third_party/WebKit/Source/platform/image-decoders/webp/WEBPImageDecoderTest.cpp

/*
 * Copyright (C) 2013 Google Inc. All rights reserved.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions are
 * met:
 *
 *     * Redistributions of source code must retain the above copyright
 * notice, this list of conditions and the following disclaimer.
 *     * Redistributions in binary form must reproduce the above
 * copyright notice, this list of conditions and the following disclaimer
 * in the documentation and/or other materials provided with the
 * distribution.
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 * contributors may be used to endorse or promote products derived from
 * this software without specific prior written permission.
 *
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
 * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
 * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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 * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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 * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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#include "platform/image-decoders/webp/WEBPImageDecoder.h"

#include "platform/RuntimeEnabledFeatures.h"
#include "platform/SharedBuffer.h"
#include "platform/image-decoders/ImageDecoderTestHelpers.h"
#include "public/platform/WebData.h"
#include "public/platform/WebSize.h"
#include "testing/gtest/include/gtest/gtest.h"
#include "wtf/PtrUtil.h"
#include "wtf/Vector.h"
#include "wtf/dtoa/utils.h"
#include <memory>

namespace blink {

namespace {

std::unique_ptr<ImageDecoder> createDecoder(
    ImageDecoder::AlphaOption alphaOption) {
  return wrapUnique(
      new WEBPImageDecoder(alphaOption, ImageDecoder::ColorSpaceApplied,
                           ImageDecoder::noDecodedImageByteLimit));
}

std::unique_ptr<ImageDecoder> createDecoder() {
  return createDecoder(ImageDecoder::AlphaNotPremultiplied);
}

// If 'parseErrorExpected' is true, error is expected during parse (frameCount()
// call); else error is expected during decode (frameBufferAtIndex() call).
void testInvalidImage(const char* webpFile, bool parseErrorExpected) {
  std::unique_ptr<ImageDecoder> decoder = createDecoder();

  RefPtr<SharedBuffer> data = readFile(webpFile);
  ASSERT_TRUE(data.get());
  decoder->setData(data.get(), true);

  if (parseErrorExpected) {
    EXPECT_EQ(0u, decoder->frameCount());
    EXPECT_FALSE(decoder->frameBufferAtIndex(0));
  } else {
    EXPECT_GT(decoder->frameCount(), 0u);
    ImageFrame* frame = decoder->frameBufferAtIndex(0);
    ASSERT_TRUE(frame);
    EXPECT_EQ(ImageFrame::FramePartial, frame->getStatus());
  }
  EXPECT_EQ(cAnimationLoopOnce, decoder->repetitionCount());
  EXPECT_TRUE(decoder->failed());
}

uint32_t premultiplyColor(uint32_t c) {
  return SkPremultiplyARGBInline(SkGetPackedA32(c), SkGetPackedR32(c),
                                 SkGetPackedG32(c), SkGetPackedB32(c));
}

void verifyFramesMatch(const char* webpFile,
                       const ImageFrame* const a,
                       ImageFrame* const b) {
  const SkBitmap& bitmapA = a->bitmap();
  const SkBitmap& bitmapB = b->bitmap();
  ASSERT_EQ(bitmapA.width(), bitmapB.width());
  ASSERT_EQ(bitmapA.height(), bitmapB.height());

  int maxDifference = 0;
  for (int y = 0; y < bitmapA.height(); ++y) {
    for (int x = 0; x < bitmapA.width(); ++x) {
      uint32_t colorA = *bitmapA.getAddr32(x, y);
      if (!a->premultiplyAlpha())
        colorA = premultiplyColor(colorA);
      uint32_t colorB = *bitmapB.getAddr32(x, y);
      if (!b->premultiplyAlpha())
        colorB = premultiplyColor(colorB);
      uint8_t* pixelA = reinterpret_cast<uint8_t*>(&colorA);
      uint8_t* pixelB = reinterpret_cast<uint8_t*>(&colorB);
      for (int channel = 0; channel < 4; ++channel) {
        const int difference = abs(pixelA[channel] - pixelB[channel]);
        if (difference > maxDifference)
          maxDifference = difference;
      }
    }
  }

