_INVALID_ARG;
   // Adding a frame that doesn't already exist.
   if (aFrameNum == GetNumFrames()) {
     return InternalAddFrame(aFrameNum, aX, aY, aWidth, aHeight, aFormat,
                             aPaletteDepth, imageData, imageLength,
                             paletteData, paletteLength, aRetFrame);
   }
   imgFrame *frame = mFrameBlender.RawGetFrame(aFrameNum);
   if (!frame) {
     return InternalAddFrame(aFrameNum, aX, aY, aWidth, aHeight, aFormat,
                             aPaletteDepth, imageData, imageLength,
                             paletteData, paletteLength, aRetFrame);
   }
   // See if we can re-use the frame that already exists.
   nsIntRect rect = frame->GetRect();
   if (rect.x == aX && rect.y == aY && rect.width == aWidth &&
       rect.height == aHeight && frame->GetFormat() == aFormat &&
       frame->GetPaletteDepth() == aPaletteDepth) {
     frame->GetImageData(imageData, imageLength);
     if (paletteData) {
       frame->GetPaletteData(paletteData, paletteLength);
     }
     *aRetFrame = frame;
     // We can re-use the frame if it has image data.
     if (*imageData && paletteData && *paletteData) {
       return NS_OK;
     }
     if (*imageData && !paletteData) {
       return NS_OK;
     }
   }
   // Not reusable, so replace the frame directly.
   // We know this frame is already locked, because it's the one we're currently
   // writing to.
   frame->UnlockImageData();
   mFrameBlender.RemoveFrame(aFrameNum);
   nsAutoPtr<imgFrame> newFrame(new imgFrame());
   nsresult rv = newFrame->Init(aX, aY, aWidth, aHeight, aFormat, aPaletteDepth);
   NS_ENSURE_SUCCESS(rv, rv);
   return InternalAddFrameHelper(aFrameNum, newFrame.forget(), imageData,
                                 imageLength, paletteData, paletteLength,
                                 aRetFrame);
 }
 nsresult
 RasterImage::EnsureFrame(uint32_t aFramenum, int32_t aX, int32_t aY,
                          int32_t aWidth, int32_t aHeight,
                          gfxImageFormat aFormat,
                          uint8_t** imageData, uint32_t* imageLength,
                          imgFrame** aFrame)
 {
   return EnsureFrame(aFramenum, aX, aY, aWidth, aHeight, aFormat,
                      /* aPaletteDepth = */ 0, imageData, imageLength,
                      /* aPaletteData = */ nullptr,
                      /* aPaletteLength = */ nullptr,
                      aFrame);
 }
 nsresult
 RasterImage::SetFrameAsNonPremult(uint32_t aFrameNum, bool aIsNonPremult)
 {
   if (mError)
     return NS_ERROR_FAILURE;
   NS_ABORT_IF_FALSE(aFrameNum < GetNumFrames(), "Invalid frame index!");
   if (aFrameNum >= GetNumFrames())
     return NS_ERROR_INVALID_ARG;
   imgFrame* frame = mFrameBlender.RawGetFrame(aFrameNum);
   NS_ABORT_IF_FALSE(frame, "Calling SetFrameAsNonPremult on frame that doesn't exist!");
   NS_ENSURE_TRUE(frame, NS_ERROR_FAILURE);
   frame->SetAsNonPremult(aIsNonPremult);
   return NS_OK;
 }
 nsresult
 RasterImage::DecodingComplete()
 {
   MOZ_ASSERT(NS_IsMainThread());
   if (mError)
     return NS_ERROR_FAILURE;
   // Flag that we're done decoding.
   // XXX - these should probably be combined when we fix animated image
   // discarding with bug 500402.
   mDecoded = true;
   mHasBeenDecoded = true;
   nsresult rv;
   // We now have one of the qualifications for discarding. Re-evaluate.
   if (CanDiscard()) {
     NS_ABORT_IF_FALSE(!DiscardingActive(),
                       "We shouldn't have been discardable before this");
     rv = DiscardTracker::Reset(&mDiscardTrackerNode);
     CONTAINER_ENSURE_SUCCESS(rv);
   }
   // If there's only 1 frame, optimize it. Optimizing animated images
   // is not supported.
   //
   // We don't optimize the frame for multipart images because we reuse
   // the frame.
   if ((GetNumFrames() == 1) && !mMultipart) {
     // CanForciblyDiscard is used instead of CanForciblyDiscardAndRedecode
     // because we know decoding is complete at this point and this is not
     // an animation
     if (DiscardingEnabled() && CanForciblyDiscard()) {
       mFrameBlender.RawGetFrame(0)->SetDiscardable();
     }
     rv = mFrameBlender.RawGetFrame(0)->Optimize();
     NS_ENSURE_SUCCESS(rv, rv);
   }
   // Double-buffer our frame in the multipart case, since we'll start decoding
   // into the first frame again immediately and this produces severe tearing.
   if (mMultipart) {
     if (GetNumFrames() == 1) {
       mMultipartDecodedFrame = mFrameBlender.SwapFrame(GetCurrentFrameIndex(),
                                                        mMultipartDecodedFrame);
     } else {
       // Don't double buffer for animated multipart images. It entails more
       // complexity and it's not really needed since we already are smart about
       // not displaying the still-decoding frame of an animated image. We may
       // have already stored an extra frame, though, so we'll release it here.
       delete mMultipartDecodedFrame;
       mMultipartDecodedFrame = nullptr;
     }
   }
   if (mAnim) {
     mAnim->SetDoneDecoding(true);
   }
   return NS_OK;
 }
 NS_IMETHODIMP
 RasterImage::SetAnimationMode(uint16_t aAnimationMode)
 {
   if (mAnim) {
     mAnim->SetAnimationMode(aAnimationMode);
   }
   return SetAnimationModeInternal(aAnimationMode);
 }
 //******************************************************************************
 /* void StartAnimation () */
 nsresult
 RasterImage::StartAnimation()
 {
   if (mError)
     return NS_ERROR_FAILURE;
   NS_ABORT_IF_FALSE(ShouldAnimate(), "Should not animate!");
   EnsureAnimExists();
   imgFrame* currentFrame = GetCurrentImgFrame();
   // A timeout of -1 means we should display this frame forever.
   if (currentFrame && mFrameBlender.GetTimeoutForFrame(GetCurrentImgFrameIndex()) < 0) {
     mAnimationFinished = true;
     return NS_ERROR_ABORT;
   }
   if (mAnim) {
     // We need to set the time that this initial frame was first displayed, as
     // this is used in AdvanceFrame().
     mAnim->InitAnimationFrameTimeIfNecessary();
   }
   return NS_OK;
 }
 //******************************************************************************
 /* void stopAnimation (); */
 nsresult
 RasterImage::StopAnimation()
 {
   NS_ABORT_IF_FALSE(mAnimating, "Should be animating!");
   nsresult rv = NS_OK;
   if (mError) {
     rv = NS_ERROR_FAILURE;
   } else {
     mAnim->SetAnimationFrameTime(TimeStamp());
   }
   mAnimating = false;
   return rv;
 }
 //******************************************************************************
 /* void resetAnimation (); */
 NS_IMETHODIMP
 RasterImage::ResetAnimation()
 {
   if (mError)
     return NS_ERROR_FAILURE;
   if (mAnimationMode == kDontAnimMode ||
       !mAnim || mAnim->GetCurrentAnimationFrameIndex() == 0)
     return NS_OK;
   mAnimationFinished = false;
   if (mAnimating)
     StopAnimation();
   mFrameBlender.ResetAnimation();
   mAnim->ResetAnimation();
   UpdateImageContainer();
   // Note - We probably want to kick off a redecode somewhere around here when
   // we fix bug 500402.
   // Update display
   if (mStatusTracker) {
     nsIntRect rect = mAnim->GetFirstFrameRefreshArea();
     mStatusTracker->FrameChanged(&rect);
   }
   // Start the animation again. It may not have been running before, if
   // mAnimationFinished was true before entering this function.
   EvaluateAnimation();
   return NS_OK;
 }
 //******************************************************************************
 // [notxpcom] void setAnimationStartTime ([const] in TimeStamp aTime);
 NS_IMETHODIMP_(void)
 RasterImage::SetAnimationStartTime(const mozilla::TimeStamp& aTime)
 {
   if (mError || mAnimationMode == kDontAnimMode || mAnimating || !mAnim)
     return;
   mAnim->SetAnimationFrameTime(aTime);
 }
 NS_IMETHODIMP_(float)
 RasterImage::GetFrameIndex(uint32_t aWhichFrame)
 {
   MOZ_ASSERT(aWhichFrame <= FRAME_MAX_VALUE, "Invalid argument");
   return (aWhichFrame == FRAME_FIRST || !mAnim)
          ? 0.0f
          : mAnim->GetCurrentAnimationFrameIndex();
 }
 void
 RasterImage::SetLoopCount(int32_t aLoopCount)
 {
   if (mError)
     return;
   if (mAnim) {
     // No need to set this if we're not an animation
     mFrameBlender.SetLoopCount(aLoopCount);
   }
 }
 nsresult
 RasterImage::AddSourceData(const char *aBuffer, uint32_t aCount)
 {
   ReentrantMonitorAutoEnter lock(mDecodingMonitor);
   if (mError)
     return NS_ERROR_FAILURE;
   NS_ENSURE_ARG_POINTER(aBuffer);
   nsresult rv = NS_OK;
   // We should not call this if we're not initialized
   NS_ABORT_IF_FALSE(mInitialized, "Calling AddSourceData() on uninitialized "
                                   "RasterImage!");
   // We should not call this if we're already finished adding source data
   NS_ABORT_IF_FALSE(!mHasSourceData, "Calling AddSourceData() after calling "
                                      "sourceDataComplete()!");
   // This call should come straight from necko - no reentrancy allowed
   NS_ABORT_IF_FALSE(!mInDecoder, "Re-entrant call to AddSourceData!");
   // Image is already decoded, we shouldn't be getting data, but it could
   // be extra garbage data at the end of a file.
   if (mDecoded) {
     return NS_OK;
   }
   // Starting a new part's frames, let's clean up before we add any
   // This needs to happen just before we start getting EnsureFrame() call(s),
   // so that there's no gap for anything to miss us.
