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author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-19 00:47:55 +0000 |
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committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-19 00:47:55 +0000 |
commit | 26a029d407be480d791972afb5975cf62c9360a6 (patch) | |
tree | f435a8308119effd964b339f76abb83a57c29483 /image/decoders/EXIF.cpp | |
parent | Initial commit. (diff) | |
download | firefox-upstream/124.0.1.tar.xz firefox-upstream/124.0.1.zip |
Adding upstream version 124.0.1.upstream/124.0.1
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'image/decoders/EXIF.cpp')
-rw-r--r-- | image/decoders/EXIF.cpp | 519 |
1 files changed, 519 insertions, 0 deletions
diff --git a/image/decoders/EXIF.cpp b/image/decoders/EXIF.cpp new file mode 100644 index 0000000000..97563248c7 --- /dev/null +++ b/image/decoders/EXIF.cpp @@ -0,0 +1,519 @@ +/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ +/* This Source Code Form is subject to the terms of the Mozilla Public + * License, v. 2.0. If a copy of the MPL was not distributed with this + * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ + +#include "EXIF.h" + +#include "mozilla/EndianUtils.h" +#include "mozilla/StaticPrefs_image.h" + +namespace mozilla::image { + +// Section references in this file refer to the EXIF v2.3 standard, also known +// as CIPA DC-008-Translation-2010. + +// See Section 4.6.4, Table 4. +// Typesafe enums are intentionally not used here since we're comparing to raw +// integers produced by parsing. +enum class EXIFTag : uint16_t { + Orientation = 0x112, + XResolution = 0x11a, + YResolution = 0x11b, + PixelXDimension = 0xa002, + PixelYDimension = 0xa003, + ResolutionUnit = 0x128, + IFDPointer = 0x8769, +}; + +// See Section 4.6.2. +enum EXIFType { + ByteType = 1, + ASCIIType = 2, + ShortType = 3, + LongType = 4, + RationalType = 5, + UndefinedType = 7, + SignedLongType = 9, + SignedRational = 10, +}; + +static const char* EXIFHeader = "Exif\0\0"; +static const uint32_t EXIFHeaderLength = 6; +static const uint32_t TIFFHeaderStart = EXIFHeaderLength; + +struct ParsedEXIFData { + Orientation orientation; + Maybe<float> resolutionX; + Maybe<float> resolutionY; + Maybe<uint32_t> pixelXDimension; + Maybe<uint32_t> pixelYDimension; + Maybe<ResolutionUnit> resolutionUnit; +}; + +static float ToDppx(float aResolution, ResolutionUnit aUnit) { + constexpr float kPointsPerInch = 72.0f; + constexpr float kPointsPerCm = 1.0f / 2.54f; + switch (aUnit) { + case ResolutionUnit::Dpi: + return aResolution / kPointsPerInch; + case ResolutionUnit::Dpcm: + return aResolution / kPointsPerCm; + } + MOZ_CRASH("Unknown resolution unit?"); +} + +static Resolution ResolutionFromParsedData(const ParsedEXIFData& aData, + const gfx::IntSize& aRealImageSize) { + if (!aData.resolutionUnit || !aData.resolutionX || !aData.resolutionY) { + return {}; + } + + Resolution resolution{ToDppx(*aData.resolutionX, *aData.resolutionUnit), + ToDppx(*aData.resolutionY, *aData.resolutionUnit)}; + + if (StaticPrefs::image_exif_density_correction_sanity_check_enabled()) { + if (!aData.pixelXDimension || !aData.pixelYDimension) { + return {}; + } + + const gfx::IntSize exifSize(*aData.pixelXDimension, *aData.pixelYDimension); + + gfx::IntSize scaledSize = aRealImageSize; + resolution.ApplyTo(scaledSize.width, scaledSize.height); + + if (exifSize != scaledSize) { + return {}; + } + } + + return resolution; +} + +///////////////////////////////////////////////////////////// +// Parse EXIF data, typically found in a JPEG's APP1 segment. +///////////////////////////////////////////////////////////// +EXIFData EXIFParser::ParseEXIF(const uint8_t* aData, const uint32_t aLength, + const gfx::IntSize& aRealImageSize) { + if (!Initialize(aData, aLength)) { + return EXIFData(); + } + + if (!ParseEXIFHeader()) { + return EXIFData(); + } + + uint32_t offsetIFD; + if (!ParseTIFFHeader(offsetIFD)) { + return EXIFData(); + } + + JumpTo(offsetIFD); + + ParsedEXIFData data; + ParseIFD(data); + + return EXIFData{data.orientation, + ResolutionFromParsedData(data, aRealImageSize)}; +} + +///////////////////////////////////////////////////////// +// Parse the EXIF header. (Section 4.7.2, Figure 30) +///////////////////////////////////////////////////////// +bool