  // Pre-multiplication could round the RGBA channel values. So, we declare
  // that the frames match if the RGBA channel values differ by at most 2.
  EXPECT_GE(2, maxDifference) << webpFile;
}

// Verifies that result of alpha blending is similar for AlphaPremultiplied and
// AlphaNotPremultiplied cases.
void testAlphaBlending(const char* webpFile) {
  RefPtr<SharedBuffer> data = readFile(webpFile);
  ASSERT_TRUE(data.get());

  std::unique_ptr<ImageDecoder> decoderA =
      createDecoder(ImageDecoder::AlphaPremultiplied);
  decoderA->setData(data.get(), true);

  std::unique_ptr<ImageDecoder> decoderB =
      createDecoder(ImageDecoder::AlphaNotPremultiplied);
  decoderB->setData(data.get(), true);

  size_t frameCount = decoderA->frameCount();
  ASSERT_EQ(frameCount, decoderB->frameCount());

  for (size_t i = 0; i < frameCount; ++i)
    verifyFramesMatch(webpFile, decoderA->frameBufferAtIndex(i),
                      decoderB->frameBufferAtIndex(i));
}

}  // anonymous namespace

TEST(AnimatedWebPTests, uniqueGenerationIDs) {
  std::unique_ptr<ImageDecoder> decoder = createDecoder();

  RefPtr<SharedBuffer> data =
      readFile("/LayoutTests/fast/images/resources/webp-animated.webp");
  ASSERT_TRUE(data.get());
  decoder->setData(data.get(), true);

  ImageFrame* frame = decoder->frameBufferAtIndex(0);
  uint32_t generationID0 = frame->bitmap().getGenerationID();
  frame = decoder->frameBufferAtIndex(1);
  uint32_t generationID1 = frame->bitmap().getGenerationID();

  EXPECT_TRUE(generationID0 != generationID1);
}

TEST(AnimatedWebPTests, verifyAnimationParametersTransparentImage) {
  std::unique_ptr<ImageDecoder> decoder = createDecoder();
  EXPECT_EQ(cAnimationLoopOnce, decoder->repetitionCount());

  RefPtr<SharedBuffer> data =
      readFile("/LayoutTests/fast/images/resources/webp-animated.webp");
  ASSERT_TRUE(data.get());
  decoder->setData(data.get(), true);

  const int canvasWidth = 11;
  const int canvasHeight = 29;
  const struct AnimParam {
    int xOffset, yOffset, width, height;
    ImageFrame::DisposalMethod disposalMethod;
    ImageFrame::AlphaBlendSource alphaBlendSource;
    unsigned duration;
    bool hasAlpha;
  } frameParameters[] = {
      {0, 0, 11, 29, ImageFrame::DisposeKeep,
       ImageFrame::BlendAtopPreviousFrame, 1000u, true},
      {2, 10, 7, 17, ImageFrame::DisposeKeep,
       ImageFrame::BlendAtopPreviousFrame, 500u, true},
      {2, 2, 7, 16, ImageFrame::DisposeKeep, ImageFrame::BlendAtopPreviousFrame,
       1000u, true},
  };

  for (size_t i = 0; i < WTF_ARRAY_LENGTH(frameParameters); ++i) {
    const ImageFrame* const frame = decoder->frameBufferAtIndex(i);
    EXPECT_EQ(ImageFrame::FrameComplete, frame->getStatus());
    EXPECT_EQ(canvasWidth, frame->bitmap().width());
    EXPECT_EQ(canvasHeight, frame->bitmap().height());
    EXPECT_EQ(frameParameters[i].xOffset, frame->originalFrameRect().x());
    EXPECT_EQ(frameParameters[i].yOffset, frame->originalFrameRect().y());
    EXPECT_EQ(frameParameters[i].width, frame->originalFrameRect().width());
    EXPECT_EQ(frameParameters[i].height, frame->originalFrameRect().height());
    EXPECT_EQ(frameParameters[i].disposalMethod, frame->getDisposalMethod());
    EXPECT_EQ(frameParameters[i].alphaBlendSource,
              frame->getAlphaBlendSource());
    EXPECT_EQ(frameParameters[i].duration, frame->duration());
    EXPECT_EQ(frameParameters[i].hasAlpha, frame->hasAlpha());
  }