   if (mMultipart && mBytesDecoded == 0) {
     // Our previous state may have been animated, so let's clean up
     if (mAnimating)
       StopAnimation();
     mAnimationFinished = false;
     if (mAnim) {
       delete mAnim;
       mAnim = nullptr;
     }
     // If there's only one frame, this could cause flickering
     int old_frame_count = GetNumFrames();
     if (old_frame_count > 1) {
       mFrameBlender.ClearFrames();
     }
   }
   // If we're not storing source data and we've previously gotten the size,
   // write the data directly to the decoder. (If we haven't gotten the size,
   // we'll queue up the data and write it out when we do.)
   if (!StoringSourceData() && mHasSize) {
     rv = WriteToDecoder(aBuffer, aCount, DECODE_SYNC);
     CONTAINER_ENSURE_SUCCESS(rv);
     // We're not storing source data, so this data is probably coming straight
     // from the network. In this case, we want to display data as soon as we
     // get it, so we want to flush invalidations after every write.
     nsRefPtr<Decoder> kungFuDeathGrip = mDecoder;
     mInDecoder = true;
     mDecoder->FlushInvalidations();
     mInDecoder = false;
     rv = FinishedSomeDecoding();
     CONTAINER_ENSURE_SUCCESS(rv);
   }
   // Otherwise, we're storing data in the source buffer
   else {
     // Store the data
     char *newElem = mSourceData.AppendElements(aBuffer, aCount);
     if (!newElem)
       return NS_ERROR_OUT_OF_MEMORY;
     if (mDecoder) {
       DecodePool::Singleton()->RequestDecode(this);
     }
   }
   // Statistics
   total_source_bytes += aCount;
   if (mDiscardable)
     discardable_source_bytes += aCount;
   PR_LOG (GetCompressedImageAccountingLog(), PR_LOG_DEBUG,
           ("CompressedImageAccounting: Added compressed data to RasterImage %p (%s). "
            "Total Containers: %d, Discardable containers: %d, "
            "Total source bytes: %lld, Source bytes for discardable containers %lld",
            this,
            mSourceDataMimeType.get(),
            num_containers,
            num_discardable_containers,
            total_source_bytes,
            discardable_source_bytes));
   return NS_OK;
 }
 /* Note!  buf must be declared as char buf[9]; */
 // just used for logging and hashing the header
 static void
 get_header_str (char *buf, char *data, size_t data_len)
 {
   int i;
   int n;
   static char hex[] = "0123456789abcdef";
   n = data_len < 4 ? data_len : 4;
   for (i = 0; i < n; i++) {
     buf[i * 2]     = hex[(data[i] >> 4) & 0x0f];
     buf[i * 2 + 1] = hex[data[i] & 0x0f];
   }
   buf[i * 2] = 0;
 }
 nsresult
 RasterImage::DoImageDataComplete()
 {
   MOZ_ASSERT(NS_IsMainThread());
   if (mError)
     return NS_ERROR_FAILURE;
   // If we've been called before, ignore. Otherwise, flag that we have everything
   if (mHasSourceData)
     return NS_OK;
   mHasSourceData = true;
   // If there's a decoder open, synchronously decode the beginning of the image
   // to check for errors and get the image's size.  (If we already have the
   // image's size, this does nothing.)  Then kick off an async decode of the
   // rest of the image.
   if (mDecoder) {
     nsresult rv = DecodePool::Singleton()->DecodeUntilSizeAvailable(this);
     CONTAINER_ENSURE_SUCCESS(rv);
   }
   {
     ReentrantMonitorAutoEnter lock(mDecodingMonitor);
     // If we're not storing any source data, then there's nothing more we can do
     // once we've tried decoding for size.
     if (!StoringSourceData() && mDecoder) {
       nsresult rv = ShutdownDecoder(eShutdownIntent_Done);
       CONTAINER_ENSURE_SUCCESS(rv);
     }
     // If DecodeUntilSizeAvailable didn't finish the decode, let the decode worker
     // finish decoding this image.
     if (mDecoder) {
       DecodePool::Singleton()->RequestDecode(this);
     }
     // Free up any extra space in the backing buffer
     mSourceData.Compact();
   }
   // Log header information
   if (PR_LOG_TEST(GetCompressedImageAccountingLog(), PR_LOG_DEBUG)) {
     char buf[9];
     get_header_str(buf, mSourceData.Elements(), mSourceData.Length());
     PR_LOG (GetCompressedImageAccountingLog(), PR_LOG_DEBUG,
             ("CompressedImageAccounting: RasterImage::SourceDataComplete() - data "
              "is done for container %p (%s) - header %p is 0x%s (length %d)",
              this,
              mSourceDataMimeType.get(),
              mSourceData.Elements(),
              buf,
              mSourceData.Length()));
   }
   // We now have one of the qualifications for discarding. Re-evaluate.
   if (CanDiscard()) {
     nsresult rv = DiscardTracker::Reset(&mDiscardTrackerNode);
     CONTAINER_ENSURE_SUCCESS(rv);
   }
   return NS_OK;
 }
 nsresult
 RasterImage::OnImageDataComplete(nsIRequest*, nsISupports*, nsresult aStatus, bool aLastPart)
 {
   nsresult finalStatus = DoImageDataComplete();
   // Give precedence to Necko failure codes.
   if (NS_FAILED(aStatus))
     finalStatus = aStatus;
   // We just recorded OnStopRequest; we need to inform our listeners.
   {
     ReentrantMonitorAutoEnter lock(mDecodingMonitor);
     nsRefPtr<imgStatusTracker> statusTracker = CurrentStatusTracker();
     statusTracker->GetDecoderObserver()->OnStopRequest(aLastPart, finalStatus);
     FinishedSomeDecoding();
   }
   return finalStatus;
 }
 nsresult
 RasterImage::OnImageDataAvailable(nsIRequest*,
                                   nsISupports*,
                                   nsIInputStream* aInStr,
                                   uint64_t,
                                   uint32_t aCount)
 {
   nsresult rv;
   // WriteToRasterImage always consumes everything it gets
   // if it doesn't run out of memory
   uint32_t bytesRead;
   rv = aInStr->ReadSegments(WriteToRasterImage, this, aCount, &bytesRead);
   NS_ABORT_IF_FALSE(bytesRead == aCount || HasError(),
     "WriteToRasterImage should consume everything or the image must be in error!");
   return rv;
 }
 nsresult
 RasterImage::OnNewSourceData()
 {
   MOZ_ASSERT(NS_IsMainThread());
   nsresult rv;
   if (mError)
     return NS_ERROR_FAILURE;
   // The source data should be complete before calling this
   NS_ABORT_IF_FALSE(mHasSourceData,
                     "Calling NewSourceData before SourceDataComplete!");
   if (!mHasSourceData)
     return NS_ERROR_ILLEGAL_VALUE;
   // Only supported for multipart channels. It wouldn't be too hard to change this,
   // but it would involve making sure that things worked for decode-on-draw and
   // discarding. Presently there's no need for this, so we don't.
   NS_ABORT_IF_FALSE(mMultipart, "NewSourceData only supported for multipart");
   if (!mMultipart)
     return NS_ERROR_ILLEGAL_VALUE;
   // We're multipart, so we shouldn't be storing source data
   NS_ABORT_IF_FALSE(!StoringSourceData(),
                     "Shouldn't be storing source data for multipart");
   // We're not storing the source data and we got SourceDataComplete. We should
   // have shut down the previous decoder
   NS_ABORT_IF_FALSE(!mDecoder, "Shouldn't have a decoder in NewSourceData");
   // The decoder was shut down and we didn't flag an error, so we should be decoded
   NS_ABORT_IF_FALSE(mDecoded, "Should be decoded in NewSourceData");
   // Reset some flags
   mDecoded = false;
   mHasSourceData = false;
   mHasSize = false;
   mWantFullDecode = true;
   mDecodeRequest = nullptr;
   if (mAnim) {
     mAnim->SetDoneDecoding(false);
   }
   // We always need the size first.
   rv = InitDecoder(/* aDoSizeDecode = */ true);
   CONTAINER_ENSURE_SUCCESS(rv);
   return NS_OK;
 }
 nsresult
 RasterImage::SetSourceSizeHint(uint32_t sizeHint)
 {
   if (sizeHint && StoringSourceData())
     return mSourceData.SetCapacity(sizeHint) ? NS_OK : NS_ERROR_OUT_OF_MEMORY;
   return NS_OK;
 }
 /********* Methods to implement lazy allocation of nsIProperties object *************/
 NS_IMETHODIMP
 RasterImage::Get(const char *prop, const nsIID & iid, void * *result)
 {
   if (!mProperties)
     return NS_ERROR_FAILURE;
   return mProperties->Get(prop, iid, result);
 }
 NS_IMETHODIMP
 RasterImage::Set(const char *prop, nsISupports *value)
 {
   if (!mProperties)
     mProperties = do_CreateInstance("@mozilla.org/properties;1");
   if (!mProperties)
     return NS_ERROR_OUT_OF_MEMORY;
   return mProperties->Set(prop, value);
 }
 NS_IMETHODIMP
 RasterImage::Has(const char *prop, bool *_retval)
 {
   NS_ENSURE_ARG_POINTER(_retval);
   if (!mProperties) {
     *_retval = false;
     return NS_OK;
   }
   return mProperties->Has(prop, _retval);
 }
 NS_IMETHODIMP
 RasterImage::Undefine(const char *prop)
 {
   if (!mProperties)
     return NS_ERROR_FAILURE;
   return mProperties->Undefine(prop);
 }
 NS_IMETHODIMP
 RasterImage::GetKeys(uint32_t *count, char ***keys)
 {
   if (!mProperties) {
     *count = 0;
     *keys = nullptr;
     return NS_OK;
   }
   return mProperties->GetKeys(count, keys);
 }
 void
 RasterImage::Discard(bool force)
 {
   MOZ_ASSERT(NS_IsMainThread());
   // We should be ok for discard
   NS_ABORT_IF_FALSE(force ? CanForciblyDiscard() : CanDiscard(), "Asked to discard but can't!");
   // We should never discard when we have an active decoder
   NS_ABORT_IF_FALSE(!mDecoder, "Asked to discard with open decoder!");
   // As soon as an image becomes animated, it becomes non-discardable and any
   // timers are cancelled.
