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ladybird/Userland/Libraries/LibGfx/ImageFormats/JBIG2Loader.cpp
Nico Weber df9dd8ec69 LibGfx/JBIG2: Add arithmetic coding decoder 
I think the context normally changes for every bit. But this here
is enough to correctly decode the test bitstream in Annex H.2 in
the spec, which seems like a good checkpoint.

The internals of the decoder use spec naming, to make the code
look virtually identical to what's in the spec. (Even so, I managed
to put in several typos that took a while to track down.)
2024-03-14 18:18:15 -06:00

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/*
* Copyright (c) 2024, Nico Weber <thakis@chromium.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/Debug.h>
#include <AK/Utf16View.h>
#include <LibGfx/ImageFormats/CCITTDecoder.h>
#include <LibGfx/ImageFormats/JBIG2Loader.h>
#include <LibTextCodec/Decoder.h>
// Spec: ITU-T_T_88__08_2018.pdf in the zip file here:
// https://www.itu.int/rec/T-REC-T.88-201808-I
// Annex H has a datastream example.
namespace Gfx {
namespace JBIG2 {
// Table E.1 Qe values and probability estimation process
// See also E.1.2 Coding conventions and approximations
// and E.2.5 Probability estimation.
struct QeEntry {
u16 qe; // Sub-interval for the less probable symbol.
u16 nmps; // Next index if the more probable symbol is decoded
u16 nlps; // Next index if the less probable symbol is decoded
u16 switch_flag; // See second-to-last paragraph in E.1.2.
};
constexpr auto qe_table = to_array<QeEntry>({
{ 0x5601, 1, 1, 1 },
{ 0x3401, 2, 6, 0 },
{ 0x1801, 3, 9, 0 },
{ 0x0AC1, 4, 12, 0 },
{ 0x0521, 5, 29, 0 },
{ 0x0221, 38, 33, 0 },
{ 0x5601, 7, 6, 1 },
{ 0x5401, 8, 14, 0 },
{ 0x4801, 9, 14, 0 },
{ 0x3801, 10, 14, 0 },
{ 0x3001, 11, 17, 0 },
{ 0x2401, 12, 18, 0 },
{ 0x1C01, 13, 20, 0 },
{ 0x1601, 29, 21, 0 },
{ 0x5601, 15, 14, 1 },
{ 0x5401, 16, 14, 0 },
{ 0x5101, 17, 15, 0 },
{ 0x4801, 18, 16, 0 },
{ 0x3801, 19, 17, 0 },
{ 0x3401, 20, 18, 0 },
{ 0x3001, 21, 19, 0 },
{ 0x2801, 22, 19, 0 },
{ 0x2401, 23, 20, 0 },
{ 0x2201, 24, 21, 0 },
{ 0x1C01, 25, 22, 0 },
{ 0x1801, 26, 23, 0 },
{ 0x1601, 27, 24, 0 },
{ 0x1401, 28, 25, 0 },
{ 0x1201, 29, 26, 0 },
{ 0x1101, 30, 27, 0 },
{ 0x0AC1, 31, 28, 0 },
{ 0x09C1, 32, 29, 0 },
{ 0x08A1, 33, 30, 0 },
{ 0x0521, 34, 31, 0 },
{ 0x0441, 35, 32, 0 },
{ 0x02A1, 36, 33, 0 },
{ 0x0221, 37, 34, 0 },
{ 0x0141, 38, 35, 0 },
{ 0x0111, 39, 36, 0 },
{ 0x0085, 40, 37, 0 },
{ 0x0049, 41, 38, 0 },
{ 0x0025, 42, 39, 0 },
{ 0x0015, 43, 40, 0 },
{ 0x0009, 44, 41, 0 },
{ 0x0005, 45, 42, 0 },
{ 0x0001, 45, 43, 0 },
{ 0x5601, 46, 46, 0 },
});
ErrorOr<ArithmeticDecoder> ArithmeticDecoder::initialize(ReadonlyBytes data, Context context)
{
ArithmeticDecoder decoder { data };
decoder.CX = context;
decoder.INITDEC();
return decoder;
}
bool ArithmeticDecoder::get_next_bit()
{
// Useful for comparing to Table H.1 Encoder and decoder trace data.
// dbg("I={} MPS={} A={:#x} C={:#x} CT={} B={:#x}", I(CX), MPS(CX), A, C, CT, B());
u8 D = DECODE();
// dbgln(" -> D={}", D);
return D;
}
u16 ArithmeticDecoder::Qe(u16 index) { return qe_table[index].qe; }
u8 ArithmeticDecoder::NMPS(u16 index) { return qe_table[index].nmps; }
u8 ArithmeticDecoder::NLPS(u16 index) { return qe_table[index].nlps; }
u8 ArithmeticDecoder::SWITCH(u16 index) { return qe_table[index].switch_flag; }
u8 ArithmeticDecoder::B(size_t offset) const
{
// E.2.10 Minimization of the compressed data
// "the convention is used in the decoder that when a marker code is encountered,
// 1-bits (without bit stuffing) are supplied to the decoder until the coding interval is complete."
if (BP + offset >= m_data.size())
return 0xFF;
return m_data[BP + offset];
}
void ArithmeticDecoder::INITDEC()
{
// E.3.5 Initialization of the decoder (INITDEC)
// Figure G.1 Initialization of the software conventions decoder
// "BP, the pointer to the compressed data, is initialized to BPST (pointing to the first compressed byte)."
