/* * Copyright (c) 2023, Nico Weber * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include #include #include #pragma GCC diagnostic ignored "-Warray-bounds" namespace Gfx::ICC { static ErrorOr encode_chromaticity(ChromaticityTagData const& tag_data) { // ICC v4, 10.2 chromaticityType auto bytes = TRY(ByteBuffer::create_uninitialized(2 * sizeof(u32) + 2 * sizeof(u16) + tag_data.xy_coordinates().size() * 2 * sizeof(u16Fixed16Number))); *bit_cast*>(bytes.data()) = (u32)ChromaticityTagData::Type; *bit_cast*>(bytes.data() + 4) = 0; *bit_cast*>(bytes.data() + 8) = tag_data.xy_coordinates().size(); *bit_cast*>(bytes.data() + 10) = (u16)tag_data.phosphor_or_colorant_type(); auto* coordinates = bit_cast*>(bytes.data() + 12); for (size_t i = 0; i < tag_data.xy_coordinates().size(); ++i) { coordinates[2 * i] = tag_data.xy_coordinates()[i].x.raw(); coordinates[2 * i + 1] = tag_data.xy_coordinates()[i].y.raw(); } return bytes; } static ErrorOr encode_cipc(CicpTagData const& tag_data) { // ICC v4, 10.3 cicpType auto bytes = TRY(ByteBuffer::create_uninitialized(2 * sizeof(u32) + 4)); *bit_cast*>(bytes.data()) = (u32)CicpTagData::Type; *bit_cast*>(bytes.data() + 4) = 0; bytes.data()[8] = tag_data.color_primaries(); bytes.data()[9] = tag_data.transfer_characteristics(); bytes.data()[10] = tag_data.matrix_coefficients(); bytes.data()[11] = tag_data.video_full_range_flag(); return bytes; } static ErrorOr encode_curve(CurveTagData const& tag_data) { // ICC v4, 10.6 curveType auto bytes = TRY(ByteBuffer::create_uninitialized(3 * sizeof(u32) + tag_data.values().size() * sizeof(u16))); *bit_cast*>(bytes.data()) = (u32)CurveTagData::Type; *bit_cast*>(bytes.data() + 4) = 0; *bit_cast*>(bytes.data() + 8) = tag_data.values().size(); auto* values = bit_cast*>(bytes.data() + 12); for (size_t i = 0; i < tag_data.values().size(); ++i) values[i] = tag_data.values()[i]; return bytes; } static ErrorOr encode_measurement(MeasurementTagData const& tag_data) { // ICC v4, 10.14 measurementType auto bytes = TRY(ByteBuffer::create_uninitialized(2 * sizeof(u32) + sizeof(MeasurementHeader))); *bit_cast*>(bytes.data()) = (u32)MeasurementTagData::Type; *bit_cast*>(bytes.data() + 4) = 0; auto& header = *bit_cast(bytes.data() + 8); header.standard_observer = tag_data.standard_observer(); header.tristimulus_value_for_measurement_backing = tag_data.tristimulus_value_for_measurement_backing(); header.measurement_geometry = tag_data.measurement_geometry(); header.measurement_flare = tag_data.measurement_flare().raw(); header.standard_illuminant = tag_data.standard_illuminant(); return bytes; } static ErrorOr encode_multi_localized_unicode(MultiLocalizedUnicodeTagData const& tag_data) { // ICC v4, 10.15 multiLocalizedUnicodeType // "The Unicode strings in storage should be encoded as 16-bit big-endian, UTF-16BE, // and should not be NULL terminated." size_t number_of_records = tag_data.records().size(); size_t header_and_record_size = 4 * sizeof(u32) + number_of_records * sizeof(MultiLocalizedUnicodeRawRecord); size_t number_of_codepoints = 0; Vector utf16_strings; TRY(utf16_strings.try_ensure_capacity(number_of_records)); for (auto const& record : tag_data.records()) { TRY(utf16_strings.try_append(TRY(utf8_to_utf16(record.text)))); number_of_codepoints += utf16_strings.last().size(); } size_t string_table_size = number_of_codepoints * sizeof(u16); auto bytes = TRY(ByteBuffer::create_uninitialized(header_and_record_size + string_table_size)); auto* header = bit_cast*>(bytes.data()); header[0] = (u32)MultiLocalizedUnicodeTagData::Type; header[1] = 0; header[2] = number_of_records; header[3] = sizeof(MultiLocalizedUnicodeRawRecord); size_t offset = header_and_record_size; auto* records = bit_cast(bytes.data() + 16); for (size_t i = 0; i < number_of_records; ++i) { records[i].language_code = tag_data.records()[i].iso_639_1_language_code; records[i].country_code = tag_data.records()[i].iso_3166_1_country_code; records[i].string_length_in_bytes = utf16_strings[i].size() * sizeof(u16); records[i].string_offset_in_bytes = offset; offset += records[i].string_offset_in_bytes; } auto* string_table = bit_cast*>(bytes.data() + header_and_record_size); for (auto const& utf16_string : utf16_strings) { for (size_t i = 0; i < utf16_string.size(); ++i) string_table[i] = utf16_string[i]; string_table += utf16_string.size(); } return bytes; } static ErrorOr encode_parametric_curve(ParametricCurveTagData const& tag_data) { // ICC v4, 10.18 parametricCurveType auto bytes = TRY(ByteBuffer::create_uninitialized(2 * sizeof(u32) + 2 * sizeof(u16) + tag_data.parameter_count() * sizeof(s15Fixed16Number))); *bit_cast*>(bytes.data()) = (u32)ParametricCurveTagData::Type; *bit_cast*>(bytes.data() + 4) = 0; *bit_cast*>(bytes.data() + 8) = (u16)tag_data.function_type(); *bit_cast*>(bytes.data() + 10) = 0; auto* parameters = bit_cast*>(bytes.data() + 12); for (size_t i = 0; i < tag_data.parameter_count(); ++i) parameters[i] = tag_data.parameter(i).raw(); return bytes; } static ErrorOr encode_s15_fixed_array(S15Fixed16ArrayTagData const& tag_data) { // ICC v4, 10.22 s15Fixed16ArrayType auto bytes = TRY(ByteBuffer::create_uninitialized(2 * sizeof(u32) + tag_data.values().size() * sizeof(s15Fixed16Number))); *bit_cast*>(bytes.data()) = (u32)S15Fixed16ArrayTagData::Type; *bit_cast*>(bytes.data() + 4) = 0; auto* values = bit_cast*>(bytes.data() + 8); for (size_t i = 0; i < tag_data.values().size(); ++i) values[i] = tag_data.values()[i].raw(); return bytes; } static ErrorOr encode_signature(SignatureTagData const& tag_data) { // ICC v4, 10.23 signatureType auto bytes = TRY(ByteBuffer::create_uninitialized(3 * sizeof(u32))); *bit_cast*>(bytes.data()) = (u32)SignatureTagData::Type; *bit_cast*>(bytes.data() + 4) = 0; *bit_cast*>(bytes.data() + 8) = tag_data.signature(); return bytes; } static ErrorOr encode_text(TextTagData const& tag_data) { // ICC v4, 10.24 textType // "The textType is a simple text structure that contains a 7-bit ASCII text string. The length of the string is obtained // by subtracting 8 from the element size portion of the tag itself. This string shall be terminated with a 00h byte." auto text_bytes = tag_data.text().bytes(); auto bytes = TRY(ByteBuffer::create_uninitialized(2 * sizeof(u32) + text_bytes.size() + 1)); *bit_cast*>(bytes.data()) = (u32)TextTagData::Type; *bit_cast*>(bytes.data() + 4) = 0; memcpy(bytes.data() + 8, text_bytes.data(), text_bytes.size()); *(bytes.data() + 8 + text_bytes.size()) = '\0'; return bytes; } static ErrorOr encode_viewing_conditions(ViewingConditionsTagData const& tag_data) { // ICC v4, 10.30 viewingConditionsType auto bytes = TRY(ByteBuffer::create_uninitialized(2 * sizeof(u32) + sizeof(ViewingConditionsHeader))); *bit_cast*>(bytes.data()) = (u32)ViewingConditionsTagData::Type; *bit_cast*>(bytes.data() + 4) = 0; auto& header = *bit_cast(bytes.data() + 8); header.unnormalized_ciexyz_values_for_illuminant = tag_data.unnormalized_ciexyz_values_for_illuminant(); header.unnormalized_ciexyz_values_for_surround = tag_data.unnormalized_ciexyz_values_for_surround(); header.illuminant_type = tag_data.illuminant_type(); return bytes; } static ErrorOr encode_xyz(XYZTagData const& tag_data) { // ICC v4, 10.31 XYZType auto bytes = TRY(ByteBuffer::create_uninitialized(2 * sizeof(u32) + tag_data.xyzs().size() * sizeof(XYZNumber))); *bit_cast*>(bytes.data()) = (u32)XYZTagData::Type; *bit_cast*>(bytes.data() + 4) = 0; auto* xyzs = bit_cast(bytes.data() + 8); for (size_t i = 0; i < tag_data.xyzs().size(); ++i) xyzs[i] = tag_data.xyzs()[i]; return bytes; } static ErrorOr encode_tag_data(TagData const& tag_data) { switch (tag_data.type()) { case ChromaticityTagData::Type: return encode_chromaticity(static_cast(tag_data)); case CicpTagData::Type: return encode_cipc(static_cast(tag_data)); case CurveTagData::Type: return encode_curve(static_cast(tag_data)); case MeasurementTagData::Type: return encode_measurement(static_cast(tag_data)); case MultiLocalizedUnicodeTagData::Type: return encode_multi_localized_unicode(static_cast(tag_data)); case ParametricCurveTagData::Type: return encode_parametric_curve(static_cast(tag_data)); case S15Fixed16ArrayTagData::Type: return encode_s15_fixed_array(static_cast(tag_data)); case SignatureTagData::Type: return encode_signature(static_cast(tag_data)); case TextTagData::Type: return encode_text(static_cast(tag_data)); case ViewingConditionsTagData::Type: return encode_viewing_conditions(static_cast(tag_data)); case XYZTagData::Type: return encode_xyz(static_cast(tag_data)); } return ByteBuffer {}; } static