   NS_ABORT_IF_FALSE(!mAnim, "Asked to discard for animated image!");
   // For post-operation logging
   int old_frame_count = GetNumFrames();
   // Delete all the decoded frames
   mFrameBlender.Discard();
   // Clear our downscaled frame.
   mScaleResult.status = SCALE_INVALID;
   mScaleResult.frame = nullptr;
   // Clear the last decoded multipart frame.
   delete mMultipartDecodedFrame;
   mMultipartDecodedFrame = nullptr;
   // Flag that we no longer have decoded frames for this image
   mDecoded = false;
   // Notify that we discarded
   if (mStatusTracker)
     mStatusTracker->OnDiscard();
   mDecodeRequest = nullptr;
   if (force)
     DiscardTracker::Remove(&mDiscardTrackerNode);
   // Log
   PR_LOG(GetCompressedImageAccountingLog(), PR_LOG_DEBUG,
          ("CompressedImageAccounting: discarded uncompressed image "
           "data from RasterImage %p (%s) - %d frames (cached count: %d); "
           "Total Containers: %d, Discardable containers: %d, "
           "Total source bytes: %lld, Source bytes for discardable containers %lld",
           this,
           mSourceDataMimeType.get(),
           old_frame_count,
           GetNumFrames(),
           num_containers,
           num_discardable_containers,
           total_source_bytes,
           discardable_source_bytes));
 }
 // Helper method to determine if we can discard an image
 bool
 RasterImage::CanDiscard() {
   return (DiscardingEnabled() && // Globally enabled...
           mDiscardable &&        // ...Enabled at creation time...
           (mLockCount == 0) &&   // ...not temporarily disabled...
           mHasSourceData &&      // ...have the source data...
           mDecoded);             // ...and have something to discard.
 }
 bool
 RasterImage::CanForciblyDiscard() {
   return mDiscardable &&         // ...Enabled at creation time...
          mHasSourceData;         // ...have the source data...
 }
 bool
 RasterImage::CanForciblyDiscardAndRedecode() {
   return mDiscardable &&         // ...Enabled at creation time...
          mHasSourceData &&       // ...have the source data...
          !mDecoder &&            // Can't discard with an open decoder
          !mAnim;                 // Can never discard animated images
 }
 // Helper method to tell us whether the clock is currently running for
 // discarding this image. Mainly for assertions.
 bool
 RasterImage::DiscardingActive() {
   return mDiscardTrackerNode.isInList();
 }
 // Helper method to determine if we're storing the source data in a buffer
 // or just writing it directly to the decoder
 bool
 RasterImage::StoringSourceData() const {
   return (mDecodeOnDraw || mDiscardable);
 }
 // Sets up a decoder for this image. It is an error to call this function
 // when decoding is already in process (ie - when mDecoder is non-null).
 nsresult
 RasterImage::InitDecoder(bool aDoSizeDecode)
 {
   // Ensure that the decoder is not already initialized
   NS_ABORT_IF_FALSE(!mDecoder, "Calling InitDecoder() while already decoding!");
   // We shouldn't be firing up a decoder if we already have the frames decoded
   NS_ABORT_IF_FALSE(!mDecoded, "Calling InitDecoder() but already decoded!");
   // Since we're not decoded, we should not have a discard timer active
   NS_ABORT_IF_FALSE(!DiscardingActive(), "Discard Timer active in InitDecoder()!");
   // Make sure we actually get size before doing a full decode.
   if (!aDoSizeDecode) {
     NS_ABORT_IF_FALSE(mHasSize, "Must do a size decode before a full decode!");
   }
   // Figure out which decoder we want
   eDecoderType type = GetDecoderType(mSourceDataMimeType.get());
   CONTAINER_ENSURE_TRUE(type != eDecoderType_unknown, NS_IMAGELIB_ERROR_NO_DECODER);
   // Instantiate the appropriate decoder
   switch (type) {
     case eDecoderType_png:
       mDecoder = new nsPNGDecoder(*this);
       break;
     case eDecoderType_gif:
       mDecoder = new nsGIFDecoder2(*this);
       break;
     case eDecoderType_jpeg:
       // If we have all the data we don't want to waste cpu time doing
       // a progressive decode
       mDecoder = new nsJPEGDecoder(*this,
                                    mHasBeenDecoded ? Decoder::SEQUENTIAL :
                                                      Decoder::PROGRESSIVE);
       break;
     case eDecoderType_bmp:
       mDecoder = new nsBMPDecoder(*this);
       break;
     case eDecoderType_ico:
       mDecoder = new nsICODecoder(*this);
       break;
     case eDecoderType_icon:
       mDecoder = new nsIconDecoder(*this);
       break;
     default:
       NS_ABORT_IF_FALSE(0, "Shouldn't get here!");
   }
   // If we already have frames, we're probably in the multipart/x-mixed-replace
   // case. Regardless, we need to lock the last frame. Our invariant is that,
   // while we have a decoder open, the last frame is always locked.
   if (GetNumFrames() > 0) {
     imgFrame *curframe = mFrameBlender.RawGetFrame(GetNumFrames() - 1);
     curframe->LockImageData();
   }
   // Initialize the decoder
   if (!mDecodeRequest) {
     mDecodeRequest = new DecodeRequest(this);
   }
   MOZ_ASSERT(mDecodeRequest->mStatusTracker);
   MOZ_ASSERT(mDecodeRequest->mStatusTracker->GetDecoderObserver());
   mDecoder->SetObserver(mDecodeRequest->mStatusTracker->GetDecoderObserver());
   mDecoder->SetSizeDecode(aDoSizeDecode);
   mDecoder->SetDecodeFlags(mFrameDecodeFlags);
   if (!aDoSizeDecode) {
     // We already have the size; tell the decoder so it can preallocate a
     // frame.  By default, we create an ARGB frame with no offset. If decoders
     // need a different type, they need to ask for it themselves.
     mDecoder->NeedNewFrame(0, 0, 0, mSize.width, mSize.height,
                            gfxImageFormat::ARGB32);
     mDecoder->AllocateFrame();
   }
   mDecoder->Init();
   CONTAINER_ENSURE_SUCCESS(mDecoder->GetDecoderError());
   if (!aDoSizeDecode) {
     Telemetry::GetHistogramById(Telemetry::IMAGE_DECODE_COUNT)->Subtract(mDecodeCount);
     mDecodeCount++;
     Telemetry::GetHistogramById(Telemetry::IMAGE_DECODE_COUNT)->Add(mDecodeCount);
     if (mDecodeCount > sMaxDecodeCount) {
       // Don't subtract out 0 from the histogram, because that causes its count
       // to go negative, which is not kosher.
       if (sMaxDecodeCount > 0) {
         Telemetry::GetHistogramById(Telemetry::IMAGE_MAX_DECODE_COUNT)->Subtract(sMaxDecodeCount);
       }
       sMaxDecodeCount = mDecodeCount;
       Telemetry::GetHistogramById(Telemetry::IMAGE_MAX_DECODE_COUNT)->Add(sMaxDecodeCount);
     }
   }
   return NS_OK;
 }
 // Flushes, closes, and nulls-out a decoder. Cleans up any related decoding
 // state. It is an error to call this function when there is no initialized
 // decoder.
 //
 // aIntent specifies the intent of the shutdown. If aIntent is
 // eShutdownIntent_Done, an error is flagged if we didn't get what we should
 // have out of the decode. If aIntent is eShutdownIntent_NotNeeded, we don't
 // check this. If aIntent is eShutdownIntent_Error, we shut down in error mode.
 nsresult
 RasterImage::ShutdownDecoder(eShutdownIntent aIntent)
 {
   MOZ_ASSERT(NS_IsMainThread());
   mDecodingMonitor.AssertCurrentThreadIn();
   // Ensure that our intent is valid
   NS_ABORT_IF_FALSE((aIntent >= 0) && (aIntent < eShutdownIntent_AllCount),
                     "Invalid shutdown intent");
   // Ensure that the decoder is initialized
   NS_ABORT_IF_FALSE(mDecoder, "Calling ShutdownDecoder() with no active decoder!");
   // Figure out what kind of decode we were doing before we get rid of our decoder
   bool wasSizeDecode = mDecoder->IsSizeDecode();
   // Finalize the decoder
   // null out mDecoder, _then_ check for errors on the close (otherwise the
   // error routine might re-invoke ShutdownDecoder)
   nsRefPtr<Decoder> decoder = mDecoder;
   mDecoder = nullptr;
   mFinishing = true;
   mInDecoder = true;
   decoder->Finish(aIntent);
   mInDecoder = false;
   mFinishing = false;
   // Unlock the last frame (if we have any). Our invariant is that, while we
   // have a decoder open, the last frame is always locked.
   if (GetNumFrames() > 0) {
     imgFrame *curframe = mFrameBlender.RawGetFrame(GetNumFrames() - 1);
     curframe->UnlockImageData();
   }
   // Kill off our decode request, if it's pending.  (If not, this call is
   // harmless.)
   DecodePool::StopDecoding(this);
   nsresult decoderStatus = decoder->GetDecoderError();
   if (NS_FAILED(decoderStatus)) {
     DoError();
     return decoderStatus;
   }
   // We just shut down the decoder. If we didn't get what we want, but expected
   // to, flag an error
   bool failed = false;
   if (wasSizeDecode && !mHasSize)
     failed = true;
   if (!wasSizeDecode && !mDecoded)
     failed = true;
   if ((aIntent == eShutdownIntent_Done) && failed) {
     DoError();
     return NS_ERROR_FAILURE;
   }
   // If we finished a full decode, and we're not meant to be storing source
   // data, stop storing it.
   if (!wasSizeDecode && !StoringSourceData()) {
     mSourceData.Clear();
   }
   mBytesDecoded = 0;
   return NS_OK;
 }
 // Writes the data to the decoder, updating the total number of bytes written.
 nsresult
 RasterImage::WriteToDecoder(const char *aBuffer, uint32_t aCount, DecodeStrategy aStrategy)
 {
   mDecodingMonitor.AssertCurrentThreadIn();
   // We should have a decoder
   NS_ABORT_IF_FALSE(mDecoder, "Trying to write to null decoder!");
   // Write
   nsRefPtr<Decoder> kungFuDeathGrip = mDecoder;
   mInDecoder = true;
   mDecoder->Write(aBuffer, aCount, aStrategy);
   mInDecoder = false;
   CONTAINER_ENSURE_SUCCESS(mDecoder->GetDecoderError());
   // Keep track of the total number of bytes written over the lifetime of the
   // decoder
   mBytesDecoded += aCount;
   return NS_OK;
 }
 // This function is called in situations where it's clear that we want the
 // frames in decoded form (Draw, GetFrame, etc).  If we're completely decoded,
 // this method resets the discard timer (if we're discardable), since wanting
 // the frames now is a good indicator of wanting them again soon. If we're not
 // decoded, this method kicks off asynchronous decoding to generate the frames.
 nsresult
 RasterImage::WantDecodedFrames()
 {
   nsresult rv;
   // If we can discard, the clock should be running. Reset it.
   if (CanDiscard()) {
     NS_ABORT_IF_FALSE(DiscardingActive(),
                       "Decoded and discardable but discarding not activated!");
     rv = DiscardTracker::Reset(&mDiscardTrackerNode);
     CONTAINER_ENSURE_SUCCESS(rv);
   }
   // Request a decode (no-op if we're decoded)
   return StartDecoding();
 }
 //******************************************************************************
 /* void requestDecode() */
 NS_IMETHODIMP
 RasterImage::RequestDecode()
 {
   return RequestDecodeCore(SYNCHRONOUS_NOTIFY);
 }
 /* void startDecode() */
 NS_IMETHODIMP
 RasterImage::StartDecoding()
 {
   if (!NS_IsMainThread()) {
     return NS_DispatchToMainThread(
       NS_NewRunnableMethod(this, &RasterImage::StartDecoding));
   }
   // Here we are explicitly trading off flashing for responsiveness in the case
   // that we're redecoding an image (see bug 845147).
   return RequestDecodeCore(mHasBeenDecoded ?