auto const BPST = 0;
BP = BPST;
C = (B() ^ 0xFF) << 16;
BYTEIN();
C = C << 7;
CT = CT - 7;
A = 0x8000;
}
u8 ArithmeticDecoder::DECODE()
{
// E.3.2 Decoding a decision (DECODE)
// Figure G.2 Decoding an MPS or an LPS in the software-conventions decoder
u8 D;
A = A - Qe(I(CX));
if (C < ((u32)A << 16)) { // `(C_high < A)` in spec
if ((A & 0x8000) == 0) {
D = MPS_EXCHANGE();
RENORMD();
} else {
D = MPS(CX);
}
} else {
C = C - ((u32)A << 16); // `C_high = C_high - A` in spec
D = LPS_EXCHANGE();
RENORMD();
}
return D;
}
u8 ArithmeticDecoder::MPS_EXCHANGE()
{
// Figure E.16 Decoder MPS path conditional exchange procedure
u8 D;
if (A < Qe(I(CX))) {
D = 1 - MPS(CX);
if (SWITCH(I(CX)) == 1) {
MPS(CX) = 1 - MPS(CX);
}
I(CX) = NLPS(I(CX));
} else {
D = MPS(CX);
I(CX) = NMPS(I(CX));
}
return D;
}
u8 ArithmeticDecoder::LPS_EXCHANGE()
{
// Figure E.17 Decoder LPS path conditional exchange procedure
u8 D;
if (A < Qe(I(CX))) {
A = Qe(I(CX));
D = MPS(CX);
I(CX) = NMPS(I(CX));
} else {
A = Qe(I(CX));
D = 1 - MPS(CX);
if (SWITCH(I(CX)) == 1) {
MPS(CX) = 1 - MPS(CX);
}
I(CX) = NLPS(I(CX));
}
return D;
}
void ArithmeticDecoder::RENORMD()
{
// E.3.3 Renormalization in the decoder (RENORMD)
// Figure E.18 Decoder renormalization procedure
do {
if (CT == 0)
BYTEIN();
A = A << 1;
C = C << 1;
CT = CT - 1;
} while ((A & 0x8000) == 0);
}
void ArithmeticDecoder::BYTEIN()
{
// E.3.4 Compressed data input (BYTEIN)
// Figure G.3 Inserting a new byte into the C register in the software-conventions decoder
if (B() == 0xFF) {
if (B(1) > 0x8F) {
CT = 8;
} else {
BP = BP + 1;
C = C + 0xFE00 - (B() << 9);
CT = 7;
}
} else {
BP = BP + 1;
C = C + 0xFF00 - (B() << 8);
CT = 8;
}
}
}
// JBIG2 spec, Annex D, D.4.1 ID string
static constexpr u8 id_string[] = { 0x97, 0x4A, 0x42, 0x32, 0x0D, 0x0A, 0x1A, 0x0A };
// 7.3 Segment types
enum SegmentType {
SymbolDictionary = 0,
IntermediateTextRegion = 4,
ImmediateTextRegion = 6,
ImmediateLosslessTextRegion = 7,
PatternDictionary = 16,
IntermediateHalftoneRegion = 20,
ImmediateHalftoneRegion = 22,
ImmediateLosslessHalftoneRegion = 23,
IntermediateGenericRegion = 36,
ImmediateGenericRegion = 38,
ImmediateLosslessGenericRegion = 39,
IntermediateGenericRefinementRegion = 40,
ImmediateGenericRefinementRegion = 42,
ImmediateLosslessGenericRefinementRegion = 43,
PageInformation = 48,
EndOfPage = 49,
EndOfStripe = 50,
EndOfFile = 51,
Profiles = 52,
Tables = 53,
ColorPalette = 54,
Extension = 62,
};
// Annex D
enum class Organization {
// D.1 Sequential organization
Sequential,
// D.2 Random-access organization
RandomAccess,
// D.3 Embedded organization
Embedded,
};
struct SegmentHeader {
u32 segment_number;
SegmentType type;
Vector<u32> referred_to_segment_numbers;
// 7.2.6 Segment page association
// "The first page must be numbered "1". This field may contain a value of zero; this value indicates that this segment is not associated with any page."
u32 page_association;
Optional<u32> data_length;
};
struct SegmentData {
SegmentHeader header;
ReadonlyBytes data;
};
class BitBuffer {
public:
static ErrorOr<NonnullOwnPtr<BitBuffer>> create(size_t width, size_t height);
bool get_bit(size_t x, size_t y) const;
void set_bit(size_t x, size_t y, bool b);
void fill(bool b);
ErrorOr<NonnullRefPtr<Gfx::Bitmap>> to_gfx_bitmap() const;
ErrorOr<ByteBuffer> to_byte_buffer() const;
private:
BitBuffer(ByteBuffer, size_t width, size_t height, size_t pitch);
ByteBuffer m_bits;
size_t m_width;
size_t m_height;
size_t m_pitch;
};
ErrorOr<NonnullOwnPtr<BitBuffer>> BitBuffer::create(size_t width, size_t height)
{
size_t pitch = ceil_div(width, 8ull);
auto bits = TRY(ByteBuffer::create_uninitialized(pitch * height));
return adopt_nonnull_own_or_enomem(new (nothrow) BitBuffer(move(bits), width, height, pitch));
}
bool BitBuffer::get_bit(size_t x, size_t y) const
{
VERIFY(x < m_width);
VERIFY(y < m_height);
size_t byte_offset = x / 8;
size_t bit_offset = x % 8;
u8 byte = m_bits[y * m_pitch + byte_offset];
byte = (byte >> (8 - 1 - bit_offset)) & 1;
return byte != 0;
}
void BitBuffer::set_bit(size_t x, size_t y, bool b)
{
VERIFY(x < m_width);
VERIFY(y < m_height);
size_t byte_offset = x / 8;
size_t bit_offset = x % 8;
u8 byte = m_bits[y * m_pitch + byte_offset];
u8 mask = 1u << (8 - 1 - bit_offset);
if (b)
byte |= mask;
else
byte &= ~mask;
m_bits[y * m_pitch + byte_offset] = byte;
}
void BitBuffer::fill(bool b)
{
u8 fill_byte = b ? 0xff : 0;
for (auto& byte : m_bits.bytes())
byte = fill_byte;
}
ErrorOr<NonnullRefPtr<Gfx::Bitmap>> BitBuffer::to_gfx_bitmap() const
{
auto bitmap = TRY(Gfx::Bitmap::create(Gfx::BitmapFormat::BGRx8888, { m_width, m_height }));
for (size_t y = 0; y < m_height; ++y) {
for (size_t x = 0; x < m_width; ++x) {
auto color = get_bit(x, y) ? Color::Black : Color::White;
bitmap->set_pixel(x, y, color);
}
}
return bitmap;
}
ErrorOr<ByteBuffer> BitBuffer::to_byte_buffer() const
{
return ByteBuffer::copy(m_bits);
}
BitBuffer::BitBuffer(ByteBuffer bits, size_t width, size_t height, size_t pitch)
: m_bits(move(bits))
, m_width(width)
, m_height(height)
, m_pitch(pitch)
{
}
// 7.4.8.5 Page segment flags
enum class CombinationOperator {
Or = 0,
And = 1,