  EXPECT_EQ(WTF_ARRAY_LENGTH(frameParameters), decoder->frameCount());
  EXPECT_EQ(cAnimationLoopInfinite, decoder->repetitionCount());
}

TEST(AnimatedWebPTests,
     verifyAnimationParametersOpaqueFramesTransparentBackground) {
  std::unique_ptr<ImageDecoder> decoder = createDecoder();
  EXPECT_EQ(cAnimationLoopOnce, decoder->repetitionCount());

  RefPtr<SharedBuffer> data =
      readFile("/LayoutTests/fast/images/resources/webp-animated-opaque.webp");
  ASSERT_TRUE(data.get());
  decoder->setData(data.get(), true);

  const int canvasWidth = 94;
  const int canvasHeight = 87;
  const struct AnimParam {
    int xOffset, yOffset, width, height;
    ImageFrame::DisposalMethod disposalMethod;
    ImageFrame::AlphaBlendSource alphaBlendSource;
    unsigned duration;
    bool hasAlpha;
  } frameParameters[] = {
      {4, 10, 33, 32, ImageFrame::DisposeOverwriteBgcolor,
       ImageFrame::BlendAtopPreviousFrame, 1000u, true},
      {34, 30, 33, 32, ImageFrame::DisposeOverwriteBgcolor,
       ImageFrame::BlendAtopPreviousFrame, 1000u, true},
      {62, 50, 32, 32, ImageFrame::DisposeOverwriteBgcolor,
       ImageFrame::BlendAtopPreviousFrame, 1000u, true},
      {10, 54, 32, 33, ImageFrame::DisposeOverwriteBgcolor,
       ImageFrame::BlendAtopPreviousFrame, 1000u, true},
  };

  for (size_t i = 0; i < WTF_ARRAY_LENGTH(frameParameters); ++i) {
    const ImageFrame* const frame = decoder->frameBufferAtIndex(i);
    EXPECT_EQ(ImageFrame::FrameComplete, frame->getStatus());
    EXPECT_EQ(canvasWidth, frame->bitmap().width());
    EXPECT_EQ(canvasHeight, frame->bitmap().height());
    EXPECT_EQ(frameParameters[i].xOffset, frame->originalFrameRect().x());
    EXPECT_EQ(frameParameters[i].yOffset, frame->originalFrameRect().y());
    EXPECT_EQ(frameParameters[i].width, frame->originalFrameRect().width());
    EXPECT_EQ(frameParameters[i].height, frame->originalFrameRect().height());
    EXPECT_EQ(frameParameters[i].disposalMethod, frame->getDisposalMethod());
    EXPECT_EQ(frameParameters[i].alphaBlendSource,
              frame->getAlphaBlendSource());
    EXPECT_EQ(frameParameters[i].duration, frame->duration());
    EXPECT_EQ(frameParameters[i].hasAlpha, frame->hasAlpha());
  }

  EXPECT_EQ(WTF_ARRAY_LENGTH(frameParameters), decoder->frameCount());
  EXPECT_EQ(cAnimationLoopInfinite, decoder->repetitionCount());
}

TEST(AnimatedWebPTests, verifyAnimationParametersBlendOverwrite) {
  std::unique_ptr<ImageDecoder> decoder = createDecoder();
  EXPECT_EQ(cAnimationLoopOnce, decoder->repetitionCount());