     SYNCHRONOUS_NOTIFY : SYNCHRONOUS_NOTIFY_AND_SOME_DECODE);
 }
 bool
 RasterImage::IsDecoded()
 {
   return mDecoded || mError;
 }
 NS_IMETHODIMP
 RasterImage::RequestDecodeCore(RequestDecodeType aDecodeType)
 {
   MOZ_ASSERT(NS_IsMainThread());
   nsresult rv;
   if (mError)
     return NS_ERROR_FAILURE;
   // If we're already decoded, there's nothing to do.
   if (mDecoded)
     return NS_OK;
   // mFinishing protects against the case when we enter RequestDecode from
   // ShutdownDecoder -- in that case, we're done with the decode, we're just
   // not quite ready to admit it.  See bug 744309.
   if (mFinishing)
     return NS_OK;
   // If we're currently waiting for a new frame, we can't do anything until
   // that frame is allocated.
   if (mDecoder && mDecoder->NeedsNewFrame())
     return NS_OK;
   // If our callstack goes through a size decoder, we have a problem.
   // We need to shutdown the size decode and replace it with  a full
   // decoder, but can't do that from within the decoder itself. Thus, we post
   // an asynchronous event to the event loop to do it later. Since
   // RequestDecode() is an asynchronous function this works fine (though it's
   // a little slower).
   if (mInDecoder) {
     nsRefPtr<imgDecodeRequestor> requestor = new imgDecodeRequestor(*this);
     return NS_DispatchToCurrentThread(requestor);
   }
   // If we have a size decoder open, make sure we get the size
   if (mDecoder && mDecoder->IsSizeDecode()) {
     nsresult rv = DecodePool::Singleton()->DecodeUntilSizeAvailable(this);
     CONTAINER_ENSURE_SUCCESS(rv);
     // If we didn't get the size out of the image, we won't until we get more
     // data, so signal that we want a full decode and give up for now.
     if (!mHasSize) {
       mWantFullDecode = true;
       return NS_OK;
     }
   }
   ReentrantMonitorAutoEnter lock(mDecodingMonitor);
   // If we don't have any bytes to flush to the decoder, we can't do anything.
   // mBytesDecoded can be bigger than mSourceData.Length() if we're not storing
   // the source data.
   if (mBytesDecoded > mSourceData.Length())
     return NS_OK;
   // If the image is waiting for decode work to be notified, go ahead and do that.
   if (mDecodeRequest &&
       mDecodeRequest->mRequestStatus == DecodeRequest::REQUEST_WORK_DONE &&
       aDecodeType != ASYNCHRONOUS) {
     nsresult rv = FinishedSomeDecoding();
     CONTAINER_ENSURE_SUCCESS(rv);
   }
   // If we're fully decoded, we have nothing to do. We need this check after
   // DecodeUntilSizeAvailable and FinishedSomeDecoding because they can result
   // in us finishing an in-progress decode (or kicking off and finishing a
   // synchronous decode if we're already waiting on a full decode).
   if (mDecoded) {
     return NS_OK;
   }
   // If we've already got a full decoder running, and have already
   // decoded some bytes, we have nothing to do
   if (mDecoder && !mDecoder->IsSizeDecode() && mBytesDecoded) {
     return NS_OK;
   }
   // If we have a size decode open, interrupt it and shut it down; or if
   // the decoder has different flags than what we need
   if (mDecoder && mDecoder->GetDecodeFlags() != mFrameDecodeFlags) {
     nsresult rv = FinishedSomeDecoding(eShutdownIntent_NotNeeded);
     CONTAINER_ENSURE_SUCCESS(rv);
   }
   // If we don't have a decoder, create one
   if (!mDecoder) {
     rv = InitDecoder(/* aDoSizeDecode = */ false);
     CONTAINER_ENSURE_SUCCESS(rv);
     rv = FinishedSomeDecoding();
     CONTAINER_ENSURE_SUCCESS(rv);
     MOZ_ASSERT(mDecoder);
   }
   // If we've read all the data we have, we're done
   if (mHasSourceData && mBytesDecoded == mSourceData.Length())
     return NS_OK;
   // If we can do decoding now, do so.  Small images will decode completely,
   // large images will decode a bit and post themselves to the event loop
   // to finish decoding.
   if (!mDecoded && !mInDecoder && mHasSourceData && aDecodeType == SYNCHRONOUS_NOTIFY_AND_SOME_DECODE) {
     PROFILER_LABEL_PRINTF("RasterImage", "DecodeABitOf", "%s", GetURIString().get());
     DecodePool::Singleton()->DecodeABitOf(this, DECODE_SYNC);
     return NS_OK;
   }
   if (!mDecoded) {
     // If we get this far, dispatch the worker. We do this instead of starting
     // any immediate decoding to guarantee that all our decode notifications are
     // dispatched asynchronously, and to ensure we stay responsive.
     DecodePool::Singleton()->RequestDecode(this);
   }
   return NS_OK;
 }
 // Synchronously decodes as much data as possible
 nsresult
 RasterImage::SyncDecode()
 {
   PROFILER_LABEL_PRINTF("RasterImage", "SyncDecode", "%s", GetURIString().get());;
   // If we have a size decoder open, make sure we get the size
   if (mDecoder && mDecoder->IsSizeDecode()) {
     nsresult rv = DecodePool::Singleton()->DecodeUntilSizeAvailable(this);
     CONTAINER_ENSURE_SUCCESS(rv);
     // If we didn't get the size out of the image, we won't until we get more
     // data, so signal that we want a full decode and give up for now.
     if (!mHasSize) {
       mWantFullDecode = true;
       return NS_ERROR_NOT_AVAILABLE;
     }
   }
   ReentrantMonitorAutoEnter lock(mDecodingMonitor);
   // We really have no good way of forcing a synchronous decode if we're being
   // called in a re-entrant manner (ie, from an event listener fired by a
   // decoder), because the decoding machinery is already tied up. We thus explicitly
   // disallow this type of call in the API, and check for it in API methods.
   NS_ABORT_IF_FALSE(!mInDecoder, "Yikes, forcing sync in reentrant call!");
   if (mDecodeRequest) {
     // If the image is waiting for decode work to be notified, go ahead and do that.
     if (mDecodeRequest->mRequestStatus == DecodeRequest::REQUEST_WORK_DONE) {
       nsresult rv = FinishedSomeDecoding();
       CONTAINER_ENSURE_SUCCESS(rv);
     }
   }
   nsresult rv;
   // If we're decoded already, or decoding until the size was available
   // finished us as a side-effect, no worries
   if (mDecoded)
     return NS_OK;
   // If we don't have any bytes to flush to the decoder, we can't do anything.
   // mBytesDecoded can be bigger than mSourceData.Length() if we're not storing
   // the source data.
   if (mBytesDecoded > mSourceData.Length())
     return NS_OK;
   // If we have a decoder open with different flags than what we need, shut it
   // down
   if (mDecoder && mDecoder->GetDecodeFlags() != mFrameDecodeFlags) {
     nsresult rv = FinishedSomeDecoding(eShutdownIntent_NotNeeded);
     CONTAINER_ENSURE_SUCCESS(rv);
     if (mDecoded) {
       // If we've finished decoding we need to discard so we can re-decode
       // with the new flags. If we can't discard then there isn't
       // anything we can do.
       if (!CanForciblyDiscardAndRedecode())
         return NS_ERROR_NOT_AVAILABLE;
       ForceDiscard();
     }
   }
   // If we're currently waiting on a new frame for this image, we have to create
   // it now.
   if (mDecoder && mDecoder->NeedsNewFrame()) {
     mDecoder->AllocateFrame();
     mDecodeRequest->mAllocatedNewFrame = true;
   }
   // If we don't have a decoder, create one
   if (!mDecoder) {
     rv = InitDecoder(/* aDoSizeDecode = */ false);
     CONTAINER_ENSURE_SUCCESS(rv);
   }
   // Write everything we have
   rv = DecodeSomeData(mSourceData.Length() - mBytesDecoded, DECODE_SYNC);
   CONTAINER_ENSURE_SUCCESS(rv);
   // When we're doing a sync decode, we want to get as much information from the
   // image as possible. We've send the decoder all of our data, so now's a good
   // time  to flush any invalidations (in case we don't have all the data and what
   // we got left us mid-frame).
   nsRefPtr<Decoder> kungFuDeathGrip = mDecoder;
   mInDecoder = true;
   mDecoder->FlushInvalidations();
   mInDecoder = false;
   rv = FinishedSomeDecoding();
   CONTAINER_ENSURE_SUCCESS(rv);
   // If our decoder's still open, there's still work to be done.
   if (mDecoder) {
     DecodePool::Singleton()->RequestDecode(this);
   }
   // All good if no errors!
   return mError ? NS_ERROR_FAILURE : NS_OK;
 }
 bool
 RasterImage::CanQualityScale(const gfxSize& scale)
 {
   // If target size is 1:1 with original, don't scale.
   if (scale.width == 1.0 && scale.height == 1.0)
     return false;
   // To save memory don't quality upscale images bigger than the limit.
   if (scale.width > 1.0 || scale.height > 1.0) {
     uint32_t scaled_size = static_cast<uint32_t>(mSize.width * mSize.height * scale.width * scale.height);
     if (scaled_size > gHQUpscalingMaxSize)
       return false;
   }
   return true;
 }
 bool
 RasterImage::CanScale(GraphicsFilter aFilter,
                       gfxSize aScale, uint32_t aFlags)
 {
 // The high-quality scaler requires Skia.