Xor = 2,
XNor = 3,
};
struct Page {
IntSize size;
CombinationOperator default_combination_operator;
OwnPtr<BitBuffer> bits;
};
struct JBIG2LoadingContext {
enum class State {
NotDecoded = 0,
Error,
Decoded,
};
State state { State::NotDecoded };
Organization organization { Organization::Sequential };
Page page;
Optional<u32> number_of_pages;
Vector<SegmentData> segments;
};
static ErrorOr<void> decode_jbig2_header(JBIG2LoadingContext& context, ReadonlyBytes data)
{
if (!JBIG2ImageDecoderPlugin::sniff(data))
return Error::from_string_literal("JBIG2LoadingContext: Invalid JBIG2 header");
FixedMemoryStream stream(data.slice(sizeof(id_string)));
// D.4.2 File header flags
u8 header_flags = TRY(stream.read_value<u8>());
if (header_flags & 0b11110000)
return Error::from_string_literal("JBIG2LoadingContext: Invalid header flags");
context.organization = (header_flags & 1) ? Organization::Sequential : Organization::RandomAccess;
dbgln_if(JBIG2_DEBUG, "JBIG2LoadingContext: Organization: {} ({})", (int)context.organization, context.organization == Organization::Sequential ? "Sequential" : "Random-access");
bool has_known_number_of_pages = (header_flags & 2) ? false : true;
bool uses_templates_with_12_AT_pixels = (header_flags & 4) ? true : false;
bool contains_colored_region_segments = (header_flags & 8) ? true : false;
// FIXME: Do something with these?
(void)uses_templates_with_12_AT_pixels;
(void)contains_colored_region_segments;
// D.4.3 Number of pages
if (has_known_number_of_pages) {
context.number_of_pages = TRY(stream.read_value<BigEndian<u32>>());
dbgln_if(JBIG2_DEBUG, "JBIG2LoadingContext: Number of pages: {}", context.number_of_pages.value());
}
return {};
}
static ErrorOr<SegmentHeader> decode_segment_header(SeekableStream& stream)
{
// 7.2.2 Segment number
u32 segment_number = TRY(stream.read_value<BigEndian<u32>>());
dbgln_if(JBIG2_DEBUG, "Segment number: {}", segment_number);
// 7.2.3 Segment header flags
u8 flags = TRY(stream.read_value<u8>());
SegmentType type = static_cast<SegmentType>(flags & 0b11'1111);
dbgln_if(JBIG2_DEBUG, "Segment type: {}", (int)type);
bool segment_page_association_size_is_32_bits = (flags & 0b100'0000) != 0;
bool segment_retained_only_by_itself_and_extension_segments = (flags & 0b1000'00000) != 0;
// FIXME: Do something with these.
(void)segment_page_association_size_is_32_bits;
(void)segment_retained_only_by_itself_and_extension_segments;
// 7.2.4 Referred-to segment count and retention flags
u8 referred_to_segment_count_and_retention_flags = TRY(stream.read_value<u8>());
u32 count_of_referred_to_segments = referred_to_segment_count_and_retention_flags >> 5;
if (count_of_referred_to_segments == 5 || count_of_referred_to_segments == 6)
return Error::from_string_literal("JBIG2ImageDecoderPlugin: Invalid count_of_referred_to_segments");
u32 extra_count = 0;
if (count_of_referred_to_segments == 7) {
TRY(stream.seek(-1, SeekMode::FromCurrentPosition));
count_of_referred_to_segments = TRY(stream.read_value<BigEndian<u32>>()) & 0x1FFF'FFFF;
extra_count = ceil_div(count_of_referred_to_segments + 1, 8);
TRY(stream.seek(extra_count, SeekMode::FromCurrentPosition));
}
dbgln_if(JBIG2_DEBUG, "Referred-to segment count: {}", count_of_referred_to_segments);
// 7.2.5 Referred-to segment numbers
Vector<u32> referred_to_segment_numbers;
for (u32 i = 0; i < count_of_referred_to_segments; ++i) {
u32 referred_to_segment_number;
if (segment_number <= 256)
referred_to_segment_number = TRY(stream.read_value<u8>());
else if (segment_number <= 65536)
referred_to_segment_number = TRY(stream.read_value<BigEndian<u16>>());
else
referred_to_segment_number = TRY(stream.read_value<BigEndian<u32>>());
referred_to_segment_numbers.append(referred_to_segment_number);
dbgln_if(JBIG2_DEBUG, "Referred-to segment number: {}", referred_to_segment_number);
}
// 7.2.6 Segment page association
u32 segment_page_association;
if (segment_page_association_size_is_32_bits) {
segment_page_association = TRY(stream.read_value<BigEndian<u32>>());
} else {
segment_page_association = TRY(stream.read_value<u8>());
}
dbgln_if(JBIG2_DEBUG, "Segment page association: {}", segment_page_association);
// 7.2.7 Segment data length
u32 data_length = TRY(stream.read_value<BigEndian<u32>>());
dbgln_if(JBIG2_DEBUG, "Segment data length: {}", data_length);
// FIXME: Add some validity checks:
// - check type is valid
// - check referred_to_segment_numbers are smaller than segment_number
// - 7.3.1 Rules for segment references
// - 7.3.2 Rules for page associations
Optional<u32> opt_data_length;
if (data_length != 0xffff'ffff)
opt_data_length = data_length;
else if (type != ImmediateGenericRegion)
return Error::from_string_literal("JBIG2ImageDecoderPlugin: Unknown data length only allowed for ImmediateGenericRegion");
return SegmentHeader { segment_number, type, move(referred_to_segment_numbers), segment_page_association, opt_data_length };
}
static ErrorOr<size_t> scan_for_immediate_generic_region_size(ReadonlyBytes data)
{
// 7.2.7 Segment data length
// "If the segment's type is "Immediate generic region", then the length field may contain the value 0xFFFFFFFF.