  RefPtr<SharedBuffer> data = readFile(
      "/LayoutTests/fast/images/resources/webp-animated-no-blend.webp");
  ASSERT_TRUE(data.get());
  decoder->setData(data.get(), true);

  const int canvasWidth = 94;
  const int canvasHeight = 87;
  const struct AnimParam {
    int xOffset, yOffset, width, height;
    ImageFrame::DisposalMethod disposalMethod;
    ImageFrame::AlphaBlendSource alphaBlendSource;
    unsigned duration;
    bool hasAlpha;
  } frameParameters[] = {
      {4, 10, 33, 32, ImageFrame::DisposeOverwriteBgcolor,
       ImageFrame::BlendAtopBgcolor, 1000u, true},
      {34, 30, 33, 32, ImageFrame::DisposeOverwriteBgcolor,
       ImageFrame::BlendAtopBgcolor, 1000u, true},
      {62, 50, 32, 32, ImageFrame::DisposeOverwriteBgcolor,
       ImageFrame::BlendAtopBgcolor, 1000u, true},
      {10, 54, 32, 33, ImageFrame::DisposeOverwriteBgcolor,
       ImageFrame::BlendAtopBgcolor, 1000u, true},
  };

  for (size_t i = 0; i < WTF_ARRAY_LENGTH(frameParameters); ++i) {
    const ImageFrame* const frame = decoder->frameBufferAtIndex(i);
    EXPECT_EQ(ImageFrame::FrameComplete, frame->getStatus());
    EXPECT_EQ(canvasWidth, frame->bitmap().width());
    EXPECT_EQ(canvasHeight, frame->bitmap().height());
    EXPECT_EQ(frameParameters[i].xOffset, frame->originalFrameRect().x());
    EXPECT_EQ(frameParameters[i].yOffset, frame->originalFrameRect().y());
    EXPECT_EQ(frameParameters[i].width, frame->originalFrameRect().width());
    EXPECT_EQ(frameParameters[i].height, frame->originalFrameRect().height());
    EXPECT_EQ(frameParameters[i].disposalMethod, frame->getDisposalMethod());
    EXPECT_EQ(frameParameters[i].alphaBlendSource,
              frame->getAlphaBlendSource());
    EXPECT_EQ(frameParameters[i].duration, frame->duration());
    EXPECT_EQ(frameParameters[i].hasAlpha, frame->hasAlpha());
  }

  EXPECT_EQ(WTF_ARRAY_LENGTH(frameParameters), decoder->frameCount());
  EXPECT_EQ(cAnimationLoopInfinite, decoder->repetitionCount());
}

TEST(AnimatedWebPTests, parseAndDecodeByteByByte) {
  testByteByByteDecode(&createDecoder,
                       "/LayoutTests/fast/images/resources/webp-animated.webp",
                       3u, cAnimationLoopInfinite);
  testByteByByteDecode(
      &createDecoder,
      "/LayoutTests/fast/images/resources/webp-animated-icc-xmp.webp", 13u,
      32000);
}

TEST(AnimatedWebPTests, invalidImages) {
  // ANMF chunk size is smaller than ANMF header size.
  testInvalidImage(
      "/LayoutTests/fast/images/resources/invalid-animated-webp.webp", true);
  // One of the frame rectangles extends outside the image boundary.
  testInvalidImage(
      "/LayoutTests/fast/images/resources/invalid-animated-webp3.webp", true);
}

TEST(AnimatedWebPTests, truncatedLastFrame) {
  std::unique_ptr<ImageDecoder> decoder = createDecoder();

  RefPtr<SharedBuffer> data = readFile(
      "/LayoutTests/fast/images/resources/invalid-animated-webp2.webp");
  ASSERT_TRUE(data.get());
  decoder->setData(data.get(), true);

  size_t frameCount = 8;
  EXPECT_EQ(frameCount, decoder->frameCount());
  ImageFrame* frame = decoder->frameBufferAtIndex(0);
  ASSERT_TRUE(frame);
  EXPECT_EQ(ImageFrame::FrameComplete, frame->getStatus());
  EXPECT_FALSE(decoder->failed());
  frame = decoder->frameBufferAtIndex(frameCount - 1);
  ASSERT_TRUE(frame);
  EXPECT_EQ(ImageFrame::FramePartial, frame->getStatus());
  EXPECT_TRUE(decoder->failed());
  frame = decoder->frameBufferAtIndex(0);
  ASSERT_TRUE(frame);
  EXPECT_EQ(ImageFrame::FrameComplete, frame->getStatus());
}