 #ifdef MOZ_ENABLE_SKIA
   // We don't use the scaler for animated or multipart images to avoid doing a
   // bunch of work on an image that just gets thrown away.
   // We only use the scaler when drawing to the window because, if we're not
   // drawing to a window (eg a canvas), updates to that image will be ignored.
   if (gHQDownscaling && aFilter == GraphicsFilter::FILTER_GOOD &&
       !mAnim && mDecoded && !mMultipart && CanQualityScale(aScale) &&
       (aFlags & imgIContainer::FLAG_HIGH_QUALITY_SCALING)) {
     gfxFloat factor = gHQDownscalingMinFactor / 1000.0;
     return (aScale.width < factor || aScale.height < factor);
   }
 #endif
   return false;
 }
 void
 RasterImage::ScalingStart(ScaleRequest* request)
 {
   MOZ_ASSERT(request);
   mScaleResult.scale = request->scale;
   mScaleResult.status = SCALE_PENDING;
   mScaleRequest = request;
 }
 void
 RasterImage::ScalingDone(ScaleRequest* request, ScaleStatus status)
 {
   MOZ_ASSERT(status == SCALE_DONE || status == SCALE_INVALID);
   MOZ_ASSERT(request);
   if (status == SCALE_DONE) {
     MOZ_ASSERT(request->done);
     imgFrame *scaledFrame = request->dstFrame.forget();
     scaledFrame->ImageUpdated(scaledFrame->GetRect());
     scaledFrame->ApplyDirtToSurfaces();
     if (mStatusTracker) {
       mStatusTracker->FrameChanged(&request->srcRect);
     }
     mScaleResult.status = SCALE_DONE;
     mScaleResult.frame = scaledFrame;
     mScaleResult.scale = request->scale;
   } else {
     mScaleResult.status = SCALE_INVALID;
     mScaleResult.frame = nullptr;
   }
   // If we were waiting for this scale to come through, forget the scale
   // request. Otherwise, we still have a scale outstanding that it's possible
   // for us to (want to) stop.
   if (mScaleRequest == request) {
     mScaleRequest = nullptr;
   }
 }
 bool
 RasterImage::DrawWithPreDownscaleIfNeeded(imgFrame *aFrame,
                                           gfxContext *aContext,
                                           GraphicsFilter aFilter,
                                           const gfxMatrix &aUserSpaceToImageSpace,
                                           const gfxRect &aFill,
                                           const nsIntRect &aSubimage,
                                           uint32_t aFlags)
 {
   imgFrame *frame = aFrame;
   nsIntRect framerect = frame->GetRect();
   gfxMatrix userSpaceToImageSpace = aUserSpaceToImageSpace;
   gfxMatrix imageSpaceToUserSpace = aUserSpaceToImageSpace;
   imageSpaceToUserSpace.Invert();
   gfxSize scale = imageSpaceToUserSpace.ScaleFactors(true);
   nsIntRect subimage = aSubimage;
   nsRefPtr<gfxASurface> surf;
   if (CanScale(aFilter, scale, aFlags) && !frame->IsSinglePixel()) {
     // If scale factor is still the same that we scaled for and
     // ScaleWorker isn't still working, then we can use pre-downscaled frame.
     // If scale factor has changed, order new request.
     // FIXME: Current implementation doesn't support pre-downscale
     // mechanism for multiple sizes from same src, since we cache
     // pre-downscaled frame only for the latest requested scale.
     // The solution is to cache more than one scaled image frame
     // for each RasterImage.
     bool needScaleReq;
     if (mScaleResult.status == SCALE_DONE && mScaleResult.scale == scale) {
       // Grab and hold the surface to make sure the OS didn't destroy it
       mScaleResult.frame->GetSurface(getter_AddRefs(surf));
       needScaleReq = !surf;
       if (surf) {
         frame = mScaleResult.frame;
         userSpaceToImageSpace.Multiply(gfxMatrix().Scale(scale.width,
                                                          scale.height));
         // Since we're switching to a scaled image, we need to transform the
         // area of the subimage to draw accordingly, since imgFrame::Draw()
         // doesn't know about scaled frames.
         subimage.ScaleRoundOut(scale.width, scale.height);
       }
     } else {
       needScaleReq = !(mScaleResult.status == SCALE_PENDING &&
                        mScaleResult.scale == scale);
     }
     // If we're not waiting for exactly this result, and there's only one
     // instance of this image on this page, ask for a scale.
     if (needScaleReq && mLockCount == 1) {
       if (NS_FAILED(frame->LockImageData())) {
         frame->UnlockImageData();
         return false;
       }
       // If we have an outstanding request, signal it to stop (if it can).
       if (mScaleRequest) {
         mScaleRequest->stopped = true;
       }
       nsRefPtr<ScaleRunner> runner = new ScaleRunner(this, scale, frame);
       if (runner->IsOK()) {
         if (!sScaleWorkerThread) {
           NS_NewNamedThread("Image Scaler", getter_AddRefs(sScaleWorkerThread));
           ClearOnShutdown(&sScaleWorkerThread);
         }
         sScaleWorkerThread->Dispatch(runner, NS_DISPATCH_NORMAL);
       }
       frame->UnlockImageData();
     }
   }
   nsIntMargin padding(framerect.y,
                       mSize.width - framerect.XMost(),
                       mSize.height - framerect.YMost(),
                       framerect.x);
   return frame->Draw(aContext, aFilter, userSpaceToImageSpace,
                      aFill, padding, subimage, aFlags);
 }
 //******************************************************************************
 /* [noscript] void draw(in gfxContext aContext,
  *                      in gfxGraphicsFilter aFilter,
  *                      [const] in gfxMatrix aUserSpaceToImageSpace,
  *                      [const] in gfxRect aFill,
  *                      [const] in nsIntRect aSubimage,
  *                      [const] in nsIntSize aViewportSize,
  *                      [const] in SVGImageContext aSVGContext,
  *                      in uint32_t aWhichFrame,
  *                      in uint32_t aFlags); */
 NS_IMETHODIMP
 RasterImage::Draw(gfxContext *aContext,
                   GraphicsFilter aFilter,
                   const gfxMatrix &aUserSpaceToImageSpace,
                   const gfxRect &aFill,
                   const nsIntRect &aSubimage,
                   const nsIntSize& /*aViewportSize - ignored*/,
                   const SVGImageContext* /*aSVGContext - ignored*/,
                   uint32_t aWhichFrame,
                   uint32_t aFlags)
 {
   if (aWhichFrame > FRAME_MAX_VALUE)
     return NS_ERROR_INVALID_ARG;
   if (mError)
     return NS_ERROR_FAILURE;
   // Disallowed in the API
   if (mInDecoder && (aFlags & imgIContainer::FLAG_SYNC_DECODE))
     return NS_ERROR_FAILURE;
   // Illegal -- you can't draw with non-default decode flags.
   // (Disabling colorspace conversion might make sense to allow, but
   // we don't currently.)
   if ((aFlags & DECODE_FLAGS_MASK) != DECODE_FLAGS_DEFAULT)
     return NS_ERROR_FAILURE;
   NS_ENSURE_ARG_POINTER(aContext);
   // We can only draw without discarding and redecoding in these cases:
   //  * We have the default decode flags.
   //  * We have exactly FLAG_DECODE_NO_PREMULTIPLY_ALPHA and the current frame
   //    is opaque.
   bool haveDefaultFlags = (mFrameDecodeFlags == DECODE_FLAGS_DEFAULT);
   bool haveSafeAlphaFlags =
     (mFrameDecodeFlags == FLAG_DECODE_NO_PREMULTIPLY_ALPHA) &&
     FrameIsOpaque(FRAME_CURRENT);
   if (!(haveDefaultFlags || haveSafeAlphaFlags)) {
     if (!CanForciblyDiscardAndRedecode())
       return NS_ERROR_NOT_AVAILABLE;
     ForceDiscard();
     mFrameDecodeFlags = DECODE_FLAGS_DEFAULT;
   }
   // If this image is a candidate for discarding, reset its position in the
   // discard tracker so we're less likely to discard it right away.
   //
   // (We don't normally draw unlocked images, so this conditition will usually
   // be false.  But we will draw unlocked images if image locking is globally
   // disabled via the image.mem.allow_locking_in_content_processes pref.)
   if (DiscardingActive()) {
     DiscardTracker::Reset(&mDiscardTrackerNode);
   }
   if (IsUnlocked() && mStatusTracker) {
     mStatusTracker->OnUnlockedDraw();
   }
   // We use !mDecoded && mHasSourceData to mean discarded.
   if (!mDecoded && mHasSourceData) {
     mDrawStartTime = TimeStamp::Now();
   }
   // If a synchronous draw is requested, flush anything that might be sitting around
   if (aFlags & FLAG_SYNC_DECODE) {
     nsresult rv = SyncDecode();
     NS_ENSURE_SUCCESS(rv, rv);
   }
   uint32_t frameIndex = aWhichFrame == FRAME_FIRST ? 0
                                                    : GetCurrentImgFrameIndex();
   imgFrame* frame = GetDrawableImgFrame(frameIndex);
   if (!frame) {
     return NS_OK; // Getting the frame (above) touches the image and kicks off decoding
   }
   bool drawn = DrawWithPreDownscaleIfNeeded(frame, aContext, aFilter,
                                             aUserSpaceToImageSpace, aFill,
                                             aSubimage, aFlags);
   if (!drawn) {
     // The OS threw out some or all of our buffer. Start decoding again.