// This value is intended to mean that the length of the segment's data part is unknown at the time that the segment header is written (...).
// In this case, the true length of the segment's data part shall be determined through examination of the data:
// if the segment uses template-based arithmetic coding, then the segment's data part ends with the two-byte sequence 0xFF 0xAC followed by a four-byte row count.
// If the segment uses MMR coding, then the segment's data part ends with the two-byte sequence 0x00 0x00 followed by a four-byte row count.
// The form of encoding used by the segment may be determined by examining the eighteenth byte of its segment data part,
// and the end sequences can occur anywhere after that eighteenth byte."
// 7.4.6.4 Decoding a generic region segment
// "NOTE The sequence 0x00 0x00 cannot occur within MMR-encoded data; the sequence 0xFF 0xAC can occur only at the end of arithmetically-coded data.
// Thus, those sequences cannot occur by chance in the data that is decoded to generate the contents of the generic region."
dbgln_if(JBIG2_DEBUG, "(Unknown data length, computing it)");
if (data.size() < 19 + sizeof(u32))
return Error::from_string_literal("JBIG2ImageDecoderPlugin: Data too short to contain segment data header and end sequence");
// Per 7.4.6.1 Generic region segment data header, this starts with the 17 bytes described in
// 7.4.1 Region segment information field, followed the byte described in 7.4.6.2 Generic region segment flags.
// That byte's lowest bit stores if the segment uses MMR.
u8 flags = data[17];
bool uses_mmr = (flags & 1) != 0;
auto end_sequence = uses_mmr ? to_array<u8>({ 0x00, 0x00 }) : to_array<u8>({ 0xFF, 0xAC });
u8 const* end = static_cast<u8 const*>(memmem(data.data() + 19, data.size() - 19 - sizeof(u32), end_sequence.data(), end_sequence.size()));
if (!end)
return Error::from_string_literal("JBIG2ImageDecoderPlugin: Could not find end sequence in segment data");
size_t size = end - data.data() + end_sequence.size() + sizeof(u32);
dbgln_if(JBIG2_DEBUG, "(Computed size is {})", size);
return size;
}
static ErrorOr<void> decode_segment_headers(JBIG2LoadingContext& context, ReadonlyBytes data)
{
FixedMemoryStream stream(data);
Vector<ReadonlyBytes> segment_datas;
auto store_and_skip_segment_data = [&](SegmentHeader const& segment_header) -> ErrorOr<void> {
size_t start_offset = TRY(stream.tell());
u32 data_length = TRY(segment_header.data_length.try_value_or_lazy_evaluated([&]() {
return scan_for_immediate_generic_region_size(data.slice(start_offset));
}));
if (start_offset + data_length > data.size()) {
dbgln_if(JBIG2_DEBUG, "JBIG2ImageDecoderPlugin: start_offset={}, data_length={}, data.size()={}", start_offset, data_length, data.size());
return Error::from_string_literal("JBIG2ImageDecoderPlugin: Segment data length exceeds file size");
}
ReadonlyBytes segment_data = data.slice(start_offset, data_length);
segment_datas.append(segment_data);
TRY(stream.seek(data_length, SeekMode::FromCurrentPosition));
return {};
};
Vector<SegmentHeader> segment_headers;
while (!stream.is_eof()) {
auto segment_header = TRY(decode_segment_header(stream));
segment_headers.append(segment_header);
if (context.organization != Organization::RandomAccess)
TRY(store_and_skip_segment_data(segment_header));
// Required per spec for files with RandomAccess organization.
if (segment_header.type == SegmentType::EndOfFile)
break;
}
if (context.organization == Organization::RandomAccess) {
for (auto const& segment_header : segment_headers)
TRY(store_and_skip_segment_data(segment_header));
}
if (segment_headers.size() != segment_datas.size())
return Error::from_string_literal("JBIG2ImageDecoderPlugin: Segment headers and segment datas have different sizes");
for (size_t i = 0; i < segment_headers.size(); ++i)
context.segments.append({ segment_headers[i], segment_datas[i] });
return {};
}
// 7.4.1 Region segment information field
struct [[gnu::packed]] RegionSegmentInformationField {
BigEndian<u32> width;
BigEndian<u32> height;
BigEndian<u32> x_location;
BigEndian<u32> y_location;
u8 flags;
// FIXME: Or have just ::CombinationOperator represent both page and segment operators?
enum class CombinationOperator {
Or = 0,
And = 1,
Xor = 2,
XNor = 3,
Replace = 4,
};
CombinationOperator external_combination_operator() const
{
VERIFY((flags & 0x7) <= 4);
return static_cast<CombinationOperator>(flags & 0x7);
}
bool is_color_bitmap() const
{
return (flags & 0x8) != 0;
}
};
static_assert(AssertSize<RegionSegmentInformationField, 17>());
static ErrorOr<RegionSegmentInformationField> decode_region_segment_information_field(ReadonlyBytes data)
{
// 7.4.8 Page information segment syntax
if (data.size() < sizeof(RegionSegmentInformationField))
return Error::from_string_literal("JBIG2ImageDecoderPlugin: Invalid region segment information field size");
auto result = *(RegionSegmentInformationField const*)data.data();
if ((result.flags & 0b1111'0000) != 0)
return Error::from_string_literal("JBIG2ImageDecoderPlugin: Invalid region segment information field flags");
if ((result.flags & 0x7) > 4)
return Error::from_string_literal("JBIG2ImageDecoderPlugin: Invalid region segment information field operator");
// NOTE 3 If the colour extension flag (COLEXTFLAG) is equal to 1, the external combination operator must be REPLACE.
if (result.is_color_bitmap() && result.external_combination_operator() != RegionSegmentInformationField::CombinationOperator::Replace)
return Error::from_string_literal("JBIG2ImageDecoderPlugin: Invalid colored region segment information field operator");
return result;
}
// 7.4.8 Page information segment syntax
struct [[gnu::packed]] PageInformationSegment {
BigEndian<u32> bitmap_width;
BigEndian<u32> bitmap_height;
BigEndian<u32> page_x_resolution; // In pixels/meter.