TEST(AnimatedWebPTests, truncatedInBetweenFrame) {
  std::unique_ptr<ImageDecoder> decoder = createDecoder();

  RefPtr<SharedBuffer> fullData = readFile(
      "/LayoutTests/fast/images/resources/invalid-animated-webp4.webp");
  ASSERT_TRUE(fullData.get());
  RefPtr<SharedBuffer> data =
      SharedBuffer::create(fullData->data(), fullData->size() - 1);
  decoder->setData(data.get(), false);

  ImageFrame* frame = decoder->frameBufferAtIndex(1);
  ASSERT_TRUE(frame);
  EXPECT_EQ(ImageFrame::FrameComplete, frame->getStatus());
  frame = decoder->frameBufferAtIndex(2);
  ASSERT_TRUE(frame);
  EXPECT_EQ(ImageFrame::FramePartial, frame->getStatus());
  EXPECT_TRUE(decoder->failed());
}

// Tests for a crash that used to happen for a specific file with specific
// sequence of method calls.
TEST(AnimatedWebPTests, reproCrash) {
  std::unique_ptr<ImageDecoder> decoder = createDecoder();

  RefPtr<SharedBuffer> fullData =
      readFile("/LayoutTests/fast/images/resources/invalid_vp8_vp8x.webp");
  ASSERT_TRUE(fullData.get());

  // Parse partial data up to which error in bitstream is not detected.
  const size_t partialSize = 32768;
  ASSERT_GT(fullData->size(), partialSize);
  RefPtr<SharedBuffer> data =
      SharedBuffer::create(fullData->data(), partialSize);
  decoder->setData(data.get(), false);
  EXPECT_EQ(1u, decoder->frameCount());
  ImageFrame* frame = decoder->frameBufferAtIndex(0);
  ASSERT_TRUE(frame);
  EXPECT_EQ(ImageFrame::FramePartial, frame->getStatus());
  EXPECT_FALSE(decoder->failed());

  // Parse full data now. The error in bitstream should now be detected.
  decoder->setData(fullData.get(), true);
  EXPECT_EQ(1u, decoder->frameCount());
  frame = decoder->frameBufferAtIndex(0);
  ASSERT_TRUE(frame);
  EXPECT_EQ(ImageFrame::FramePartial, frame->getStatus());
  EXPECT_EQ(cAnimationLoopOnce, decoder->repetitionCount());
  EXPECT_TRUE(decoder->failed());
}

TEST(AnimatedWebPTests, progressiveDecode) {
  testProgressiveDecoding(
      &createDecoder, "/LayoutTests/fast/images/resources/webp-animated.webp");
}

TEST(AnimatedWebPTests, frameIsCompleteAndDuration) {
  std::unique_ptr<ImageDecoder> decoder = createDecoder();

  RefPtr<SharedBuffer> data =
      readFile("/LayoutTests/fast/images/resources/webp-animated.webp");
  ASSERT_TRUE(data.get());

  ASSERT_GE(data->size(), 10u);
  RefPtr<SharedBuffer> tempData =
      SharedBuffer::create(data->data(), data->size() - 10);
  decoder->setData(tempData.get(), false);

  EXPECT_EQ(2u, decoder->frameCount());
  EXPECT_FALSE(decoder->failed());
  EXPECT_TRUE(decoder->frameIsCompleteAtIndex(0));
  EXPECT_EQ(1000, decoder->frameDurationAtIndex(0));
  EXPECT_TRUE(decoder->frameIsCompleteAtIndex(1));
  EXPECT_EQ(500, decoder->frameDurationAtIndex(1));

  decoder->setData(data.get(), true);
  EXPECT_EQ(3u, decoder->frameCount());
  EXPECT_TRUE(decoder->frameIsCompleteAtIndex(0));
  EXPECT_EQ(1000, decoder->frameDurationAtIndex(0));
  EXPECT_TRUE(decoder->frameIsCompleteAtIndex(1));
  EXPECT_EQ(500, decoder->frameDurationAtIndex(1));
  EXPECT_TRUE(decoder->frameIsCompleteAtIndex(2));
  EXPECT_EQ(1000.0, decoder->frameDurationAtIndex(2));
}

