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serenity/Userland/Libraries/LibGfx/ImageFormats/JBIG2Loader.cpp
Nico Weber af20ebe4a0 LibGfx/JBIG2: Scan for page size of page "1" 
Sounds like the spec guarantees that that's the number of the first
page.

(In practice, all but one of all jbig2 files I've found contain just
page 1. PDFs almost always contain just page 1, and very rarely a
page 0 for globally shared parameters.)
2024-03-10 10:10:55 -04:00

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/*
* Copyright (c) 2024, Nico Weber <thakis@chromium.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/Debug.h>
#include <LibGfx/ImageFormats/JBIG2Loader.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 {
// 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;
};
struct JBIG2LoadingContext {
enum class State {
NotDecoded = 0,
Error,
};
State state { State::NotDecoded };
Organization organization { Organization::Sequential };
IntSize size;
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() < 18)
return Error::from_string_literal("JBIG2ImageDecoderPlugin: Data too short to contain segment data header");
// 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 {};
}
// 7.4.8 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.
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));
context.size = { page_information.bitmap_width, page_information.bitmap_height };
return {};
}
return Error::from_string_literal("JBIG2ImageDecoderPlugin: No page information segment found for page 1");
}
JBIG2ImageDecoderPlugin::JBIG2ImageDecoderPlugin()
{
m_context = make<JBIG2LoadingContext>();
}
IntSize JBIG2ImageDecoderPlugin::size()
{
return m_context->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");
return Error::from_string_literal("JBIG2ImageDecoderPlugin: Draw the rest of the owl");
}
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));
return Error::from_string_literal("JBIG2ImageDecoderPlugin: Cannot decode embedded JBIG2 yet");
}
}
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