BigEndian<u32> page_y_resolution; // In pixels/meter.
u8 flags;
BigEndian<u16> striping_information;
};
static_assert(AssertSize<PageInformationSegment, 19>());
static ErrorOr<PageInformationSegment> decode_page_information_segment(ReadonlyBytes data)
{
// 7.4.8 Page information segment syntax
if (data.size() != sizeof(PageInformationSegment))
return Error::from_string_literal("JBIG2ImageDecoderPlugin: Invalid page information segment size");
return *(PageInformationSegment const*)data.data();
}
static ErrorOr<void> scan_for_page_size(JBIG2LoadingContext& context)
{
// We only decode the first page at the moment.
bool found_size = false;
for (auto const& segment : context.segments) {
if (segment.header.type != SegmentType::PageInformation || segment.header.page_association != 1)
continue;
auto page_information = TRY(decode_page_information_segment(segment.data));
// FIXME: We're supposed to compute this from the striping information if it's not set.
if (page_information.bitmap_height == 0xffff'ffff)
return Error::from_string_literal("JBIG2ImageDecoderPlugin: Cannot handle unknown page height yet");
context.page.size = { page_information.bitmap_width, page_information.bitmap_height };
found_size = true;
}
if (!found_size)
return Error::from_string_literal("JBIG2ImageDecoderPlugin: No page information segment found for page 1");
return {};
}
static ErrorOr<void> warn_about_multiple_pages(JBIG2LoadingContext& context)
{
HashTable<u32> seen_pages;
Vector<u32> pages;
for (auto const& segment : context.segments) {
if (segment.header.page_association == 0)
continue;
if (seen_pages.contains(segment.header.page_association))
continue;
seen_pages.set(segment.header.page_association);
pages.append(segment.header.page_association);
}
// scan_for_page_size() already checked that there's a page 1.
VERIFY(seen_pages.contains(1));
if (pages.size() == 1)
return {};
StringBuilder builder;
builder.appendff("JBIG2 file contains {} pages ({}", pages.size(), pages[0]);
size_t i;
for (i = 1; i < min(pages.size(), 10); ++i)
builder.appendff(" {}", pages[i]);
if (i != pages.size())
builder.append(" ..."sv);
builder.append("). We will only render page 1."sv);
dbgln("JBIG2ImageDecoderPlugin: {}", TRY(builder.to_string()));
return {};
}
// 6.2.2 Input parameters
struct GenericRegionDecodingInputParameters {
bool is_modified_modified_read; // "MMR" in spec.
u32 region_width; // "GBW" in spec.
u32 region_height; // "GBH" in spec.
u8 gb_template;
bool is_typical_prediction_used; // "TPGDON" in spec.
bool is_extended_reference_template_used; // "EXTTEMPLATE" in spec.
Optional<NonnullOwnPtr<BitBuffer>> skip_pattern; // "USESKIP", "SKIP" in spec.
struct AdaptiveTemplatePixel {
i8 x, y;
};
AdaptiveTemplatePixel adaptive_template_pixels[12]; // "GBATX" / "GBATY" in spec.
// FIXME: GBCOLS, GBCOMBOP, COLEXTFLAG
};
// 6.2 Generic region decoding procedure
static ErrorOr<NonnullOwnPtr<BitBuffer>> generic_region_decoding_procedure(GenericRegionDecodingInputParameters const& inputs, ReadonlyBytes data)
{
if (inputs.is_modified_modified_read) {
// 6.2.6 Decoding using MMR coding
auto buffer = TRY(CCITT::decode_ccitt_group4(data, inputs.region_width, inputs.region_height));
auto result = TRY(BitBuffer::create(inputs.region_width, inputs.region_height));
size_t bytes_per_row = ceil_div(inputs.region_width, 8);
if (buffer.size() != bytes_per_row * inputs.region_height)
return Error::from_string_literal("JBIG2ImageDecoderPlugin: Decoded MMR data has wrong size");
// FIXME: Could probably just copy the ByteBuffer directly into the BitBuffer's internal ByteBuffer instead.