TEST(AnimatedWebPTests, updateRequiredPreviousFrameAfterFirstDecode) {
  std::unique_ptr<ImageDecoder> decoder = createDecoder();

  RefPtr<SharedBuffer> fullData =
      readFile("/LayoutTests/fast/images/resources/webp-animated.webp");
  ASSERT_TRUE(fullData.get());

  // Check the status of requiredPreviousFrameIndex before decoding, by
  // supplying data sufficient to parse but not decode.
  size_t partialSize = 1;
  do {
    RefPtr<SharedBuffer> data =
        SharedBuffer::create(fullData->data(), partialSize);
    decoder->setData(data.get(), false);
    ++partialSize;
  } while (!decoder->frameCount() ||
           decoder->frameBufferAtIndex(0)->getStatus() ==
               ImageFrame::FrameEmpty);

  EXPECT_EQ(kNotFound,
            decoder->frameBufferAtIndex(0)->requiredPreviousFrameIndex());
  size_t frameCount = decoder->frameCount();
  for (size_t i = 1; i < frameCount; ++i)
    EXPECT_EQ(i - 1,
              decoder->frameBufferAtIndex(i)->requiredPreviousFrameIndex());

  decoder->setData(fullData.get(), true);
  for (size_t i = 0; i < frameCount; ++i)
    EXPECT_EQ(kNotFound,
              decoder->frameBufferAtIndex(i)->requiredPreviousFrameIndex());
}

TEST(AnimatedWebPTests, randomFrameDecode) {
  testRandomFrameDecode(
      &createDecoder, "/LayoutTests/fast/images/resources/webp-animated.webp");
  testRandomFrameDecode(
      &createDecoder,
      "/LayoutTests/fast/images/resources/webp-animated-opaque.webp");
  testRandomFrameDecode(
      &createDecoder,
      "/LayoutTests/fast/images/resources/webp-animated-large.webp");
  testRandomFrameDecode(
      &createDecoder,
      "/LayoutTests/fast/images/resources/webp-animated-icc-xmp.webp");
}

TEST(AnimatedWebPTests, randomDecodeAfterClearFrameBufferCache) {
  testRandomDecodeAfterClearFrameBufferCache(
      &createDecoder, "/LayoutTests/fast/images/resources/webp-animated.webp");
  testRandomDecodeAfterClearFrameBufferCache(
      &createDecoder,
      "/LayoutTests/fast/images/resources/webp-animated-opaque.webp");
  testRandomDecodeAfterClearFrameBufferCache(
      &createDecoder,
      "/LayoutTests/fast/images/resources/webp-animated-large.webp");
  testRandomDecodeAfterClearFrameBufferCache(
      &createDecoder,
      "/LayoutTests/fast/images/resources/webp-animated-icc-xmp.webp");
}

TEST(AnimatedWebPTests,
     DISABLED_resumePartialDecodeAfterClearFrameBufferCache) {
  RefPtr<SharedBuffer> fullData =
      readFile("/LayoutTests/fast/images/resources/webp-animated-large.webp");
  ASSERT_TRUE(fullData.get());
  Vector<unsigned> baselineHashes;
  createDecodingBaseline(&createDecoder, fullData.get(), &baselineHashes);
  size_t frameCount = baselineHashes.size();

  std::unique_ptr<ImageDecoder> decoder = createDecoder();