EXIFParser::ParseEXIFHeader() { + return MatchString(EXIFHeader, EXIFHeaderLength); +} + +///////////////////////////////////////////////////////// +// Parse the TIFF header. (Section 4.5.2, Table 1) +///////////////////////////////////////////////////////// +bool EXIFParser::ParseTIFFHeader(uint32_t& aIFD0OffsetOut) { + // Determine byte order. + if (MatchString("MM\0*", 4)) { + mByteOrder = ByteOrder::BigEndian; + } else if (MatchString("II*\0", 4)) { + mByteOrder = ByteOrder::LittleEndian; + } else { + return false; + } + + // Determine offset of the 0th IFD. (It shouldn't be greater than 64k, which + // is the maximum size of the entry APP1 segment.) + uint32_t ifd0Offset; + if (!ReadUInt32(ifd0Offset) || ifd0Offset > 64 * 1024) { + return false; + } + + // The IFD offset is relative to the beginning of the TIFF header, which + // begins after the EXIF header, so we need to increase the offset + // appropriately. + aIFD0OffsetOut = ifd0Offset + TIFFHeaderStart; + return true; +} + +// An arbitrary limit on the amount of pointers that we'll chase, to prevent bad +// inputs getting us stuck. +constexpr uint32_t kMaxEXIFDepth = 16; + +///////////////////////////////////////////////////////// +// Parse the entries in IFD0. (Section 4.6.2) +///////////////////////////////////////////////////////// +void EXIFParser::ParseIFD(ParsedEXIFData& aData, uint32_t aDepth) { + if (NS_WARN_IF(aDepth > kMaxEXIFDepth)) { + return; + } + + uint16_t entryCount; + if (!ReadUInt16(entryCount)) { + return; + } + + for (uint16_t entry = 0; entry < entryCount; ++entry) { + // Read the fields of the 12-byte entry. + uint16_t tag; + if (!ReadUInt16(tag)) { + return; + } + + uint16_t type; + if (!ReadUInt16(type)) { + return; + } + + uint32_t count; + if (!ReadUInt32(count)) { + return; + } + + switch (EXIFTag(tag)) { + case EXIFTag::Orientation: + // We should have an orientation value here; go ahead and parse it. + if (!ParseOrientation(type, count, aData.orientation)) { + return; + } + break; + case EXIFTag::ResolutionUnit: + if (!ParseResolutionUnit(type, count, aData.resolutionUnit)) { + return; + } + break; + case EXIFTag::XResolution: + if (!ParseResolution(type, count, aData.resolutionX)) { + return; + } + break; + case EXIFTag::YResolution: + if (!ParseResolution(type, count, aData.resolutionY)) { + return; + } + break; + case EXIFTag::PixelXDimension: + if (!ParseDimension(type, count, aData.pixelXDimension)) { + return; + } + break; + case EXIFTag::PixelYDimension: + if (!ParseDimension(type, count, aData.pixelYDimension)) { + return; + } + break; + case EXIFTag::IFDPointer: { + uint32_t offset; + if (!ReadUInt32(offset)) { + return; + } + + ScopedJump jump(*this, offset + TIFFHeaderStart); + ParseIFD(aData, aDepth + 1); + break; + } + + default: + Advance(4); + break; + } + } +} + +bool EXIFParser::ReadRational(float& aOut) { + // Values larger than 4 bytes (like rationals) are specified as an offset into + // the TIFF header. + uint32_t valueOffset; + if (!ReadUInt32(valueOffset)) { + return false; + } + ScopedJump jumpToHeader(*this, valueOffset + TIFFHeaderStart); + uint32_t numerator; + if (!ReadUInt32(numerator)) { + return false; + } + uint32_t denominator; + if (!ReadUInt32(denominator)) { + return false; + } + if (denominator == 0) { + return false; + } + aOut = float(numerator) / float(denominator); + return true; +} + +bool EXIFParser::ParseResolution(uint16_t aType, uint32_t aCount, + Maybe<float>& aOut) { + if (!StaticPrefs::image_exif_density_correction_enabled()) { + Advance(4); + return true; + } + if (aType != RationalType || aCount != 1) { + return false; + } + float value; + if (!ReadRational(value)) { + return false; + } + if (value == 0.0f) { + return false; + } + aOut = Some(value); + return true; +} + +bool EXIFParser::ParseDimension(uint16_t aType, uint32_t aCount, + Maybe<uint32_t>& aOut) { + if (!StaticPrefs::image_exif_density_correction_enabled()) { + Advance(4); + return true; + } + + if (aCount != 1) { + return false; + } + + switch (aType) { + case ShortType: { + uint16_t value; + if (!ReadUInt16(value)) { + return false; + } + aOut = Some(value); + Advance(2); + break; + } + case LongType: { + uint32_t value; + if (!ReadUInt32(value)) { + return false; + } + aOut = Some(value); + break; + } + default: + return false; + } + return