for (size_t y = 0; y < inputs.region_height; ++y) {
for (size_t x = 0; x < inputs.region_width; ++x) {
bool bit = buffer[y * bytes_per_row + x / 8] & (1 << (7 - x % 8));
result->set_bit(x, y, bit);
}
}
return result;
}
return Error::from_string_literal("JBIG2ImageDecoderPlugin: Non-MMR generic region decoding not implemented yet");
}
static ErrorOr<void> decode_symbol_dictionary(JBIG2LoadingContext&, SegmentData const&)
{
return Error::from_string_literal("JBIG2ImageDecoderPlugin: Cannot decode symbol dictionary yet");
}
static ErrorOr<void> decode_intermediate_text_region(JBIG2LoadingContext&, SegmentData const&)
{
return Error::from_string_literal("JBIG2ImageDecoderPlugin: Cannot decode intermediate text region yet");
}
static ErrorOr<void> decode_immediate_text_region(JBIG2LoadingContext&, SegmentData const&)
{
return Error::from_string_literal("JBIG2ImageDecoderPlugin: Cannot decode immediate text region yet");
}
static ErrorOr<void> decode_immediate_lossless_text_region(JBIG2LoadingContext&, SegmentData const&)
{
return Error::from_string_literal("JBIG2ImageDecoderPlugin: Cannot decode immediate lossless text region yet");
}
static ErrorOr<void> decode_pattern_dictionary(JBIG2LoadingContext&, SegmentData const&)
{
return Error::from_string_literal("JBIG2ImageDecoderPlugin: Cannot decode pattern dictionary yet");
}
static ErrorOr<void> decode_intermediate_halftone_region(JBIG2LoadingContext&, SegmentData const&)
{
return Error::from_string_literal("JBIG2ImageDecoderPlugin: Cannot decode intermediate halftone region yet");
}
static ErrorOr<void> decode_immediate_halftone_region(JBIG2LoadingContext&, SegmentData const&)
{
return Error::from_string_literal("JBIG2ImageDecoderPlugin: Cannot decode immediate halftone region yet");
}
static ErrorOr<void> decode_immediate_lossless_halftone_region(JBIG2LoadingContext&, SegmentData const&)
{
return Error::from_string_literal("JBIG2ImageDecoderPlugin: Cannot decode immediate lossless halftone region yet");
}
static ErrorOr<void> decode_intermediate_generic_region(JBIG2LoadingContext&, SegmentData const&)
{
return Error::from_string_literal("JBIG2ImageDecoderPlugin: Cannot decode intermediate generic region yet");
}
static ErrorOr<void> decode_immediate_generic_region(JBIG2LoadingContext& context, SegmentData const& segment)
{
// 7.4.6 Generic region segment syntax
auto data = segment.data;
auto information_field = TRY(decode_region_segment_information_field(data));
data = data.slice(sizeof(information_field));
// 7.4.6.2 Generic region segment flags
if (data.is_empty())
return Error::from_string_literal("JBIG2ImageDecoderPlugin: No segment data");
u8 flags = data[0];
bool uses_mmr = (flags & 1) != 0;
u8 arithmetic_coding_template = (flags >> 1) & 3; // "GBTEMPLATE"
bool typical_prediction_generic_decoding_on = (flags >> 3) & 1; // "TPGDON"
bool uses_extended_reference_template = (flags >> 4) & 1; // "EXTTEMPLATE"
if (flags & 0b1110'0000)
return Error::from_string_literal("JBIG2ImageDecoderPlugin: Invalid flags");
data = data.slice(sizeof(flags));
// 7.4.6.3 Generic region segment AT flags
GenericRegionDecodingInputParameters::AdaptiveTemplatePixel adaptive_template_pixels[12] = {};
if (!uses_mmr) {
dbgln_if(JBIG2_DEBUG, "Non-MMR generic region, GBTEMPLATE={} TPGDON={} EXTTEMPLATE={}", arithmetic_coding_template, typical_prediction_generic_decoding_on, uses_extended_reference_template);
if (arithmetic_coding_template == 0 && uses_extended_reference_template) {
// This was added in T.88 Amendment 2 (https://www.itu.int/rec/T-REC-T.88-200306-S!Amd2/en) mid-2003.
// I haven't seen it being used in the wild, and the spec says "32-byte field as shown below" and then shows 24 bytes,
// so it's not clear how much data to read.
return Error::from_string_literal("JBIG2ImageDecoderPlugin: GBTEMPLATE=0 EXTTEMPLATE=1 not yet implemented");
}
size_t number_of_adaptive_template_pixels = arithmetic_coding_template == 0 ? 4 : 1;
if (data.size() < 2 * number_of_adaptive_template_pixels)
return Error::from_string_literal("JBIG2ImageDecoderPlugin: No adaptive template data");
for (size_t i = 0; i < number_of_adaptive_template_pixels; ++i) {
adaptive_template_pixels[i].x = static_cast<i8>(data[2 * i]);
adaptive_template_pixels[i].y = static_cast<i8>(data[2 * i + 1]);
}
data = data.slice(2 * number_of_adaptive_template_pixels);
}
// 7.4.6.4 Decoding a generic region segment
// "1) Interpret its header, as described in 7.4.6.1"
// Done above.
// "2) As described in E.3.7, reset all the arithmetic coding statistics to zero."
// FIXME: Implement this once we support arithmetic coding.
// "3) Invoke the generic region decoding procedure described in 6.2, with the parameters to the generic region decoding procedure set as shown in Table 37."
GenericRegionDecodingInputParameters inputs;
inputs.is_modified_modified_read = uses_mmr;
inputs.region_width = information_field.width;
inputs.region_height = information_field.height;
inputs.gb_template = arithmetic_coding_template;
inputs.is_typical_prediction_used = typical_prediction_generic_decoding_on;
inputs.is_extended_reference_template_used = uses_extended_reference_template;
inputs.skip_pattern = OptionalNone {};
static_assert(sizeof(inputs.adaptive_template_pixels) == sizeof(adaptive_template_pixels));
memcpy(inputs.adaptive_template_pixels, adaptive_template_pixels, sizeof(adaptive_template_pixels));
auto result = TRY(generic_region_decoding_procedure(inputs, data));
// 8.2 Page image composition step 5)
if (information_field.x_location + information_field.width > (u32)context.page.size.width()
|| information_field.y_location + information_field.height > (u32)context.page.size.height()) {
return Error::from_string_literal("JBIG2ImageDecoderPlugin: Region bounds outsize of page bounds");
}
for (size_t y = 0; y < information_field.height; ++y) {
for (size_t x = 0; x < information_field.width; ++x) {
// FIXME: Honor segment's combination operator instead of just copying.