  // Let frame 0 be partially decoded.
  size_t partialSize = 1;
  do {
    RefPtr<SharedBuffer> data =
        SharedBuffer::create(fullData->data(), partialSize);
    decoder->setData(data.get(), false);
    ++partialSize;
  } while (!decoder->frameCount() ||
           decoder->frameBufferAtIndex(0)->getStatus() ==
               ImageFrame::FrameEmpty);

  // Skip to the last frame and clear.
  decoder->setData(fullData.get(), true);
  EXPECT_EQ(frameCount, decoder->frameCount());
  ImageFrame* lastFrame = decoder->frameBufferAtIndex(frameCount - 1);
  EXPECT_EQ(baselineHashes[frameCount - 1], hashBitmap(lastFrame->bitmap()));
  decoder->clearCacheExceptFrame(kNotFound);

  // Resume decoding of the first frame.
  ImageFrame* firstFrame = decoder->frameBufferAtIndex(0);
  EXPECT_EQ(ImageFrame::FrameComplete, firstFrame->getStatus());
  EXPECT_EQ(baselineHashes[0], hashBitmap(firstFrame->bitmap()));
}

TEST(AnimatedWebPTests, decodeAfterReallocatingData) {
  testDecodeAfterReallocatingData(
      &createDecoder, "/LayoutTests/fast/images/resources/webp-animated.webp");
  testDecodeAfterReallocatingData(
      &createDecoder,
      "/LayoutTests/fast/images/resources/webp-animated-icc-xmp.webp");
}

TEST(AnimatedWebPTests, alphaBlending) {
  testAlphaBlending("/LayoutTests/fast/images/resources/webp-animated.webp");
  testAlphaBlending(
      "/LayoutTests/fast/images/resources/webp-animated-semitransparent1.webp");
  testAlphaBlending(
      "/LayoutTests/fast/images/resources/webp-animated-semitransparent2.webp");
  testAlphaBlending(
      "/LayoutTests/fast/images/resources/webp-animated-semitransparent3.webp");
  testAlphaBlending(
      "/LayoutTests/fast/images/resources/webp-animated-semitransparent4.webp");
}

TEST(AnimatedWebPTests, isSizeAvailable) {
  testByteByByteSizeAvailable(
      &createDecoder, "/LayoutTests/fast/images/resources/webp-animated.webp",
      142u, false, cAnimationLoopInfinite);
  // FIXME: Add color profile support for animated webp images.
  testByteByByteSizeAvailable(
      &createDecoder,
      "/LayoutTests/fast/images/resources/webp-animated-icc-xmp.webp", 1404u,
      false, 32000);
}

TEST(StaticWebPTests, truncatedImage) {
  // VP8 data is truncated.
  testInvalidImage("/LayoutTests/fast/images/resources/truncated.webp", false);
  // Chunk size in RIFF header doesn't match the file size.
  testInvalidImage("/LayoutTests/fast/images/resources/truncated2.webp", true);
}

// Regression test for a bug where some valid images were failing to decode
// incrementally.
TEST(StaticWebPTests, incrementalDecode) {
  testByteByByteDecode(&createDecoder,
                       "/LayoutTests/fast/images/resources/crbug.364830.webp",
                       1u, cAnimationNone);
}

TEST(StaticWebPTests, isSizeAvailable) {
  testByteByByteSizeAvailable(
      &createDecoder,
      "/LayoutTests/fast/images/resources/webp-color-profile-lossy.webp", 520u,
      true, cAnimationNone);
  testByteByByteSizeAvailable(&createDecoder,
                              "/LayoutTests/fast/images/resources/test.webp",
                              30u, false, cAnimationNone);
}

TEST(StaticWebPTests, notAnimated) {
  std::unique_ptr<ImageDecoder> decoder = createDecoder();
  RefPtr<SharedBuffer> data = readFile(
      "/LayoutTests/fast/images/resources/webp-color-profile-lossy.webp");
  ASSERT_TRUE(data.get());
  decoder->setData(data.get(), true);
  EXPECT_EQ(1u, decoder->frameCount());
  EXPECT_EQ(cAnimationNone, decoder->repetitionCount());
}

}  // namespace blink