     ForceDiscard();
     WantDecodedFrames();
     return NS_OK;
   }
   if (mDecoded && !mDrawStartTime.IsNull()) {
       TimeDuration drawLatency = TimeStamp::Now() - mDrawStartTime;
       Telemetry::Accumulate(Telemetry::IMAGE_DECODE_ON_DRAW_LATENCY, int32_t(drawLatency.ToMicroseconds()));
       // clear the value of mDrawStartTime
       mDrawStartTime = TimeStamp();
   }
   return NS_OK;
 }
 //******************************************************************************
 /* void lockImage() */
 NS_IMETHODIMP
 RasterImage::LockImage()
 {
   MOZ_ASSERT(NS_IsMainThread(),
              "Main thread to encourage serialization with UnlockImage");
   if (mError)
     return NS_ERROR_FAILURE;
   // Cancel the discard timer if it's there
   DiscardTracker::Remove(&mDiscardTrackerNode);
   // Increment the lock count
   mLockCount++;
   return NS_OK;
 }
 //******************************************************************************
 /* void unlockImage() */
 NS_IMETHODIMP
 RasterImage::UnlockImage()
 {
   MOZ_ASSERT(NS_IsMainThread(),
              "Main thread to encourage serialization with LockImage");
   if (mError)
     return NS_ERROR_FAILURE;
   // It's an error to call this function if the lock count is 0
   NS_ABORT_IF_FALSE(mLockCount > 0,
                     "Calling UnlockImage with mLockCount == 0!");
   if (mLockCount == 0)
     return NS_ERROR_ABORT;
   // We're locked, so discarding should not be active
   NS_ABORT_IF_FALSE(!DiscardingActive(), "Locked, but discarding activated");
   // Decrement our lock count
   mLockCount--;
   // If we've decoded this image once before, we're currently decoding again,
   // and our lock count is now zero (so nothing is forcing us to keep the
   // decoded data around), try to cancel the decode and throw away whatever
   // we've decoded.
   if (mHasBeenDecoded && mDecoder &&
       mLockCount == 0 && CanForciblyDiscard()) {
     PR_LOG(GetCompressedImageAccountingLog(), PR_LOG_DEBUG,
            ("RasterImage[0x%p] canceling decode because image "
             "is now unlocked.", this));
     ReentrantMonitorAutoEnter lock(mDecodingMonitor);
     FinishedSomeDecoding(eShutdownIntent_NotNeeded);
     ForceDiscard();
     return NS_OK;
   }
   // Otherwise, we might still be a candidate for discarding in the future.  If
   // we are, add ourselves to the discard tracker.
   if (CanDiscard()) {
     nsresult rv = DiscardTracker::Reset(&mDiscardTrackerNode);
     CONTAINER_ENSURE_SUCCESS(rv);
   }
   return NS_OK;
 }
 //******************************************************************************
 /* void requestDiscard() */
 NS_IMETHODIMP
 RasterImage::RequestDiscard()
 {
   if (CanDiscard() && CanForciblyDiscardAndRedecode()) {
     ForceDiscard();
   }
   return NS_OK;
 }
 // Flushes up to aMaxBytes to the decoder.
 nsresult
 RasterImage::DecodeSomeData(uint32_t aMaxBytes, DecodeStrategy aStrategy)
 {
   // We should have a decoder if we get here
   NS_ABORT_IF_FALSE(mDecoder, "trying to decode without decoder!");
   mDecodingMonitor.AssertCurrentThreadIn();
   // First, if we've just been called because we allocated a frame on the main
   // thread, let the decoder deal with the data it set aside at that time by
   // passing it a null buffer.
   if (mDecodeRequest->mAllocatedNewFrame) {
     mDecodeRequest->mAllocatedNewFrame = false;
     nsresult rv = WriteToDecoder(nullptr, 0, aStrategy);
     if (NS_FAILED(rv) || mDecoder->NeedsNewFrame()) {
       return rv;
     }
   }
   // If we have nothing else to decode, return
   if (mBytesDecoded == mSourceData.Length())
     return NS_OK;
   MOZ_ASSERT(mBytesDecoded < mSourceData.Length());
   // write the proper amount of data
   uint32_t bytesToDecode = std::min(aMaxBytes,
                                     mSourceData.Length() - mBytesDecoded);
   nsresult rv = WriteToDecoder(mSourceData.Elements() + mBytesDecoded,
                                bytesToDecode,
                                aStrategy);
   return rv;
 }
 // There are various indicators that tell us we're finished with the decode
 // task at hand and can shut down the decoder.
 //
 // This method may not be called if there is no decoder.
 bool
 RasterImage::IsDecodeFinished()
 {
   // Precondition
   mDecodingMonitor.AssertCurrentThreadIn();
   NS_ABORT_IF_FALSE(mDecoder, "Can't call IsDecodeFinished() without decoder!");
   // The decode is complete if we got what we wanted.
   if (mDecoder->IsSizeDecode()) {
     if (mDecoder->HasSize()) {
       return true;
     }
   } else if (mDecoder->GetDecodeDone()) {
     return true;
   }
   // If the decoder returned because it needed a new frame and we haven't
   // written to it since then, the decoder may be storing data that it hasn't
   // decoded yet.
   if (mDecoder->NeedsNewFrame() ||
       (mDecodeRequest && mDecodeRequest->mAllocatedNewFrame)) {
     return false;
   }
   // Otherwise, if we have all the source data and wrote all the source data,
   // we're done.
   //
   // (NB - This can be the case even for non-erroneous images because
   // Decoder::GetDecodeDone() might not return true until after we call
   // Decoder::Finish() in ShutdownDecoder())
   if (mHasSourceData && (mBytesDecoded == mSourceData.Length())) {
     return true;
   }
   // If we get here, assume it's not finished.
   return false;
 }
 // Indempotent error flagging routine. If a decoder is open, shuts it down.
 void
 RasterImage::DoError()
 {
   // If we've flagged an error before, we have nothing to do
   if (mError)
     return;
   // We can't safely handle errors off-main-thread, so dispatch a worker to do it.
   if (!NS_IsMainThread()) {
     HandleErrorWorker::DispatchIfNeeded(this);
     return;
   }
   // Calling FinishedSomeDecoding and CurrentStatusTracker requires us to be in
   // the decoding monitor.
   ReentrantMonitorAutoEnter lock(mDecodingMonitor);
   // If we're mid-decode, shut down the decoder.
   if (mDecoder) {
     FinishedSomeDecoding(eShutdownIntent_Error);
   }
   // Put the container in an error state.
   mError = true;
   nsRefPtr<imgStatusTracker> statusTracker = CurrentStatusTracker();
   statusTracker->GetDecoderObserver()->OnError();
   // Log our error
   LOG_CONTAINER_ERROR;
 }
 /* static */ void
 RasterImage::HandleErrorWorker::DispatchIfNeeded(RasterImage* aImage)
 {
   if (!aImage->mPendingError) {
     aImage->mPendingError = true;
     nsRefPtr<HandleErrorWorker> worker = new HandleErrorWorker(aImage);
     NS_DispatchToMainThread(worker);
   }
 }
 RasterImage::HandleErrorWorker::HandleErrorWorker(RasterImage* aImage)
   : mImage(aImage)
 {
   MOZ_ASSERT(mImage, "Should have image");
 }
 NS_IMETHODIMP
 RasterImage::HandleErrorWorker::Run()
 {
   mImage->DoError();
   return NS_OK;
 }
 // nsIInputStream callback to copy the incoming image data directly to the
 // RasterImage without processing. The RasterImage is passed as the closure.
 // Always reads everything it gets, even if the data is erroneous.
 NS_METHOD
 RasterImage::WriteToRasterImage(nsIInputStream* /* unused */,
                                 void*          aClosure,
                                 const char*    aFromRawSegment,
                                 uint32_t       /* unused */,
                                 uint32_t       aCount,
                                 uint32_t*      aWriteCount)
 {
   // Retrieve the RasterImage
   RasterImage* image = static_cast<RasterImage*>(aClosure);
   // Copy the source data. Unless we hit OOM, we squelch the return value
   // here, because returning an error means that ReadSegments stops
   // reading data, violating our invariant that we read everything we get.
   // If we hit OOM then we fail and the load is aborted.
   nsresult rv = image->AddSourceData(aFromRawSegment, aCount);
   if (rv == NS_ERROR_OUT_OF_MEMORY) {
     image->DoError();
     return rv;
   }
   // We wrote everything we got
   *aWriteCount = aCount;
   return NS_OK;
 }
 bool
 RasterImage::ShouldAnimate()
 {
   return ImageResource::ShouldAnimate() && GetNumFrames() >= 2 &&
          !mAnimationFinished;
 }
 /* readonly attribute uint32_t framesNotified; */
 #ifdef DEBUG
 NS_IMETHODIMP
 RasterImage::GetFramesNotified(uint32_t *aFramesNotified)
 {
   NS_ENSURE_ARG_POINTER(aFramesNotified);
   *aFramesNotified = mFramesNotified;
   return NS_OK;
 }
 #endif
 nsresult
 RasterImage::RequestDecodeIfNeeded(nsresult aStatus,
                                    eShutdownIntent aIntent,
                                    bool aDone,
                                    bool aWasSize)
 {
   MOZ_ASSERT(NS_IsMainThread());
   // If we were a size decode and a full decode was requested, now's the time.
   if (NS_SUCCEEDED(aStatus) &&
       aIntent == eShutdownIntent_Done &&
       aDone &&
       aWasSize &&
       mWantFullDecode) {
     mWantFullDecode = false;
     // If we're not meant to be storing source data and we just got the size,
     // we need to synchronously flush all the data we got to a full decoder.
     // When that decoder is shut down, we'll also clear our source data.
     return StoringSourceData() ? RequestDecode()
                                : SyncDecode();
   }
   // We don't need a full decode right now, so just return the existing status.
   return aStatus;
 }
 nsresult
 RasterImage::FinishedSomeDecoding(eShutdownIntent aIntent /* = eShutdownIntent_Done */,
                                   DecodeRequest* aRequest /* = nullptr */)
 {
   MOZ_ASSERT(NS_IsMainThread());
   mDecodingMonitor.AssertCurrentThreadIn();
   nsRefPtr<DecodeRequest> request;
   if (aRequest) {
     request = aRequest;
   } else {
     request = mDecodeRequest;
   }
   // Ensure that, if the decoder is the last reference to the image, we don't
   // destroy it by destroying the decoder.
   nsRefPtr<RasterImage> image(this);
   bool done = false;
   bool wasSize = false;
   nsresult rv = NS_OK;
   if (image->mDecoder) {
     image->mDecoder->MarkFrameDirty();
     if (request && request->mChunkCount && !image->mDecoder->IsSizeDecode()) {
       Telemetry::Accumulate(Telemetry::IMAGE_DECODE_CHUNKS, request->mChunkCount);
     }
     if (!image->mHasSize && image->mDecoder->HasSize()) {
       image->mDecoder->SetSizeOnImage();
     }
     // If the decode finished, or we're specifically being told to shut down,
     // tell the image and shut down the decoder.
     if (image->IsDecodeFinished() || aIntent != eShutdownIntent_Done) {
       done = true;
       // Hold on to a reference to the decoder until we're done with it
       nsRefPtr<Decoder> decoder = image->mDecoder;
       wasSize = decoder->IsSizeDecode();
       // Do some telemetry if this isn't a size decode.
       if (request && !wasSize) {
         Telemetry::Accumulate(Telemetry::IMAGE_DECODE_TIME,
                               int32_t(request->mDecodeTime.ToMicroseconds()));
         // We record the speed for only some decoders. The rest have
         // SpeedHistogram return HistogramCount.