context.page.bits->set_bit(information_field.x_location + x, information_field.y_location + y, result->get_bit(x, y));
}
}
return {};
}
static ErrorOr<void> decode_immediate_lossless_generic_region(JBIG2LoadingContext&, SegmentData const&)
{
return Error::from_string_literal("JBIG2ImageDecoderPlugin: Cannot decode immediate lossless generic region yet");
}
static ErrorOr<void> decode_intermediate_generic_refinement_region(JBIG2LoadingContext&, SegmentData const&)
{
return Error::from_string_literal("JBIG2ImageDecoderPlugin: Cannot decode intermediate generic refinement region yet");
}
static ErrorOr<void> decode_immediate_generic_refinement_region(JBIG2LoadingContext&, SegmentData const&)
{
return Error::from_string_literal("JBIG2ImageDecoderPlugin: Cannot decode immediate generic refinement region yet");
}
static ErrorOr<void> decode_immediate_lossless_generic_refinement_region(JBIG2LoadingContext&, SegmentData const&)
{
return Error::from_string_literal("JBIG2ImageDecoderPlugin: Cannot decode immediate lossless generic refinement region yet");
}
static ErrorOr<void> decode_page_information(JBIG2LoadingContext& context, SegmentData const& segment)
{
// 7.4.8 Page information segment syntax and 8.1 Decoder model steps 1) - 3).
// "1) Decode the page information segment.""
auto page_information = TRY(decode_page_information_segment(segment.data));
bool page_is_striped = (page_information.striping_information & 0x80) != 0;
if (page_information.bitmap_height == 0xffff'ffff && !page_is_striped)
return Error::from_string_literal("JBIG2ImageDecoderPlugin: Non-striped bitmaps of indeterminate height not allowed");
u8 default_color = (page_information.flags >> 2) & 1;
u8 default_combination_operator = (page_information.flags >> 3) & 3;
context.page.default_combination_operator = static_cast<CombinationOperator>(default_combination_operator);
// FIXME: Do something with the other fields in page_information.
// "2) Create the page buffer, of the size given in the page information segment.
//
// If the page height is unknown, then this is not possible. However, in this case the page must be striped,
// and the maximum stripe height specified, and the initial page buffer can be created with height initially
// equal to this maximum stripe height."
size_t height = page_information.bitmap_height;
if (height == 0xffff'ffff)
height = page_information.striping_information & 0x7F;
context.page.bits = TRY(BitBuffer::create(page_information.bitmap_width, height));
// "3) Fill the page buffer with the page's default pixel value."
context.page.bits->fill(default_color != 0);
return {};
}
static ErrorOr<void> decode_end_of_page(JBIG2LoadingContext&, SegmentData const& segment)
{
// 7.4.9 End of page segment syntax
if (segment.data.size() != 0)
return Error::from_string_literal("JBIG2ImageDecoderPlugin: End of page segment has non-zero size");
// FIXME: If the page had unknown height, check that previous segment was end-of-stripe.
// FIXME: Maybe mark page as completed and error if we see more segments for it?
return {};
}
static ErrorOr<void> decode_end_of_stripe(JBIG2LoadingContext&, SegmentData const&)
{
return Error::from_string_literal("JBIG2ImageDecoderPlugin: Cannot decode end of stripe yet");
}
static ErrorOr<void> decode_end_of_file(JBIG2LoadingContext&, SegmentData const& segment)
{
// 7.4.11 End of file segment syntax
if (segment.data.size() != 0)
return Error::from_string_literal("JBIG2ImageDecoderPlugin: End of file segment has non-zero size");
return {};
}
static ErrorOr<void> decode_profiles(JBIG2LoadingContext&, SegmentData const&)
{
return Error::from_string_literal("JBIG2ImageDecoderPlugin: Cannot decode profiles yet");
}
static ErrorOr<void> decode_tables(JBIG2LoadingContext&, SegmentData const&)
{
return Error::from_string_literal("JBIG2ImageDecoderPlugin: Cannot decode tables yet");
}
static ErrorOr<void> decode_color_palette(JBIG2LoadingContext&, SegmentData const&)
{
return Error::from_string_literal("JBIG2ImageDecoderPlugin: Cannot decode color palette yet");
}
static ErrorOr<void> decode_extension(JBIG2LoadingContext&, SegmentData const& segment)
{
// 7.4.14 Extension segment syntax
FixedMemoryStream stream { segment.data };
enum ExtensionType {
SingleByteCodedComment = 0x20000000,
MultiByteCodedComment = 0x20000002,
};
u32 type = TRY(stream.read_value<BigEndian<u32>>());
auto read_string = [&]<class T>() -> ErrorOr<Vector<T>> {
Vector<T> result;
do {
result.append(TRY(stream.read_value<BigEndian<T>>()));
} while (result.last());
result.take_last();
return result;
};
switch (type) {
case SingleByteCodedComment: {
// 7.4.15.1 Single-byte coded comment
// Pairs of zero-terminated ISO/IEC 8859-1 (latin1) pairs, terminated by another \0.
while (true) {
auto first_bytes = TRY(read_string.template operator()<u8>());
if (first_bytes.is_empty())
break;
auto second_bytes = TRY(read_string.template operator()<u8>());
auto first = TRY(TextCodec::decoder_for("ISO-8859-1"sv)->to_utf8(StringView { first_bytes }));
auto second = TRY(TextCodec::decoder_for("ISO-8859-1"sv)->to_utf8(StringView { second_bytes }));
dbgln("JBIG2ImageDecoderPlugin: key '{}', value '{}'", first, second);
}
if (!stream.is_eof())
return Error::from_string_literal("JBIG2ImageDecoderPlugin: Trailing data after SingleByteCodedComment");
return {};
}
case MultiByteCodedComment: {
// 7.4.15.2 Multi-byte coded comment
// Pairs of (two-byte-)zero-terminated UCS-2 pairs, terminated by another \0\0.
while (true) {
auto first_ucs2 = TRY(read_string.template operator()<u16>());
if (first_ucs2.is_empty())
break;
auto second_ucs2 = TRY(read_string.template operator()<u16>());
auto first = TRY(Utf16View(first_ucs2).to_utf8());
auto second = TRY(Utf16View(second_ucs2).to_utf8());
dbgln("JBIG2ImageDecoderPlugin: key '{}', value '{}'", first, second);
}
if (!stream.is_eof())
return Error::from_string_literal("JBIG2ImageDecoderPlugin: Trailing data after MultiByteCodedComment");
return {};
}
}
// FIXME: If bit 31 in `type` is not set, the extension isn't necessary, and we could ignore it.