ErrorOr> encode_tag_datas(Profile const& profile, HashMap& tag_data_map) { Vector tag_data_bytes; TRY(tag_data_bytes.try_ensure_capacity(profile.tag_count())); profile.for_each_tag([&](auto, auto tag_data) { if (tag_data_map.contains(tag_data.ptr())) return; // FIXME: Come up with a way to allow TRY instead of MUST here. tag_data_bytes.append(MUST(encode_tag_data(tag_data))); MUST(tag_data_map.try_set(tag_data.ptr(), tag_data_bytes.size() - 1)); }); return tag_data_bytes; } static ErrorOr encode_tag_table(ByteBuffer& bytes, Profile const& profile, Vector const& offsets, Vector const& tag_data_bytes, HashMap const& tag_data_map) { VERIFY(bytes.size() >= sizeof(ICCHeader) + sizeof(u32) + profile.tag_count() * sizeof(TagTableEntry)); *bit_cast*>(bytes.data() + sizeof(ICCHeader)) = profile.tag_count(); TagTableEntry* tag_table_entries = bit_cast(bytes.data() + sizeof(ICCHeader) + sizeof(u32)); int i = 0; profile.for_each_tag([&](auto tag_signature, auto tag_data) { tag_table_entries[i].tag_signature = tag_signature; auto index = tag_data_map.get(tag_data.ptr()).value(); tag_table_entries[i].offset_to_beginning_of_tag_data_element = offsets[index]; tag_table_entries[i].size_of_tag_data_element = tag_data_bytes[index].size(); ++i; }); return {}; } static ErrorOr encode_header(ByteBuffer& bytes, Profile const& profile) { VERIFY(bytes.size() >= sizeof(ICCHeader)); auto& raw_header = *bit_cast(bytes.data()); raw_header.profile_size = bytes.size(); raw_header.preferred_cmm_type = profile.preferred_cmm_type().value_or(PreferredCMMType { 0 }); raw_header.profile_version_major = profile.version().major_version(); raw_header.profile_version_minor_bugfix = profile.version().minor_and_bugfix_version(); raw_header.profile_version_zero = 0; raw_header.profile_device_class = profile.device_class(); raw_header.data_color_space = profile.data_color_space(); raw_header.profile_connection_space = profile.connection_space(); time_t profile_timestamp = profile.creation_timestamp(); struct tm tm; if (!gmtime_r(&profile_timestamp, &tm)) return Error::from_errno(errno); raw_header.profile_creation_time.year = tm.tm_year + 1900; raw_header.profile_creation_time.month = tm.tm_mon + 1; raw_header.profile_creation_time.day = tm.tm_mday; raw_header.profile_creation_time.hours = tm.tm_hour; raw_header.profile_creation_time.minutes = tm.tm_min; raw_header.profile_creation_time.seconds = tm.tm_sec; raw_header.profile_file_signature = ProfileFileSignature; raw_header.primary_platform = profile.primary_platform().value_or(PrimaryPlatform { 0 }); raw_header.profile_flags = profile.flags().bits(); raw_header.device_manufacturer = profile.device_manufacturer().value_or(DeviceManufacturer { 0 }); raw_header.device_model = profile.device_model().value_or(DeviceModel { 0 }); raw_header.device_attributes = profile.device_attributes().bits(); raw_header.rendering_intent = profile.rendering_intent(); raw_header.pcs_illuminant = profile.pcs_illuminant(); raw_header.profile_creator = profile.creator().value_or(Creator { 0 }); memset(raw_header.reserved, 0, sizeof(raw_header.reserved)); auto id = Profile::compute_id(bytes); static_assert(sizeof(id.data) == sizeof(raw_header.profile_id)); memcpy(raw_header.profile_id, id.data, sizeof(id.data)); return {}; } ErrorOr encode(Profile const& profile) { // Valid profiles always have tags. Profile only represents valid profiles. VERIFY(profile.tag_count() > 0); HashMap tag_data_map; Vector tag_data_bytes = TRY(encode_tag_datas(profile, tag_data_map)); size_t tag_table_size = sizeof(u32) + profile.tag_count() * sizeof(TagTableEntry); size_t offset = sizeof(ICCHeader) + tag_table_size; Vector offsets; for (auto const& bytes : tag_data_bytes) { TRY(offsets.try_append(offset)); offset += align_up_to(bytes.size(), 4); } // Omit padding after last element. // FIXME: Is that correct? size_t total_size = offsets.last() + tag_data_bytes.last().size(); // Leave enough room for the profile header and the tag table count. auto bytes = TRY(ByteBuffer::create_zeroed(total_size)); for (size_t i = 0; i < tag_data_bytes.size(); ++i) memcpy(bytes.data() + offsets[i], tag_data_bytes[i].data(), tag_data_bytes[i].size()); TRY(encode_tag_table(bytes, profile, offsets, tag_data_bytes, tag_data_map)); TRY(encode_header(bytes, profile)); return bytes; } }