         Telemetry::ID id = decoder->SpeedHistogram();
         if (id < Telemetry::HistogramCount) {
           int32_t KBps = int32_t(request->mImage->mBytesDecoded /
                                  (1024 * request->mDecodeTime.ToSeconds()));
           Telemetry::Accumulate(id, KBps);
         }
       }
       // We need to shut down the decoder first, in order to ensure all
       // decoding routines have been finished.
       rv = image->ShutdownDecoder(aIntent);
       if (NS_FAILED(rv)) {
         image->DoError();
       }
     }
   }
   ImageStatusDiff diff =
     request ? image->mStatusTracker->Difference(request->mStatusTracker)
             : image->mStatusTracker->DecodeStateAsDifference();
   image->mStatusTracker->ApplyDifference(diff);
   if (mNotifying) {
     // Accumulate the status changes. We don't permit recursive notifications
     // because they cause subtle concurrency bugs, so we'll delay sending out
     // the notifications until we pop back to the lowest invocation of
     // FinishedSomeDecoding on the stack.
     NS_WARNING("Recursively notifying in RasterImage::FinishedSomeDecoding!");
     mStatusDiff.Combine(diff);
   } else {
     MOZ_ASSERT(mStatusDiff.IsNoChange(), "Shouldn't have an accumulated change at this point");
     while (!diff.IsNoChange()) {
       // Tell the observers what happened.
       mNotifying = true;
       image->mStatusTracker->SyncNotifyDifference(diff);
       mNotifying = false;
       // Gather any status changes that may have occurred as a result of sending
       // out the previous notifications. If there were any, we'll send out
       // notifications for them next.
       diff = mStatusDiff;
       mStatusDiff = ImageStatusDiff::NoChange();
     }
   }
   return RequestDecodeIfNeeded(rv, aIntent, done, wasSize);
 }
 NS_IMPL_ISUPPORTS(RasterImage::DecodePool,
                   nsIObserver)
 /* static */ RasterImage::DecodePool*
 RasterImage::DecodePool::Singleton()
 {
   if (!sSingleton) {
     MOZ_ASSERT(NS_IsMainThread());
     sSingleton = new DecodePool();
     ClearOnShutdown(&sSingleton);
   }
   return sSingleton;
 }
 already_AddRefed<nsIEventTarget>
 RasterImage::DecodePool::GetEventTarget()
 {
   nsCOMPtr<nsIEventTarget> target = do_QueryInterface(mThreadPool);
   return target.forget();
 }
 #ifdef MOZ_NUWA_PROCESS
 class RIDThreadPoolListener : public nsIThreadPoolListener
 {
 public:
     NS_DECL_THREADSAFE_ISUPPORTS
     NS_DECL_NSITHREADPOOLLISTENER
     RIDThreadPoolListener() {}
     ~RIDThreadPoolListener() {}
 };
 NS_IMPL_ISUPPORTS(RIDThreadPoolListener, nsIThreadPoolListener)
 NS_IMETHODIMP
 RIDThreadPoolListener::OnThreadCreated()
 {
     if (IsNuwaProcess()) {
         NuwaMarkCurrentThread((void (*)(void *))nullptr, nullptr);
     }
     return NS_OK;
 }
 NS_IMETHODIMP
 RIDThreadPoolListener::OnThreadShuttingDown()
 {
     return NS_OK;
 }
 #endif // MOZ_NUWA_PROCESS
 RasterImage::DecodePool::DecodePool()
  : mThreadPoolMutex("Thread Pool")
 {
   if (gMultithreadedDecoding) {
     mThreadPool = do_CreateInstance(NS_THREADPOOL_CONTRACTID);
     if (mThreadPool) {
       mThreadPool->SetName(NS_LITERAL_CSTRING("ImageDecoder"));
       uint32_t limit;
       if (gDecodingThreadLimit <= 0) {
         limit = std::max(PR_GetNumberOfProcessors(), 2) - 1;
       } else {
         limit = static_cast<uint32_t>(gDecodingThreadLimit);
       }
       mThreadPool->SetThreadLimit(limit);
       mThreadPool->SetIdleThreadLimit(limit);
 #ifdef MOZ_NUWA_PROCESS
       if (IsNuwaProcess()) {
         mThreadPool->SetListener(new RIDThreadPoolListener());
       }
 #endif
       nsCOMPtr<nsIObserverService> obsSvc = mozilla::services::GetObserverService();
       if (obsSvc) {
         obsSvc->AddObserver(this, "xpcom-shutdown-threads", false);
       }
     }
   }
 }
 RasterImage::DecodePool::~DecodePool()
 {
   MOZ_ASSERT(NS_IsMainThread(), "Must shut down DecodePool on main thread!");
 }
 NS_IMETHODIMP
 RasterImage::DecodePool::Observe(nsISupports *subject, const char *topic,
                                  const char16_t *data)
 {
   NS_ASSERTION(strcmp(topic, "xpcom-shutdown-threads") == 0, "oops");
   nsCOMPtr<nsIThreadPool> threadPool;
   {
     MutexAutoLock threadPoolLock(mThreadPoolMutex);
     threadPool = mThreadPool;
     mThreadPool = nullptr;
   }
   if (threadPool) {
     threadPool->Shutdown();
   }
   return NS_OK;
 }
 void
 RasterImage::DecodePool::RequestDecode(RasterImage* aImg)
 {
   MOZ_ASSERT(aImg->mDecoder);
   aImg->mDecodingMonitor.AssertCurrentThreadIn();
   // If we're currently waiting on a new frame for this image, we can't do any
   // decoding.
   if (!aImg->mDecoder->NeedsNewFrame()) {
     // No matter whether this is currently being decoded, we need to update the
     // number of bytes we want it to decode.
     aImg->mDecodeRequest->mBytesToDecode = aImg->mSourceData.Length() - aImg->mBytesDecoded;
     if (aImg->mDecodeRequest->mRequestStatus == DecodeRequest::REQUEST_PENDING ||
         aImg->mDecodeRequest->mRequestStatus == DecodeRequest::REQUEST_ACTIVE) {
       // The image is already in our list of images to decode, or currently being
       // decoded, so we don't have to do anything else.
       return;
     }
     aImg->mDecodeRequest->mRequestStatus = DecodeRequest::REQUEST_PENDING;
     nsRefPtr<DecodeJob> job = new DecodeJob(aImg->mDecodeRequest, aImg);
     MutexAutoLock threadPoolLock(mThreadPoolMutex);
     if (!gMultithreadedDecoding || !mThreadPool) {
       NS_DispatchToMainThread(job);
     } else {
       mThreadPool->Dispatch(job, nsIEventTarget::DISPATCH_NORMAL);
     }
   }
 }
 void
 RasterImage::DecodePool::DecodeABitOf(RasterImage* aImg, DecodeStrategy aStrategy)
 {
   MOZ_ASSERT(NS_IsMainThread());
   aImg->mDecodingMonitor.AssertCurrentThreadIn();
   if (aImg->mDecodeRequest) {
     // If the image is waiting for decode work to be notified, go ahead and do that.
     if (aImg->mDecodeRequest->mRequestStatus == DecodeRequest::REQUEST_WORK_DONE) {
       aImg->FinishedSomeDecoding();
     }
   }
   DecodeSomeOfImage(aImg, aStrategy);
   aImg->FinishedSomeDecoding();
   // If the decoder needs a new frame, enqueue an event to get it; that event
   // will enqueue another decode request when it's done.
   if (aImg->mDecoder && aImg->mDecoder->NeedsNewFrame()) {
     FrameNeededWorker::GetNewFrame(aImg);
   } else {
     // If we aren't yet finished decoding and we have more data in hand, add
     // this request to the back of the priority list.
     if (aImg->mDecoder &&
         !aImg->mError &&
         !aImg->IsDecodeFinished() &&
         aImg->mSourceData.Length() > aImg->mBytesDecoded) {
       RequestDecode(aImg);
     }
   }
 }
 /* static */ void
 RasterImage::DecodePool::StopDecoding(RasterImage* aImg)
 {
   aImg->mDecodingMonitor.AssertCurrentThreadIn();
   // If we haven't got a decode request, we're not currently decoding. (Having
   // a decode request doesn't imply we *are* decoding, though.)
   if (aImg->mDecodeRequest) {
     aImg->mDecodeRequest->mRequestStatus = DecodeRequest::REQUEST_STOPPED;
   }
 }
 NS_IMETHODIMP
 RasterImage::DecodePool::DecodeJob::Run()
 {
   ReentrantMonitorAutoEnter lock(mImage->mDecodingMonitor);
   // If we were interrupted, we shouldn't do any work.
   if (mRequest->mRequestStatus == DecodeRequest::REQUEST_STOPPED) {
     DecodeDoneWorker::NotifyFinishedSomeDecoding(mImage, mRequest);
     return NS_OK;
   }
   // If someone came along and synchronously decoded us, there's nothing for us to do.
   if (!mImage->mDecoder || mImage->IsDecodeFinished()) {
     DecodeDoneWorker::NotifyFinishedSomeDecoding(mImage, mRequest);
     return NS_OK;
   }
   // If we're a decode job that's been enqueued since a previous decode that
   // still needs a new frame, we can't do anything. Wait until the
   // FrameNeededWorker enqueues another frame.
   if (mImage->mDecoder->NeedsNewFrame()) {
     return NS_OK;
   }
   mRequest->mRequestStatus = DecodeRequest::REQUEST_ACTIVE;
   uint32_t oldByteCount = mImage->mBytesDecoded;
   DecodeType type = DECODE_TYPE_UNTIL_DONE_BYTES;
   // Multithreaded decoding can be disabled. If we've done so, we don't want to
   // monopolize the main thread, and will allow a timeout in DecodeSomeOfImage.
   if (NS_IsMainThread()) {
     type = DECODE_TYPE_UNTIL_TIME;
   }
   DecodePool::Singleton()->DecodeSomeOfImage(mImage, DECODE_ASYNC, type, mRequest->mBytesToDecode);
   uint32_t bytesDecoded = mImage->mBytesDecoded - oldByteCount;
   mRequest->mRequestStatus = DecodeRequest::REQUEST_WORK_DONE;
   // If the decoder needs a new frame, enqueue an event to get it; that event
   // will enqueue another decode request when it's done.
   if (mImage->mDecoder && mImage->mDecoder->NeedsNewFrame()) {
     FrameNeededWorker::GetNewFrame(mImage);
   }
   // If we aren't yet finished decoding and we have more data in hand, add
   // this request to the back of the list.
   else if (mImage->mDecoder &&
            !mImage->mError &&
            !mImage->mPendingError &&
            !mImage->IsDecodeFinished() &&
            bytesDecoded < mRequest->mBytesToDecode &&
            bytesDecoded > 0) {
     DecodePool::Singleton()->RequestDecode(mImage);
   } else {
     // Nothing more for us to do - let everyone know what happened.