dbgln("JBIG2ImageDecoderPlugin: Unknown extension type {:#x}", type);
return Error::from_string_literal("JBIG2ImageDecoderPlugin: Unknown extension type");
}
static ErrorOr<void> decode_data(JBIG2LoadingContext& context)
{
TRY(warn_about_multiple_pages(context));
for (size_t i = 0; i < context.segments.size(); ++i) {
auto const& segment = context.segments[i];
if (segment.header.page_association != 0 && segment.header.page_association != 1)
continue;
switch (segment.header.type) {
case SegmentType::SymbolDictionary:
TRY(decode_symbol_dictionary(context, segment));
break;
case SegmentType::IntermediateTextRegion:
TRY(decode_intermediate_text_region(context, segment));
break;
case SegmentType::ImmediateTextRegion:
TRY(decode_immediate_text_region(context, segment));
break;
case SegmentType::ImmediateLosslessTextRegion:
TRY(decode_immediate_lossless_text_region(context, segment));
break;
case SegmentType::PatternDictionary:
TRY(decode_pattern_dictionary(context, segment));
break;
case SegmentType::IntermediateHalftoneRegion:
TRY(decode_intermediate_halftone_region(context, segment));
break;
case SegmentType::ImmediateHalftoneRegion:
TRY(decode_immediate_halftone_region(context, segment));
break;
case SegmentType::ImmediateLosslessHalftoneRegion:
TRY(decode_immediate_lossless_halftone_region(context, segment));
break;
case SegmentType::IntermediateGenericRegion:
TRY(decode_intermediate_generic_region(context, segment));
break;
case SegmentType::ImmediateGenericRegion:
TRY(decode_immediate_generic_region(context, segment));
break;
case SegmentType::ImmediateLosslessGenericRegion:
TRY(decode_immediate_lossless_generic_region(context, segment));
break;
case SegmentType::IntermediateGenericRefinementRegion:
TRY(decode_intermediate_generic_refinement_region(context, segment));
break;
case SegmentType::ImmediateGenericRefinementRegion:
TRY(decode_immediate_generic_refinement_region(context, segment));
break;
case SegmentType::ImmediateLosslessGenericRefinementRegion:
TRY(decode_immediate_lossless_generic_refinement_region(context, segment));
break;
case SegmentType::PageInformation:
TRY(decode_page_information(context, segment));
break;
case SegmentType::EndOfPage:
TRY(decode_end_of_page(context, segment));
break;
case SegmentType::EndOfStripe:
TRY(decode_end_of_stripe(context, segment));
break;
case SegmentType::EndOfFile:
TRY(decode_end_of_file(context, segment));
// "If a file contains an end of file segment, it must be the last segment."
if (i != context.segments.size() - 1)
return Error::from_string_literal("JBIG2ImageDecoderPlugin: End of file segment not last segment");
break;
case SegmentType::Profiles:
TRY(decode_profiles(context, segment));
break;
case SegmentType::Tables:
TRY(decode_tables(context, segment));
break;
case SegmentType::ColorPalette:
TRY(decode_color_palette(context, segment));
break;
case SegmentType::Extension:
TRY(decode_extension(context, segment));
break;
}
}
return {};
}
JBIG2ImageDecoderPlugin::JBIG2ImageDecoderPlugin()
{
m_context = make<JBIG2LoadingContext>();
}
IntSize JBIG2ImageDecoderPlugin::size()
{
return m_context->page.size;
}
bool JBIG2ImageDecoderPlugin::sniff(ReadonlyBytes data)
{
return data.starts_with(id_string);
}
ErrorOr<NonnullOwnPtr<ImageDecoderPlugin>> JBIG2ImageDecoderPlugin::create(ReadonlyBytes data)
{
auto plugin = TRY(adopt_nonnull_own_or_enomem(new (nothrow) JBIG2ImageDecoderPlugin()));
TRY(decode_jbig2_header(*plugin->m_context, data));
data = data.slice(sizeof(id_string) + sizeof(u8) + (plugin->m_context->number_of_pages.has_value() ? sizeof(u32) : 0));
TRY(decode_segment_headers(*plugin->m_context, data));
TRY(scan_for_page_size(*plugin->m_context));
return plugin;
}
ErrorOr<ImageFrameDescriptor> JBIG2ImageDecoderPlugin::frame(size_t index, Optional<IntSize>)
{
// FIXME: Use this for multi-page JBIG2 files?
if (index != 0)
return Error::from_string_literal("JBIG2ImageDecoderPlugin: Invalid frame index");
if (m_context->state == JBIG2LoadingContext::State::Error)
return Error::from_string_literal("JBIG2ImageDecoderPlugin: Decoding failed");
if (m_context->state < JBIG2LoadingContext::State::Decoded) {
auto result = decode_data(*m_context);
if (result.is_error()) {
m_context->state = JBIG2LoadingContext::State::Error;
return result.release_error();
}
m_context->state = JBIG2LoadingContext::State::Decoded;
}
auto bitmap = TRY(m_context->page.bits->to_gfx_bitmap());
return ImageFrameDescriptor { move(bitmap), 0 };
}
ErrorOr<ByteBuffer> JBIG2ImageDecoderPlugin::decode_embedded(Vector<ReadonlyBytes> data)
{
auto plugin = TRY(adopt_nonnull_own_or_enomem(new (nothrow) JBIG2ImageDecoderPlugin()));
plugin->m_context->organization = Organization::Embedded;
for (auto const& segment_data : data)
TRY(decode_segment_headers(*plugin->m_context, segment_data));
TRY(scan_for_page_size(*plugin->m_context));
TRY(decode_data(*plugin->m_context));
return plugin->m_context->page.bits->to_byte_buffer();
}
}
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