true; +} + +bool EXIFParser::ParseResolutionUnit(uint16_t aType, uint32_t aCount, + Maybe<ResolutionUnit>& aOut) { + if (!StaticPrefs::image_exif_density_correction_enabled()) { + Advance(4); + return true; + } + if (aType != ShortType || aCount != 1) { + return false; + } + uint16_t value; + if (!ReadUInt16(value)) { + return false; + } + switch (value) { + case 2: + aOut = Some(ResolutionUnit::Dpi); + break; + case 3: + aOut = Some(ResolutionUnit::Dpcm); + break; + default: + return false; + } + + // This is a 32-bit field, but the unit value only occupies the first 16 bits. + // We need to advance another 16 bits to consume the entire field. + Advance(2); + return true; +} + +bool EXIFParser::ParseOrientation(uint16_t aType, uint32_t aCount, + Orientation& aOut) { + // Sanity check the type and count. + if (aType != ShortType || aCount != 1) { + return false; + } + + uint16_t value; + if (!ReadUInt16(value)) { + return false; + } + + switch (value) { + case 1: + aOut = Orientation(Angle::D0, Flip::Unflipped); + break; + case 2: + aOut = Orientation(Angle::D0, Flip::Horizontal); + break; + case 3: + aOut = Orientation(Angle::D180, Flip::Unflipped); + break; + case 4: + aOut = Orientation(Angle::D180, Flip::Horizontal); + break; + case 5: + aOut = Orientation(Angle::D90, Flip::Horizontal); + break; + case 6: + aOut = Orientation(Angle::D90, Flip::Unflipped); + break; + case 7: + aOut = Orientation(Angle::D270, Flip::Horizontal); + break; + case 8: + aOut = Orientation(Angle::D270, Flip::Unflipped); + break; + default: + return false; + } + + // This is a 32-bit field, but the orientation value only occupies the first + // 16 bits. We need to advance another 16 bits to consume the entire field. + Advance(2); + return true; +} + +bool EXIFParser::Initialize(const uint8_t* aData, const uint32_t aLength) { + if (aData == nullptr) { + return false; + } + + // An APP1 segment larger than 64k violates the JPEG standard. + if (aLength > 64 * 1024) { + return false; + } + + mStart = mCurrent = aData; + mLength = mRemainingLength = aLength; + mByteOrder = ByteOrder::Unknown; + return true; +} + +void EXIFParser::Advance(const uint32_t aDistance) { + if (mRemainingLength >= aDistance) { + mCurrent += aDistance; + mRemainingLength -= aDistance; + } else { + mCurrent = mStart; + mRemainingLength = 0; + } +} + +void EXIFParser::JumpTo(const uint32_t aOffset) { + if (mLength >= aOffset) { + mCurrent = mStart + aOffset; + mRemainingLength = mLength - aOffset; + } else { + mCurrent = mStart; + mRemainingLength = 0; + } +} + +bool EXIFParser::MatchString(const char* aString, const uint32_t aLength) { + if (mRemainingLength < aLength) { + return false; + } + + for (uint32_t i = 0; i < aLength; ++i) { + if (mCurrent[i] != aString[i]) { + return false; + } + } + + Advance(aLength); + return true; +} + +bool EXIFParser::MatchUInt16(const uint16_t aValue) { + if (mRemainingLength < 2) { + return false; + } + + bool matched; + switch (mByteOrder) { + case ByteOrder::LittleEndian: + matched = LittleEndian::readUint16(mCurrent) == aValue; + break; + case ByteOrder::BigEndian: + matched = BigEndian::readUint16(mCurrent) == aValue; + break; + default: + MOZ_ASSERT_UNREACHABLE("Should know the byte order by now"); + matched = false; + } + + if (matched) { + Advance(2); + } + + return matched; +} + +bool EXIFParser::ReadUInt16(uint16_t& aValue) { + if (mRemainingLength < 2) { + return false; + } + + bool matched = true; + switch (mByteOrder) { + case ByteOrder::LittleEndian: + aValue = LittleEndian::readUint16(mCurrent); + break; + case ByteOrder::BigEndian: + aValue = BigEndian::readUint16(mCurrent); + break; + default: + MOZ_ASSERT_UNREACHABLE("Should know the byte order by now"); + matched = false; + } + + if (matched) { + Advance(2); + } + + return matched; +} + +bool EXIFParser::ReadUInt32(uint32_t& aValue) { + if (mRemainingLength < 4) { + return false; + } + + bool matched = true; + switch (mByteOrder) { + case ByteOrder::LittleEndian: + aValue = LittleEndian::readUint32(mCurrent); + break; + case ByteOrder::BigEndian: + aValue = BigEndian::readUint32(mCurrent); + break; + default: + MOZ_ASSERT_UNREACHABLE("Should know the byte order by now"); + matched = false; + } + + if (matched) { + Advance(4); + } + + return matched; +} + +} // namespace mozilla::image |