     DecodeDoneWorker::NotifyFinishedSomeDecoding(mImage, mRequest);
   }
   return NS_OK;
 }
 RasterImage::DecodePool::DecodeJob::~DecodeJob()
 {
   if (gMultithreadedDecoding) {
     // Dispatch mImage to main thread to prevent mImage from being destructed by decode thread.
     nsCOMPtr<nsIThread> mainThread = do_GetMainThread();
     NS_WARN_IF_FALSE(mainThread, "Couldn't get the main thread!");
     if (mainThread) {
       // Handle ambiguous nsISupports inheritance
       RasterImage* rawImg = nullptr;
       mImage.swap(rawImg);
       DebugOnly<nsresult> rv = NS_ProxyRelease(mainThread, NS_ISUPPORTS_CAST(ImageResource*, rawImg));
       MOZ_ASSERT(NS_SUCCEEDED(rv), "Failed to proxy release to main thread");
     }
   }
 }
 nsresult
 RasterImage::DecodePool::DecodeUntilSizeAvailable(RasterImage* aImg)
 {
   MOZ_ASSERT(NS_IsMainThread());
   ReentrantMonitorAutoEnter lock(aImg->mDecodingMonitor);
   if (aImg->mDecodeRequest) {
     // If the image is waiting for decode work to be notified, go ahead and do that.
     if (aImg->mDecodeRequest->mRequestStatus == DecodeRequest::REQUEST_WORK_DONE) {
       nsresult rv = aImg->FinishedSomeDecoding();
       if (NS_FAILED(rv)) {
         aImg->DoError();
         return rv;
       }
     }
   }
   // We use DECODE_ASYNC here because we just want to get the size information
   // here and defer the rest of the work.
   nsresult rv = DecodeSomeOfImage(aImg, DECODE_ASYNC, DECODE_TYPE_UNTIL_SIZE);
   if (NS_FAILED(rv)) {
     return rv;
   }
   // If the decoder needs a new frame, enqueue an event to get it; that event
   // will enqueue another decode request when it's done.
   if (aImg->mDecoder && aImg->mDecoder->NeedsNewFrame()) {
     FrameNeededWorker::GetNewFrame(aImg);
   } else {
     rv = aImg->FinishedSomeDecoding();
   }
   return rv;
 }
 nsresult
 RasterImage::DecodePool::DecodeSomeOfImage(RasterImage* aImg,
                                            DecodeStrategy aStrategy,
                                            DecodeType aDecodeType /* = DECODE_TYPE_UNTIL_TIME */,
                                            uint32_t bytesToDecode /* = 0 */)
 {
   NS_ABORT_IF_FALSE(aImg->mInitialized,
                     "Worker active for uninitialized container!");
   aImg->mDecodingMonitor.AssertCurrentThreadIn();
   // If an error is flagged, it probably happened while we were waiting
   // in the event queue.
   if (aImg->mError)
     return NS_OK;
   // If there is an error worker pending (say because the main thread has enqueued
   // another decode request for us before processing the error worker) then bail out.
   if (aImg->mPendingError)
     return NS_OK;
   // If mDecoded or we don't have a decoder, we must have finished already (for
   // example, a synchronous decode request came while the worker was pending).
   if (!aImg->mDecoder || aImg->mDecoded)
     return NS_OK;
   // If we're doing synchronous decodes, and we're waiting on a new frame for
   // this image, get it now.
   if (aStrategy == DECODE_SYNC && aImg->mDecoder->NeedsNewFrame()) {
     MOZ_ASSERT(NS_IsMainThread());
     aImg->mDecoder->AllocateFrame();
     aImg->mDecodeRequest->mAllocatedNewFrame = true;
   }
   // If we're not synchronous, we can't allocate a frame right now.
   else if (aImg->mDecoder->NeedsNewFrame()) {
     return NS_OK;
   }
   nsRefPtr<Decoder> decoderKungFuDeathGrip = aImg->mDecoder;
   uint32_t maxBytes;
   if (aImg->mDecoder->IsSizeDecode()) {
     // Decode all available data if we're a size decode; they're cheap, and we
     // want them to be more or less synchronous.
     maxBytes = aImg->mSourceData.Length();
   } else {
     // We're only guaranteed to decode this many bytes, so in particular,
     // gDecodeBytesAtATime should be set high enough for us to read the size
     // from most images.
     maxBytes = gDecodeBytesAtATime;
   }
   if (bytesToDecode == 0) {
     bytesToDecode = aImg->mSourceData.Length() - aImg->mBytesDecoded;
   }
   int32_t chunkCount = 0;
   TimeStamp start = TimeStamp::Now();
   TimeStamp deadline = start + TimeDuration::FromMilliseconds(gMaxMSBeforeYield);
   // We keep decoding chunks until:
   //  * we don't have any data left to decode,
   //  * the decode completes,
   //  * we're an UNTIL_SIZE decode and we get the size, or
   //  * we run out of time.
   // We also try to decode at least one "chunk" if we've allocated a new frame,
   // even if we have no more data to send to the decoder.
   while ((aImg->mSourceData.Length() > aImg->mBytesDecoded &&
           bytesToDecode > 0 &&
           !aImg->IsDecodeFinished() &&
           !(aDecodeType == DECODE_TYPE_UNTIL_SIZE && aImg->mHasSize) &&
           !aImg->mDecoder->NeedsNewFrame()) ||
          (aImg->mDecodeRequest && aImg->mDecodeRequest->mAllocatedNewFrame)) {
     chunkCount++;
     uint32_t chunkSize = std::min(bytesToDecode, maxBytes);
     nsresult rv = aImg->DecodeSomeData(chunkSize, aStrategy);
     if (NS_FAILED(rv)) {
       aImg->DoError();
       return rv;
     }
     bytesToDecode -= chunkSize;
     // Yield if we've been decoding for too long. We check this _after_ decoding
     // a chunk to ensure that we don't yield without doing any decoding.
     if (aDecodeType == DECODE_TYPE_UNTIL_TIME && TimeStamp::Now() >= deadline)
       break;
   }
   if (aImg->mDecodeRequest) {
     aImg->mDecodeRequest->mDecodeTime += (TimeStamp::Now() - start);
     aImg->mDecodeRequest->mChunkCount += chunkCount;
   }
   // Flush invalidations (and therefore paint) now that we've decoded all the
   // chunks we're going to.
   //
   // However, don't paint if:
   //
   //  * This was an until-size decode.  Until-size decodes are always followed
   //    by normal decodes, so don't bother painting.
   //
   //  * The decoder flagged an error.  The decoder may have written garbage
   //    into the output buffer; don't paint it to the screen.
   //
   //  * We have all the source data.  This disables progressive display of
   //    previously-decoded images, thus letting us finish decoding faster,
   //    since we don't waste time painting while we decode.
   //    Decoder::PostFrameStop() will flush invalidations once the decode is
   //    done.
   if (aDecodeType != DECODE_TYPE_UNTIL_SIZE &&
       !aImg->mDecoder->HasError() &&
       !aImg->mHasSourceData) {
     aImg->mInDecoder = true;
     aImg->mDecoder->FlushInvalidations();
     aImg->mInDecoder = false;
   }
   return NS_OK;
 }
 RasterImage::DecodeDoneWorker::DecodeDoneWorker(RasterImage* image, DecodeRequest* request)
  : mImage(image)
  , mRequest(request)
 {}
 void
 RasterImage::DecodeDoneWorker::NotifyFinishedSomeDecoding(RasterImage* image, DecodeRequest* request)
 {
   image->mDecodingMonitor.AssertCurrentThreadIn();
   nsCOMPtr<nsIRunnable> worker = new DecodeDoneWorker(image, request);
   NS_DispatchToMainThread(worker);
 }
 NS_IMETHODIMP
 RasterImage::DecodeDoneWorker::Run()
 {
   MOZ_ASSERT(NS_IsMainThread());
   ReentrantMonitorAutoEnter lock(mImage->mDecodingMonitor);
   mImage->FinishedSomeDecoding(eShutdownIntent_Done, mRequest);
   return NS_OK;
 }
 RasterImage::FrameNeededWorker::FrameNeededWorker(RasterImage* image)
  : mImage(image)
 {}
 void
 RasterImage::FrameNeededWorker::GetNewFrame(RasterImage* image)
 {
   nsCOMPtr<nsIRunnable> worker = new FrameNeededWorker(image);
   NS_DispatchToMainThread(worker);
 }
 NS_IMETHODIMP
 RasterImage::FrameNeededWorker::Run()
 {
   ReentrantMonitorAutoEnter lock(mImage->mDecodingMonitor);
   nsresult rv = NS_OK;
   // If we got a synchronous decode in the mean time, we don't need to do
   // anything.
   if (mImage->mDecoder && mImage->mDecoder->NeedsNewFrame()) {
     rv = mImage->mDecoder->AllocateFrame();
     mImage->mDecodeRequest->mAllocatedNewFrame = true;
   }
   if (NS_SUCCEEDED(rv) && mImage->mDecoder) {
     // By definition, we're not done decoding, so enqueue us for more decoding.
     DecodePool::Singleton()->RequestDecode(mImage);
   }
   return NS_OK;
 }
 } // namespace image
 } // namespace mozilla

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image/src/RasterImage.cpp@6474c204b198 (annotated)

image/src/RasterImage.cpp